CN211287185U

CN211287185U - Adjustable embedded hinge structure with damper

Info

Publication number: CN211287185U
Application number: CN201921530891.6U
Authority: CN
Inventors: 伍志勇
Original assignee: Guangdong DTC Hardware Precision Manufacturing Co Ltd
Current assignee: Guangdong DTC Hardware Precision Manufacturing Co Ltd
Priority date: 2019-09-12
Filing date: 2019-09-12
Publication date: 2020-08-18
Anticipated expiration: 2029-09-12

Abstract

An adjustable embedded hinge structure with a damper comprises a hinge cup and a support which are hinged and opened and closed through a connecting arm assembly, wherein the connecting arm assembly comprises an outer connecting arm and an inner connecting arm, one end of the outer connecting arm and one end of the inner connecting arm are respectively hinged with the hinge cup, and the other end of the outer connecting arm and the other end of the inner connecting arm are respectively hinged with the support; the bracket is also provided with a damper which is positioned between the outer connecting arm and the inner connecting arm; the outer connecting arm or the inner connecting arm acts and drives the damper to generate damping force at least when the hinged cup is hinged and closed relative to the support, so that the hinged cup is hinged and closed relative to the support in a damping mode. The utility model discloses an above-mentioned structure's improvement has simple structure rationally, the dependable performance, low in manufacturing cost, and the production implementation is easy, opens and shuts steadily, smooth and easy, no collision, characteristics such as long service life and safe and reliable, the practicality is strong.

Description

Adjustable embedded hinge structure with damper

Technical Field

The utility model relates to a take adjustable formula hinge structure of buryying of attenuator.

Background

Chinese patent document No. CN201695827U, 5.1.2011, discloses a furniture hinge, which includes a fixed arm and a movable cup seat connected by a swing arm assembly, and a spring for generating a closing force at least on the movable cup seat is disposed in the hinge. The utility model discloses a state, this utility model through set up more than two-stage spring in the hinge, make the hinge open or close to certain angle, make the hinge realize completely automatically through the resultant force of the effort of spring at all levels or close, because in this process, the effort of hinge action is born by the spring at all levels respectively, thus improve the life of spring at each level greatly, especially in the continuous working life test process of opening and shutting the hinge continuously, can embody the life superiority of the hinge more than two-stage spring herein more (the continuous working life test of opening and shutting can exceed 5 ten thousand times), simultaneously, the diameter of spring can also be reduced appropriately; however, in the hinge, the buffer is fixedly connected with the pull rod of the buffer through the steering element all the time, so that the door body can be acted by the buffer when the door is closed or opened, and if the buffer deviates when the door body is opened, the actual effect of opening or closing the door can be influenced; and each part in the hinge is hinged point to point through the bearing, all the stress acts on the buffer along with the opening and closing of the hinge, the service life of the buffer is influenced for a long time, the connection mode does not have a good buffering effect, the collision force between furniture is large, the furniture is easy to damage, the problem of high noise can be caused during collision, the opening and closing speed of the hinge cannot be adjusted, and the daily use requirement of a user cannot be met. Therefore, further improvements are necessary.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a simple structure is reasonable, the dependable performance, low in manufacturing cost, and the production implementation is easy, opens and shuts steadily, smooth and easy, the collision-free, long service life and safe and reliable's adjustable formula hinge structure of buryying of taking the attenuator to overcome the weak point among the prior art.

According to the adjustable formula hinge structure of burying of this purpose design, include hinge cup and the support of articulated switching each other through the linking arm subassembly, its characterized in that: the connecting arm assembly comprises an outer connecting arm and an inner connecting arm, one end of the outer connecting arm and one end of the inner connecting arm are respectively hinged with the hinged cup, and the other end of the outer connecting arm and the other end of the inner connecting arm are respectively hinged with the bracket; the bracket is also provided with a damper which is positioned between the outer connecting arm and the inner connecting arm; the outer connecting arm or the inner connecting arm acts and drives the damper to generate damping force at least when the hinged cup is hinged and closed relative to the support, so that the hinged cup is hinged and closed relative to the support in a damping mode.

The outer connecting arm is hinged on the bracket and forms an outer arm hinge point, the inner connecting arm is hinged on the bracket and forms an inner arm hinge point, and a certain connecting arm interval is formed between the outer arm hinge point and the inner arm hinge point; the damper is positioned between the hinge point of the outer arm and the hinge point of the inner arm; the outer connecting arm or the inner connecting arm extends with a damping action part and at least acts through the damping action part when the hinged cup is hinged and closed relative to the bracket and drives the damper to generate damping force.

The middle part of the outer connecting arm extends towards the direction of the damper to form a damping action part, and the damping action part is mutually depended on the damper or forms a certain gap with the damper at least when the hinged cup is hinged and opened relative to the support, and acts and drives the damper to generate damping force at least when the hinged cup is hinged and closed relative to the support.

The bracket is provided with an elastic piece; the outer connecting arm and/or the inner connecting arm extend with an elastic acting part, and at least when the hinged cup is hinged and closed relative to the bracket, the elastic acting part acts and drives the elastic piece to generate elastic closing force.

The elastic action part and the damper form a certain distance, and the elastic action part and the damper do not interfere with each other when the hinged cup is hinged to the support to open and close.

The two elastic pieces are respectively a first elastic piece and a second elastic piece; one end of the outer connecting arm and one end of the inner connecting arm are hinged with the hinged cup through the rotating shaft respectively, the middle parts of the outer connecting arm and the inner connecting arm are hinged with the support through the rotating shaft respectively, the other ends of the outer connecting arm and the inner connecting arm extend to form elastic action parts respectively, and the elastic action parts respectively act and drive the first elastic piece and the second elastic piece to generate elastic closing force at least when the hinged cup is hinged and closed relative to the support.

The first elastic piece and the second elastic piece are arranged independently, a certain distance is formed between the first elastic piece and the second elastic piece, and elastic acting force is generated towards the closing direction of the hinge cup and the bracket when the hinge cup is hinged and closed to a position relative to the bracket; one end of the first elastic piece elastically acts on the support, the other end of the first elastic piece elastically acts on the elastic action part of the outer connecting arm, one end of the first elastic piece elastically acts on the support, and the other end of the first elastic piece elastically acts on the elastic action part of the inner connecting arm.

A guide part is arranged between the damping action part and the damper, and/or between the first elastic part and the elastic action part of the outer connecting arm, and/or between the second elastic part and the elastic action part of the inner connecting arm; the damping action part and the damper, and/or the first elastic part and the elastic action part of the outer connecting arm, and/or the second elastic part and the elastic action part of the inner connecting arm are/is in rotating or sliding mutual guide action through the guide part.

The bracket is also provided with a pushing piece and an intermediate piece; one end of each of the outer connecting arm and the inner connecting arm is hinged with the hinged cup, the other end of each of the outer connecting arm and the inner connecting arm is hinged with the middle piece, and the damper is arranged on the middle piece and positioned between the outer connecting arm and the inner connecting arm; the intermediate piece is arranged on the bracket, the pushing piece is arranged on the intermediate piece, and the pushing piece and the intermediate piece are mutually in driving connection.

And a front-back adjusting piece is arranged between the pushing piece and the support, is positioned and rotated on the support and drives the pushing piece and/or the intermediate piece to move back and forth relative to the support during positioning and rotation so as to realize front-back position adjustment between the support and the hinged cup.

A left adjusting piece and a right adjusting piece are arranged between the pushing piece and the middle piece, the left adjusting piece and the right adjusting piece are positioned and rotated on the pushing piece and drive the middle piece to move left and right relative to the pushing piece during positioning and rotation, and therefore left and right position adjustment between the support and the hinge cup is achieved.

An upper adjusting piece and a lower adjusting piece are arranged between the hinged cup and the outer connecting arm and/or the inner connecting arm, the upper adjusting piece and the lower adjusting piece are positioned and rotated on the hinged cup and drive the outer connecting arm and/or the inner connecting arm to move up and down relative to the hinged cup when the upper adjusting piece and the lower adjusting piece are positioned and rotated, so that the upper position and the lower position between the support and the hinged cup are adjusted.

The utility model discloses an improvement of above-mentioned structure, compared with the prior art, has following advantage:

1. the hinge cup can be hinged and opened and closed on the bracket by utilizing the matching of the outer connecting arm and the inner connecting arm, thereby effectively simplifying the dismounting and mounting process between the hinge cup and the bracket.

2. The damper is arranged on the middle part of the bracket and is positioned between the outer connecting arm and the inner connecting arm, so that the spatial position of the bracket can be effectively utilized, and the outer connecting arm and the inner connecting arm do not interfere with the damper when the hinge is opened and closed, thereby improving the use stability of all components; the outer connecting arm then produces damping force through the damping effect portion effect and drive attenuator when the hinge is closed, can realize that the damping of the relative support of hinge cup is articulated to be closed, avoids the mutual collision of hinge cup and support when closing to prolong the life of hinge, improve user's use and experience, still make the hinge accomplish smooth and easy, the effect of silence when the switching.

3. The hinge comprises a hinge body, a hinge cup and a hinge cup, wherein the hinge cup is provided with a hinge opening and a hinge closing hole, the hinge opening and the hinge cup are arranged on the hinge body, the hinge opening and the hinge closing hole are respectively provided with a first elastic piece and a second elastic piece, the outer connecting arm and the inner connecting arm can respectively act through an elastic action part and drive the first elastic piece and the second elastic piece to generate elastic closing force when the hinge is closed, and the damping force generated by a damper is overcome by utilizing the elastic closing force, so that the hinge cup can be automatically and elastically closed relative to the hinge cup.

4. First elastic component and second elastic component mutual independence set up, and form certain interval between the two, and two elastic components can use and form the elastic force of relative balance between outer link arm and the inner link arm, make the articulated switching effect between hinge cup and the support better, and the stationarity is higher during the hinge switching.

5. Guide parts are arranged between the damping action part and the damper, and/or between the first elastic part and the elastic action part of the outer connecting arm, and/or between the second elastic part and the elastic action part of the inner connecting arm, and the guide parts rotate or slide to each other to mutually guide each other, so that the problem that the hinge opening and closing processes are unsmooth or the noise is high due to the fact that the components suddenly collide with each other when the hinge cup is hinged to and opened and closed relative to the support can be effectively avoided, and the use experience of a user is further improved; in addition, in the opening and closing process of the hinge, the guide part not only has the effect of smooth transition, the pressure intensity of interaction between the damping action part and the damper, and/or between the first elastic part and the elastic action part of the outer connecting arm, and/or between the second elastic part and the elastic action part of the inner connecting arm is greatly reduced, the abrasion is reduced, the service life of the hinge is prolonged, the effect of controlling the opening and closing speed and force of the hinge can be further achieved, and the hinged noiseless, uniformly accelerated or uniformly decelerated opening and closing can be really realized.

6. The front adjusting piece, the rear adjusting piece, the left adjusting piece, the right adjusting piece and the upper adjusting piece are arranged between the pushing piece and the support, between the pushing piece and the middle piece, and between the hinge cup and the outer connecting arm and/or the inner connecting arm respectively.

7. The hinge of the structure is embedded in the furniture, so that the occupied internal space of the furniture can be effectively reduced, and the internal utilization rate of the furniture is improved.

In summary, the novel folding bicycle has the characteristics of simple and reasonable structure, reliable performance, low manufacturing cost, easiness in production and implementation, stability and smoothness in opening and closing, no collision, long service life, safety, reliability and the like, and is high in practicability.

Drawings

Fig. 1 is a schematic view of an assembly structure of a hinge, a furniture door body, and a furniture cabinet body according to a first embodiment of the present invention.

Fig. 2 is a schematic view of a hinge assembly structure according to a first embodiment of the present invention.

Fig. 3 is an exploded view of the hinge according to the first embodiment of the present invention.

Fig. 4 is a schematic view (partially cut away after omitting intermediate parts) of a hinge assembly structure according to a first embodiment of the present invention.

Fig. 5-7 are schematic views illustrating the opening and closing processes of the hinge according to the first embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Referring to fig. 1 to 7, the adjustable embedded hinge structure with a damper includes a hinge cup 1 and a bracket 2 hinged to each other for opening and closing through a connecting arm assembly, the connecting arm assembly includes an outer connecting arm 3 and an inner connecting arm 4, one end of the outer connecting arm 3 and one end of the inner connecting arm 4 are hinged to the hinge cup 1, and the other end of the outer connecting arm 3 and the other end of the inner connecting arm are hinged to the bracket 2; the bracket 2 is also provided with a damper 5, and the damper 5 is positioned between the outer connecting arm 3 and the inner connecting arm 4; the outer connecting arm 3 or the inner connecting arm 4 acts and drives the damper 5 to generate damping force at least when the hinge cup 1 is hinged and closed relative to the bracket 2, so that the hinge cup 1 is hinged and closed relative to the bracket 2 in a damping mode.

The hinge cup 1 and the support 2 are respectively embedded and fixedly arranged on the furniture door body A and the furniture cabinet body B, the internal space of furniture occupied by the hinge can be effectively reduced, the internal utilization rate of the furniture is improved, the problem that the hinge falls off or the user is injured due to the fact that the user mistakenly touches the hinge when the hinge is used can be avoided, and the use safety of a product is improved.

The outer connecting arm 3 is hinged on the bracket 2 and forms an outer arm hinge point, the inner connecting arm 4 is hinged on the bracket 2 and forms an inner arm hinge point, and a certain connecting arm interval is formed between the outer arm hinge point and the inner arm hinge point; the damper 5 is positioned between the hinge point of the outer arm and the hinge point of the inner arm.

The outer connecting arm 3 or the inner connecting arm 4 extends with a damping action part 6, and at least when the hinge cup 1 is hinged and closed relative to the bracket 2, the damping action part 6 acts and drives the damper 5 to generate damping force.

The middle part of the outer connecting arm 3 extends towards the damper 5 to form a damping action part 6, and the damping action part 6 is mutually depended on or forms a certain gap with the damper 5 at least when the hinge cup 1 is hinged and opened relative to the support 2, and acts and drives the damper 5 to generate damping force at least when the hinge cup 1 is hinged and closed relative to the support 2.

The bracket 2 is provided with an elastic piece; the outer connecting arm 3 and/or the inner connecting arm 4 extend with elastic action parts 7, and at least when the hinge cup 1 is hinged and closed relative to the bracket 2, the elastic action parts 7 act and drive the elastic pieces to generate elastic closing force.

The elastic action part 7 and the damper 5 form a certain distance, and the elastic action part and the damper do not interfere with each other when the hinged cup 1 is hinged to the bracket 2 for opening and closing.

The two elastic pieces are respectively a first elastic piece 8 and a second elastic piece 9; one end of the outer connecting arm 3 and one end of the inner connecting arm 4 are respectively hinged with the hinge cup 1 through a rotating shaft, the middle parts of the outer connecting arm and the inner connecting arm are respectively hinged with the support 2 through the rotating shaft, the other ends of the outer connecting arm and the inner connecting arm respectively extend to form an elastic action part 7, and the elastic action parts 7 respectively act and drive the first elastic part 8 and the second elastic part 9 to generate elastic closing force when the hinge cup 1 is hinged and closed relative to the support 2.

The first elastic element 8 and the second elastic element 9 are arranged independently, form a certain distance between the two and generate elastic acting force towards the closing direction of the two when at least the hinge cup 1 is hinged and closed to one position relative to the bracket 2; wherein, one end of the first elastic member 8 elastically acts on the bracket 2, the other end elastically acts on the elastic action portion 7 of the outer connecting arm 3, one end of the first elastic member 8 elastically acts on the bracket 2, and the other end elastically acts on the elastic action portion 7 of the inner connecting arm 4.

A guide part 10 is arranged between the damping action part 6 and the damper 5, and/or between the first elastic part 8 and the elastic action part 7 of the outer connecting arm 3, and/or between the second elastic part 9 and the elastic action part 7 of the inner connecting arm 4; the damping action part 6 and the damper 5, and/or the first elastic element 8 and the elastic action part 7 of the outer connecting arm 3, and/or the second elastic element 9 and the elastic action part 7 of the inner connecting arm 4 are rotatably or slidably guided to each other by the guide part 10.

The bracket 2 is also provided with a pushing piece 11 and an intermediate piece 12; one end of each of the outer connecting arm 3 and the inner connecting arm 4 is hinged with the hinged cup 1, the other end of each of the outer connecting arm and the inner connecting arm is hinged with the middle part 12, and the damper 5 is arranged on the middle part 12 and positioned between the outer connecting arm 3 and the inner connecting arm 4; the intermediate piece 12 is arranged on the support 2, the pushing piece 11 is arranged on the intermediate piece 12, and the two pieces are mutually connected in a driving way.

A front-back adjusting piece 13 is arranged between the pushing piece 11 and the bracket 2, the front-back adjusting piece 13 is positioned and rotated on the bracket 2, and the pushing piece 11 and/or the intermediate piece 12 are driven to move back and forth relative to the bracket 2 during the positioning and rotation, so that the front-back position adjustment between the bracket 2 and the hinge cup 1 is realized.

A left-right adjusting piece 14 is arranged between the pushing piece 11 and the middle piece 12, the left-right adjusting piece 14 is positioned and rotated on the pushing piece 11, and drives the middle piece 12 to move left and right relative to the pushing piece 11 during positioning and rotation so as to realize left-right position adjustment between the bracket 2 and the hinge cup 1.

An up-down adjusting piece 15 is arranged between the hinged cup 1 and the outer connecting arm 3 and/or the inner connecting arm 4, the up-down adjusting piece 15 is positioned and rotated on the hinged cup 1, and drives the outer connecting arm 3 and/or the inner connecting arm 4 to move up and down relative to the hinged cup 1 during positioning and rotation, so that up-down position adjustment between the support 2 and the hinged cup 1 is realized.

The drawings are for illustrative purposes only and are presented in the form of illustrations only, not illustrations as physical or logical, and should not be construed as limiting the present patent; for a better understanding of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Moreover, like or similar reference numerals in the drawings of the embodiments of the present invention correspond to like or similar parts; in the description of the present invention, it should be understood that, if there are any terms such as "upper", "lower", "left", "right", "vertical", "horizontal", "longitudinal", "top", "bottom", "inner", "outer", etc., indicating orientations or positional relationships based on the orientations or positional relationships shown in the drawings, the description is for convenience and simplicity, and it is not intended to indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore, the terms describing the positional relationships in the drawings are used for illustrative purposes only and are not to be construed as limiting the present patent.

Claims

1. The utility model provides a take adjustable formula hinge structure of buryying of attenuator, includes hinge cup (1) and support (2) through mutual articulated switching of linking arm subassembly, its characterized in that: the connecting arm assembly comprises an outer connecting arm (3) and an inner connecting arm (4), one end of the outer connecting arm (3) and one end of the inner connecting arm (4) are respectively hinged with the hinged cup (1), and the other end of the outer connecting arm (3) and the other end of the inner connecting arm are respectively hinged with the bracket (2); the support (2) is also provided with a damper (5), and the damper (5) is positioned between the outer connecting arm (3) and the inner connecting arm (4); the outer connecting arm (3) or the inner connecting arm (4) acts and drives the damper (5) to generate damping force at least when the hinged cup (1) is hinged and closed relative to the support (2), so that the hinged cup (1) is hinged and closed relative to the support (2) in a damping mode.

2. The adjustable buried hinge structure with damper according to claim 1, wherein: the outer connecting arm (3) is hinged to the support (2) and forms an outer arm hinge point, the inner connecting arm (4) is hinged to the support (2) and forms an inner arm hinge point, and a certain connecting arm interval is formed between the outer arm hinge point and the inner arm hinge point; the damper (5) is positioned between the hinge point of the outer arm and the hinge point of the inner arm; the outer connecting arm (3) or the inner connecting arm (4) extends to form a damping action part (6), and at least when the hinged cup (1) is hinged and closed relative to the support (2), the damping action part (6) acts and drives the damper (5) to generate damping force.

3. The adjustable buried hinge structure with damper according to claim 2, wherein: the middle part of the outer connecting arm (3) extends towards the damper (5) to form a damping action part (6), and the damping action part (6) is mutually dependent on the damper (5) or forms a certain gap at least when the hinged cup (1) is hinged and opened relative to the support (2), and acts and drives the damper (5) to generate damping force at least when the hinged cup (1) is hinged and closed relative to the support (2).

4. The adjustable buried hinge structure with damper according to claim 3, wherein: the bracket (2) is provided with an elastic piece; the outer connecting arm (3) and/or the inner connecting arm (4) extend with an elastic action part (7) and at least when the hinged cup (1) is hinged and closed relative to the bracket (2), the elastic action part (7) acts and drives the elastic piece to generate elastic closing force.

5. The adjustable buried hinge structure with damper according to claim 4, wherein: a certain distance is formed between the elastic action part (7) and the damper (5), and the elastic action part and the damper do not interfere with each other when the hinged cup (1) is hinged to the support (2) for opening and closing.

6. The adjustable buried hinge structure with damper according to claim 5, wherein: the two elastic pieces are respectively a first elastic piece (8) and a second elastic piece (9); the hinge is characterized in that one end of the outer connecting arm (3) and one end of the inner connecting arm (4) are hinged with the hinge cup (1) through rotating shafts respectively, the middle of the outer connecting arm is hinged with the support (2) through rotating shafts respectively, the other ends of the outer connecting arm and the inner connecting arm extend to form elastic action parts (7) respectively, and the elastic action parts (7) act and drive the first elastic piece (8) and the second elastic piece (9) to generate elastic closing force at least when the hinge cup (1) is hinged and closed relative to the support (2).

7. The adjustable buried hinge structure with damper according to claim 6, wherein: the first elastic piece (8) and the second elastic piece (9) are arranged independently, a certain distance is formed between the first elastic piece and the second elastic piece, and elastic acting force is generated towards the closing direction of the hinge cup (1) and the bracket (2) when the hinge cup is hinged and closed to a position relative to the bracket (2); wherein, one end of the first elastic piece (8) elastically acts on the bracket (2), the other end elastically acts on the elastic action part (7) of the outer connecting arm (3), one end of the first elastic piece (8) elastically acts on the bracket (2), and the other end elastically acts on the elastic action part (7) of the inner connecting arm (4).

8. The adjustable buried hinge structure with damper according to claim 7, wherein: a guide part (10) is arranged between the damping action part (6) and the damper (5), and/or between the first elastic part (8) and the elastic action part (7) of the outer connecting arm (3), and/or between the second elastic part (9) and the elastic action part (7) of the inner connecting arm (4); the damping action part (6) and the damper (5), and/or the first elastic part (8) and the elastic action part (7) of the outer connecting arm (3), and/or the second elastic part (9) and the elastic action part (7) of the inner connecting arm (4) are/is in rotating or sliding mutual guide action through the guide part (10).

9. The adjustable buried hinge structure with damper according to any one of claims 1 to 8, wherein: the support (2) is also provided with a pushing piece (11) and an intermediate piece (12); one end of the outer connecting arm (3) and one end of the inner connecting arm (4) are respectively hinged with the hinged cup (1), the other end of the outer connecting arm and the other end of the inner connecting arm are respectively hinged with the middle piece (12), and the damper (5) is arranged on the middle piece (12) and is positioned between the outer connecting arm (3) and the inner connecting arm (4); the middle piece (12) is arranged on the bracket (2), the pushing piece (11) is arranged on the middle piece (12), and the pushing piece and the middle piece are mutually connected in a driving way;

a front-back adjusting piece (13) is arranged between the pushing piece (11) and the support (2), the front-back adjusting piece (13) is positioned and rotated on the support (2), and drives the pushing piece (11) and/or the middle piece (12) to move back and forth relative to the support (2) when the front-back adjusting piece is positioned and rotated, so that the front-back position adjustment between the support (2) and the hinged cup (1) is realized;

a left-right adjusting piece (14) is arranged between the pushing piece (11) and the middle piece (12), the left-right adjusting piece (14) is positioned and rotated on the pushing piece (11), and the middle piece (12) is driven to move left and right relative to the pushing piece (11) during positioning and rotation, so that left-right position adjustment between the support (2) and the hinge cup (1) is achieved.

10. The adjustable buried hinge structure with damper according to claim 9, wherein: an upper adjusting piece and a lower adjusting piece (15) are arranged between the hinged cup (1) and the outer connecting arm (3) and/or the inner connecting arm (4), the upper adjusting piece and the lower adjusting piece (15) are positioned and rotated on the hinged cup (1), and the upper adjusting piece and the lower adjusting piece drive the outer connecting arm (3) and/or the inner connecting arm (4) to move up and down relative to the hinged cup (1) when positioned and rotated, so that the upper position and the lower position between the support (2) and the hinged cup (1) are adjusted.