PRESS-TYPE TELESCOPIC STRUCTURE OF TENT

A press-type telescopic structure of a tent comprises an inner tube, an outer tube, a connecting member, and a pressing assembly. The outer tube is a hollow structure and one end of the outer tube is fixedly connected with the connecting member, and the inner tube comprises a solid inner tube body and a hollow sleeve. The hollow sleeve is fixedly connected to a first end of the solid inner tube body and is always located in the outer tube, and the pressing assembly comprises an elastic piece and a button. The elastic piece is disposed in the hollow sleeve, and the elastic piece comprises a buckle protrusion configured to be buckled to and matched with one or more buckle holes after passing through a through hole. The button is movably disposed on the connecting member and is operatively coupled to the buckle protrusion.

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Description
RELATED APPLICATIONS

This application claims priority to Chinese patent application number 202220401256.3, filed on Feb. 25, 2022. Chinese patent application number 202220401256.3 is incorporated herein by reference.

FIELD OF THE DISCLOSURE

The present disclosure relates to a press-type telescopic structure of a tent.

BACKGROUND OF THE DISCLOSURE

A tent is a shed which is supported on the ground to shield wind, rain, and sunlight and is used for temporary living. The tent is usually made of canvas material and can be detached and transferred at any time together with a tent support for supporting the canvas. The tent support is an important component part of the tent, and at present, in order to reduce an occupied space after the tent is folded up to make transportation and packing convenient, the tent support in the existing techniques have used telescopic pipes. The telescopic pipes of the tent support comprise an outer tube, an inner tube, and a connecting pipe. One end of the outer tube is inserted in the connecting pipe, and one end of the inner tube extends into the outer tube after passing through the connecting pipe. The one end of the inner tube is fixedly disposed with a guiding slider, and the inner tube and the outer tube are fixedly connected together through a buckle point.

For example, Chinese patent application number 202022422668.9 discloses a telescopic tube of a tent support, comprising an outer tube, an inner tube, and a connecting pipe. A left end of the outer tube is connected with the connecting pipe, and a right end of the inner tube passes through the connecting pipe to extend into the outer tube. A right end of the inner tube is equipped with a guiding slider, and the guiding slider comprises a connecting member and a head portion. The connecting member extends into the right end of the inner tube, and a junction of the connecting member and the head portion defines an abutting surface. The connecting tube is disposed with a pressing member, and a top of the pressing member extends outside of a moving groove. The outer tube and the inner tube respectively comprises a first buckle hole and a second buckle hole, and the first buckle hole and the second buckle hole have an identical size. The pressing member exactly corresponds to the first buckle hole, and an elastic piece is disposed inside of the inner tube. An upper surface of the elastic piece comprises a buckle member, and a top of the buckle member extends out of the second buckle hole and is configured to be inserted into the first buckle hole. An inner side wall of the outer tube comprises at least one protrusion point. When the buckle member is not inserted into the first buckle hole accurately in a telescopic process, the abutting surface of the guiding slider would be in contact with the protrusion point. As can be seen by combining the drawings of Chinese patent application number 202022422668.9, the inner tube and the outer tube both adopt hollow tube structures, and the elastic piece is arranged in the inner tube, so that the inner tube and the outer tube only can adopt metal materials, and the manufacturing cost is very high.

BRIEF SUMMARY OF THE DISCLOSURE

The present disclosure provides a press-type telescopic structure of a tent to solve the deficiencies in the background.

In order to solve the technical problem, a first technical solution of the present disclosure is as follows.

A press-type telescopic structure of a tent comprises an inner tube, an outer tube, a connecting member, and a pressing assembly. The outer tube is a hollow structure and one end of the outer tube is fixedly connected with the connecting member. The inner tube comprises a solid inner tube body and a hollow sleeve, and a first end of the solid inner tube body extends into the outer tube after passing through the connecting member. The solid inner tube body is configured to slide relative to the connecting member and the outer tube, and the hollow sleeve is fixedly connected to the first end of the solid inner tube body and is always located in the outer tube. The pressing assembly comprises an elastic piece and a button, and the outer tube comprises one or more buckle holes. The hollow sleeve comprises a through hole, and the elastic piece is disposed in the hollow sleeve. The elastic piece comprises a buckle protrusion configured to be buckled to and matched with the one or more buckle holes after passing through the through hole, and the button is movably disposed on the connecting member and is operatively coupled to the buckle protrusion.

In preferred embodiment, the solid inner tube body is made of fiber material, and the hollow sleeve is made of plastic material.

In preferred embodiment, the solid inner tube body and the hollow sleeve are fixedly connected together by encapsulation.

In preferred embodiment, the connecting member comprises a connecting pipe and a side connecting cover, and one end of the outer tube is disposed in a first side of the connecting pipe. The side connecting cover is disposed in a second side of the connecting pipe, and the solid inner tube body extends into the connecting pipe after passing through the side connecting cover. A locking member is provided to enable the connecting pipe, the side connecting cover, and the outer tube to be fixedly connected together.

In preferred embodiment, the locking member is a rivet, and the connecting pipe, the side connecting cover, and the outer tube respectively comprises a first through hole, a second through hole, and a third through hole, which are coaxially arranged. The rivet is riveted with the first through hole, the second through hole, and the third through hole.

In preferred embodiment, the elastic piece comprises a first straight section, an arc-shaped section, an inclined section, and a second straight section, which are connected in sequence. The first straight section and the second straight section are spaced apart from each other from top to bottom and respectively abut an upper surface and a lower surface of the hollow sleeve, and the buckle protrusion is disposed on the first straight section.

In preferred embodiment, an outer peripheral surface of the hollow sleeve is in clearance fit with an inner wall of the outer tube.

In preferred embodiment, a cross-section of the outer tube and a cross-section of the hollow sleeve are D-shaped.

In preferred embodiment, the connecting pipe comprises a mounting groove penetrating therethrough vertically, and the button is disposed in the mounting groove. A position-limiting portion is disposed at a top end of the mounting groove, and the button comprises a position-limiting matching portion. The button is configured to be limited in the mounting groove through a position-limiting matching between the position-limiting portion and the position-limiting matching portion.

Compared with the existing techniques, the technical solution has the following advantages.

1. The press-type telescopic structure has a more ingenious design, and it is different from the existing techniques in that the inner tube and the outer tube must be hollow structures in the existing techniques. The solid inner tube body is a solid body to ensure enough strength. The hollow sleeve that is located outside of the outer tube is configured for guiding of sliding of the solid inner tube body, and the hollow sleeve is designed to be a hollow structure in which the elastic piece is located, which reduces costs and makes the whole structure more compact.

2. The solid inner tube body is made of fiber material, and the hollow sleeve is made of plastic, which can further reduce the cost.

3. The solid inner tube body is connected to the hollow sleeve by encapsulation. That is, when the hollow sleeve is formed, the solid inner tube body made of fiber material is placed on a specific mold to perform injection molding. An extra connecting and fastening structure is omitted, and a size of the inner tube is reduced.

4. The locking member enables the connecting pipe, the connecting cover, and the outer tube to be fixedly connected together. Therefore, the hollow sleeve will not be separated from the outer tube, thereby ensuring a reliable connection between the inner tube and the outer tube.

5. The locking member is a rivet, and rivet is riveted with the first through hole, the second through hole, and the third through hole, which is simple and reliable.

6. The elastic piece comprises the first straight section, the arc-shaped section, the inclined section, and the second straight section, and the construction of the elastic piece enables a further improvement in elastic deformation thereof.

7. The outer peripheral surface of the hollow sleeve is in clearance fit with the inner wall of the outer tube, which avoids sliding and shaking of the hollow sleeve in the outer tube.

8. The cross-section of the outer tube and the cross-section of the hollow sleeve are D-shaped to achieve a rotation-stopping effect.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates a cross-sectional view of a press-type telescopic structure of a tent in a preferred embodiment, when a buckle protrusion is buckled to and matched with one or more buckle holes.

FIG. 2 illustrates a cross-sectional view of the press-type telescopic structure of the tent in a preferred embodiment, when the buckle protrusion is separated from the one or more buckle holes.

FIG. 3 illustrates a perspective view of an inner tube of a preferred embodiment.

DETAILED DESCRIPTION OF THE EMBODIMENTS

The present disclosure will be further described below in combination with the accompanying drawings and embodiments.

In the claims, the specification, and the drawings, unless otherwise expressly limited, the terms “first,” “second,” or “third,” etc. are used for distinguishing between different elements and not for describing a particular sequence.

In the claims, the specification, and the drawings, unless otherwise expressly limited, to the extent that directional terms such as “center”, “lateral”, “longitudinal”, “horizontal”, “vertical”, “top”, “bottom”, “inner”, “outer”, “upper”, “lower”, “front”, “rear”, “left”, “right”, “clockwise”, “counterclockwise”, and the like are used, the positional or orientational relationships illustrated in the drawings is based on the positional and orientational relationships illustrated in the drawings and are merely for convenience of describing the present disclosure and simplifying the description, but do not indicate or imply that the device or element so referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore should not be construed as limiting the scope of the present disclosure in any way.

In the claims, the description, and the drawings of the present application, unless otherwise expressly limited, the terms “fixedly connected” should be understood in a broad sense, i.e., any connection without displacement relationship or relative rotation relationship between the two, i.e., including non-detachable fixed connection, integrated connection, and fixed connection by other devices or elements.

In the claims, the specification, and drawings of the present disclosure, the terms “comprising”, “having”, and their variants, if used, are intended to be inclusive and not limiting.

Referring to FIGS. 1 to 3, a press-type telescopic structure of a tent in a preferred embodiment is provided, and the press-type telescopic structure comprises an inner tube 10, an outer tube 20, a connecting member, and a pressing assembly.

The outer tube 20 is a hollow structure, and one end thereof is fixedly connected with the connecting member. As shown in FIG. 1, a left end of the outer tube 20 comprises an opening, and a right end of the outer tube 20 is disposed with a blocking head 21. The outer tube 20 comprises one or more buckle holes 22, and the number of the buckle holes 22 may be set as required. In this embodiment, the number of the buckle holes 22 is one, or the one or more buckle holes 22 may be a plurality of buckle holes arranged at intervals. The disclosure is not limited in this regard.

As shown in FIG. 3, the inner tube 10 comprises a solid inner tube body 11 and a hollow sleeve 12. A first end of the solid inner tube body 11 extends into the outer tube 20 after passing through the connecting member, and the solid inner tube body 11 can slide relative to the connecting member and the outer tube 20. The hollow sleeve 12 is fixedly connected to the first end of the solid inner tube body 11 and is always located in the outer tube 20. The hollow sleeve 12 comprises a through hole 13.

The pressing assembly comprises an elastic piece 30 and a button 40. The elastic piece 30 is disposed in the hollow sleeve 12, and the elastic piece 30 comprises a buckle protrusion 31 configured to be buckled to and matched with the one or more buckle holes 22 after passing through the through hole 13. The button 40 is movably disposed on the connecting member and is operatively coupled to the buckle protrusion 31.

In this embodiment, the solid inner tube body 11 is made of fiber material, and the hollow sleeve 12 is made of plastic material. The solid inner tube body 11 and the hollow sleeve 12 are fixedly connected together by encapsulation.

In this embodiment, the elastic piece 30 comprises a first straight section 32, an arc-shaped section 33, an inclined section 34, and a second straight section 35, which are connected in sequence. The first straight section 32 and the second straight section 35 are spaced apart from each other from top to bottom and respectively abut an upper surface and a lower surface of the hollow sleeve 12, and the buckle protrusion 31 is disposed on the first straight section 32.

In this embodiment, an outer peripheral surface of the hollow sleeve 12 is in clearance fit with an inner wall of the outer tube 20.

In this embodiment, a cross-section of the outer tube 20 and a cross-section of the hollow sleeve 12 are D-shaped.

In this embodiment, the connecting member comprises a connecting pipe 50 and a side connecting cover 60. One end of the outer tube 20 is inserted into a first side of the connecting pipe 50, and the side connecting cover 60 is inserted into a second side of the connecting pipe 50. The solid inner tube body 11 extends into the connecting pipe 50 after passing through the side connecting cover 60, and a locking member 70 is further provided to enable the connecting pipe 50, the side connecting cover 60, and the outer tube 20 to be fixedly connected together.

In this embodiment, the locking member 70 is a rivet, and the connecting pipe 50, the side connecting cover 60, and the outer tube 20 respectively comprises a first through hole, a second through hole, and a third through hole, which are coaxially arranged. The rivet is riveted with the first through hole, the second through hole, and the third through hole.

In this embodiment, the connecting pipe 50 comprises a mounting groove 51 penetrating vertically through the connecting pipe 50, and the button 40 is disposed in the mounting groove 51. A position-limiting portion 52 is disposed at a top end of the mounting groove 51, and the button 40 comprises a position-limiting matching portion 41. A movement range of the button 40 is defined by the mounting groove 51 through the position-limiting portion 52 being matched with the position-limiting matching portion 41, such that movement of the button in the mounting groove is limited through a position-limiting matching between the position-limiting portion and the position-limiting matching portion.

As shown in FIG. 1, the buckle protrusion 31 is in locking fit with the one or more buckle holes 22, and the hollow sleeve 12 is located at a leftmost end of the outer tube 20. When the inner tube 10 needs to be contracted, the button 40 is simply pressed to drive the buckle protrusion 31 to move downward, and the elastic piece 30 is pressed downward to store elastic potential energy until the buckle protrusion 31 is separated from the one or more buckle holes 22. At this time, the solid inner tube body 11 is moved to slide to drive the hollow sleeve 12 to move in the outer tube 20, as shown in FIG. 2.

The press-type telescopic structure is more skillful in design, and an existing structure in which the inner tube 10 and the outer tube 20 are hollow structures is changed. The solid inner tube body 11 is a solid body and is made of fiber materials, so that a cost is reduced, and meanwhile, sufficient strength can be ensured. The hollow sleeve 12 is located outside of the outer tube 20 and serves as a guide for guiding sliding movement of the inner tube 10, and the hollow sleeve 12 also serves to prevent rattling or rotation. Meanwhile, the hollow sleeve 12 is designed to be hollow, and the elastic piece 30 is located in the hollow sleeve 12, so that the cost can be reduced, and the whole telescopic structure can be more compact.

The aforementioned embodiments are merely some embodiments of the present disclosure, and the scope of the disclosure is not limited thereto. Thus, it is intended that the present disclosure cover any modifications and variations of the presently presented embodiments provided they are made without departing from the appended claims and the specification of the present disclosure.

Claims

1. A press-type telescopic structure of a tent, comprising:

an inner tube,
an outer tube,
a connecting member, and
a pressing assembly, wherein: the outer tube is a hollow structure and one end of the outer tube is fixedly connected with the connecting member, the inner tube comprises a solid inner tube body and a hollow sleeve, a first end of the solid inner tube body extends into the outer tube after passing through the connecting member, the solid inner tube body is configured to slide relative to the connecting member and the outer tube, the hollow sleeve is fixedly connected to the first end of the solid inner tube body and is always located in the outer tube, the pressing assembly comprises an elastic piece and a button, the outer tube comprises one or more buckle holes, the hollow sleeve comprises a through hole, the elastic piece is disposed in the hollow sleeve, the elastic piece comprises a buckle protrusion configured to be buckled to and matched with the one or more buckle holes after passing through the through hole, and the button is movably disposed on the connecting member and is operatively coupled to the buckle protrusion.

2. The press-type telescopic structure of the tent according to claim 1, wherein:

the solid inner tube body is made of fiber material, and
the hollow sleeve is made of plastic material.

3. The press-type telescopic structure of the tent according to claim 2, wherein:

the solid inner tube body and the hollow sleeve are fixedly connected together by encapsulation.

4. The press-type telescopic structure of the tent according to claim 1, wherein:

the connecting member comprises a connecting pipe and a side connecting cover,
the one end of the outer tube is disposed in a first side of the connecting pipe,
the side connecting cover is disposed in a second side of the connecting pipe,
the solid inner tube body extends into the connecting pipe after passing through the side connecting cover, and
a locking member is provided to enable the connecting pipe, the side connecting cover, and the outer tube to be fixedly connected together.

5. The press-type telescopic structure of the tent according to claim 4, wherein:

the locking member is a rivet,
the connecting pipe, the side connecting cover, and the outer tube respectively comprises a first through hole, a second through hole, and a third through hole, which are coaxially arranged, and
the rivet is riveted with the first through hole, the second through hole, and the third through hole.

6. The press-type telescopic structure of the tent according to claim 1, wherein:

the elastic piece comprises a first straight section, an arc-shaped section, an inclined section, and a second straight section, which are connected in sequence,
the first straight section and the second straight section are spaced apart from each other from top to bottom and respectively abut an upper surface and a lower surface of the hollow sleeve, and
the buckle protrusion is disposed on the first straight section.

7. The press-type telescopic structure of the tent according to claim 1, wherein:

an outer peripheral surface of the hollow sleeve is in clearance fit with an inner wall of the outer tube.

8. The press-type telescopic structure of the tent according to claim 7, wherein:

a cross-section of the outer tube and a cross-section of the hollow sleeve are D-shaped.

9. The press-type telescopic structure of a tent according to claim 4, wherein:

the connecting pipe comprises a mounting groove penetrating therethrough vertically,
the button is disposed in the mounting groove,
a position-limiting portion is disposed at a top end of the mounting groove,
the button comprises a position-limiting matching portion, and
movement of the button in the mounting groove is limited through a position-limiting matching between the position-limiting portion and the position-limiting matching portion.
Patent History
Publication number: 20230272640
Type: Application
Filed: Dec 2, 2022
Publication Date: Aug 31, 2023
Inventor: Yonggeng YANG (Xiamen City)
Application Number: 18/074,154
Classifications
International Classification: E04H 15/44 (20060101);