CN219115304U - Turnover cup stand - Google Patents

Abstract

The application discloses a turnover cup stand, which comprises a fixed frame, a cover part and a turnover plate; the fixed mount is fixedly arranged, the cover part is elastically rotatably arranged on one side of a placing cavity arranged in the fixed mount, and the turning plate is elastically rotatably arranged on the upper part of the other side of the placing cavity and opposite to the cover part; the turning plate and the cover part are suitable for forming at least one placing groove for placing the container; when the cover part is turned over and hidden, the cover part is suitable for turning over and extruding the turning plate to rotate into the placing cavity until the cover part is locked with the fixing frame. The beneficial effects of this application: the turning plate can be turned over, so that the installation height of the turning plate can be properly increased, and the depth of a placing groove formed by the turning plate and the covering part is increased; and when the container is placed, the placement stability of the container can be effectively improved.

Description

Turnover cup stand

Technical Field

The application relates to the technical field of automobile parts, in particular to a cup stand.

Background

The automobile cup stand is an important part of an automobile for placing beverage containers such as cups, beverage bottles, cans and the like. So as to avoid the shaking of the containers such as cups, beverage bottles, cans and the like in the running process of the automobile, and further to cause liquid pouring. The existing cup holders of the automobiles are basically of an open structure, so that when a container is not placed, the interior trim of the automobiles is not attractive. Therefore, the prior art provides a hidden cup holder which can be hidden when not in use. The existing hidden cup stand is shallow in placement depth, so that the placement effect of the container is poor. Therefore, improvements to existing hidden cup holders are now urgently needed.

Disclosure of Invention

One of the objects of the present application is to provide a cup holder that can facilitate placement of containers such as cups, beverage bottles, and cans.

In order to achieve the above purpose, the technical scheme adopted in the application is as follows: a turnover cup stand comprises a fixed frame, a cover part and a turnover plate; the fixing frame is fixedly arranged, the cover part is elastically rotatably arranged on one side of a placing cavity arranged in the fixing frame, and the turning plate is elastically rotatably arranged on the upper part of the other side of the placing cavity and opposite to the cover part; at least one placing groove for placing the container is formed between the turning plate and the covering part; when the cover part is turned over and hidden, the cover part is suitable for turning over and extruding the turning plate to rotate in the placing cavity until the cover part is locked with the fixing frame.

Preferably, one side of the turning plate is provided with at least one arc-shaped baffle; one side of the covering part is provided with at least one arc-shaped groove, and the groove and the baffle are mutually matched to form the placing groove; when the cover part is turned over to be hidden, the turning plate is suitable for driving the baffle to extend into the groove.

Preferably, the cover part is provided with a positioning component at a corresponding position of the groove, and the positioning component penetrates through the side wall of the groove and is suitable for contracting along the radial direction of the groove; and the size of the placing groove is suitable for being adjusted according to the shrinkage of the positioning component.

Preferably, the positioning component comprises a pair of connecting plates, the connecting plates are symmetrical to two sides of the groove, one end of each connecting plate is rotationally connected with the corresponding covering part through a torsion spring, and the other end of each connecting plate is provided with a positioning block penetrating through the side wall of the groove; when the container is placed in the placing groove, the positioning block is suitable for being extruded by the side wall of the container to drive the connecting plate to drive the positioning block to deflect around the connecting position and compress the torsion spring.

Preferably, the cover part is provided with a top block made of flexible materials; when the cover part is turned over and hidden, the cover part is suitable for extruding the turning plate through the top block to rotate towards the inside of the placing cavity.

Preferably, the cover part and the turning plate are elastically and rotatably connected with the fixing frame through torsion springs; an unlocking mechanism is arranged in the cover part, and a lock catch is arranged at the bottom of the placing cavity; when the cover part is turned over and hidden, the cover part is suitable for being locked with the lock catch through the unlocking mechanism; when the locking is released, the cover part and the turning plate are suitable for resetting and turning under the elasticity of the torsion spring.

Preferably, the unlocking mechanism comprises an unlocking key and a locking plate; the unlocking key is slidably arranged on the covering part, and the top of the unlocking key is positioned on the outer side of the covering part; the locking plate is rotatably arranged on the inner side of the covering part through a torsion spring, and one side of the locking plate is in abutting fit with the bottom of the unlocking key; when the cover part is hidden, the locking plate is suitable for locking the locking groove and the lock catch; when unlocking is performed, the unlocking key is pressed, so that the locking plate deflects away from the locking direction of the locking groove around the installation position by the pressure of the unlocking key until the locking groove is separated from the locking groove, and then the cover part and the turning plate elastically reset.

Preferably, the unlocking mechanism comprises an unlocking key, a traction plate and a locking plate; the unlocking key is slidably arranged on the covering part, and the top of the unlocking key is positioned on the outer side of the covering part; the locking plate is rotatably installed in the cover part, and the traction plate is rotatably installed in the cover part through the middle part and is positioned between the unlocking key and the locking plate; one end of the traction plate is in abutting fit with the unlocking key, and the other end of the traction plate is elastically connected with the locking plate through a tension spring; when the cover part is hidden, the locking plate is suitable for locking the locking groove and the lock catch; when unlocking is carried out, the unlocking key is pressed to drive the traction plate to rotate around the installation position, and then the tension spring pulls the locking plate to deflect away from the locking groove around the installation position in the direction away from the lock catch until the locking groove is separated from the lock catch, and then the cover part and the turning plate are elastically reset.

Preferably, the cover portion and the fixing frame are matched through a damping structure, so that after unlocking, the unfolding speed of the cover portion is reduced through the damping structure, and further the cover portion is prevented from being impacted in the unfolding process.

Preferably, the damping structure comprises a damping arm and a damping plate, the damping arm is arranged at the end part of the rotating shaft of the covering part, and the damping plate is arranged on the outer side wall of the fixing frame; the damping arm is adapted to cooperate with the damping plate via a damping member provided.

Compared with the prior art, the beneficial effect of this application lies in:

(1) The turning plate can be turned over, so that the installation height of the turning plate can be properly increased, and the depth of a placing groove formed by the turning plate and the covering part is increased; and when the container is placed, the placement stability of the container can be effectively improved.

(2) Through the extrusion cooperation of lid and turning over the board, can be when hiding the upset of lid, through the extrusion of lid to turning over the board with order about turning over the board and carry out the rotation to placing the chamber to can avoid the secondary to order about turning over the board, in order to improve the lid of saucer and close efficiency.

Drawings

Fig. 1 is a schematic view of the whole structure of the present utility model in a hidden state.

Fig. 2 is a schematic view of the whole structure of the present utility model in a use state.

Fig. 3 is a schematic top view of the present utility model in a use state.

Fig. 4 is a schematic cross-sectional view of the covering part in the present utility model.

Fig. 5 is a schematic cross-sectional view of the present utility model in a hidden state.

Fig. 6 is a schematic structural view of an unlocking mechanism in the present utility model.

Fig. 7 is a schematic diagram of a connection structure of the unlocking mechanism when the unlocking mechanism is in a hidden state.

In the figure: mount 100, placement cavity 110, lock catch 111, damping plate 120, cover 2, groove 200, rotation shaft 21, damping arm 211, top block 22, connection plate 23, positioning block 231, placement groove 240, unlocking mechanism 3, unlocking key 31, traction plate 32, locking plate 33, locking groove 330, tension spring 34, turning plate 400, baffle 410, torsion spring 500.

Detailed Description

The present application will be further described with reference to the specific embodiments, and it should be noted that, on the premise of no conflict, new embodiments may be formed by any combination of the embodiments or technical features described below.

In the description of the present application, it should be noted that, for the azimuth terms such as terms "center", "lateral", "longitudinal", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., the azimuth and positional relationships are based on the azimuth or positional relationships shown in the drawings, it is merely for convenience of describing the present application and simplifying the description, and it is not to be construed as limiting the specific protection scope of the present application that the device or element referred to must have a specific azimuth configuration and operation, as indicated or implied.

It should be noted that the terms "first," "second," and the like in the description and in the claims of the present application are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order.

In a preferred embodiment of the present application, as shown in fig. 1 to 7, a flip-type cup holder includes a fixing frame 100, a cover 2, and a flap 400. The fixing frame 100 is fixedly installed in a central channel assembly of an automobile, and a placing cavity 110 is arranged on the fixing frame 100. The cover part 2 is elastically rotatably installed at one side of the placing cavity 110; the flap 400 is elastically rotatably installed at the upper portion of the other side of the placement chamber 110 and is disposed opposite to the cover 2.

When the cup holder is in use, at least one placement groove 240 for placing a container can be formed in the placement cavity 110 between the flap 400 and the lid 2. Due to the reversible arrangement of the turning plate 400, the installation height of the turning plate 400 can be properly increased, and the depth of the placing groove 240 formed by the turning plate 400 and the cover part 2 can be properly increased, so that the placing stability of the container can be effectively improved when the container is placed.

When the cup holder needs to be hidden, the cover 2 can be turned over, and in the process of turning over the cover 2, the cover 2 can press the turning plate 400 to drive the turning plate 400 to rotate towards the inner direction of the placing cavity 110 until the cover 2 and the fixing frame 100 are locked. The cover part 2 drives the turning plate 400 to rotate in the turning process, so that the turning plate 400 can be prevented from being driven for the second time, and the cover hiding efficiency of the cup stand can be effectively improved. When the cup stand needs to be used again, the locking of the cover part 2 and the fixing frame 100 is only required to be released, and then the cover part 2 and the turning plate 400 can reset and deflect automatically under the action of elastic force.

Specifically, as shown in fig. 1, 2, 5 and 7, the overall cross-sectional shape of the covering portion 2 is L-shaped, the covering portion 2 may be rotationally connected with the fixing frame 100 through a rotating shaft 21 disposed at two sides of one end, and the rotating shaft 21 and the fixing frame 100 are cooperatively connected through a torsion spring 500, so that elastic rotational connection between the covering portion 2 and the fixing frame 100 may be achieved. The turning plate 400 is rotatably connected with the fixing frame 100 through the rotating shafts 21 at two sides of one end, and the rotating shafts 21 of the turning plate 400 are also matched and connected with the fixing frame 100 through the torsion springs 500, so that the elastic rotation connection of the turning plate 400 and the fixing frame 100 can be realized. When the cover 2 is turned over and hidden, the cover 2 can press the flap 400 away from the end of the rotating shaft 21 to drive the flap 400 to rotate toward the inside of the placement cavity 110.

In this embodiment, as shown in fig. 2, 3 and 7, a top block 22 made of a flexible material is provided on the covering portion 2. When the cover 2 is turned over and hidden, the cover 2 can press the flap 400 through the top block 22 to rotate toward the inside of the placement cavity 110.

It can be appreciated that if the cover portion 2 is directly press-fitted with the flap 400, a large number of scratches may occur at the edge of the flap 400, thereby affecting the overall aesthetic property of the cup holder. Through setting up the kicking block 22 of flexible material on closing portion 2, through the extrusion cooperation of kicking block 22 and turning over board 400, can effectually reduce or avoid turning over board 400's wearing and tearing. The top block 22 may be made of rubber or the like.

In this embodiment, as shown in fig. 2, 3 and 5, one side of the flap 400 is provided with at least one arcuate baffle 410. At least one arc-shaped groove 200 is provided at one side of the cover part 2, and the groove 200 and the baffle 410 are matched with each other to form the placement groove 240. When the cover 2 is turned over and hidden, the flap 400 can drive the baffle 410 to extend into the groove 200.

It should be noted that in the conventional cup holder structure, one side of the flap 400 is also provided with an arc-shaped groove, and the arc-shaped groove and the groove 200 of the cover 2 may be matched with each other to form the placement groove 240. But is limited by the closing of the flap 410 by the closing portion 2, so that the installation height of the flap 410 is limited (at most, only flush with the upper end of the fixing frame 100).

In order to further increase the depth of the placement groove 240, the baffle 410 may be disposed upward along the position of the original arc-shaped groove on the flap 400, and the depth of the placement groove 240 may be effectively increased by the baffle 410. When the cover 2 is turned over and hidden, the flap 400 just can receive the baffle 410 in the groove 200 of the cover 2, so that interference of the baffle 410 to the cover 2 can be avoided.

It should be understood that the number of the placement grooves 240 may be set according to actual needs, for example, as shown in fig. 2 and 3, the number of the placement grooves 240 is two, and the number of the baffles 410 on the flap 400 is two, and the number of the grooves 200 on the covering portion 2 is also two. Also, in order to ensure that the barrier 410 can be well received in the groove 200, the width dimension of the barrier 410 is smaller than the opening dimension of the groove 200.

In one embodiment of the present application, as shown in fig. 2, 3 and 4, the cover 2 is provided with a positioning component at a corresponding position of the groove 200, and the positioning component penetrates through a side wall of the groove 200 and can shrink along a radial direction of the groove 200; the size of the placement groove 240 can be adjusted according to the shrinkage of the positioning member so as to facilitate placement of containers of different sizes.

It will be appreciated that the dimensions of the placement groove 240 in conventional cup holders are generally fixed so that when a container having a smaller diameter than the placement groove 240 is placed, the container is prone to sloshing during travel of the vehicle. And for larger sized containers, it is not possible to fit into the placement tank 240. In order to adapt to the containers with different sizes, the positioning component arranged in the embodiment can shrink according to the sizes of the containers, so that clamping spaces with different sizes can be formed, and the containers can be clamped while being placed with different sizes, so that the containers can be kept stable in the running process of an automobile.

In this embodiment, the specific structure of the positioning member is various, including but not limited to the following two.

Structure one: as shown in fig. 4, the positioning member includes a pair of connection plates 23, and the connection plates 23 are symmetrical to both sides of the groove 200 and are located inside the covering portion 2. One end of the connection plate 23 is rotatably connected with the cover 2 through the torsion spring 500, and the other end of the connection plate 23 is provided with a positioning block 231 penetrating through the sidewall of the groove 200. When the container is placed in the placement groove 240, the positioning block 231 can be pressed against the side wall of the container to drive the connecting plate 23 to drive the positioning block 231 to deflect around the connecting position and compress the torsion spring 500.

And (2) a structure II: the positioning component comprises a connecting plate 23, the connecting plate 23 is opposite to the middle part of the groove 200 and is slidably arranged in the cover part 2 along the radial direction of the groove 200, one end of the connecting plate 23, which is far away from the groove 200, is connected with the cover part 2 through a spring, and the other end of the connecting plate 23 is provided with a pair of positioning blocks 231 penetrating through the side wall of the groove 200; two positioning blocks 231 are respectively positioned at two sides of the groove 200. When the container is placed in the placement groove 240, the positioning block 231 can be pressed against the side wall of the container to drive the connecting plate 23 to drive the positioning block 231 to slide along the radial direction of the groove 200 and compress the spring.

It will be appreciated that at least three-point support of the side walls of the container in different positions is required to achieve stable gripping of the container. Wherein, the baffle 410 can be regarded as a point support for the container, so at least two support points, namely two positioning blocks 231 in the embodiment, need to be added to ensure the placement stability of the container; of course, the more support points, the more stable the support of the container, so the number of positioning blocks 231 is at least two. Of course, if the size of the baffle 410 is wide enough, it can be considered as two points or one arc surface for supporting the container, and thus the number of the positioning blocks 23 need only be one. In the present embodiment, therefore, the number of the positioning blocks 23 is at least one, preferably two.

In one embodiment of the present application, as shown in fig. 1, 2, 3 and 7, an unlocking mechanism 3 is installed in the cover 2, and a lock catch 111 is disposed at the bottom of the placement cavity 110. When the cover part 2 is turned over and hidden, the cover part 2 can be locked with the lock catch 111 through the unlocking mechanism 3; when the locking is released, the cover part 2 and the turning plate 400 can reset and turn by themselves under the elasticity of the torsion spring 500.

In the present embodiment, the specific structure of the unlocking mechanism 3 is various, including but not limited to the following two types.

Structure one: as shown in fig. 7, the unlocking mechanism 3 includes an unlocking key 31 and a locking plate 33. The unlocking key 31 is slidably mounted on the cover part 2, and the top of the unlocking key 31 is positioned on the outer side of the cover part 2; the locking plate 33 is rotatably mounted on the inner side of the cover portion 2 through a torsion spring 500, and one side of the locking plate 33 is matched with the bottom of the unlocking key 31 in a propped manner. When the lid 2 is hidden, the lock plate 33 can be locked by being engaged with the lock catch 111 through the lock groove 330. When unlocking is performed, the unlocking key 31 is pressed, so that the locking plate 33 deflects the locking groove 330 away from the lock catch 111 around the installation position by the pressure of the unlocking key 31 until the locking groove 330 is completely separated from the lock catch 111. The cover 2 and the flap 400 can then return elastically by themselves under the force of the torsion spring 500.

And (2) a structure II: as shown in fig. 6 and 7, the unlocking mechanism 3 includes an unlocking key 31, a pulling plate 32, and a locking plate 33. The unlocking key 31 is slidably mounted on the cover part 2, and the top of the unlocking key 31 is positioned on the outer side of the cover part 2; the locking plate 33 is rotatably installed in the cover part 2, and the traction plate 32 is rotatably installed in the cover part 2 through the middle part and is positioned between the unlocking key 31 and the locking plate 33; one end of the traction plate 32 is matched with the unlocking key 31 in a propping way, and the other end of the traction plate 32 is elastically connected with the locking plate 33 through a tension spring 34. When the cover 2 is hidden, the locking plate 33 can be locked with the lock catch 111 through the locking groove 330; when unlocking is performed, the unlocking key 31 is pressed to drive the traction plate 32 to rotate around the installation position, and then the tension spring 34 pulls the locking plate 33 around the installation position to deflect the locking groove 330 away from the direction of the lock catch 111 until the locking groove 330 is separated from the lock catch 111. The cover 2 and the flap 400 can then return elastically by themselves under the force of the torsion spring 500.

It will be appreciated that the arrangement of the first and second configurations described above depends on the installation position of the unlocking key 31; taking fig. 7 as an example, if the projection of the unlocking key 31 in the vertical direction is located on the right side of the lock catch 111, the specific structure of the unlocking mechanism 3 needs to adopt the structure two described above. If the projection of the unlocking key 31 in the vertical direction is located at the left side of the lock catch 111, the specific structure of the unlocking mechanism 3 needs to adopt the first structure. The position design of the unlocking key 31 can be selected according to the common driving habit of the driver at the actual installation position of the cup holder. Namely, the actual installation position of the cup holder is relatively back, the position of the unlocking key 31 needs to be relatively front so as to be convenient for a driver to operate; the actual mounting position of the cup holder is relatively forward, and the unlocking key 31 is required to be relatively backward, so that the operation of a driver is facilitated.

It should be noted that, after the unlocking mechanism 3 unlocks the cover portion 2, if the operator releases the unlocking key 31, the cover portion 2 can be rapidly unfolded under the elastic force of the torsion spring 500, and further, when the cover portion is unfolded to the limit position, a large inertial impact is easily generated, so as to damage the connection structure between the cover portion 2 and the fixing frame 100.

In order to reduce or avoid the impact of the cover 2 caused by the deployment, one embodiment of the present application, as shown in fig. 1 and 2, is to cooperate with the mount 100 through a damping structure between the cover 2; so that after unlocking, the deployment speed of the covering part 2 is reduced by the damping structure.

In this embodiment, as shown in fig. 1 and 2, the damping structure includes a damping arm 211 and a damping plate 120. The damping arm 211 is arranged at the end part of the rotating shaft 21 of the cover part 2, and the damping plate 120 is arranged on the outer side wall of the fixing frame 100; the damper arm 211 may be engaged with the damper plate 120 by an end-mounted damper member, thereby achieving a reduction in the deployment speed of the lid portion 2.

It should be noted that the cover 2 may be engaged with both sides of the fixing frame 100 through the damping structure by the rotating shafts 21 at both sides, so as to further improve the damping effect. And the damping member and the damping plate 120 are engaged in various manners, such as friction engagement, rolling engagement, etc.

Specifically, when the damping member and the damping plate 120 are friction-fitted, the damping member may employ a damping block, and frictional contact is employed between the damping block and the damping plate 120. Thus, when the cover 2 is unfolded, the damper block can reduce the unfolding speed of the cover 2 by sliding friction along the damper plate 120.

When the damping component and the damping plate 120 are in rolling fit, the damping component can be a gear, and then the damping plate 120 is correspondingly provided with a rack. Therefore, when the cover 2 is unfolded, the damping arm 211 can be meshed with the rack on the damping plate 120 through the gear, and the unfolding speed of the cover 2 can be further reduced.

It should be appreciated that the specific configuration of the damping member includes, but is not limited to, the two types described above.

The foregoing has outlined the basic principles, main features and advantages of the present application. It will be appreciated by persons skilled in the art that the present application is not limited to the embodiments described above, and that the embodiments and descriptions described herein are merely illustrative of the principles of the present application, and that various changes and modifications may be made therein without departing from the spirit and scope of the application, which is defined by the appended claims. The scope of protection of the present application is defined by the appended claims and equivalents thereof.

Claims (10)

1. A convertible cup holder, comprising:

the fixing frame is provided with a placing cavity;

the cover part is elastically rotatably arranged on one side of the placing cavity; and

the turning plate is elastically rotatably arranged at the upper part of the other side of the placing cavity and is opposite to the covering part; at least one placing groove for placing the container is formed between the turning plate and the covering part;

when the cover part is turned over and hidden, the cover part is suitable for turning over and extruding the turning plate to rotate in the placing cavity until the cover part is locked with the fixing frame.

2. The flip-top cup holder of claim 1, wherein: one side of the turning plate is provided with at least one arc-shaped baffle; one side of the covering part is provided with at least one arc-shaped groove, and the groove and the baffle are mutually matched to form the placing groove; when the cover part is turned over to be hidden, the turning plate is suitable for driving the baffle to extend into the groove.

3. The flip-top cup holder of claim 2, wherein: the cover part is provided with a positioning part at a corresponding position of the groove, and the positioning part penetrates through the side wall of the groove and is suitable for contracting along the radial direction of the groove; and the size of the placing groove is suitable for being adjusted according to the shrinkage of the positioning component.

4. A roll-over cup holder as recited in claim 3, wherein: the positioning component comprises a pair of connecting plates, the connecting plates are symmetrical to two sides of the groove, one end of each connecting plate is rotationally connected with the corresponding covering part through a torsion spring, and the other end of each connecting plate is provided with a positioning block penetrating through the side wall of the groove;

when the container is placed in the placing groove, the positioning block is suitable for being extruded by the side wall of the container to drive the connecting plate to drive the positioning block to deflect around the connecting position and compress the torsion spring.

5. The flip-top cup holder of claim 1, wherein: the cover part is provided with a top block made of flexible materials; when the cover part is turned over and hidden, the cover part is suitable for extruding the turning plate through the top block to rotate towards the inside of the placing cavity.

6. The flip-top cup holder of any one of claims 1-5, wherein: the cover part and the turning plate are elastically and rotatably connected with the fixing frame through torsion springs; an unlocking mechanism is arranged in the cover part, and a lock catch is arranged at the bottom of the placing cavity; when the cover part is turned over and hidden, the cover part is suitable for being locked with the lock catch through the unlocking mechanism; when the locking is released, the cover part and the turning plate are suitable for resetting and turning under the elasticity of the torsion spring.

7. The flip-top cup holder of claim 6, wherein: the unlocking mechanism comprises an unlocking key and a locking plate; the unlocking key is slidably arranged on the covering part, and the top of the unlocking key is positioned on the outer side of the covering part; the locking plate is rotatably arranged on the inner side of the covering part through a torsion spring, and one side of the locking plate is in abutting fit with the bottom of the unlocking key;

when the cover part is hidden, the locking plate is suitable for locking the locking groove and the lock catch;

when unlocking is carried out, the unlocking key is pressed, so that the locking plate deflects the locking groove away from the locking direction around the installation position by the pressure of the unlocking key until the locking groove is separated from the locking buckle.

8. The flip-top cup holder of claim 6, wherein: the unlocking mechanism comprises an unlocking key, a traction plate and a locking plate; the unlocking key is slidably arranged on the covering part, and the top of the unlocking key is positioned on the outer side of the covering part; the locking plate is rotatably installed in the cover part, and the traction plate is rotatably installed in the cover part through the middle part and is positioned between the unlocking key and the locking plate; one end of the traction plate is in abutting fit with the unlocking key, and the other end of the traction plate is elastically connected with the locking plate through a tension spring;

when the cover part is hidden, the locking plate is suitable for locking the locking groove and the lock catch;

when unlocking is carried out, the unlocking key is pressed to drive the traction plate to rotate around the installation position, and then the tension spring pulls the locking plate to deflect away from the locking groove around the installation position in the direction away from the lock catch until the locking groove is separated from the lock catch.

9. The flip-top cup holder of claim 6, wherein: the cover portion and the fixing frame are matched through a damping structure, so that after unlocking, the unfolding speed of the cover portion is reduced through the damping structure.

10. The flip-top cup holder of claim 9, wherein: the damping structure comprises a damping arm and a damping plate, the damping arm is arranged at the end part of the rotating shaft of the covering part, and the damping plate is arranged on the outer side wall of the fixing frame; the damping arm is adapted to cooperate with the damping plate via a damping member provided.

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