ADJUSTABLE CLOTHES HANGER

Abstract

The adjustable clothes hanger includes a main frame. Shoulder sliders are movably disposed at two ends of the main frame, and sliding racks of which one ends extend inside the main frame are disposed inside the shoulder sliders. Driving gears that engage with the two sliding racks are movably disposed inside the main frame. An upper hook of which one end extends inside the driving gears is disposed at a top of the main frame. The two shoulder sliders may be synchronously driven by pressing the upper hook downwards and rotating the upper hook, so that widths of a right end and a left end of the main frame are the same. The clothes can be adjusted based on an actual width of the clothes. Therefore, the clothes are not bulged and deformed. The upper hook may be reset through the spring when not used, to maintain the upper hook in a normal freely-rotating state.

Description

TECHNICAL FIELD

The present disclosure relates to the technical field of clothes hangers, and in particular to provide an adjustable clothes hanger.

BACKGROUND

Clothes hangers are one of common essential items in the daily life of persons. There are a plurality of kinds of clothes hangers on the market. Common clothes hangers include conventional clothes hangers, folding clothes hangers, telescopic clothes hangers, and the like. Especially, the telescopic clothes hanger can match different sizes of clothes by adjusting a width of the hanger. Therefore, deformation of clothes caused by a larger or smaller clothes hanger or bulges on shoulders can be resolved.

At present, a telescopic clothes hanger with an adjustable width on the market basically adopts a structure that left and right sections are adjustable, buckles and sliding rails are fastened to a middle of the main body. When the width is adjusted, the width is manually adjusted by hands on two sides in a stretching manner. However, synchronous adjustment of the two sides may not be implemented, operation steps are numerous, and adjustment strength is large. Therefore, it is difficult to enable left and right widths of the hanger to be equal or symmetrical.

After the clothes are hung on the clothes hanger, an adjusting structure is covered by the clothes, and operations cannot be performed. As a result, there is no way to operate, a width of an existing telescopic clothes hanger needs to be adjusted by feel before the clothes are not hung. Therefore, the clothes can only be hung on a conventional clothes hanger after a width of the clothes hanger is adjusted. This operation sequence has shortcomings that the width of the clothes hanger is not accurately matched with an actual width of the clothes. If the clothes hanger is not matched with a size of the clothes, the clothes may be deformed and bulged, which damages the clothes. In addition, a person is not elegant when wearing the clothes outside.

SUMMARY

To achieve the foregoing objective, the following technical solutions are used in the present disclosure. An adjustable clothes hanger includes a main frame. Shoulder sliders are movably disposed at two ends of the main frame, and sliding racks of which one ends extend inside the main frame are disposed inside the shoulder sliders. Driving gears that engage with the two sliding racks are movably disposed inside the main frame. An upper hook of which one end extends inside the driving gears is disposed at a top of the main frame, and lower hooks are movably clamped inside the shoulder sliders.

The upper hook is rotated to drive the driving gears to rotate, the driving gears simultaneously drive, based on a rotating direction of the upper hook, the two sliding racks to move relative to each other or opposite to each other, and the shoulder sliders synchronously move with the sliding racks, to fit different sizes of pieces of clothes.

As a preferred technical solution of the present disclosure, a fixing cap is mounted at a bottom end of the upper hook with a screw, and the fixing cap is movably sleeved inside the driving gears.

As a preferred technical solution of the present disclosure, a polygonal groove is provided in a lower middle part inside the driving gears, and the fixing cap is in a polygonal shape and matched with the polygonal groove.

As a preferred technical solution of the present disclosure, a spring of which one end abuts against a bottom of the fixing cap is disposed inside the polygonal groove.

As a preferred technical solution of the present disclosure, sliding grooves are provided on two sides of the main frame, sliders are disposed on two sides of the shoulder sliders, and one ends, away from the shoulder sliders, of the sliders, extend inside the sliding grooves.

As a preferred technical solution of the present disclosure, a plurality of anti-slip strips are disposed at tops of the shoulder sliders, length identifiers are disposed at the top of the main frame, and an operation sign of the hook is further disposed on the upper hook.

As a preferred technical solution of the present disclosure, a fixing base is disposed inside the shoulder slider, the fixing base is provided with a positioning hole I and a positioning hole II, and an avoidance portion, a transition portion, and a positioning portion are provided on an inner wall of the positioning hole II in sequence.

As a preferred technical solution of the present disclosure, a hook that is clamped with the positioning hole I is disposed at one end of the sliding rack, and a limiting plate is further disposed on a side of the sliding rack.

As a preferred technical solution of the present disclosure, a top of the lower hook is movably sleeved inside the positioning hole II, and a positioning block that is clamped with the positioning portion is disposed at the top of the lower hook.

As a preferred technical solution of the present disclosure, clamping grooves are disposed in the main frame, a lower baffle is disposed at a bottom of the main frame, clamping blocks that are clamped with the clamping grooves are disposed at a top of the lower baffle, and a positioning post of which one end extends inside the driving gear is disposed on the lower baffle.

Compared with a conventional technology, the adjustable clothes hanger provided in embodiments of this application has the following advantages:

According to the adjustable clothes hanger, the two shoulder sliders may be synchronously driven by pressing the upper hook downwards and rotating the upper hook, so that widths of a right end and a left end of the main frame are the same, and a width adjustment method is more simple, efficient, and easy. In addition, after clothes are hung on the main frame, the clothes can be adjusted based on an actual width of the clothes, to accurately match the main frame with a size of the clothes. Therefore, the clothes are not bulged and deformed. The upper hook may be reset through the spring when not used, to maintain the upper hook in a normal freely-rotating state.

BRIEF DESCRIPTION OF THE DRAWING

FIG. 1 is a schematic diagram of a structure of an adjustable clothes hanger according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of an internal structure of an adjustable clothes hanger according to an embodiment of the present disclosure;

FIG. 3 is a schematic diagram of a structure of two shoulder sliders according to an embodiment of the present disclosure;

FIG. 4 is a schematic diagram of a structure of a main frame of an adjustable clothes hanger according to an embodiment of the present disclosure;

FIG. 5 is a schematic diagram of a structure of a sliding rack of an adjustable clothes hanger according to an embodiment of the present disclosure;

FIG. 6 is a schematic diagram of a structure of a fixing base of an adjustable clothes hanger according to an embodiment of the present disclosure;

FIG. 7 is a schematic diagram of a structure of an upper hook and a driving gear of an adjustable clothes hanger according to an embodiment of the present disclosure;

FIG. 8 is an exploded view of a structure of an upper hook and a driving gear of an adjustable clothes hanger according to an embodiment of the present disclosure; and

FIG. 9 is a schematic diagram of a structure of a driving gear of an adjustable clothes hanger according to an embodiment of the present disclosure.

Reference numerals: 1: main frame; 101: sliding groove; 102: length sign; 11: shoulder sliders; 111: slider; 112: anti-slip strips; 12: sliding rack; 121: hook; 122: limiting plate; 13: driving gear; 131: polygonal groove; 132: spring; 14: upper hook; 141: screw; 142: fixing cap; 143: hook operation sign; 15: lower hooks; 151: positioning block; 16: fixing base; 161: positioning hole I; 162: positioning hole II; 163: avoidance portion; 164: transition portion; 165: positioning portion; 17: clamping grooves; 18: lower baffle; 181: clamping blocks.

DETAILED DESCRIPTION OF THE EMBODIMENTS

To more clearly understand the features and technical content of embodiments of the present disclosure, the following describes in details the accompanying drawings required in embodiments of the present disclosure. The accompanying drawings are provided to explain the present disclosure and do not constitute a limitation to the present disclosure. In the following descriptions, for ease of explanation, many specific details are illustrated to provide a comprehensive understanding of the disclosed embodiments. However, one or more embodiments can be practiced without the specific details. In other cases, to simplify the accompanying drawings, structures and devices that are well known may be shown in a simplified manner.

The terms such as “first” and “second” in the description of embodiments of the present disclosure, the claims, and the accompanying drawings are intended to distinguish between similar objects but do not necessarily indicate a specific order or sequence. It should be understood that the data used in such a way may be exchanged under proper conditions to make it possible to describes embodiments of the present disclosure. Moreover, the terms “include”, “have”, and any variations thereof mean to cover a non-exclusive inclusion.

In embodiments of the present disclosure, the terms such as “upper”, “lower”, “inside”, “middle”, “outside”, “front”, and “rear” indicate the orientation or positional relationship shown in the accompanying drawings. These terms are mainly intended to better describe embodiments of the present disclosure, rather than to define that the devices, elements, or components indicated must have the specific orientation or be constructed and operated in the specific orientation. In addition, some of the terms mentioned above may be used to indicate other meanings in addition to indicating the orientation or positional relations. For example, the term “upper” may also be used to indicate an attachment relationship and a connection relationship in some cases. For persons of ordinary skill in the art, specific meanings of the foregoing terms in embodiments of the present disclosure may be understood based on a specific situation.

In addition, meanings of terms “arrangement”, “connection”, and “fasten to” should be understood in a board sense. For example, “connection” may be a fixed connection, a detachable connection, an integral connection, may be a mechanical connection or an electrical connection, may be a direct connection, may be an indirect connection through an intermediate medium, or may be an internal connection between two devices, elements, or components. For persons of ordinary skill in the art, specific meanings of the foregoing terms in embodiments of the present disclosure may be understood based on a specific situation.

Unless otherwise indicated, “a plurality of” means two or more.

It should be noted that, if there is no conflict, in embodiments of the present disclosure and features in embodiments may be mutually combined.

Refer to FIG. 1 to FIG. 9. An adjustable clothes hanger includes a main frame 1. Shoulder sliders 11 are movably disposed at two ends of the main frame 1, and sliding racks 12 of which one ends extend inside the main frame 1 are disposed inside the shoulder sliders 11. Driving gears 13 that engage with the two sliding racks 12 are movably disposed inside the main frame 1. An upper hook 14 of which one end extends inside the driving gears 13 is disposed at a top of the main frame 1, and lower hooks 15 are movably clamped inside the shoulder sliders 11.

The upper hook 14 is rotated to drive the driving gears 13 to rotate, the driving gears 13 simultaneously drive, based on a rotating direction of the upper hook 14, the two sliding racks 12 to move relative to each other or opposite to each other, and the shoulder sliders 11 synchronously move with the sliding racks 12, to fit different sizes of pieces of clothes.

As a specific technical solution in this embodiment, a fixing cap 142 is mounted at a bottom end of the upper hook 14 with a screw 141, and the fixing cap 142 is movably sleeved inside the driving gears 13. A polygonal groove 131 is provided in a lower middle part inside the driving gears 13, and the fixing cap 142 is in a polygonal shape and matched with the polygonal groove 131. When the fixing cap 142 descends and is in contact with the polygonal groove 131 inside the driving gear 13, the upper hook 14 is rotated to drive the driving gear 13 to rotate through the fixing cap 142. The driving gear 13 drives the two sliding racks 12 to move. The fixing cap 142 is fastened to the upper hook 14 through the screw 141, and the fixing cap 142 is removed by removing the screw 141.

As a specific technical solution in this embodiment, a spring 132 of which one end abuts against a bottom of the fixing cap 142 is disposed inside the polygonal groove 131. The spring 132 supports the fixing cap 142 and the upper hook 14. Therefore, when the upper hook 14 and the fixing cap 142 are not pressed and the upper hook 14 is rotated, the driving gear 13 is not rotated through the fixing cap 142. When the driving gear 13 needs to be rotated, the upper hook 14 is pressed first, and the upper hook 14 drives the fixing cap 142 to descend and compress the spring 132. In addition, the fixing cap 142 descends and is sleeved with the polygonal groove 131 inside the driving gear 13. In this case, the upper hook 14 is rotated, the upper hook 14 drives the driving gear 13 to rotate through the fixing cap 142, and the driving gear 13 engages with the sliding rack 12, to drive the sliding rack 12.

As a specific technical solution in this embodiment, sliding grooves 101 are provided on two sides of the main frame 1, sliders 111 are disposed on two sides of the shoulder sliders 11, and one ends, away from the shoulder sliders 11, of the sliders 111, extend inside the sliding grooves 101. The sliding grooves 101 and the sliders 111 ensure stability of the shoulder sliders 11 when the shoulder sliders 11 slide, and avoid the shoulder sliders 11 from being completely detached from the main frame 1 when the shoulder sliders 11 slide.

As a specific technical solution in this embodiment, a plurality of anti-slip strips 112 are disposed at tops of the shoulder sliders 11, length identifiers 102 are disposed at the top of the main frame 1, and an operation sign 143 of the hook is further disposed on the upper hook 14. By disposing of the anti-slip strips 112, the clothes are effectively prevented from sliding when being hung. This ensures the stability of the clothes when the clothes are hung. By disposing of the length identifier 102, a user can easily identify a moving distance of the shoulder slider 11, and adjust the clothes based on the size of the clothes. Therefore, the adjustment is more rapid and precise.

As a specific technical solution in this embodiment, a fixing base 16 is disposed inside the shoulder slider 11, the fixing base 16 is provided with a positioning hole I 161 and a positioning hole II 162, and an avoidance portion 163, a transition portion 164, and a positioning portion 165 are provided on an inner wall of the positioning hole II 162 in sequence. A hook 121 that is clamped with the positioning hole I 161 is disposed at one end of the sliding rack 12, and a limiting plate 122 is further disposed on a side of the sliding rack 12. By disposing of the limiting plate 122, the sliding racks 12 are prevented from moving and completely disengaged from the driving gear 13. When the limiting plate 122 abuts against the driving gear 13, the sliding racks 12 do not move continuously, but only move in a reverse direction. A top of the lower hook 15 is movably sleeved inside the positioning hole II 162, and a positioning block 151 that is clamped with the positioning portion 165 is disposed at the top of the lower hook 15. Refer to FIG. 4 and FIG. 6. When the lower hook 15 is mounted, the positioning block 151 on the lower hook 15 is first aligned to the avoidance portion 163, and then inserted. After insertion, the lower hook 15 is rotated, and the lower hook 15 drives the positioning block 151 to slide into the transition portion 164 from the avoidance portion 163. A diameter of the transition portion 164 is slightly smaller than that of the positioning block 151. Therefore, the lower hook 15 may be rotated by applying a larger force, and then the lower hook 15 slides into the positioning portion 165 through the transition portion 164. When the positioning block 151 slides into the positioning portion 165, the positioning block 151 is clamped with the positioning section 165, and the lower hook 15 cannot be detached from the inner part of the positioning hole II 162 by pulling the lower hook 15 downward. This ensures stability of the lower hook 15. The lower hook 15 may be disassembled by rotating counterclockwise. One end of the sliding rack 12 is clamped inside the positioning hole I 161 through the clamping hook 121. Therefore, an installation process is more convenient, and later overhaul and replacement are convenient.

As a specific technical solution in this embodiment, clamping grooves 17 are disposed in the main frame 1, a lower baffle 18 is disposed at a bottom of the main frame 1, clamping blocks 181 that are clamped with the clamping grooves 17 are disposed at a top of the lower baffle 18, and a positioning post 182 of which one end extends inside the driving gear 13 is disposed on the lower baffle 18. A quantity of clamping grooves 17 and clamping blocks 181 is not less than one. A plurality of clamping grooves 17 and clamping blocks 181 ensure stability of a connection between the lower baffle 18 and the main frame 1. The lower baffle 18 can support the sliding racks 12, and can cover the inner part of the main frame 1. This ensures appearance of the product. By disposing of the positioning post 182, stability of the driving gear 13 is further ensured.

During use, when the size of the clothes is large, and a position of the driving gear 11 needs to be rotated, the upper hook 14 is pressed first, and the upper hook 14 drives the fixing cap 142 to descend and compress the spring 132. In addition, the fixing cap 142 descends and is sleeved with the polygonal groove 131 inside the driving gear 13. The upper hook 14 may be rotated, and the upper hook 14 drives the driving gear 13 to rotate through the fixing cap 142. The driving gear 13 drives the two sliding racks 12 to move opposite each other, and then the upper hook 14 is rotated in a reverse direction to drive the two sliding racks 12 to move relative to each other. When the two sliding racks 12 move opposite each other, the two shoulder sliders 11 synchronously move opposite each other, to match a large size of clothes. After adjustment, when the upper hook 14 is released, the spring 132 rebounds and abuts against the fixing block, to drive the upper hook 14 to rise. Therefore, the upper hook 14 and the main frame 1 do not drive the driving gear 13 to rotate while the upper hook 14 and the main frame 1 rotate relative to each other. This ensures stability of the shoulder sliders 11.

In conclusion, according to the adjustable clothes hanger, the two shoulder sliders 11 may be synchronously driven by pressing the upper hook 14 downwards and rotating the upper hook, so that widths of a right end and a left end of the main frame 1 are the same, and a width adjustment method is more simple, efficient, and easy. In addition, after clothes are hung on the main frame 1, the clothes can be adjusted based on an actual width of the clothes, to accurately match the main frame 1 with a size of the clothes. Therefore, the clothes are really not bulged and deformed. The upper hook 14 may be reset through the spring 132 when not used, to maintain the upper hook 14 in a normal freely-rotating state.

Although the embodiments of the present disclosure have been illustrated and described, it should be understood that those of ordinary skill in the art may make various changes, modifications, replacements, and variations to the above embodiments without departing from the principle and spirit of the present disclosure, and the scope of the present disclosure is limited by the appended claims and their legal equivalents.

Claims

1. An adjustable clothes hanger, comprising a main frame (1), wherein shoulder sliders (11) are movably disposed at two ends of the main frame (1), sliding racks (12) of which one ends extend inside the main frame (1) are disposed inside the shoulder sliders (11), driving gears (13) that engage with the two sliding racks (12) are movably disposed inside the main frame (1), an upper hook (14) of which one end extends inside the driving gears (13) is disposed at a top of the main frame (1), and lower hooks (15) are movably clamped inside the shoulder sliders (11);

the upper hook (14) is rotated to drive the driving gears (13) to rotate, the driving gears (13) simultaneously drive, based on a rotating direction of the upper hook (14), the two sliding racks (12) to move relative to each other or opposite to each other, and the shoulder sliders (11) synchronously move with the sliding racks (12), to fit different sizes of pieces of clothes.

2. The adjustable clothes hanger according to claim 1, wherein a fixing cap (142) is mounted at a bottom end of the upper hook (14) with a screw (141), and the fixing cap (142) is movably sleeved inside the driving gears (13).

3. The adjustable clothes hanger according to claim 2, wherein a polygonal groove (131) is provided in a lower middle part inside the driving gears (13), and the fixing cap (142) is in a polygonal shape and matched with the polygonal groove (131).

4. The adjustable clothes hanger according to claim 3, wherein a spring (132) of which one end abuts against a bottom of the fixing cap (142) is disposed inside the polygonal groove (131).

5. The adjustable clothes hanger according to claim 1, wherein sliding grooves (101) are provided on two sides of the main frame (1), sliders (111) are disposed on two sides of the shoulder sliders (11), and one ends, away from the shoulder sliders (11), of the sliders (111), extend inside the sliding grooves (101).

6. The adjustable clothes hanger according to claim 1, wherein a plurality of anti-slip strips (112) are disposed at tops of the shoulder sliders (11), length identifiers (102) are disposed at the top of the main frame (1), and an operation sign (143) of the hook is further disposed on the upper hook (14).

7. The adjustable clothes hanger according to claim 1, wherein a fixing base (16) is disposed inside the shoulder slider (11), the fixing base (16) is provided with a positioning hole I (161) and a positioning hole II (162), and an avoidance portion (163), a transition portion (164), and a positioning portion (165) are provided on an inner wall of the positioning hole II (162) in sequence.

8. The adjustable clothes hanger according to claim 7, wherein a hook (121) that is clamped with the positioning hole I (161) is disposed at one end of the sliding rack (12), and a limiting plate (122) is further disposed on a side of the sliding rack (12).

9. The adjustable clothes hanger according to claim 7, wherein a top of the lower hook (15) is movably sleeved inside the positioning hole II (162), and a positioning block (151) that is clamped with the positioning portion (165) is disposed at the top of the lower hook (15).

10. The adjustable clothes hanger according to claim 1, wherein clamping grooves (17) are disposed in the main frame (1), a lower baffle (18) is disposed at a bottom of the main frame (1), clamping blocks (181) that are clamped with the clamping grooves (17) are disposed at a top of the lower baffle (18), and a positioning post (182) of which one end extends inside the driving gear (13) is disposed on the lower baffle (18).