TABLETOP ASSEMBLY, LIFTING FRAME ASSEMBLY AND HEIGHT ADJUSTABLE TABLE

Abstract

A tabletop assembly, a lifting frame assembly and a height adjustable table are disclosed. The assembling operation of the height adjustable table is simplified by using a supporting part rotatably connected to a table board support and a first terminal block and a second terminal block which are arranged in pairs. During transportation, the height adjustable table may be disassembled into a tabletop assembly and a lifting frame assembly to be packaged and transported, respectively, thus reducing the size of the package. Meanwhile, the lifting frame assembly may be folded, the second terminal block on the lifting frame assembly in a folded state forms an approximate fan-shaped region with the table board support, so that the second terminal block may be protected during transportation. After receiving the goods, the consumer may assemble the tabletop assembly and the lifting frame assembly through a simple process.

Description

CLAIM OF PRIORITY AND CROSS-REFERENCE TO RELATED APPLICATION(S)

This application claims the benefit of Chinese Patent Application No. 202210182747.8, filed on Feb. 25, 2022, which is incorporated herein by reference in its entirety.

BACKGROUND OF THE DISCLOSURE

1. Field of the Disclosure

The present disclosure relates to the field of height adjustable tables, and particularly to a tabletop assembly, a lifting frame assembly, and a height adjustable table.

2. Description of the Related Art

The table with the lifting function is more and more closely connected with the life of the people as the height thereof may be changed at any time during use. Meanwhile, in the context of e-commerce, people usually purchase goods in a mode of on-line shopping; and after the consumer chooses the products, the e-commerce company will transport the goods to the place where the consumer uses the goods by express, and finally the consumer can finish the assembly by himself. For the height adjustable table, how to facilitate disassembly and transportation in the logistic link and how to facilitate the consumer to assemble rapidly after purchasing the goods have become the problems needing to be solved.

BRIEF DESCRIPTION OF THE DISCLOSURE

In view of this, the present disclosure provides a wireless charging apparatus.

According to one aspect of the present disclosure, there is provided a tabletop assembly, the tabletop assembly is used for a height adjustable table, and comprises: a tabletop; a control box fixedly connected to the tabletop; and at least one first terminal block fixedly arranged on a back face of the tabletop and electrically connected to the control box; wherein when a position of the at least one first terminal block is configured to enable the tabletop assembly to be assembled with a corresponding lifting frame assembly, the first terminal block corresponds to and is in paired connection with a second terminal block at the top or a side part of the lifting frame assembly.

According to another aspect of the present disclosure, there is provided a lifting frame assembly, the lifting frame assembly is used for a height adjustable table and comprises: a tabletop support for being connected to a tabletop of the height adjustable table; at least two supporting parts, wherein a driving unit is arranged in each of the supporting parts, and each of the supporting parts comprises a second terminal block, the second terminal block is provided with a plurality of second electric connection contacts, and the second electric connection contacts are at least partially located outside of the supporting parts, and the second terminal block is electrically connected to the driving unit; wherein the supporting parts are movably connected to the tabletop support, when the supporting parts move to an installation position with respect to the tabletop support, the second terminal block moves to a connection position accordingly and is connected to a first terminal block arranged on a tabletop assembly, and when the supporting parts are located at a folding position with respect to the tabletop support, the supporting parts are in a folded state with the tabletop support.

According to another aspect of the present disclosure, there is provided a height adjustable table, the height adjustable table comprises: a tabletop assembly according to the first aspect; a tabletop support for being connected to the tabletop of the tabletop assembly; at least two supporting parts, wherein a driving unit is arranged in each of the supporting parts, and each of the supporting parts comprises a second terminal block, the second terminal block is provided with a plurality of second electric connection contacts, and the second electric connection contacts are at least partially located outside of the supporting parts, and the second terminal block is electrically connected to the driving unit; wherein the supporting parts are movably connected to the tabletop support, when the supporting parts move to an installation position with respect to the tabletop support, the second terminal block moves to a connection position accordingly and is connected to a first terminal block arranged on a tabletop assembly, and when the supporting parts are located at a folding position with respect to the tabletop support, the supporting parts is in a folded state with the tabletop support.

In accordance with the abovementioned tabletop assembly, the assembling operation of the height adjustable table is simplified by using the supporting part rotatably connected to the tabletop support and the first terminal block and the second terminal block which are arranged in pairs. On the one hand, during transportation, the height adjustable table may be disassembled into a tabletop assembly and a lifting frame assembly to be packaged and transported, respectively, thus reducing the size of the package, and greatly reducing the logistic cost. Meanwhile, the lifting frame assembly may also be folded, the second terminal block on the lifting frame assembly in a folded state forms an approximate fan-shaped region with the tabletop support, so that the second terminal block may be protected during transportation. On the other hand, after receiving the goods, a consumer may assemble the tabletop assembly and the lifting frame assembly through a simple process, the assembly difficulty is reduced. Moreover, installation and wiring operations of electric appliance parts are omitted, so that the whole height adjustable table is more visually pleasing, and the user experience is improved.

BRIEF DESCRIPTION OF THE DRAWINGS

Through the following description of the embodiments of the present disclosure with reference to the drawings, the above and other objectives, features and advantages of the present disclosure will become more apparent, wherein:

FIG. 1 is a structure diagram of a height adjustable table of an embodiment of the present disclosure.

FIG. 2 is an exploded diagram of a height adjustable table of an embodiment of the present disclosure.

FIG. 3 is a structure diagram of a driving box of an embodiment of the present disclosure.

FIG. 4 is an exploded diagram of a driving box of an embodiment of the present disclosure.

FIG. 5 is a structure diagram of a lifting frame assembly of an embodiment of the present disclosure in some embodiments.

FIG. 6 is a structure diagram of a lifting frame assembly of an embodiment of the present disclosure in some other embodiments.

FIG. 7 is a wiring diagram of a pogo pin assembly of an embodiment of the present disclosure.

FIG. 8 is a circuit diagram of a height adjustable table of an embodiment of the present disclosure.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE DISCLOSURE

Several preferred embodiments of the present disclosure will be described in detail in conjunction with the accompanying drawings as follows, however, the present disclosure is intended to encompass any substitutions, modifications, equivalents, etc., made thereto without departing from the spirit and scope of the present disclosure. In order to provide those skilled in the art with thorough understanding of the present disclosure, particular details will be described below in the preferred embodiments of the present disclosure, although those skilled in the art can understand the present disclosure without the description of these details.

In addition, a person skilled in the art should understand that the drawings herein are provided for the purpose of description only, and are not necessarily drawn in proportion.

Furthermore, it should be understood that in the following descriptions, “circuit” refers to an electrical circuit formed by electrically connecting or electromagnetically connecting at least one element or sub-circuit. When one element or circuit is “connected to” another element or one element/circuit is “connected” between two nodes, the one element/circuit can be directly coupled or connected to another element or via an intermediate element, and the connection between the elements can be a physical connection, a logical connection or a combination thereof. On the contrary, when one element is “directly coupled to” or “directly connected to” another element, it means that no intermediate element is provided between the two elements.

Unless otherwise stated, the terms “comprise”, “include” and the like in the specification shall be interpreted as inclusive rather than exclusive or exhaustive; in other words, the terms mean “include but not limited to”.

In the descriptions of the present disclosure, it should be understood that the terms like “first”, “second” and the like are used for the purpose of description only, but cannot be considered to indicate or imply relative importance. In addition, in the descriptions of the present disclosure, unless otherwise stated, the meaning of “a plurality of” is two or more.

FIGS. 1-2 are a structure diagram and an exploded diagram of a height adjustable table of an embodiment of the present disclosure. In FIG. 1, the tabletop 6 is approximately rectangular, and two table legs 511 are provided in length directions of the rectangle. FIG. 2 is an inversion state of the height adjustable table in FIG. 1, a bottom face of the tabletop 6 in the figure is provided with a lambdoid wiring duct 61, and an extension direction of the wiring duct 61 is related to an arrangement position of an electric appliance of the height adjustable table.

FIGS. 3-4 are a structure diagram and an exploded diagram of a driving box 512 of an embodiment of the present disclosure. The driving box 512 in the figure is located on an end face, facing the tabletop 6, of each of the table legs 511.

FIGS. 5-6 are structure diagrams of a lifting frame assembly in two states. In FIG. 5, one table leg 6 of the lifting frame 5 is in a state rotating towards a direction of the other table leg 6, and the other table leg 6 is still in a vertical installation state. In FIG. 6, the two table legs 6 are in a folded state towards the inner sides at the same time. The state reduces the occupancy of the lifting frame assembly to the space.

FIG. 7 is a wiring diagram of a pogo pin assembly, and pogo pins at a left region and a right region in the figure are distributed in a rectangular array of 2×5. FIG. 8 is a circuit diagram of a height adjustable table. In the figure, the control box 32 is connected to a power supply 8, and meanwhile, the control box 32 is controlled by a hand controller 31 to control two drivers 41 respectively.

As shown in FIGS. 1-2, the tabletop assembly in the embodiment may be used for the height adjustable table, the tabletop assembly comprises a tabletop 6, a control box 32, and at least one first terminal block 1; the control box 32 is fixedly connected to the tabletop 2, and at least one first terminal block 1 is fixedly arranged on a back face of the tabletop 6 and is electrically connected to the control box 32. Meanwhile, when a position of the at least one first terminal block 1 is configured to enable the tabletop assembly to be assembled with a corresponding lifting frame assembly, the first terminal block 1 corresponds to and is in paired connection with a terminal block at the top or a side part of the lifting frame assembly.

In this embodiment, the control box 32 is connected to the power supply 8; when the tabletop assembly is assembled with the lifting frame assembly, the first terminal block 1 may be electrically connected to a terminal block of the lifting frame assembly, and the power supply 8 may power to the driving unit 4 in the lifting frame assembly at the moment, and the driving unit 4 may drive the lifting frame to ascend or descend. In this embodiment, the control box 32 is located at the bottom face of the tabletop 6, therefore, when electrically connected to the power supply 8, a connecting wire may be routed from the underside of the tabletop, thus making the surface of the tabletop 6 clean and tidy. In this embodiment, the control box 32, the first terminal block 1 and the tabletop 6 may be fixed to form a tabletop assembly before delivery, thus the assembled tabletop assembly may be entirely packaged and sent to a consumer in the logistics stage.

In accordance with the tabletop assembly provided by the embodiment of the present disclosure, the assembling operation of the height adjustable table is simplified by using the first terminal block 1 provided in pairs with the terminal block of the lifting frame assembly. On the one hand, during transportation, part of the height adjustable table may be disassembled into a tabletop assembly to be packaged and transported, thus reducing the size of the package, and greatly reducing the logistic cost. On the other hand, after receiving the goods, the consumer may assemble the tabletop assembly and the lifting frame assembly through a simple process, the assembly difficulty is reduced. Moreover, installation and wiring operations of electric appliance parts are omitted, so that the whole height adjustable table is more visually pleasing, and the user experience is improved.

Further, the tabletop assembly further comprises a hand controller 31, the hand controller 31 is fixedly connected to the tabletop 6 and electrically connected to the control box 32. In this embodiment, the hand controller 31 may be configured with a plurality of control buttons which may be used for achieving adjustment of the height of the height adjustable table by a user. The control of the buttons to the height adjustable table includes but is not limited to ascending, descending, power on, power off, and other functions.

Optionally, to facilitate the control of the user to the height adjustable table, the hand controller 31 may be arranged at an edge position of the bottom face of the tabletop; when sitting on a chair, the user may move the body as little as possible, and may touch the hand controller 31 only depending on the length of an arm. The control box 32 may be arranged at a center position at the bottom of the tabletop 6, thus facilitating the arrangement of the connecting wire.

In some embodiments, as shown in FIGS. 1-2, the tabletop assembly further comprises a cable 7, the cable 7 is connected between the first terminal block 1 and the control box 32 and between the control box 32 and the hand controller 31.

Optionally, taking the tabletop assembly having two first terminal blocks in FIG. 2 as an example, the cable 7 may comprise a first segment 71, a second segment 72, and a third segment 73; the first segment 71 is electrically connected to the control box 32 and the hand controller 31, the second segment 72 is electrically connected to the control box 32 and one first terminal block 1, and the third segment 73 is electrically connected to the control box 32 and another first terminal block 1. The arrangement mode of the control box 32 and the hand controller 31 makes the wiring of the first segment 71, the second segment 72 and the third segment 73 more concise.

Further, a plurality of wiring ducts 61 for accommodating the cable 7 are formed in the bottom face of the tabletop 6. The first segment 71, the second segment 72 and the third segment 73 in the embodiment may be pre-buried in the wiring ducts 61 before delivery, and then openings of the wiring ducts 61 are capped. The wiring ducts 61 of this embodiment may make the whole tabletop assembly more clean, tidy and visually pleasing, especially in the assembling of the height adjustable table; without the interference of the cable 7, the user may visually see the positions of installation points 57 of the first terminal block 1, the tabletop assembly and the lifting frame assembly, so that the user may rapidly assemble the height adjustable table even without the product manual in the hand. Meanwhile, the assembled height adjustable table is more visually pleasing.

In some embodiments, the first terminal block 1 is a pogo pin assembly or a contact set corresponding to a pin head of the pogo pin assembly.

Optionally, as shown in FIG. 2, the first terminal block 1 is the contact set corresponding to the pin head of the spring head assembly. In FIG. 2, the contact set is located at the bottom face of the tabletop, and the contact set is approximately flush with the height of the bottom face of the tabletop 6, thus making the whole tabletop assembly more flat and more convenient for the package and transportation of the tabletop assembly.

Further, the first terminal block 1 may be provided with a plurality of electric connection contacts 11, and the first electric connection contacts 11 are distributed on a plane parallel to the tabletop 6. The height of one electric connection contact 11 of this embodiment is consistent with the bottom face of the tabletop, thus making the whole tabletop more visually pleasing and concise.

In some embodiments, as shown in FIGS. 1-8, the number of at least two first terminal block 1 is two. Corresponding wiring modes of the plurality of first electric connection contacts 11 located at the two first terminal blocks 1 are configured to be circumferentially and symmetrically arranged along the center of the tabletop 6. In this embodiment, the wire connecting mode of the first terminal block 1 is specifically arranged, so that a routing form of another first terminal block 1 may be obtained after rotating a routing form of one first terminal block 1 by 180 degrees along the center of the tabletop 6. By means of such arrangement mode, after receiving the tabletop assembly, the consumer may directly assemble the tabletop assembly according to an assembling position corresponding to the lifting frame without distinguishing the left-right direction or the front-back direction, thus the assembly difficulty for the user is greatly reduced.

In some embodiments, as shown in FIGS. 1-2, two grooves 62 are formed in the bottom face of the tabletop 6, the two grooves 62 are respectively communicated with the wiring ducts 61 to accommodate end part regions of the cable 7, and the first terminal block 1 is the contact set. The height adjustable table further comprises two wiring boards 63 corresponding to the two grooves 62, the two wiring boards 63 are pressed against and covered onto the grooves 62, the contact set is located at one side, away from the tabletop 6, of the wiring board 63, and the cable 7 located in the groove 62 is electrically connected to the contact set through the other side of the wiring board 63. To facilitate the connection of the cable 7 to the first terminal block 1, the groove 62 is formed in the extending end of the wiring duct 61 and corresponds to the position of the first terminal block 1, when the cable 7 is arranged in the wiring duct 61, the trend of the cable 7 is consistent with an extending direction of the wiring duct 61, and when the end part of the cable 7 is connected to the first terminal block 1, the cable 7 needs to rotate by 90 degrees towards the bottom of the tabletop 6, so that the groove 62 formed in the extending end of the wiring duct 61 in this embodiment may provide a sufficient space for the steering and connection of the cable 7.

Specifically, when the cable 7 is connected to the first terminal block 1, the contact located at the wiring board 63 may be firstly connected to the cable 7, and then the wiring board 63 is pressed against and covered onto the position of the groove 62. At the moment, the extra length of cable 7 may be coiled in the groove 62.

In an alternative implementation mode, the tabletop assembly in above embodiment may be assembled with the lifting frame assembly of this embodiment. As shown in FIGS. 1-8, the lifting frame assembly of this embodiment may be used for the height adjustable table, the lifting frame assembly comprises a tabletop support 52 and at least two supporting parts 51, and the tabletop support 52 is used for being connected to the tabletop 6 of the lifting frame. A driving unit 4 is arranged in each of the supporting parts 51, each of the supporting parts 51 comprises a second terminal block 2, and the second terminal block 2 is provided with a plurality of second electric connection contacts 21; the second electric connection contacts 21 are at least partially located outside the supporting parts 51, and the second terminal blocks 2 are electrically connected to the driving unit 4. Wherein the supporting parts 51 are movably connected to the tabletop support 52, when the supporting parts 51 move to an installation position with respect to the tabletop support 52, the second terminal block 2 moves to a connection position accordingly and is connected to the first terminal block 1 of the tabletop assembly, and when the supporting parts 51 are located at a folding position with respect to the tabletop support 52, the supporting parts 51 are in a folded date formed with the tabletop support 52.

It is easy to understand that the lifting frame assembly of this embodiment has two states, i.e., an installation state and a folded state. Different states of the supporting parts 51 during folding are respectively shown in FIG. 5 and FIG. 6. In FIG. 5, the supporting part 51 located at the left side is in a state of rotating towards another supporting part 51, and is finally rotated to a position shown in FIG. 6; and the rotation of the supporting part 51 located at the right side is approximately mirror-symmetric with respect to the left side, and will not be described again. The overall space occupation of the lifting frame assembly in the folded state is smaller, and meanwhile, the second electric connection contacts 21 at the outer side of each of the supporting parts 51 are also located in a triangular region (as shown by a dotted line in FIG. 6) formed by the supporting part 51 and the tabletop support 52. Therefore, the second terminal block 2 may be conveniently protected during transportation.

The lifting frame assembly may be changed to the installation state by respectively rotating the two supporting parts in the folded state towards two sides, and along with the rotation of the supporting parts 51 in this process, the second electric connection contacts 21 are gradually rotated to a position towards the tabletop support 52. At the moment, the second electric connection contacts 21 are arranged at a position opposite to the first terminal block 1 and are exposed to an outside region of the top of the supporting part 51 (as shown in FIG. 3). The tabletop assembly is assembled with a preset assembling position of the lifting frame assembly, and the second terminal block 2 in this state may be just in butt joint with the first terminal block 1.

In accordance with the lifting frame assembly of the embodiment of the present disclosure, the assembling operation of the height adjustable table is simplified by using the supporting parts 51 rotatably connected to the tabletop support and the first terminal block 1 and the second terminal blocks 2 provided in pairs. On the one hand, during transportation, part of the height adjustable table part may be disassembled into a lifting frame to be packaged and transported, thus reducing the size of the package, and greatly reducing the logistic cost. Meanwhile, the lifting frame assembly may also be folded, the second terminal block 2 on the lifting frame assembly in the folded state forms an approximate fan-shaped region with the tabletop support 52, so that the second terminal block 2 may be protected during transportation. On the other hand, after receiving the goods, the consumer may assemble the tabletop assembly and the lifting frame assembly through a simple process, the assembly difficulty is reduced. Moreover, installation and wiring operations of electric appliance parts are omitted, so that the whole height adjustable table is more visually pleasing, and the user experience is improved.

Alternative, the second terminal block 2 of this embodiment comprises but is not limited to an aviation plug or a pogo pin and other electric connectors. The aviation plug is also called aviation connector, which has characteristics of water and moisture resistance and corrosion resistance. In accordance with the aviation plug of this embodiment, the number of pins of the aviation plug may be selected according to connection demands of electric appliances of the height adjustable table, for example, the aviation plug with having three, six or twelve pins is selected. The pogo pin is an electric connector applied to the fields of automobiles, medicals, aerospace, and the like, the internal of which is provided with a precise spring-like structure, and the pin head position may deform telescopically when the pogo pin is pressed. The number of pins of the pogo pin may also be selected according to actual use demands. When the second terminal block 2 of this embodiment is the aviation plug (one of a male contact element and a female contact element), the first terminal block 1 opposite to the second terminal block is arranged as another aviation plug (one of the female contact element or the male contact element) paired with the second terminal block, and the aviation plug may be arranged at an outside region adjacent to the supporting part 51. When the lifting frame assembly is assembled with the tabletop assembly, mechanical structures of the lifting frame assembly and the tabletop assembly may be firstly assembled together, and then the corresponding aviation plugs are plugged together. To keep concise and visually pleasing appearance of the height adjustable table, the aviation plug may be arranged at one side, close to the center of the tabletop, of the supporting part 51. Meanwhile, the length of a connecting wire for the aviation plug reserved at outside of each supporting part 51 may be configured to just meet a plugging demand, thus reducing the size exposed to the outside of the supporting part 51 as much as possible.

In some embodiments, as shown in FIGS. 1-8, each of the supporting parts 51 further comprises a driving box 512 and a table leg 511, the driving unit 4 is arranged in the driving box 512, and the plurality of second electric connection contacts 21 are partially arranged outside the driving box 512. Meanwhile, the table leg 511 is fixedly connected to the bottom of the driving box 512. The table leg 6 in this embodiment is connected to the tabletop support 52 through the driving box 512, and the driving box 512 may be used for preventing the driving unit 4 from being affected by factors such as external force or dust during use or transportation.

Further, the plurality of second electric connection contacts 21 may be distributed on the top face of the driving box 512. In this embodiment, when each of the supporting parts 51 is in the installation state, the plurality of second electric connection contacts 21 located at the top of the driving box 512 may be in the position towards the tabletop assembly, so that the first terminal block 1 may be in butt joint with the second terminal block 2 when the tabletop assembly is pressed against and covered onto the lifting frame assembly.

Further, as shown in FIGS. 3-4, a plurality of through holes 5121 may be formed in a top wall of the driving box 512, the second terminal block 2 is arranged at the inner side of the top of the driving box 512, thus making the plurality of second electric connection contacts 21 extend out of the plurality of through holes 5121. In this embodiment, the second wiring terminal 2 and the driving unit 4 are arranged in the driving box 512 together, the through holes are further formed in the top wall of the driving box 512 to make the second terminal block 2 in butt joint with the first terminal block 1 during installation, thus making the second electric connection contacts 21 extend out of the through holes 5121.

Further, the driving box 512 may be provided with a first end part 5122 and a second end part 5123 in opposite arrangement, the table leg 511 is connected to the bottom face of the first end part 5122, and the second end part 5123 is hinged to the tabletop support 52, and the second end part 5123 is provided with a fixing part 5124 for being fixedly connected to the tabletop support 52 in the installation state. In this embodiment, the table leg 511 is rotatably connected to the tabletop support 52 through the driving box 512, when the table leg 511 is in the installation state, the supporting part 51 and the tabletop support 52 are locked with each other by using the fixing part 5124, thus making the whole lifting frame assembly in a stable state.

In some embodiments, as shown in FIGS. 1-7, the second terminal block 2 is a pogo pin assembly or a contact set corresponding to a pin head of the pogo pin assembly. To achieve rapid assembling of the tabletop assembly and the lifting frame assembly, a connection mode of the first terminal block 1 and the second terminal block 2 is configured to be the connection of the pogo pin assembly and the corresponding contact set in this embodiment. When the second terminal block 2 is one of the pogo pin assembly or the contact set, the first terminal block 1 needs to be set as another.

Further, the tabletop support 52 is provided with a positioning face 53, the positioning face 53 is located in at least part of the region of the top of the supporting parts 51, and the positioning face 53 is in fit with the bottom face of the tabletop. In this embodiment, the second terminal block 2 is the pogo pin assembly, when the supporting parts 51 move to an installation position, a direction of the pin head of the pogo pin assembly is perpendicular to the positioning face 53, and the pin head of the pogo pin assembly is higher than the positioning face 53. In this embodiment, when the lifting frame assembly is assembled with the tabletop assembly, the pin head of the pogo pin moves downwards under the pressure of the contact set located at the tabletop, therefore, after the bottom face of the tabletop 6 is in contact with the positioning face 53, the pin head is kept at a state abutting against the contact under the action of elastic force, thus achieving electric connection of the tabletop assembly and the lifting frame assembly.

In some embodiments, as shown in FIGS. 1-7, the number of at least two supporting parts 51 is two, corresponding wiring modes of the plurality of second electric connection contacts 21 respectively located at the two supporting parts 51 are configured to be circumferentially and symmetrically arranged, and the circumference is perpendicular to height directions of the supporting parts 51 and takes the two supporting parts 51 as end points of a diameter. In this embodiment, the plane where the circumference is located is parallel to the bottom face of the tabletop 6, and the second electric connection contacts 21 of another supporting part 51 may be formed by rotating the corresponding wiring mode of the second electric connection contacts 21 located at one supporting part 51 by 180 degrees along the circumference.

Specifically, the second electric connection contacts 21 in symmetric arrangement are shown in FIG. 7, and a region IV in the figure is the position of the center of circle of the circumference of this embodiment. Ten second electric connection contacts 21 are provided on each of the two supporting parts, and are distributed in a rectangular array of 2×5. The driving unit 4 comprises two drivers 41, and the driver 41 may be a motor. By taking the three electric connection contacts in regions I, II and III shown in the figure as an example, the region I in the figure may be connected to a forward contact of the motor, the region II may be connected to a reverse contact of the motor, and the region III may be connected to an earth wire.

In some embodiments, as shown in FIGS. 1-8, the number of at least two supporting parts 51 is two. The tabletop support 52 comprises two cross beams 521, two ends of each of the cross beams 521 are provided with two fixed connection points 55 and two hinge points 54, and the two hinge points 54 are located at inner sides of the two fixed connection points 55. The two supporting parts 51 are configured to be clamped in middle positions of the two cross beams 521, are hinged to the cross beams 521 through the hinge points 54, and are fixedly connected to the cross beams 521 through the fixed connection points 55. In this embodiment, the supporting parts 51 may be hinged to the cross beams through the hinge points 54 before delivery so as to guarantee that the supporting parts 51 are in a rotatable state. After receiving the goods, the user rotates the supporting parts 51 to make the supporting parts 51 be fixedly connected to the cross beams through the fixed connection points 55.

It should be understood that the two hinge points in this embodiment are located at the inner sides of the two fixed connection points. Therefore, when each of the supporting parts 51 is rotated towards the inner side, the second terminal block 2 may sweep a roughly fan-shaped region, so that the second terminal block 2 is hidden in a region formed by the cross beam 521 and the supporting part 51 (the position shown by a dotted line in FIG. 6) during packaging and delivery, and at the moment, the second terminal block 2 faces the two sides of the lifting frame assembly, thus playing a role in protecting the second terminal block 2.

Further, the tabletop support 52 further comprises two girders 522, the middles of the two girders 522 are fixedly connected to two ends of the cross beams 521, respectively; each of the girders 522 is provided with a connection point 56, and the supporting parts 51 are fixedly connected to the girders 522 through the connection points 56. When the supporting parts 51 are fixed to the tabletop support 52, in this embodiment, the girders 522 are further provided with the connection points 56 to achieve a better fixation effect during the fixation of the supporting parts 51 and the tabletop support 52. The connection point 56 on each of the girders 522 is located at one side, away from the hinge point 54, of the fixed connection point 55, thus forming three-point positioning by the connection point 56, the fixed connection point 55 and the hinge point 54 in a horizontal direction in the installation state to form the fixation of the lifting frame assembly to the utmost extent.

Optionally, in above embodiments, the hinge points 54 and the fixed connection points 55 located on each of cross beams 521 may be simultaneously configured as racetrack-shaped positioning holes extending in a length direction of the cross beam 521 (as shown in an enlarged view in FIG. 5), so that the driving box 512 may also have a degree of freedom to move in the horizontal direction when the driving box 512 is connected to the cross beam 521. When the tabletop assembly and the lifting frame assembly are in an assembling stage, the second terminal block 2 located at the position of the driving box 512 may be fine-adjusted in the horizontal direction through the racetrack-shaped positioning holes, thus achieving a more accurate butt joint with the first terminal block 1.

Meanwhile, the connection point 56 of the above embodiment may also be arranged a recessed region (as shown in FIG. 3) formed by the bottom of the girder 522 recessed upwards, when the connection point 56 is used to connect the girder 522 to the driving box 512 using a screw, the screw and the driving box 512 may be pre-assembled before delivery. The screw may slide into the recessed region with the rotation of the supporting part 51 when assembled by the user. Therefore, the recessed region facing the below may make the connection of the girder 522 and the driving box 512 more concise. Meanwhile, when the racetrack-shaped positioning holes are used to adjust a horizontal position of the second terminal block 2, the second terminal block 2 may be precisely adjusted through the screw-in and screw-out of the bolt at the connection point 56.

In some embodiments, as shown in FIGS. 5-7, wherein each of the girders 522 is further provided a baffle 58, the baffle 58 is located in a middle region of the girder 522 and is arranged towards the top of the driving box 512. When the driving box 512 is rotated towards the tabletop support 52, the bottom of the baffle 58 just may be located above the driving box 512. The baffle 58 may effectively prevent the supporting part 51 from rotating excessively towards the above, thus facilitating the connection of the driving box 512 and the fixed connection point 55 and further simplifying the assembling difficulty for the user during assembly.

In another alternative implementation, the lifting frame assembly and the tabletop assembly in above embodiment may be assembled into a height adjustable table. As shown in FIGS. 1-8, the height adjustable table in this embodiment comprises a tabletop assembly, a tabletop 6, a control box 32, at least one first terminal block 1, a tabletop support 52, and at least two supporting parts 51. The control box 32 is fixedly connected to the tabletop 2, and at least one first terminal block 1 is fixedly arranged on a back face of the tabletop 6, and is electrically connected to the control box 32. Meanwhile, when the position of at least one first terminal block 1 is configured to enable the tabletop assembly to be assembled with the corresponding lifting frame assembly, the first terminal block 1 corresponds to and is in paired connection with a second terminal block 2 at the top or side of the lifting frame assembly. The tabletop support 52 is used for being connected to the tabletop 6 of the tabletop assembly. A driving unit 4 is arranged in each of the supporting parts 51, each of the supporting parts 51 comprises a second terminal block 2, and the second terminal block 2 is provided with a plurality of second electric connection contacts 21; the second electric connection contacts 21 are at least partially located outside the supporting parts 51, and the second terminal block 2 is electrically connected to the driving unit 4. Wherein the supporting parts 51 are movably connected to the tabletop support 52, when the supporting parts 51 move to an installation position with respect to the tabletop support 52, the second terminal block 2 moves to a connection position accordingly and is connected to the first terminal block 1 of the tabletop assembly, and when the supporting parts 51 are located at a folding position with respect to the tabletop support 52, the supporting parts 51 are in a folded date formed with the tabletop support 52.

In accordance with the height adjustable table provided by the embodiment of the present disclosure, the assembling operation of the height adjustable table is simplified by using the supporting part 51 rotatably connected to the tabletop support and the first terminal block 1 and the second terminal block 2 which are arranged in pairs. On the one hand, during transportation, the height adjustable table may be disassembled into a tabletop assembly and a lifting frame assembly to be packaged and transported, respectively, thus reducing the size of the package, and greatly reducing the logistic cost. Meanwhile, the lifting frame assembly may also be folded, the second terminal block 2 on the lifting frame assembly in the folded state forms an approximate fan-shaped region with the tabletop support 52, so that the second terminal block 2 may be protected during transportation. On the other hand, after receiving the goods, the consumer may assemble the tabletop assembly and the lifting frame assembly through a simple process, the assembly difficulty is reduced. Moreover, installation and wiring operations of electric appliance parts are omitted, so that the whole height adjustable table is more visually pleasing, and the user experience is improved.

In some embodiments, as shown in FIGS. 1-8, each of the supporting parts 51 further comprises a driving box 512 and a table leg 511, the driving unit 4 is arranged in the driving box 512, and the plurality of second electric connection contacts 21 are partially arranged outside the driving box 512. Meanwhile, the table leg 511 is fixedly connected to the bottom of the driving box 512. The table leg 6 in this embodiment is connected to the tabletop support 52 through the driving box 512, and the driving box 512 may be used for preventing the driving unit 4 from being affected by factors such as external force or dust during use or transportation.

Further, the plurality of second electric connection contacts 21 are distributed on the top face of the driving box 512. In this embodiment, when each of the supporting parts 51 is in the installation state, the plurality of second electric connection contacts 21 located at the top of the driving box 512 may be in the position towards the tabletop assembly, so that the first terminal block 1 may be in butt joint with the second terminal block 2 when the tabletop assembly is pressed against and covered onto the lifting frame assembly.

Further, as shown in FIGS. 3-4, a plurality of through holes 5121 are formed in a top wall of the driving box 512, the second terminal block 2 is arranged at the inner side of the top of the driving box 512, thus making the plurality of second electric connection contacts 21 extend out of the plurality of through holes 5121. In this embodiment, the second terminal block 2 and the driving unit 4 are arranged in the driving box 512 together, the through holes 5121 are further formed in the top wall of the driving box 512 to make the second terminal block 2 in butt joint with the first terminal block 1 during installation, thus making the second electric connection contacts 21 extend out of the through holes 5121.

Further, the driving box 512 may be provided with a first end part 5122 and a second end part 5123 in opposite arrangement, the table leg 511 is connected to the bottom face of the first end part 5122, and the second end part 5123 is hinged to the tabletop support 52, and the second end part 5123 is provided with a fixing part 5124 for being fixedly connected to the tabletop support 52 in the installation state. In this embodiment, the table leg 6 is rotationally connected to the tabletop support 52 through the driving box 512, when the table leg 6 is in the installation state, the supporting part 51 and the tabletop support 21 are locked with each other by using the fixing part 5124, thus making the whole lifting frame in a stable state.

In some embodiments, as shown in FIGS. 1-7, the second terminal block 2 is a pogo pin assembly or a contact set corresponding to a pin head of the pogo pin assembly. To achieve rapid assembling of the tabletop assembly and the lifting frame assembly, a connection mode of the first terminal block 1 and the second terminal block 2 is configured to be the connection of the pogo pin assembly and the corresponding contact set in this embodiment. When the second terminal block 2 is one of the pogo pin assembly or the contact set, the first terminal block 2 needs to be set as another.

Optionally, the second terminal block 2 in this embodiment is configured as a pogo pin assembly, the pin head protruding from the pogo pin assembly may be protected by using a triangular region shown in FIG. 6, thus avoiding the extrusion during transportation. Relatively, the first terminal block 1 is configured as a contact set to make the height of the first terminal block 1 flush with the bottom face of the tabletop 6, thus making the shape of the tabletop assembly more flat as well as facilitating package and transportation.

Further, the tabletop support 52 is provided with a positioning face 53, the positioning face 53 is located in at least part of region of the top of the supporting parts 51, and the positioning face 53 is in fit with the bottom face of the tabletop 6. In this embodiment, the second terminal block 2 is the pogo pin assembly, when the supporting parts 51 move to an installation position, a direction of the pin head of the pogo pin assembly is perpendicular to the positioning face 53, and the pin head of the pogo pin assembly is higher than the positioning face 53. In this embodiment, when the lifting frame assembly is assembled with the tabletop assembly, the pin head of the pogo pin moves downwards under the pressure of the contact set located at the tabletop, therefore, after the bottom face of the tabletop 6 is in contact with the positioning face 53, the pin head is kept at a state abutting against the contact under the action of elastic force, thus achieving electric connection of the tabletop assembly and the lifting frame assembly.

Optionally, the top face of the supporting part 51 may be entirely configured as the positioning face 53, and the pin head of the pogo pin in the installation state and the positioning face 53 are perpendicular to each other so as to reduce the horizontal stress on the pogo pin when the tabletop assembly is assembled with the lifting frame assembly.

In some embodiments, as shown in FIGS. 1-7, the number of at least two supporting parts 51 is two, the corresponding wiring modes of the plurality of second electric connection contacts 21 respectively located at the two supporting parts 51 are configured to be circumferentially and symmetrically arranged, the circumference is perpendicular to height directions of the supporting parts 51 and takes the two supporting parts 51 as end points of the diameter. Meanwhile, the number of at least one first terminal block 1 is two, and the two first terminal blocks 1 correspond to the two supporting parts 51 in a one-to-one correspondence manner. Corresponding wiring modes of the plurality of first electric connection contacts 11 located at the two first terminal blocks 1 are configured to be circumferentially and symmetrically arranged along the center of the tabletop 6. In this embodiment, the two first terminal blocks and the two second terminal blocks 2 are both symmetrically arranged in a form of rotating by 180 degrees. By means of such arrangement mode, after receiving the tabletop assembly, the consumer may directly assemble the tabletop assembly according to the assembly position corresponding to the lifting frame without distinguishing the left-right direction or the front-back direction, thus the assembly difficulty for the user is greatly reduced.

In some embodiments, as shown in FIGS. 1-8, the number of at least two supporting parts 51 is two. The tabletop support 52 comprises two cross beams 521, two ends of each of the cross beams 521 are provided with two fixed connection points 55 and two hinge points 54, and the two hinge points 54 are located at inner sides of the two fixed connection points 55. The two supporting parts 51 are configured to be clamped in middle positions of the two cross beams 521, are hinged to the cross beams 521 through the hinge points 54, and are fixedly connected to the cross beams 521 through the fixed connection points 55. In this embodiment, the supporting parts 51 may be hinged to the cross beams 521 through the hinge points 54 before delivery so as to guarantee that the supporting parts are in a rotatable state. After receiving the goods, the user rotates the supporting parts 51 to make the supporting parts be fixedly connected to the cross beams 521 through the fixed connection points 55. The connection position of the fixed connection point 55 may correspond to the fixing part 5124 in above embodiment, thus fixing the lifting frame assembly.

Further, the tabletop support 52 further comprises two girders 522, the middles of the two girders 522 are fixedly connected to two ends of the cross beams 521, respectively; each of the girders 522 is provided with a connection point 56, and the supporting parts 51 are fixedly connected to the girders 522 through the connection points 56. When the supporting parts 51 are fixed to the tabletop support 52, in this embodiment, the girders 522 are further provided with the connection points 56 to achieve a better fixation effect during the fixation of the supporting parts 51 and the tabletop support 52. The connection point 56 on each of the girders 522 is located at one side, away from the hinge point 54, of the fixed connection point 55, thus forming three-point positioning by the connection point 56, the fixed connection point 55 and the hinge point 54 in a horizontal direction in the installation state to form the fixation of the lifting frame assembly to the utmost extent.

The height adjustable table in above embodiment may be disassembled according to the following method, the method includes but is not limited to a product pre-assembling and packaging method and a product assembling method.

In some embodiments, the product pre-assembling and packaging method comprises: connecting the hand controller 31, the control box 32 and the wiring board 63 through the cable 7 at the factory stage; then plugging the cable 7 along the wiring duct 61 of the tabletop 6, and then screwing the control box 32, the hand controller 31 and the wiring board 63 into the corresponding positions of the tabletop 6 through self-tapping screws. An installation point 57 may be marked on the bottom face of the tabletop 6 in advance, and the installation point 57 corresponds to the threaded screwing-in position of the lifting frame assembly, so that a user may conveniently find the corresponding installation position of the lifting frame assembly and the tabletop assembly.

The motor is placed in the driving box 512 and connected to other parts in the driving box 512 to provide power. Taking a situation that a screw rod is meshed with a gear to drive the height adjustable table as an example, an output shaft of the motor may be connected to the screw rod. Then the pogo pin assembly is electrically connected to the motor to enable the pin head of the pogo pin to extend out of the through hole 5121 at the top of the driving box 512. After that, the assembled supporting parts 51 are hinged to the tabletop support 52 through the hinge points 54, and the two supporting parts 51 are folded towards the inner side. It is easy to understand that, to facilitate the folding of the lifting frame assembly, supporting legs 513 at the bottoms of the supporting parts 51 (located at one end of the table leg facing the ground) are disassembled in FIG. 6. During packaging, the pre-assembled tabletop assembly, the lifting frame assembly with the supporting legs 513 removed and the supporting legs 513 are packaged respectively and then delivered to the home of the user together. The package may further comprise screws, screwdrivers and other tools capable of being used by the user during assembling.

In another embodiments, the product assembling method comprises: after receiving the product, the user firstly rotates the supporting parts 51 of the lifting frame assembly to the installation state, and then fix the supporting parts at the fixed connection points 55 and the connection points 56. Then, the tabletop assembly and the lifting frame assembly are assembled according to the installation point 57 arranged during pre-assembly, and at the moment, the pogo pin assembly and the contact set have been in fit with each other before delivery. Therefore, on the premise of not distinguishing the left side and the right side, the user may complete the assembling of the height adjustable table after connecting the tabletop assembly and the lifting frame assembly according to the installation point 57.

The foregoing descriptions of specific embodiments of the present disclosure have been presented for purposes of illustration and description. They are not intended to be exhaustive or to limit the present disclosure to the precise forms disclosed, and obviously many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the present disclosure and its practical application, to thereby enable others skilled in the art to best utilize the present disclosure and various embodiments with various modifications as are suited to the particular use contemplated. It is intended that the scope of the present disclosure be defined by the claims appended hereto and their equivalents.

Claims

1. A tabletop assembly, wherein the tabletop assembly is used for a height adjustable table, and the tabletop assembly comprises:

a tabletop (6);

a control box (32) fixedly connected to the tabletop (6); and

at least one first terminal block (1) fixedly arranged at a back face of the tabletop (6) and electrically connected to the control box (32);

wherein a position of the at least one first terminal block (1) is configured to when enable the tabletop assembly to be assembled with a corresponding lifting frame assembly, the first terminal block (1) corresponds to and is in paired connection with a second terminal block at the top or a side part of the lifting frame assembly.

2. The tabletop assembly of claim 1, wherein the tabletop assembly further comprises:

a hand controller (31), the hand controller (31) being fixedly connected to the tabletop (6) and electrically connected to the control box (32).

3. The tabletop assembly of claim 2, wherein the tabletop assembly further comprises a cable (7), a plurality of wiring ducts (61) for accommodating the cable (7) are formed in a bottom face of the tabletop (6), and the cables (7) are respectively connected between the first terminal block (1) and the control box (32) and between the control box (32) and the hand controller (31).

4. The tabletop assembly of claim 1, wherein the number of at least one terminal block (2) is two, the first terminal block (1) is provided with a plurality of first electric connection contacts (11), corresponding wiring modes of the plurality of electric connection contacts (11) located at the two first terminal blocks (1) are configured to be circumferentially and symmetrically arranged along the center of tabletop (6), and the first electric connection contacts (11) are distributed on a plane parallel to the tabletop (6).

5. The tabletop assembly of claim 1, wherein the number of the at least one first terminal block (1) is two, and the first terminal block (1) is a pogo pin assembly or a contact set corresponding to a pin head of the pogo pin assembly.

6. The tabletop assembly of claim 3, wherein two grooves (62) are formed in the bottom face of the tabletop, the two grooves are respectively communicated with the wiring ducts (61) so as to accommodate end regions of the cable (7);

the first terminal block (1) is a contact set; and

the height adjustable table further comprises two wiring boards (63) corresponding to the two grooves (62), and the two wiring boards (63) are pressed against and covered onto the grooves (62); the contact set is located on one side, away from the tabletop (6), of the wiring board (63), and the cable (7) located in the groove (62) is electrically connected to the contact set through the other side of the wiring board (63).

7. A lifting frame assembly, wherein the lifting frame assembly is used for a height adjustable table, and the lifting frame assembly comprises:

a tabletop support (52) for being connected to a tabletop (6) of the height adjustable table;

at least two supporting parts (51), wherein a driving unit (4) is arranged in each of the supporting parts (51), and each of the supporting parts (51) comprises a second terminal block (2), the second terminal block (2) is provided with a plurality of second electric connection contacts (21), and the second electric connection contacts (21) are at least partially located outside of the supporting parts (51), and the second terminal block (2) is electrically connected to the driving unit (4);

wherein the supporting parts (51) are movably connected to the tabletop support (52), when the supporting part (51) moves to an installation position with respect to the tabletop support (52), the second terminal block (2) moves to a connection position accordingly and is connected to a first terminal block (1) arranged on a tabletop assembly, and when the supporting parts (51) are located at a folding position with respect to the tabletop support (52), the supporting parts (51) are in a folded state with the tabletop support (52).

8. The lifting frame assembly of claim 7, wherein each of the supporting parts further comprises:

a driving box (512), wherein the driving unit (4) is arranged in the driving box (512), and the plurality of second electric connection contacts (21) are partially arranged outside of the driving box (512); and

a table leg (511) fixedly connected to the bottom of the driving box (512).

9. The lifting frame assembly of claim 8, wherein the plurality of second electric connection contacts (21) are distributed on a top face of the driving box (512).

10. The lifting frame assembly of claim 9, wherein a plurality of through holes (5121) are formed in a top wall of the driving box (512), the second terminal block (2) is arranged at an inner side of the top of the driving box (512), and the plurality of second electric connection contacts (21) extend out of the plurality of through holes (5121).

11. The lifting frame assembly of claim 8, wherein the driving box (512) is provided with a first end part (5122) and a second end part (5123) which are oppositely provided; the table legs (511) are connected to a bottom face of the first end part (5122), and the second end part (5123) is hinged to the tabletop support (52); and the second end part (5123) is provided with a fixing part (5124) for being fixedly connected to the tabletop support (52) when in an installation state.

12. The lifting frame assembly of claim 7, wherein the second terminal block (2) is a pogo pin assembly or a contact set corresponding to a pin head of the spring head assembly.

13. The lifting frame assembly of claim 7, wherein the tabletop support (52) is provided with a positioning face (53), the positioning face (53) is located in at least part of the region of the top of the supporting parts (51), and the positioning face (53) is in fit with the bottom face of the tabletop;

the second terminal block (2) is a pogo pin assembly; and

when the supporting parts (51) move to an installation position, a direction of the pin head of the pogo pin assembly is perpendicular to the positioning face (53), and the pin head of the pogo pin assembly is higher than the positioning face (53).

14. The lifting frame assembly of claim 7, wherein the number of the at least two supporting parts (51) is two; and

corresponding wiring modes of the plurality of second electric connection contacts (21) respectively located at the two supporting parts (51) are configured to be circumferentially and symmetrically arranged, and the circumference is perpendicular to height directions of the supporting parts (51) and takes the two supporting parts (51) as end points of a diameter.

15. The lifting frame assembly of claim 7, wherein the number of the at least two supporting parts (51) is two;

the tabletop support (52) comprises two cross beams (521), two ends of each of the cross beams (521) are provided with two fixed connection points (55) and two hinge points (54), and the two hinge points (54) are located at inner sides of the two fixed connection points (55); and

the two supporting parts (51) are configured to be clamped in middle positions of the two cross beams (521), are hinged to the cross beams (521) through the hinge points (54), and are fixedly connected to the cross beams (521) through the fixed connection points (55).

16. The lifting frame assembly of claim 15, wherein the tabletop support (52) further comprises:

two girders (522), wherein middle parts of the two girders (522) are fixedly connected to two ends of the cross beams (521), respectively, each of the girders (522) is provided with a connection point (56), and the supporting parts (51) are fixedly connected to the girders (522) through the connection points (56).

17. A height adjustable table, wherein the height adjustable table comprises:

a tabletop assembly according to claim 1;

a tabletop support (52) for being connected to a tabletop (6) of the tabletop assembly;

at least two supporting parts (51), wherein a driving unit (4) is arranged in each of the supporting parts (51), and each of the supporting parts (51) comprises a second terminal block (2), the second terminal block (2) is provided with a plurality of second electric connection contacts (21), and the second electric connection contacts (21) are at least partially located outside of the supporting parts (51), and the second terminal block (2) is electrically connected to the driving unit (4);

wherein the supporting parts (51) are movably connected to the tabletop support (52), when the supporting parts (51) move to an installation position with respect to the tabletop support (52), the second terminal block (2) moves to a connection position accordingly and is connected to a first terminal block (1) arranged on a tabletop assembly, and when the supporting parts (51) are located at a folding position with respect to the tabletop support (52), the supporting part (51) is in a folded state with the tabletop support (52).