CN109649241B - Depth-adjustable cup bracket - Google Patents

Abstract

The invention provides a cup bracket with adjustable depth, which comprises a base body with an annular side wall, a barrel body embedded from the bottom of the base body and capable of sliding along the axial direction of the base body, a reset assembly arranged between the base body and the barrel body to drive the barrel body to slide to a preset position at the top, and a retaining mechanism for enabling the barrel body to stay and retain at each preset position. The depth-adjustable cup bracket has the advantages that the barrel can be kept and maintained at a plurality of preset positions in the axial direction of the base body, multiple depth selections are provided, the depth-adjustable cup bracket can be well suitable for cups of various heights, and the depth-adjustable cup bracket has good practicability.

Description

Depth-adjustable cup bracket

Technical Field

The invention relates to the technical field of vehicle structures, in particular to a depth-adjustable water cup bracket.

Background

The automobile water cup bracket is one of important parts of an automobile and is usually arranged on an auxiliary instrument panel of the automobile so as to be convenient for a driver and passengers to place water cups and meet the drinking water requirement of the driver and passengers during long-time driving. The existing cup bracket is inconvenient for placing the cup, and different cups selected by different drivers are different, so that the cup can be completely placed in the cup bracket when the height of the cup is low, and the cup is inconvenient to take out. When the cup is high, the center of gravity of the cup is also high, and the cup may fly out of the cup holder along with sudden braking of the vehicle and the like, so that the cup may collide with the vehicle and cause danger. And when the drinking cup can not place in the drinking cup holds in the palm inside completely, the central handle in-process that slides can interfere with the drinking cup, causes the function failure that slides of handrail. Therefore, the cup bracket on the existing vehicle is often abandoned, and the practicability is poor.

Disclosure of Invention

In view of the above, the present invention is directed to a depth-adjustable cup holder, which can actively adjust the depth of the cup holder, and has better practicability.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

a depth-adjustable cup bracket is arranged on a vehicle and comprises:

a base fixed with respect to the vehicle body and having an annular side wall;

a cylinder embedded through the bottom of the substrate; the cylinder body can slide along the axial direction of the base body and can stay and be kept at a plurality of preset positions constructed in the axial direction of the base body;

the resetting component is arranged between the base body and the cylinder body and is configured to drive the cylinder body to slide to the preset position at the top;

the holding mechanism comprises a clamping component arranged on the base body and a positioning component which follows the barrel, wherein the positioning component is separated from the clamping component in a clamping way or a clamping way to form the stopping or resetting of the barrel.

Furthermore, a first mounting bracket and a second mounting bracket respectively extend outwards along the radial direction on the outer walls of the base body and the cylinder body, and the reset assembly is a first elastic piece connected between the first mounting bracket and the second mounting bracket.

Further, the first elastic piece is a tension spring.

Furthermore, a convex first sliding groove extends upwards from the bottom of the base body along the axial direction of the base body, and a second sliding groove which is parallel to the radial direction of the base body and is crossed with the first sliding groove is formed in the side wall of the base body; the positioning assembly is accommodated in the first sliding groove, and the clamping assembly is arranged in the second sliding groove.

Further, the clamping component comprises:

the clamping part is arranged in the second sliding groove in a sliding manner so as to form clamping or clamping separation with the positioning assembly;

the second elastic piece is connected with the clamping part so as to drive the clamping part to slide towards the direction of clamping connection with the positioning assembly;

the traction part is driven by the clamping part to be capable of switching between a traction state and a non-traction state through sliding, and the traction part in the traction state can pull the clamping part to enable the clamping part to be separated from the positioning assembly in a clamping mode.

Further, the second elastic member is a spring.

Further, the traction portion includes:

the traction block is fixedly arranged in the second sliding groove, and a traction groove arranged along the radial direction of the base body is formed in the traction block;

and one end of the swing rod is hinged with the clamping part, the other end of the swing rod is provided with a stop lever, and the stop lever can slide into or slide out of the traction groove due to the sliding drive of the clamping part.

Furthermore, a guide groove communicated with one end of the traction groove and a return groove communicated with the traction groove and the guide groove are formed on the traction block.

Further, the positioning assembly comprises:

the positioning parts are arranged on the barrel body in the axial direction at intervals, each positioning part comprises a blocking part which is in clamping fit with the clamping part, and a first pushing unit which bears pressure and pushes away the clamping part; the stop lever reciprocates in the guide groove due to the pushing of the first pushing unit and the second elastic piece to the clamping part;

the unlocking part is positioned above the positioning part and is provided with a second pushing unit which pushes the clamping part to enable the stop lever to fall into the traction groove from the guide groove,

and the reduction part is positioned below the positioning part and is provided with a third pushing unit which pushes the clamping part to enable the stop lever to return to the guide groove from the traction groove through the return groove.

Further, it is characterized in that: the clamping components are symmetrically arranged in two groups of the positioning components.

Compared with the prior art, the invention has the following advantages:

(1) the cup bracket with the adjustable depth is provided with a base body fixed relative to a vehicle and a barrel body capable of axially sliding along the base body, and the barrel body can stay at a plurality of positions in the axial direction of the base body and is kept at the positions through a retaining mechanism. The depth of the cup bracket is adjusted by adjusting the relative position of the barrel and the base body, so that the requirement for placing cups with different heights can be met, and the cup bracket has better practicability.

(2) The first elastic piece is arranged between the base body and the barrel body to provide the reset force for the barrel body to move upwards, and the structure is simple and effective.

(3) The arrangement of the first sliding groove and the second sliding groove facilitates positioning and installation of the clamping assembly and the positioning assembly.

(4) The sliding of the clamping part drives the traction part to switch between a traction state and a non-traction state, so that the resetting operation of the cylinder body is simple and convenient.

(5) The arrangement of the guide groove and the return groove can ensure that the traction part can be quickly switched between a traction state and a non-traction state.

(6) The two groups of positioning components are arranged to enable the depth adjustment process of the water cup bracket to be stable.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of an overall structure of a depth-adjustable cup holder according to an embodiment of the invention;

FIG. 2 is a schematic structural diagram of a cartridge according to an embodiment of the present invention; (ii) a

FIG. 3 is an exploded view of the clamping assembly according to the embodiment of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 1;

FIG. 5 is a schematic view of the connection of the grooves in the traction block;

FIG. 6 is an enlarged view at B in FIG. 3;

fig. 7 is a schematic view illustrating the engagement between the cover plate and the second sliding groove according to the embodiment of the present invention.

Description of reference numerals:

1-a base body, 11-a first mounting bracket, 12-a first sliding groove, 13-a second sliding groove, 14-a cover plate, 2-a barrel body, 21-a second mounting bracket, 3-a reset component, 4-a retaining mechanism, 41-a clamping component, 411-a clamping part, 4111-a body, 4112-an extension rod, 41121-a first inclined plane, 41122-a first plane, 412-a second elastic component, 413-a traction part, 4131-a traction block, 41311-a traction groove, 41312-a guide groove, 41313-a return groove, 4132-a swinging rod, 41321-a stop rod, 42-a positioning component, 421-a positioning part, 4211-a blocking unit, 4212-a first pushing unit, 422-an unlocking part, 4221-a second pushing unit, 423-a restoring part, 4231-third pushing unit, 424-first junction, 425-second junction.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

The embodiment relates to a cup bracket with adjustable depth, which is arranged on a vehicle. As shown in fig. 1 to 3, the depth-adjustable cup holder includes: the automobile body fixing device comprises a base body 1 fixed relative to an automobile body, and a cylinder 2 embedded from the bottom of the base body 1 and capable of sliding along the axial direction of the base body 1, wherein the cylinder 2 can stay and hold at a plurality of preset positions in the axial direction of the base body 1. In addition, the cup bracket with the adjustable depth further comprises a reset component 3 arranged between the base body 1 and the barrel body 2 and used for driving the barrel body 2 to slide towards the top preset position, and a retaining mechanism 4 used for enabling the barrel body 2 to stay and retain at each preset position.

In this embodiment, the base 1 has a structure as shown in fig. 1 and 3, and has a circular side wall; the cartridge 2 is constructed as shown in figure 2, with a circular side wall and a bottom wall for carrying a water cup. The cylinder 2 is inserted from the bottom of the base 1 and can slide along the axial direction of the base 1, and obviously, when the cylinder 2 slides upwards, the depth of the cup bracket formed by the base 1 and the cylinder 2 together becomes shallow, and when the cylinder 2 slides downwards, the depth of the cup bracket becomes deep.

The setting of reset assembly 3 can order about the barrel upwards to slide automatically. In this embodiment, as shown in fig. 1 to 3, a first mounting bracket 11 and a second mounting bracket 21 are respectively provided on the side walls of the base 1 and the cylinder 2 to extend outward in the same direction. The reset assembly 3 is a first elastic member connected between the first mounting bracket 11 and the second mounting bracket 21. In this embodiment, the first mounting bracket 11 is higher than the second mounting bracket 21, and the first elastic member is a tension spring. Of course, it is also possible to extend the base 1 downward and to arrange the first mounting bracket 11 below the second mounting bracket 21, in which case the first elastic member is a spring. In order to improve the motion stability of the cylinder 2, as shown in fig. 1, the reset components 3 are two symmetrically arranged at two sides of the base body 1 in the embodiment.

The retaining mechanism 4 can enable the cylinder 2 to stay and retain at a plurality of preset positions constructed in the axial direction of the base body 1, and prevent the reset component 3 from driving the cylinder 2 upwards so as to meet the requirement of placing water cups with different heights. In the present embodiment, as shown in fig. 1 and 2, the holding mechanism 4 specifically includes an engaging member 41 provided on the base 1, and a positioning member 42 following the cylinder 2. When an external operator presses the cylinder 2 downwards, the engaging assembly 41 can selectively form a snap fit with one of a plurality of positioning portions 421, which are provided on the positioning assembly 42 and described below, and can prevent the reset assembly 3 from pulling up the cylinder 2 after the pressing disappears, so that the cylinder 2 can stay and be kept at the position.

In order to facilitate the positioning and installation of the engaging component 41 and the positioning component 42, in the present embodiment, as shown in fig. 1, a convex first sliding groove 12 is formed extending upward from the bottom of the base 1 along the axial direction of the base 1, and a second sliding groove 13 is formed on the sidewall of the base 1, parallel to the axial direction of the base 1 and intersecting with the first sliding groove 12. The positioning assembly 42 is disposed in the first sliding slot 12 and can slide in the first sliding slot 12. The clamping component 41 is arranged in the second sliding chute 13 and can form clamping fit with the positioning component 42 at the intersection of the two sliding chutes. As shown in fig. 3 and fig. 6, in the present embodiment, a fastening groove is disposed on the second sliding groove 13, so that after the fastening component 41 is installed, the cover plate 14 is fastened on the second sliding groove 13, so as to be more beautiful.

In this embodiment, as shown in fig. 4 and fig. 6, the engaging assembly 41 specifically includes an engaging portion 411 that slides in the second sliding slot 13 to form a snap fit or a snap release with the positioning assembly 42, a second elastic member 412 that drives the engaging portion 411 to slide toward the positioning assembly 42, and a pulling portion 413 that is driven by the sliding of the engaging portion 411 and can be switched between a pulling state and a non-pulling state. When the pulling portion 413 is in a pulling state, the pulling portion 413 pulls the engaging portion 411 to prevent the second elastic member 412 from driving the engaging portion 411, so that the engaging portion 411 and the positioning assembly are kept in a clamping and disengaging state.

As shown in fig. 6, the engaging portion 411 includes a main body 4111 that slides in the second sliding groove 13, an extension rod 4112 extending toward the positioning member 42 is provided at one end of the main body 4111, and the extension rod 4112 can be engaged with the positioning member 42. And the upper side edge at the end of this extension rod 4112 is provided with a first inclined plane 41121, so that the positioning component 42 can push the extension rod 4112, that is, the engaging portion 411, and facilitate the transfer of the extension rod 4112 between the preset positions, thereby adjusting the depth.

When the cylinder 2 is pushed downward by an external operator, the positioning portion 421 described below pushes the extension rod 4112 away. After the positioning portion 421 is separated from the extension rod 4112, the second elastic member 412 drives the extension rod 4112 to move toward the positioning assembly 42, so that the extension rod 4112 is clamped with the positioning portion 421 of the upper layer until the adjustment of the depth of the cup holder is completed. For convenience of arrangement, the second elastic member 412 is a spring fixed on a side of the body 4111 facing away from the extension rod 4112 in this embodiment. Of course, the extension spring may be fixed to the same side of the body 4111 as the extension rod 4112.

Since the extension rod 4112 is automatically engaged with the positioning assembly 42 under the action of the second elastic member 412, an external operator can only push the barrel 2 to slide downward, so that the cup holder moves downward from one preset position to another preset position, and cannot directly lift the barrel 2. To solve this problem, in the present embodiment, a pulling portion 413 for preventing the engaging portion 411 from being engaged with the positioning unit 42 is provided.

In this embodiment, as shown in fig. 3 and 4, the pulling portion 413 specifically includes a pulling block 4131 disposed in the second sliding slot 13 and located on a side of the engaging portion 411 away from the positioning component 42, and a pulling groove 41311 axially disposed along the base body 1 is configured on the pulling block 4131. The device further comprises a swinging rod 4132 with one end hinged with the body 4111, and a stop lever 41321 is arranged at the other end of the swinging rod 4132 opposite to the end hinged with the body 4111, and the stop lever 41321 can slide into the traction groove 41311 or slide out of the traction groove 41311 by the sliding drive of the clamping part 411. When the catch lever 41321 is located in the pull groove 41311, the engaging portion 411 cannot be driven by the second elastic member 412 because it is blocked by the pull groove 41311, so that the engaging portion 411 and the positioning assembly 42 can be kept in the engaging and disengaging state.

To enable the stop lever to slide in and out of the traction groove 41311. In this embodiment, the positioning assembly 42 specifically includes a plurality of positioning portions 421 arranged at intervals, and the positioning portions 421 correspond to the preset positions. In this embodiment, as shown in fig. 2, each positioning portion 421 specifically includes a blocking unit 4211 forming a snap fit with the engaging portion 411, and a first pushing unit 4212 receiving pressure to push away the engaging portion 411. The first pushing unit 4212 is specifically a second inclined surface disposed below each positioning portion 421, and when the positioning portion 421 receives a downward pushing force along the cylinder 2, the second inclined surface forms a component force on the first inclined surface 41121 in the radial direction of the base 1, so as to push away the engaging portion 411, so that the engaging portion 411 is switched between the positions of each positioning portion 421. The blocking unit 4211 is a second plane disposed above the positioning portion 421, and the second plane can overlap with the first plane 41122 below the extension rod 4112, so as to prevent the barrel 2 from rising under the driving of the reset assembly 3 after the downward pushing force disappears.

When the engaging portion 411 is shifted between the positioning portions 421, the first pushing unit 4212 and the second elastic element 412 drive the engaging portion 411 to slide back and forth, and the stop lever 41321 moves along with the engaging portion 411, and the pulling portion 413 is required to be in a non-pulling state. In order to make the blocking lever 41321 slide orderly, a guide groove 41312 having one end communicating with the traction groove 41311 is further provided in the traction block 4131 in the present embodiment, and a return groove 41313 communicating with the guide groove 41312 and the traction groove 41311, respectively, is provided in the traction block 4131. When the engaging portion 411 is shifted between the positioning portions 421, the stopper 41321 reciprocates in the guide groove 41312.

When the cylinder 2 needs to be lifted, the pulling portion 413 needs to be in a pulling state to prevent the engagement between the engaging portion 411 and each positioning portion 421. For this reason, in the present embodiment, an unlocking portion 422 is further provided above the positioning portion 421, and the unlocking portion 422 includes a second pushing unit 4221 having a greater pushing distance to the engaging portion 411 than the first pushing unit 4212. When pushed by a downward external force, the second pushing unit 4221 contacts the engaging portion 411 and pushes the engaging portion 411 to move, and the pushing distance to the engaging portion 411 is relatively long, so that the catch lever 41321 falls into the pulling groove 41311 from the guide groove 41312. And facilitates the dropping of the catch lever 41321 and the pulling of the catch lever 41321. In this embodiment, the upper and lower portions of the traction groove 41311 are inclined such that the traction groove 41311 has an inverted "V" shape. The blocking lever 41321 falling into the pulling groove 41311 is blocked and kept balanced by the pulling force of the second elasticity, so as to limit the movement of the engaging portion 411, and at this time, the engaging portion 411 keeps being engaged with and disengaged from the positioning portion 421. The cylinder 2 is driven by the reset component 3 to ascend.

In order to make the cylinder 2 reach the top position, the stop lever 41321 can slide out from the traction groove 41311, so that the engaging portion 411 can be engaged with the positioning portion 421 when the depth of the cup holder is adjusted next time. In the present embodiment, a reduction portion 423 is provided below each positioning portion 421. The restoring portion 423 has a pushing stroke of the engaging portion 411 slightly larger than that of the third pushing unit 4231 of the second pushing unit 4221, so that the catch 41321 falls into the return groove 41313 from the traction groove 41311. At this time, the cylinder 2 is held at the uppermost position by the reset unit 3, and the stopper 41321 is positioned at the left side of the return groove 41313. When the cylinder 2 is pushed downward again, the blocking lever 41321 is pushed to slide rightward by the second elastic member 412 to the engaging portion 411.

In order to return the stopper 41321 from the return groove 41313 to the guide groove 41312, in the present embodiment, as shown in fig. 4, the return groove 41313 includes a horizontal section parallel to the radial direction of the base body 1, and a circular arc transition section of a substantially inverted "V" shape connected to the guide groove 41312. Under the urging of the second elastic member 412, the stop lever 41321 slides into the arc transition section and stays at the sharp corner of the "V". And then slide into the guide grooves 41312 by being pushed by the position fixing portions 421 of the top layer. In order to slide the blocking bar 41321 into the sharp corner of the transition section, in the embodiment, the first connection point 424 between the positioning part 421 and the reducing part 423 of the bottom layer is deeper than the second connection point 425 between the positioning parts 421.

In this embodiment, since the pushing force of the third pushing unit 4231 on the engaging portion 411 needs to be provided by the restoring assembly 3, if the force of the restoring assembly 3 is too large, the impact between the restoring portion 423 and the engaging portion 411 will reduce the service life of the cup holder. If the force of the reset component 3 is too small, the restoring portion 423 may not push the engaging portion 411 away, which may affect the normal use of the cup holder. For this reason, in the present embodiment, the third pushing unit 4231 is disposed in an arc shape, so that the third pushing unit 4231 can provide a larger horizontal component force under the condition that the reset assembly 3 applies the same acting force to the positioning assembly 42.

The above-described engagement of the engaging member 41 and the positioning member 42 is possible when they are individually engaged. However, for the smoothness of the sliding of the cylinder 2, as shown in fig. 4, the positioning components 42 and the clamping components 41 are symmetrically arranged in two groups.

Through the arrangement, a driver and passengers can press the water cup downwards to drive the barrel body 2 to descend, so that the depth of the water cup bracket can be deepened, and the water cup bracket has multiple depth selections to meet the requirements of different water cup heights. If the depth of the cup bracket is required to be shallow, a driver and passengers only need to press the cup to enable the barrel 2 to reach the bottom, and the barrel 2 can be driven by the reset component 3 to return to the top, namely the position with the shallowest depth of the cup bracket, until the depth is adjusted next time.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. The utility model provides a degree of depth adjustable drinking cup bracket sets up on the vehicle, its characterized in that includes:

a base body (1) fixed relative to the vehicle body and having an annular side wall;

a cylinder (2) inserted through the bottom of the base body (1); the cylinder (2) can slide along the axial direction of the base body (1) and can stay and be kept at a plurality of preset positions constructed on the axial direction of the base body (1);

the resetting component (3) is arranged between the base body (1) and the barrel body (2), and the resetting component (3) is configured to drive the barrel body (2) to slide to the preset position at the top;

the holding mechanism (4) comprises a clamping component (41) arranged on the base body (1) and a positioning component (42) which follows the cylinder body (2), and the positioning component (42) is clamped or clamped with the clamping component (41) to separate to form the stop or reset of the cylinder body (2);

a convex first sliding groove (12) extends upwards from the bottom of the base body (1) along the axial direction of the base body (1), and a second sliding groove (13) which is parallel to the radial direction of the base body (1) and is crossed with the first sliding groove (12) is constructed on the side wall of the base body (1); the positioning assembly (42) is accommodated in the first sliding groove (12), and the clamping assembly (41) is arranged in the second sliding groove (13);

the engaging unit (41) includes:

the clamping part (411) is arranged in the second sliding groove (13) in a sliding mode so as to form clamping connection or clamping connection separation with the positioning assembly (42);

the second elastic piece (412) is connected with the clamping part (411) so as to drive the clamping part (411) to slide towards the direction of clamping with the positioning assembly (42);

a traction part (413) which can be switched between a traction state and a non-traction state by the sliding drive of the clamping part (411), wherein the traction part (413) in the traction state can pull the clamping part (411) to keep the clamping part (411) and the positioning assembly (42) in clamping and separating;

the traction unit (413) includes:

the traction block (4131) is fixedly arranged in the second sliding groove (13), and a traction groove (41311) arranged along the radial direction of the base body (1) is formed on the traction block (4131);

and the swing rod (4132) is hinged with the clamping part (411) at one end, a stop lever (41321) is arranged at the other end, and the stop lever (41321) can slide into or out of the traction groove (41311) due to the sliding drive of the clamping part (411).

2. The adjustable depth cup holder of claim 1, wherein: a first mounting bracket (11) and a second mounting bracket (21) extend outwards along the radial direction on the outer walls of the base body (1) and the cylinder body (2), and the reset assembly (3) is a first elastic piece connected between the first mounting bracket (11) and the second mounting bracket (21).

3. The adjustable depth cup holder of claim 2, wherein: the first elastic piece is a tension spring.

4. The adjustable depth cup holder of claim 1, wherein: the second elastic member (412) is a spring.

5. The adjustable depth cup holder of claim 1, wherein: the traction block (4131) is also provided with a guide groove (41312) communicated with one end of the traction groove (41311), and a return groove (41313) communicated with the traction groove (41311) and the guide groove (41312).

6. The adjustable depth cup holder of claim 5, wherein the positioning assembly (42) comprises:

the positioning parts (421) are arranged on the barrel (2) at intervals in the axial direction, each positioning part (421) comprises a blocking part which forms clamping fit with the clamping part (411) and a first pushing unit (4212) which bears pressure and pushes away the clamping part (411); the blocking lever (41321) reciprocates in the guide groove (41312) due to the pushing of the first pushing unit (4212) and the second elastic member (412) to the engaging portion (411);

an unlocking part (422) which is positioned above the positioning part (421), wherein the unlocking part (422) is provided with a second pushing unit (4221) which pushes the clamping part (411) to enable the stop lever (41321) to fall into the traction groove (41311) from the guide groove (41312),

and a reduction part (423) located below the positioning part (421), wherein the reduction part (423) has a third pushing unit (4231) for pushing the engaging part (411) to return the stopper rod (41321) from the traction groove (41311) to the guide groove (41312) through the return groove (41313).

7. The adjustable depth cup holder of any one of claims 1 to 6, wherein: the clamping components (41) are symmetrically arranged in two groups of the positioning components (42).

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