CN112440851B - Lifting cup stand for vehicle - Google Patents

Abstract

The invention provides a lifting cup stand for a vehicle, which belongs to the technical field of vehicle parts and comprises: an outer housing; the lifting supporting plate is arranged in the outer shell in a lifting manner; the buffer assembly is arranged in the outer shell and is in linkage connection with the lifting support plate so as to slow down the moving speed of the lifting support plate; the lifting assembly is arranged in the outer shell and is provided with an annular connecting end, and the annular connecting end is in abutting connection with the lifting supporting plate so as to jack up the lifting supporting plate; the invention has the beneficial effects that: the lifting cup stand has the advantages of compact structure and small volume, and the lifting supporting plate is stressed uniformly when moving, so that the lifting supporting plate is not easy to clamp.

Description

Lifting cup stand for vehicle

Technical Field

The invention belongs to the technical field of vehicle parts and relates to a vehicle lifting cup stand.

Background

The cup holder or the cup holder is an indispensable part in the automobile field, and manufacturers in the automobile part field invest lots of manpower and financial resources to research, design and produce the automobile part.

For example, a utility model of patent No. 201821311209.X discloses a lifting double-cup holder, characterized in that it comprises a lid, a base and a partition mechanism, wherein the base defines an accommodation space for accommodating a cup or a bottle; the cover body moves relative to the base between a rising position covering the accommodating space and a sinking position located below the accommodating space to support a cup or a bottle, and when the cover body moves from the rising position to the sinking position, the partition mechanism moves from an avoiding position located outside the accommodating space to an acting position entering the accommodating space to divide the accommodating space into two subspaces.

In addition, an invention patent with application number 202010030685.X discloses a folding lifting device for a vehicle, which comprises an outer shell, a lifting support plate, a folding assembly and a synchronous buffer assembly, wherein the outer shell comprises a shell bottom, the lifting support plate is movably arranged in the outer shell, and the folding assembly is movably arranged between the lower side of the lifting support plate and the upper side of the shell bottom; the folding assembly is composed of two groups of same side V-shaped folding pieces which are symmetrically arranged front and back, and a synchronous buffer assembly is arranged between the lower sides of the two groups of side V-shaped folding pieces. The two groups of side V-shaped folding pieces respectively comprise a front upper folding strip, a front lower folding strip, a rear upper folding strip and a rear lower folding strip, a first synchronous rack is fixedly arranged on the rear side of the front lower folding strip, a second synchronous rack is fixedly arranged on the front side of the rear lower folding strip, the first synchronous rack and the second synchronous rack have the same radius, the tooth dies are the same, and the two groups of side V-shaped folding pieces are meshed for transmission.

This kind of automobile-used folding elevating gear adopts the folded piece of two V-arrangements to fold to in actual structure, the edge of lifting support plate articulates on two V-arrangements folded piece, so lifting support plate can the horizontal hunting, leads to actual structure, and easy when lifting support plate's lateral part receives the effort closely with the inner wall of shell body is in the same place, leads to lifting support plate to be blocked, so has certain improvement space.

Disclosure of Invention

The invention aims to provide a lifting cup stand for a vehicle, aiming at the problems in the prior art.

The purpose of the invention can be realized by the following technical scheme: a lifting cup holder for a vehicle, comprising:

an outer housing;

the lifting supporting plate is arranged in the outer shell in a lifting manner;

the buffer assembly is arranged in the outer shell and is in linkage connection with the lifting support plate so as to slow down the moving speed of the lifting support plate;

the lifting assembly is arranged in the outer shell and is provided with an annular connecting end, and the annular connecting end is in abutting connection with the lifting supporting plate so as to jack up the lifting supporting plate.

Preferably, the outer housing comprises an annular housing wall and a housing bottom, the housing bottom being disposed at a lower end of the annular housing wall.

Preferably, the lifting assembly is a spring, the annular connecting end is located at the upper end of the spring, and the lower end of the spring is connected with the shell bottom.

Preferably, the buffering assembly comprises a damper and a V-shaped folding piece, the damper is fixedly connected with the shell bottom, one end of the V-shaped folding piece is hinged to the lifting support plate, the other end of the V-shaped folding piece is hinged to the shell bottom, the V-shaped folding piece is connected with the damper in a linkage mode, and the damper blocks the lifting support plate to lift through the V-shaped folding piece.

Preferably, the V-shaped folding member is located in the spring, and the V-shaped folding member includes an upper folding strip and a lower folding strip, a hinge seat is disposed on the lower end surface of the lifting support plate, one end of the upper folding strip is hinged to the hinge seat, the other end of the upper folding strip is hinged to the lower folding strip, and the lower folding strip is hinged to the shell bottom and is in linkage connection with the damper.

Preferably, the lower folding strip is provided with an arc-shaped rack, the damper is provided with a damping gear, the arc-shaped rack is meshed with the damping gear, and when the V-shaped folding piece is folded or unfolded, the arc-shaped rack drives the damping gear to rotate.

Preferably, the edge of the lifting supporting plate extends downwards to form a plurality of limiting strips, and the limiting strips are arranged around the spring.

Preferably, be provided with a plurality of jack catchs and a plurality of mounting grooves that are the annular range on the annular conch wall, the both ends of mounting groove are provided with upper shed and under shed respectively, the both ends of jack catchs are provided with dop and spacing linkage piece respectively, the both sides of jack catchs are provided with the articulated shaft, thereby the articulated shaft is worn to establish thereby make on the lateral wall of mounting groove the jack catchs with the mounting groove is articulated, the dop is aimed at the upper shed, spacing linkage piece inlays to be established in the under shed.

Preferably, the shell bottom is provided with a bottom hole, a mounting seat and a guide seat, the damper is fixed in the mounting seat, the arc-shaped rack penetrates through the bottom hole and then is in linkage connection with the damper, and the arc-shaped rack is connected with the guide seat.

Preferably, the inner wall surface of the annular shell wall is provided with a guide groove, and the limiting strip is arranged in the guide groove.

Compared with the prior art, the invention has the beneficial effects that:

1. the lifting cup stand has the advantages of compact structure and small volume, and the lifting supporting plate is stressed uniformly when moving, so that the lifting supporting plate is not easy to clamp.

2. The structure of spring is very ingenious, and it only can let the lifting support board oscilaltion to contradict together with the lifting support board through the annular spacing collar that slightly is less than the lifting support board, thereby make the unable swing of lifting support board, only can go up and down, just so can avoid the lifting support board to block, and can also jack-up lifting support board.

3. The V-shaped folding piece and the damper are located in the annular shell wall, the speed reduction structure is ingeniously arranged in the cup holder, the structure is compact, the space utilization rate of the lifting cup holder can be improved, and simply, the space below the lifting supporting plate is utilized, so that the price-raising cup holder is smaller and more compact in structure.

4. The upper end of the arc-shaped rack is integrally connected with the middle of the lower folding strip, the circle center of the arc-shaped rack is the hinge point of the lower end of the lower folding strip, when the lower folding strip moves, the arc-shaped rack can be driven to move, and the arc-shaped rack is connected with the damper through the damping gear, so that the damper can block the movement of the lower folding strip, and the moving speed of the lifting cup stand is reduced.

5. The limiting strips limit the position relation between the lifting supporting plate and the springs, and in brief, after the limiting strips are arranged, once the lifting supporting plate swings or deflects, the limiting strips can be abutted against the springs, so that the lifting supporting plate can be further limited to swing or deflect; in addition, the limiting strip surrounds the spring, and the spring can be prevented from deforming towards the periphery, so that the effect of limiting the spring is achieved.

Drawings

FIG. 1 is a schematic diagram of the position relationship between a lifting pallet and a buffer assembly and a lifting assembly according to the present invention.

FIG. 2 is a schematic diagram of a position relationship between a buffer assembly and a lifting assembly according to the present invention.

Fig. 3 is an exploded view of the lifting cup holder for vehicle according to the present invention.

Fig. 4 is a schematic structural view of the lifting cup stand for a vehicle of the present invention when lifted.

Fig. 5 is a schematic structural view of the lifting cup stand for a vehicle of the present invention when it is lowered.

Fig. 6 is a schematic view of a state in which a pallet swings in the related art.

In the figure, 100, the outer shell; 110. an annular housing wall; 120. a shell bottom; 130. mounting grooves; 140. an upper opening; 150. a lower opening; 160. a bottom hole; 170. a mounting seat; 180. a guide seat; 190. a guide groove; 200. lifting the supporting plate; 210. an annular spacing ring; 220. a hinged seat; 230. a limiting strip; 300. a spring; 310. a ring-shaped connecting end; 400. a damper; 410. a damping gear; 500. a V-shaped folded piece; 510. an upper folding strip; 520. a lower folded strip; 530. an arc-shaped rack; 600. a claw; 610. clamping a head; 620. a limit linkage block; 630. and (4) hinging the shaft.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, 2, 3, 4 and 5, the elevating cup holder for vehicle includes: the lifting cup holder is lifted up ingeniously through the independently arranged lifting assembly, and the lifting assembly slows down the movement of the lifting support plate 200 through the buffering assembly, so that the lifting support plate 200 is more stable and reliable in lifting.

Wherein, the outer casing 100 is a cup-shaped structure, and an accommodating cavity is arranged in the outer casing 100, and the cup can be put into the accommodating cavity of the outer casing 100.

A lifting pallet 200 which is liftably disposed in the outer case 100; preferably, the lifting plate 200 can be lifted up and down in the receiving cavity in the outer housing 100; when a cup is not put in, the lifting plate 200 is lifted up, so that the outer case 100 is covered by the lifting plate 200, and when the cup is used, the cup can be put on the lifting plate 200, and then the lifting plate 200 is moved down, at this time, the cup sinks into the outer case 100 along with the lifting plate 200.

A buffer assembly disposed in the outer case 100 and linked with the lifting blade 200 to slow down the moving speed of the lifting blade 200.

Preferably, the buffer assembly can slow down the moving speed of the lifting pallet 200, and both ends of the buffer assembly are respectively hinged to the bottoms of the lifting pallet 200 and the outer case 100, and the buffer assembly can be driven to move when the lifting pallet 200 moves, so that the moving speed of the lifting pallet 200 is slowed down by blocking the movement of the buffer assembly.

It should be noted that the buffer assembly may be a V-shaped hinge frame structure, which only plays a role of buffering and cannot actively lift the lifting pallet 200.

A lifting assembly disposed inside the outer case 100 and having a ring-shaped connection end 310, the ring-shaped connection end 310 being in interference connection with the lifting blade 200 to jack up the lifting blade 200.

Preferably, the lifting assembly and the buffering assembly are two independent components, the lifting assembly has certain elasticity, the lifting assembly is compressed when the lifting pallet 200 moves downwards, and the lifting assembly can be bounced upwards to jack the lifting pallet 200.

It should be noted here that the annular limiting end 310 is fixed to the lifting support plate 200, and the annular limiting end 310 is abutted against the lifting support plate 200, so that the annular limiting end 310 can be limited, and the relative movement between the annular limiting end 310 and the lifting support plate 200 is avoided.

More specifically, the upper end of the lifting assembly has a ring-shaped connecting end 310, and in a practical structure, the ring-shaped connecting end 310 is a part of the lifting assembly, and the ring-shaped connecting end 310 may be a ring structure or a panel structure, and an annular or circular contact surface can be formed between the ring-shaped connecting end 310 and the lifting support plate 200, so that the ring-shaped connecting end 310 can be uniformly connected with the lifting support plate 200, thereby better supporting the lifting support plate 200 and avoiding the lifting support plate 200 from deflecting, shaking or swinging.

As shown in fig. 6, it should be noted that, in the existing structure, some lifting cup holders adopt an external buffering and lifting structure, that is, a rack is arranged outside the cup holder, then a gear is arranged on the cup holder seat, and a damping structure and a torsion spring structure are connected to the gear.

In other lifting cup holders, two V-shaped folding supports or X-shaped folding supports are adopted, and then torsion springs are arranged on the folding supports, so that the V-shaped folding supports or the X-shaped folding supports are driven by the torsion springs to jack up the supporting plate.

And in actual structure, only there are two pin joints between the upper end of two V-arrangement folding support or the folding support of X-arrangement and the lift layer board 200, so lift layer board 200 can use the pin joint to rotate as the axle, in brief, just be the layer board can the left and right sides swing or rock, though the intracavity that holds of glass stand is finally put into to the layer board, but because the layer board can the left and right sides swing or rock, when leading to the layer board atress inhomogeneous, can rotate to certain side, make the layer board edge contradict with the inner wall of glass stand together, can greatly increased layer board and the frictional force of internal face like this, lead to the layer board to be blocked, unable smooth lift removal.

Therefore, in order to solve the above problems, a lifting assembly is specially and separately provided, the lifting support plate 200 is uniformly supported by the annular connecting end 310 at the upper end of the lifting assembly, and the buffer assembly is hinged to the lifting support plate 200, but the lifting support plate 200 cannot rotate around the hinged point due to the lifting assembly, that is, the lifting assembly plays a role of supporting the lifting support plate 200 and limiting the swinging of the lifting support plate 200 besides playing a role of lifting the lifting support plate 200, and reflects that the lifting support plate 200 cannot be clamped even if the lifting support plate is unevenly stressed in a specific movement process, so that an anti-clamping effect can be achieved.

As shown in fig. 1, 3, 4 and 5, based on the above embodiment, the outer casing 100 includes an annular casing wall 110 and a casing bottom 120, and the casing bottom 120 is disposed at the lower end of the annular casing wall 110.

Preferably, the outer casing 100 includes two parts, i.e., an annular casing wall 110 and a casing bottom 120, the lifting and lowering plate 200 is located in the annular casing wall 110 and can be lifted and lowered, in a practical structure, the annular casing wall 110 is detachably connected to the casing bottom 120, an insert block is arranged on the lower end surface of the annular casing wall 110, and a slot is arranged on the casing bottom 120, and the insert block is inserted into the slot to connect the annular casing wall 110 and the casing bottom 120, so that the buffer assembly can be installed first, and then the outer casing 100 is assembled together.

As shown in fig. 1, on the basis of the above embodiment, the lifting assembly is a spring 300, the annular connecting end 310 is located at the upper end of the spring 300, the lower end of the spring 300 is connected to the housing bottom 120, the lower end surface of the lifting supporting plate 200 is provided with an annular limiting ring 210, and the annular connecting end 310 is sleeved on the annular limiting ring 210.

Preferably, the ring-shaped connecting end 310 is a portion of the spring 300, the upper end of which is in a ring shape, the spring 300 is a large-sized spring 300, and the diameter of the spring 300 is slightly smaller than the inner diameter of the ring-shaped housing wall 110, so that the spring 300 can sufficiently abut against the edge portion of the lifting blade 200, and the large-sized spring 300 is not easily deformed, so that the lifting blade 200 is supported by the spring 300, and the lifting blade 200 cannot swing.

It should be noted here that the structure of the spring 300 is very ingenious, and the diameter of the spring 300 is slightly smaller than the lifting supporting plate 200, so that the edge positions of the annular limiting ring 210 and the lifting supporting plate 200 are abutted together, and the spring 300 has certain rigidity, so that the lifting supporting plate 200 cannot swing, and only can lift, so that the lifting supporting plate 200 can be prevented from being clamped, and the lifting supporting plate 200 can be jacked up.

As shown in fig. 1, 2, 3, 4, and 5, in addition to the above embodiment, the buffering assembly includes a damper 400 and a V-shaped folding member 500, the damper 400 is fixedly connected to the case bottom 120, one end of the V-shaped folding member 500 is hinged to the lifting tray 200, and the other end of the V-shaped folding member 500 is hinged to the case bottom 120, the V-shaped folding member 500 is linked to the damper 400, and the damper 400 blocks the lifting tray 200 from being lifted up and down through the V-shaped folding member 500.

Preferably, the buffering assembly includes a V-shaped folding member 500 and a damper 400, the V-shaped folding member 500 cannot lift up the lifting pallet 200 but can slow down the moving speed of the lifting pallet 200, and the damper 400 is fixed on the case bottom 120.

When the lifting blade 200 is jacked up by the spring 300, the V-shaped folding member 500 is extended, and the V-shaped folding member 500 is linked with the damper 400, so that the V-shaped folding member 500 is blocked by the damper 400 when extended, thereby slowly lifting the lifting blade 200, and thus preventing the lifting blade 200 from suddenly popping up; when the lifting blade 200 is pressed toward the bottom 120 by the cup, the spring 300 is compressed and the V-shaped folding member 500 is folded, while the damper 400 blocks the V-shaped folding member 500 from folding, so that the lifting blade is slowly lowered.

It should be noted here that the V-shaped folding member 500 and the damper 400 are located in the annular wall 110, and the speed reducing structure is skillfully arranged in the cup holder, so that the structure is compact, the space utilization rate of the lifting cup holder can be improved, and simply, the space below the lifting support plate 200 is utilized, so that the structure of the lifting cup holder is smaller and more compact.

The existing double-V-shaped folding frame and double-X-shaped folding frame structure can play the roles of lifting the supporting plate and reducing the speed at the same time, so two folding support structures are required to be utilized, but only one V-shaped folding member 500 is arranged in the embodiment, the lifting supporting plate 200 is reduced speed through the single V-shaped folding member 500, the jacking function is transferred to the spring 300, and thus the lifting supporting plate 200 can be prevented from rubbing the annular shell wall 110 due to the left-right swing, and the lifting supporting plate 200 is prevented from being blocked.

As shown in fig. 1, 2, 3, 4 and 5, based on the above embodiment, the V-shaped folding member 500 is located in the spring 300, and the V-shaped folding member 500 includes an upper folding strip 510 and a lower folding strip 520, the lower end surface of the lifting pallet 200 is provided with a hinge base 220, one end of the upper folding strip 510 is hinged to the hinge base 220 and the other end is hinged to the lower folding strip 520, and the lower folding strip 520 is hinged to the housing bottom 120 and is linked to the damper 400.

It is worth focusing on this point that the whole V-shaped folding member 500 is located in the spring 300, so that the space in the spring 300 is effectively utilized, that is, the space below the lifting plate 200 is skillfully utilized to accommodate the V-shaped folding member 500, and more skillfully, as the lifting plate 200 moves downward, the V-shaped folding member 500 is also folded while the spring 300 is compressed, so that the V-shaped folding member 500 does not occupy a large space, and when the lifting plate 200 is jacked up by the spring 300, the V-shaped folding member 500 is unfolded, so that the space in the outer housing 100 dynamically changes along with the movement of the lifting plate 200, so that the V-shaped folding member 500 can be accommodated.

Preferably, the upper end of the upper folding bar 510 is hinged to the hinge base 220 of the lifting tray 200, the lower folding bar 520 is hinged to the case bottom 120, and the lower end of the upper folding bar 510 is hinged to the upper end of the lower folding bar 520, both of which are arranged in a V-shape, so that the two upper folding bars 510 and the lower folding bar 520 can be gradually folded together or unfolded.

It should be noted that the lifting support plate 200 is linked with the upper folding strip 510, the lower folding strip 520 and the damper 400, when the lifting support plate 200 moves, the upper folding strip 510 and the lower folding strip 520 are driven to rotate and fold, and when the lower folding strip 520 moves, the damper 400 can be driven to move, and the damper 400 can block the lower folding strip 520 from moving, and finally the lifting support plate 200 is blocked from moving by the upper folding strip 510, that is, the lifting support plate 200 and the damper 400 are linked together by the upper folding strip 510 and the lower folding strip 520, and when the lifting support plate 200 moves, the lifting support plate 200 can be blocked by the damper 400, so that the lifting support plate 200 moves slowly.

As shown in fig. 1, 2, 3, 4 and 5, on the basis of the above embodiment, the lower folding strip 520 is provided with an arc-shaped rack 530, the damper 400 is provided with a damping gear 410, the arc-shaped rack 530 is engaged with the damping gear 410, and the arc-shaped rack 530 drives the damping gear 410 to rotate when the V-shaped folding member 500 is folded or unfolded.

Preferably, the upper end of the arc-shaped rack 530 is integrally connected to the middle of the lower folding strip 520, and the center of the arc-shaped rack 530 is the hinge point of the lower end of the lower folding strip 520, so that when the lower folding strip 520 moves, the arc-shaped rack 530 can be driven to move, and the arc-shaped rack 530 is connected with the damper 400 through the damping gear 410, so that the damper 400 can block the movement of the lower folding strip 520, thereby slowing down the moving speed of the lifting cup stand.

As shown in fig. 1, 3, 4, 5, and 6, on the basis of the above embodiment, a plurality of limiting strips 230 extend downward from the edge of the lifting supporting plate 200, and each limiting strip 230 is arranged around the spring 300.

Preferably, the outer edge of the lifting supporting plate 200 has a downwardly extending annular limiting portion, and does not have a plurality of limiting bars 230 extending continuously downward, since the limiting bars 230 are located at the edge of the lifting supporting plate 200, each limiting bar 230 is inevitably arranged in an annular shape, and each limiting bar 230 also inevitably encloses the spring 300, and this design can play a limiting role, and can further prevent the lifting supporting plate 200 from swinging or deflecting.

Specifically, since the lifting supporting plate 200 is supported by the annular connecting end 310 of the spring 300 and therefore has no hinge point, the lifting supporting plate 200 cannot basically swing left and right or deflect, but in order to further improve the smoothness of the lifting supporting plate 200, a plurality of position limiting strips 230 are particularly arranged to limit the position relationship between the lifting supporting plate 200 and the spring 300, in brief, after the position limiting strips 230 are arranged, once the lifting supporting plate 200 swings or deflects, the position limiting strips 230 will collide with the spring 300, so that the lifting supporting plate 200 can be further limited to swing or deflect; in addition, the stopper bar 230 surrounds the spring 300, and prevents the spring 300 from being deformed toward the periphery, thereby functioning to restrict the spring 300.

As shown in fig. 3, 4 and 5, on the basis of the above embodiment, the annular housing wall 110 is provided with a plurality of jaws 600 and a plurality of mounting grooves 130 arranged annularly, two ends of the mounting groove 130 are respectively provided with an upper opening 140 and a lower opening 150, two ends of the jaws 600 are respectively provided with a chuck 610 and a limiting linkage block 620, two sides of the jaws 600 are provided with hinge shafts 630, the hinge shafts 630 are arranged on the side walls of the mounting grooves 130 in a penetrating manner so as to enable the jaws 600 to be hinged with the mounting grooves 130, the chucks 610 are aligned with the upper openings 140, and the limiting linkage block 620 is embedded in the lower openings 150.

Preferably, the jaw 600 has a sheet structure, and the jaw 600 is provided at upper and lower ends thereof with a chuck 610 and a limit link block 620, respectively, and the jaw 600 is rotatably disposed on the mounting groove 130 through a hinge shaft 630, so that the jaw 600 can rotate around the hinge shaft 630, when the limit link block 620 inwardly enters the lower opening 150, the jaw 600 rotates and moves the chuck 610 outwardly from the upper opening 140, and when the limit link block 620 outwardly moves, the jaw 600 moves the chuck 610 inwardly into the upper opening 140.

In the practical working process, when the lifting supporting plate 200 is located above the lower opening 150, the limiting linkage block 620 is located in the lower opening 150, the chuck 610 is located outside the annular shell wall 110, that is, the chuck 610 is not located in the outer shell 100, at this time, the lifting supporting plate 200 can freely move up and down without being blocked by the chuck 610, and when the lifting supporting plate 200 moves down to the lower opening 150 and is in interference connection with the limiting linkage block 620, the limiting linkage block 620 can be pushed outwards, the jaws 600 rotate and bring the chuck 610 into the upper opening 140, at this time, the lifting supporting plate 200 plays a role in triggering the chuck 610 to act and apply inward locking force to the chuck 610, so that the chuck 610 can be automatically pushed into the upper opening 140 and is in interference with the outer wall of a cup when the lifting supporting plate 200 descends to a certain position, the cup is prevented from shaking, and is separated from the limiting linkage block 620 when the lifting supporting plate 200 ascends, this enables the collet 610 to be pushed out of the upper opening 140 without being supported by external force.

As shown in fig. 1, 2 and 3, on the basis of the above embodiment, the housing bottom 120 is provided with a bottom hole 160, a mounting seat 170 and a guide seat 180, the damper 400 is fixed in the mounting seat 170, the arc-shaped rack 530 passes through the bottom hole 160 and then is linked with the damper 400, and the arc-shaped rack 530 is linked with the guide seat 180.

Preferably, mount pad 170 is the curb plate structure, guide holder 180 is the arc piece structure, and both are located the lower surface of shell bottom 120, arc rack 530 can pass behind the bottom hole 160 and be connected with guide holder 180, guide rail and arc rack 530 cooperation on the guide holder 180, thereby guide arc rack 530 more smooth slip, and mount pad 170 is then ingenious fixes attenuator 400 at the lower surface of casing, can make the outer casing 100 inner space bigger like this, thereby overall structure has been optimized, make the compact ingenious of structure more.

As shown in fig. 3, 4 and 5, in the above embodiment, the inner wall surface of the annular casing wall 110 is provided with a guide groove 190, and the stopper bar 230 is disposed in the guide groove 190.

Preferably, the guide groove 190 is a strip-shaped groove structure, which can guide the lifting supporting plate 200 to move, specifically, since the edge of the lifting supporting plate 200 is provided with the limiting bar 230, the limiting bar 230 can play a guiding role in addition to limiting the position of the spring 300 and preventing the lifting supporting plate 200 from deflecting or swinging, specifically, the limiting bar 230 is embedded in the guide groove 190, so that the lifting supporting plate 200 can only slide along the guide groove 190, and the sliding fluency is ensured.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (6)

1. A vehicular elevating cup stand, comprising:

an outer housing comprising an annular housing wall and a housing bottom disposed at a lower end of the annular housing wall;

the lifting supporting plate is arranged in the outer shell in a lifting manner;

the buffer assembly is arranged in the outer shell and is in linkage connection with the lifting support plate so as to slow down the moving speed of the lifting support plate, the buffer assembly comprises a damper and a V-shaped folding piece, the damper is fixedly connected with the shell bottom, one end of the V-shaped folding piece is hinged with the lifting support plate, the other end of the V-shaped folding piece is hinged with the shell bottom, the V-shaped folding piece is in linkage connection with the damper, and the damper blocks the lifting support plate to lift through the V-shaped folding piece;

the lifting assembly is arranged in the outer shell, the lifting assembly is provided with an annular connecting end, the annular connecting end is abutted against the lifting support plate to be connected and jacked up the lifting support plate, the lifting assembly is a spring, the annular connecting end is located at the upper end of the spring, the lower end of the spring is connected with the shell bottom, the V-shaped folding piece is located in the spring and comprises an upper folding strip and a lower folding strip, the lower end face of the lifting support plate is provided with a hinged seat, one end of the upper folding strip is hinged with the hinged seat, the other end of the upper folding strip is hinged with the lower folding strip, and the lower folding strip is hinged to the shell bottom and is connected with the damper in a linkage mode.

2. The vehicular elevating cup stand according to claim 1, wherein: the lower folding strip is provided with an arc-shaped rack, the damper is provided with a damping gear, the arc-shaped rack is meshed with the damping gear, and when the V-shaped folding piece is folded or unfolded, the arc-shaped rack drives the damping gear to rotate.

3. The vehicular elevating cup stand according to claim 1, wherein: the edge of the lifting supporting plate extends downwards to form a plurality of limiting strips, and the limiting strips are arranged around the spring.

4. The lifting cup stand for vehicles as claimed in claim 2, wherein: be provided with a plurality of jack catchs and a plurality of mounting grooves that are the annular and arrange on the annular conch wall, the both ends of mounting groove are provided with upper shed and under shed respectively, the both ends of jack catchs are provided with dop and spacing linkage piece respectively, the both sides of jack catchs are provided with the articulated shaft, thereby the articulated shaft is worn to establish thereby make on the lateral wall of mounting groove the jack catchs with the mounting groove is articulated, the dop is aimed at the upper shed, spacing linkage piece inlays to be established in the under shed.

5. The lifting cup stand for vehicles as claimed in claim 2, wherein: the shell bottom is provided with a bottom hole, a mounting seat and a guide seat, the damper is fixed in the mounting seat, the arc-shaped rack penetrates through the bottom hole and then is in linkage connection with the damper, and the arc-shaped rack is connected with the guide seat.

6. The lifting cup holder for vehicles as claimed in claim 3, wherein: the inner wall surface of the annular shell wall is provided with a guide groove, and the limiting strip is arranged in the guide groove.

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