CN117985340A - Bin convenient for taking and placing automobile parts - Google Patents

Abstract

The invention discloses a storage box for automobile parts, which relates to the technical field of automobile part storage and is convenient to take and place. Including the storage box, the storage box articulates there is the apron, the rigid coupling has the mount of mirror image distribution in the storage box, the mount rigid coupling has the first mounting that the sharp array distributes, first mounting sliding connection has the connecting rod, the connecting rod is not located adjacently one end rigid coupling in the first mounting has T shape frame, T shape frame orientation is adjacent one side ball of first mounting has connect the swing frame, the swing frame is kept away from adjacently one side spline connection of T shape frame has the first spacing that is used for spacing the bumper shock absorber. According to the invention, the shock absorbers are independently protected by adopting a mode of independently placing the shock absorbers, so that the shock absorbers cannot collide with each other, and the shock absorbers are placed in a vertical state, so that the shock absorbers are conveniently taken and placed.

Description

Bin convenient for taking and placing automobile parts

Technical Field

The invention relates to the technical field of automobile part storage, in particular to a storage box for automobile parts, which is convenient to take and place.

Background

Automobile parts are various, but the parts of the automobile suspension part make the most important parts on the automobile, and the parts of the automobile suspension part comprise: suspension springs, shock absorbers, air bags, shock absorbers and the like, wherein the shock absorbers are used for reducing vibration and jolt of a vehicle caused by uneven road surfaces in the running process, playing a role in balancing, stabilizing and providing comfort for the vehicle, the conventional shock absorbers can be placed into a storage box for storage after production, and the conventional shock absorbers are protected in a layer-by-layer superposition mode so as to facilitate transportation of the shock absorbers.

The storage process of the shock absorber is as follows: when the shock absorber is placed in the storage box by a user, in order to prevent the shock absorber from collision during the land transportation and the sea transportation, the shock absorber is stored by the user in an interlayer mode (an air bag or a foam plate for isolating the contact of the two shock absorbers is placed between the two shock absorbers), but the process of taking and placing the shock absorber in the mode is complicated, and the process wastes time and also wastes the storage space of the storage box.

Disclosure of Invention

The invention provides a storage box for automobile parts, which is convenient to take and place, and solves the problems mentioned in the background art.

The technical scheme of the invention is as follows: the utility model provides a bin for auto parts convenient to get and put, includes the storage box, the storage box articulates there is the apron, the rigid coupling has the mount of mirror image distribution in the storage box, the mount rigid coupling has the first mounting of sharp array distribution, first mounting sliding connection has the connecting rod, the connecting rod is not located adjacently one end rigid coupling in the first mounting has T shape frame, T shape frame orientation is adjacent one side ball of first mounting has connect the swing frame, the swing frame is kept away from adjacently one side spline connection of T shape frame has the first spacing that is used for carrying out spacing to the bumper shock absorber, the swing frame is provided with the spacing subassembly that carries out spacing to it, be provided with first buffer assembly in the first mounting, first buffer assembly is used for buffering adjacency the connecting rod.

Further, the storage box is internally and slidably connected with connecting frames which are mirror images and distributed in a linear array, the connecting frames are fixedly connected with the parts, which are adjacent to the connecting rods and are not located in the first fixing pieces, of the connecting rods, and the connecting frames are used for limiting the adjacent connecting rods.

Further, the spacing subassembly is including the stopper that the mirror image distributes, the equal sliding connection of stopper that the mirror image distributes is adjacent in the swing frame is close to one side of adjacent first spacing, the mirror image distributes the stopper all with adjacent first spacing cooperation, the stopper with be provided with the spring between the swing frame, the swing frame is close to adjacent one side rigid coupling of first spacing has the elasticity telescopic link, the flexible end rigid coupling of elasticity telescopic link has the second spacing, the second spacing with adjacent and be mirror image distribution the equal spacing cooperation of stopper.

Further, the first buffer assembly comprises a first sliding plate in sliding fit with the adjacent first fixing piece, the first sliding plate is fixedly connected with one end, adjacent to the connecting rod, of the connecting rod located in the adjacent first fixing piece, hydraulic oil is stored in the first fixing piece, the first sliding plate is provided with a fluid channel in mirror image distribution, the top in the fluid channel towards the adjacent first fixing piece is provided with a round table shape and used for guiding the hydraulic oil in the adjacent first fixing piece, and the first sliding plate is provided with a resistance adjusting assembly used for adjusting the flow quantity of the fluid channel which is adjacent and in mirror image distribution.

Further, the resistance adjusting assembly comprises a rotating ring, the rotating ring is rotationally connected in the adjacent first sliding plates, a torsion spring is arranged between the rotating ring and the adjacent first sliding plates, the rotating ring is far away from the adjacent first sliding plates, one side of the rotating ring is fixedly connected with a rotating plate, and the rotating plate is used for shielding the adjacent fluid channels which are in mirror image distribution.

Further, the first sliding plate spline is connected with a sliding rod, one side, away from the adjacent first sliding plate, of the sliding rod is fixedly connected with a resistance plate, inclined sliding grooves distributed in an annular array are formed in the rotating ring, limiting pins distributed in an annular array are fixedly connected with the sliding rod, and the limiting pins of the sliding rod are in sliding fit with the adjacent inclined sliding grooves in the rotating ring.

Further, the buffer device further comprises second buffer components with the same quantity as the swinging frames, the second buffer components are arranged on the adjacent swinging frames and used for buffering the adjacent shock absorbers, the second buffer components comprise U-shaped frames, the U-shaped frames are connected with the adjacent T-shaped frames in a sliding mode, limiting holes distributed in a mirror image mode and in a linear array mode are formed in the U-shaped frames in a sliding mode, sliding frames are connected with the T-shaped frames in a sliding mode, springs are arranged between the sliding frames and the adjacent T-shaped frames, sliding rings are fixedly connected to the sliding frames and are in limiting fit with the limiting holes distributed in the mirror image mode on the adjacent U-shaped frames, protection pads are fixedly connected to the conical surfaces in the sliding rings, fixing plates are fixedly connected to the swinging frames, sliding pieces distributed in a ring-shaped array mode are connected with the sliding pieces in a sliding mode, and one sides of the sliding pieces, far away from the adjacent fixing plates, are in contact fit with the adjacent protection pads.

Further, be provided with the oil storage chamber that annular array distributes in the fixed plate, the oil storage intracavity has deposited hydraulic oil, the slider with adjacent oil storage chamber sliding fit, the slider is provided with the fan-shaped through-hole that mirror image distributed, the rigid coupling has the limiting plate of symmetric distribution in the oil storage chamber, the slider with be provided with the spring between the adjacent oil storage chamber, the limiting plate with adjacent fan-shaped through-hole sliding fit on the slider.

Further, the thickness of limiting plate near adjacent fixed plate centre of a circle side is greater than keeping away from adjacent fixed plate centre of a circle side, just the thickness of limiting plate is the gradual change formula, the storage box is provided with and is used for right the bumper shock absorber provides safety protection's protection subassembly.

Further, the protection subassembly is including vibrations response module, vibrations response module set up in the storage box, the storage box is provided with control panel, vibrations response module is connected with the control panel electricity, the storage incasement rigid coupling has the right the gasbag that the bumper shock absorber provided the protection, the gasbag is located mirror image distribution the below of mount, the storage incasement is located the below rigid coupling of gasbag has the second mounting, be provided with the driving piece that is connected with the control panel electricity in the storage box, the expansion portion of driving piece with second mounting sliding fit, sliding connection has the second sliding plate in the second mounting, the second sliding plate with the driving piece is located the flexible end rigid coupling of second mounting, second mounting rigid coupling and intercommunication have mirror image distributed's first gas-supply line, mirror image distributed one side all with one side rigid coupling and the intercommunication of gasbag, second mounting rigid coupling and intercommunication have the second mirror image distributed second gas-supply line the second side of mirror image distribution with the second gas-supply line all is kept away from the second gas-supply line.

The beneficial effects of the invention are as follows: according to the invention, the shock absorbers are independently protected by adopting a mode of independently placing the shock absorbers, so that the shock absorbers cannot collide with each other, and the shock absorbers are placed in a vertical state, so that the shock absorbers are conveniently taken and placed.

In the process of placing the bumper shock absorber in the storage box, pull out the part on connecting rod and its part to this is convenient for to the fixed of bumper shock absorber, accomplish the back to the bumper shock absorber is fixed to the fixed part of back, and the part slides into the storage box on connecting rod and its part under the effect of gravity, under the effect of flow channel upside round platform shape, cushion the downward movement of connecting rod and last part, avoid connecting rod and the bumper shock absorber that its last part carried to slide down rapidly under the effect of gravity, lead to the link to carry out hard collision with the upside of adjacent first mounting, thereby arouse the damage or the resonance of bumper shock absorber, so that influence the later use of bumper shock absorber.

When bumper shock absorber self length is longer, adjust U-shaped frame and last part downwardly moving distance to this adjusts the contact distance of protection pad and adjacent slider, and then carries out spacingly to the swing degree of swing frame and last part, with this swing degree that reduces swing frame and last part, with the longer bumper shock absorber of adaptation length, through the inflation of gasbag, carries out the surrounding type protection to the downside of bumper shock absorber, cooperates first spacing to the fixed of bumper shock absorber, in order to realize the comprehensive protection to the bumper shock absorber.

Drawings

FIG. 1 is a front view of a three-dimensional structure of the present invention;

FIG. 2 is a top view of a three-dimensional structure of the present invention;

FIG. 3 is a front cross-sectional view of a three-dimensional structure of the storage case of the present invention;

FIG. 4 is a left side cross-sectional view of a three-dimensional structure of the storage case of the present invention;

FIG. 5 is a schematic perspective view of the shock absorber of the present invention after being fixed;

FIG. 6 is a schematic perspective view of the swing frame and the adjacent first limiting frame of the present invention;

FIG. 7 is a perspective view of a first fastener of the present invention;

FIG. 8 is a perspective view of a first slide plate according to the present invention;

FIG. 9 is an exploded view of the three-dimensional structure of the rotary ring, rotary plate and slide bar of the present invention;

FIG. 10 is a cross-sectional top view of a solid structure of a fixation plate of the present invention;

FIG. 11 is a schematic perspective view of a slider and a retainer plate according to the present invention;

Fig. 12 is a perspective view of a second fastener of the present invention.

In the reference numerals: 1-shock absorber, 10-storage box, 1001-connecting frame, 11-cover plate, 12-fixing frame, 13-first fixing piece, 14-connecting rod, 15-T-shaped frame, 16-swing frame, 17-first limiting frame, 20-limiting block, 21-elastic telescopic rod, 22-second limiting frame, 30-first sliding plate, 31-fluid channel, 40-rotating ring, 41-rotating plate, 42-sliding rod, 43-resistance plate, 50-U-shaped frame, 5001-sliding frame, 51-sliding ring, 52-protection pad, 53-fixing plate, 5301-oil storage cavity, 54-sliding piece, 55-limiting plate, 6-vibration sensing module, 60-air bag, 61-second fixing piece, 62-driving piece, 63-second sliding plate, 64-first air pipe and 65-second air pipe.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present invention more apparent. The invention is further described below in connection with a specific assembly process of an automobile part (damper) and a use mode of the device.

Example 1: 1-6, please refer to the bin for auto parts convenient to get and put, including the storage box 10, the upside of storage box 10 articulates there is apron 11, the middle part rigid coupling in the storage box 10 has two mounts 12 of front and back mirror image distribution, mount 12 rigid coupling has six first mounting 13 of straight line array distribution (the quantity of first mounting 13 is unanimous in the figure in this invention, and the quantity of first mounting 13 is not fixed, the user can select the quantity of installing first mounting 13 according to actual conditions), one side that is close to its centre of a circle of first mounting 13 sliding connection has connecting rod 14, the upper end rigid coupling of connecting rod 14 has T shape frame 15, T shape frame 15 is located the top of adjacent first mounting 13, the downside ball joint of T shape frame 15 has swinging frame 16, one side that swinging frame 16 kept away from adjacent T shape frame 15 is connected with first spacing frame 17, after the laminating of the upside of first spacing frame 17 and bumper shock absorber 1, carry out the spacing to bumper absorber 1, first spacing frame 17 inserts in the adjacent swinging frame 16, the side of having finished by the spacing device 1 is used for the adjacent to the first and has been used for the first shock absorber component 1 to be fixed by the adjacent frame 16, the first spacing device is arranged in the adjacent frame 1, the first shock absorber component is fixed by the first 16 has been used for setting up the adjacent frame 1, the first shock absorber component has been fixed to be used for the adjacent to the first 1.

Referring to fig. 2 and 4, twelve connecting frames 1001 are in front-back mirror image and distributed in linear array in the storage box 10 in a sliding manner, the connecting frames 1001 are fixedly connected with the upper sides of the adjacent connecting rods 14, and the T-shaped frames 15 drive the adjacent connecting rods 14 and the adjacent connecting frames 1001 to slide along the inner sides of the storage box 10, so that the sliding distance and sliding process of the connecting rods 14 are limited under the action of the limiting sliding fit of the connecting frames 1001 and the inner sides of the storage box 10, and random swing of the T-shaped frames 15 and parts on the T-shaped frames is prevented in the sliding process, so that the T-shaped frames 15 slide out of the protection range of the storage box 10.

Referring to fig. 6, the limiting component includes two limiting blocks 20 distributed in a left-right mirror image manner, the two limiting blocks 20 distributed in the left-right mirror image manner are all slidably connected to one side of the adjacent swinging frame 16, which is close to the adjacent first limiting frame 17, the two limiting blocks 20 distributed in the left-right mirror image manner are all in limit fit with the adjacent first limiting frame 17, a spring is disposed between the limiting blocks 20 and the adjacent swinging frame 16, the opposite sides of the two limiting blocks 20 which are adjacent and distributed in the mirror image manner are all provided with inclined surfaces, when one side of the two limiting blocks 20 which are adjacent and distributed in the mirror image manner is attached to one side of the adjacent first limiting frame 17, which is opposite to one side of the adjacent first limiting frame 16, the first limiting frame 17 is limited, one side of the swinging frame 16, which is close to the adjacent first limiting frame 17, is fixedly connected with an elastic telescopic rod 21, a telescopic end of the elastic telescopic rod 21 is fixedly connected with a second limiting frame 22, the two inclined surfaces which are distributed in the mirror image manner are respectively arranged on one side of the second limiting frame 22, and when the two limiting blocks 20 which are adjacent and distributed in the mirror image manner are in the opposite sides of the opposite sides, the two limiting blocks 22 are respectively in limit fit with the inclined surfaces of the opposite sides of the adjacent limiting blocks 20, and when the two limiting blocks 20 are extruded towards each other.

Referring to fig. 3, 4, 7 and 8, the first buffer assembly includes a first sliding plate 30 sealingly and slidably connected to the adjacent first fixing members 13, hydraulic oil is stored in the first fixing members 13, one end of the connecting rod 14 located in the adjacent first fixing members 13 is fixedly connected to the adjacent first sliding plate 30, the first sliding plate 30 is provided with fluid passages 31 in mirror image distribution, the upper sides of the fluid passages 31 are in a circular truncated cone shape for guiding the hydraulic oil in the adjacent first fixing members 13, the hydraulic oil in the first fixing members 13 flows through the two fluid passages 31 in the adjacent first sliding plate 30, the hydraulic oil flows in from the upper sides of the fluid passages 31 and flows out from the lower sides of the fluid passages, and the hydraulic oil is guided under the circular truncated cone shape of the upper sides of the fluid passages 31, so that a user pulls the first fixing members 13 and the adjacent first sliding plate 30 upwards, and the first sliding plate 30 is provided with a flow resistance adjusting assembly for adjusting the adjacent fluid passages 31 in mirror image distribution.

Referring to fig. 7-9, the resistance adjusting assembly includes a rotating ring 40 that is rotatably connected to the lower side of the adjacent first sliding plate 30 in a limiting and sealing manner, a torsion spring for resetting the adjacent rotating ring 40 is disposed between the rotating ring 40 and the adjacent first sliding plate 30, a rotating plate 41 for shielding the adjacent and mirror-image distributed fluid channels 31 is fixedly connected to the lower side of the rotating ring 40, the width of the rotating plate 41 is smaller than the diameter of the adjacent and mirror-image distributed fluid channels 31, so that the rotating plate 41 does not completely shield the adjacent and mirror-image distributed fluid channels 31, the lower side of the first sliding plate 30 is in spline connection with a sliding rod 42, a resistance plate 43 is fixedly connected to the lower side of the sliding rod 42, inclined sliding grooves distributed in an annular array are disposed on the inner side of the rotating ring 40, and limiting pins distributed in an annular array are slidably matched with the adjacent inclined sliding grooves in the adjacent rotating ring 40, and through the matching of the outer Zhou Xianwei pins of the sliding rod 42 with the adjacent inclined sliding grooves in the adjacent rotating ring 40, the rotating plate 41 gradually shields the two adjacent fluid channels 31 on the adjacent first sliding plate 30 in the rotating process, so that the lower side of the sliding plate 30 is gradually shielded by the sliding rod 31, and the first sliding plate 31 is reduced in the moving speed and the first sliding plate 30 is reduced, and the second sliding plate 13 is fixed, and the first sliding plate 13 is reduced, and the second sliding plate 13 is moved down, and the first sliding plate is also is reduced.

The process of taking and placing the shock absorber 1 in the present invention is described as follows: the user first turns over the apron 11 upwards until the apron 11 can not cover the upside of storage box 10, then the user pulls upwards one of them T shape frame 15 and its upper part, T shape frame 15 drives adjacent connecting rod 14 and adjacent link 1001 and slides along the inboard of storage box 10, under the effect of link 1001 and storage box 10 inboard sliding fit, limit the sliding distance and the slip process of connecting rod 14, prevent that T shape frame 15 and its upper part from taking place the random swing in the in-process of upwards sliding.

The T-shaped frame 15 is pulled upwards by a user to drive the adjacent first sliding plates 30 and the upper parts thereof to move upwards in the adjacent first fixing pieces 13, and hydraulic oil in the first fixing pieces 13 flows through two fluid passages 31 in the adjacent first sliding plates 30 in the process that the first sliding plates 30 slide upwards in the adjacent first fixing pieces 13, and flows in from the upper sides of the fluid passages 31 and flows out from the lower sides of the fluid passages 31, and hydraulic oil is guided under the action of a round table shape on the upper sides of the fluid passages 31, so that the user can pull the first fixing pieces 13 and the adjacent first sliding plates 30 upwards conveniently.

When the T-shaped frame 15 and the upper part thereof move upward to a height sufficient to enable the upper side of the damper 1 to be inserted into the lower side of the adjacent swinging frame 16, a user does not pull the T-shaped frame 15 and the upper part thereof upward, at this time, the user pushes the second limiting frame 22 to the direction of the adjacent swinging frame 16, the telescopic end of the adjacent elastic telescopic rod 21 is retracted into the second limiting frame 22 in the moving process of the second limiting frame 22, the two limiting blocks 20 are extruded in the moving process of the second limiting frame 22, the two adjacent limiting blocks 20 are made to move in opposite directions under the action of the inclined surfaces of the two inclined surfaces outside the two adjacent limiting blocks 20 in the second limiting frame 22 (the adjacent springs are extruded in the moving process of the limiting blocks 20), after the two adjacent limiting blocks 20 do not limit the adjacent first limiting frame 17, the first limiting frame 17 is pulled out from the lower side of the adjacent swinging frame 16, the user does not push the second limiting frame 22 in the moving process of the first limiting frame 17, the adjacent limiting frame 16 is driven by the two adjacent limiting frames 16 back to move under the elastic telescopic rod 21, and the two adjacent limiting blocks 20 are not extruded in the moving process of the adjacent limiting blocks 20.

After the first limiting frame 17 is pulled out by a user to be no longer in contact with the lower side of the adjacent swinging frame 16, the upper side of the shock absorber 1 is inserted into the adjacent first limiting frame 17 by the user, the shock absorber 1 is limited by the first limiting frame 17 after being attached to the adjacent first limiting frame 17 by the shock absorber 1, then the first limiting frame 17 is inserted into the lower side of the adjacent swinging frame 16 by the user, and in the process that the first limiting frame 17 slides to the lower side of the adjacent swinging frame 16, the first limiting frame 17 extrudes the adjacent two limiting blocks 20, so that the adjacent two limiting blocks 20 move in opposite directions.

When the first limiting frame 17 is completely inserted into the lower side of the adjacent swinging frame 16, taking fig. 6 as an example, the front side of the first limiting frame 17 is already attached to the front side of the lower side of the adjacent swinging frame 16, at this time, the adjacent two limiting blocks 20 are separated from being pressed by the adjacent first limiting frame 17, the adjacent two limiting blocks 20 move back under the action of the adjacent springs, and the adjacent two limiting blocks 20 limit the adjacent first limiting frame 17 after moving back, so that the swinging frame 16 and the adjacent first limiting frame 17 are kept "fixed".

After the fixation of the damper 1 is completed, the user releases the T-shaped frame 15, the T-shaped frame 15 and its parts slide downward under the action of gravity, and in the process of sliding downward the T-shaped frame 15 drives the adjacent first sliding plate 30 and its upper parts to move downward in the adjacent first fixing piece 13, the hydraulic oil in the first fixing piece 13 flows through the two fluid passages 31 in the adjacent first sliding plate 30, the hydraulic oil flows in from the lower side of the fluid passages 31 and flows out from the upper side thereof, and under the action of the round table shape at the upper side of the fluid passages 31, the hydraulic oil is in a slow sliding state when flowing from the lower side of the fluid passages 31 to the upper side, so that the downward movement of the T-shaped frame 15 and its upper parts is buffered, the process of sliding downward the T-shaped frame 15 and its upper parts is kept stable, and the damper 1 carried by the T-shaped frame 15 and its upper parts is prevented from sliding downward rapidly under the action of gravity, so that the connecting frame 1001 and the upper side of the adjacent first fixing piece 13 collide hard, and the damper 1 is damaged or the damper 1 is influenced at the later stage of use.

When the T-shaped frame 15 carries the damper 1 and the first sliding plate 30 to slide in the adjacent first fixing members 13, the resistance plate 43 contacts with hydraulic oil in the adjacent first fixing members 13, under the action of the hydraulic oil exerting resistance force on the adjacent resistance plate 43, the resistance plate 43 and the adjacent sliding rod 42 slide towards the adjacent first sliding plate 30, the limiting pins distributed in the annular array on the sliding rod 42 press the inclined sliding grooves distributed in the annular array in the adjacent rotating ring 40 in the sliding process, so that the rotating ring 40 rotates, the adjacent torsion springs are gradually screwed in the rotating process of the rotating ring 40 and the rotating plate 41, the lower sides of the two fluid channels 31 on the adjacent first sliding plate 30 are gradually blocked in the rotating process of the rotating plate 41, so that the amount of the hydraulic oil in the fluid channels 31 is reduced, the downward sliding of the first sliding plate 30 is provided with resistance, the downward moving speed of the first sliding plate 30, the first fixing members 13 and parts thereon is slowed down, the subsequent assembly process of the damper 1 is repeated, and the process of the damper 1 is repeated.

After the assembly of the shock absorber 1 is completed, the cover plate 11 is turned downward until the cover plate 11 covers the upper side of the storage box 10.

When the shock absorber 1 needs to be taken out, a user repeatedly opens the cover plate 11, then takes the shock absorber 1 in the storage box 10 out by taking the taking out process of the shock absorber 1 as an example, the user pulls the T-shaped frame 15 and the shock absorber 1 carried by the upper part of the T-shaped frame, the T-shaped frame 15 and the upper part of the T-shaped frame are pulled upwards by the user, when the T-shaped frame 15 moves upwards to a height sufficient for the user to take out the shock absorber 1, the user does not pull the T-shaped frame 15 and the upper part of the T-shaped frame any more, then the user presses the second limiting frame 22 towards the direction of the adjacent swinging frame 16, the second limiting frame 22 presses the adjacent two limiting blocks 20 and moves towards each other, limiting of the adjacent first limiting frame 17 is released by the opposite movement of the two limiting blocks 20, then the first limiting frame 17 and the shock absorber 1 are pulled out towards the side far away from the adjacent swinging frame 16 by the user, and the subsequent taking out process of the shock absorber 1 is repeated.

Example 2: on the basis of embodiment 1, please refer to fig. 5, 10 and 11, further include a second buffer component disposed on the adjacent swinging frame 16, the number of the second buffer component is consistent with the number of the swinging frames 16, the second buffer component is used for buffering the adjacent shock absorber 1, the second buffer component includes a U-shaped frame 50 slidingly connected to the upper side of the adjacent T-shaped frame 15, the U-shaped frame 50 is provided with limit holes which are mirrored left and right and distributed in a linear array, the T-shaped frame 15 is slidingly connected with a sliding frame 5001, a spring for resetting the adjacent sliding frame 5001 is disposed between the sliding frame 5001 and the adjacent T-shaped frame 15, the sliding frame 5001 is in limit fit with the limit holes which are distributed in a mirror image manner on the adjacent U-shaped frame 50, when the sliding frame 5001 is inserted into the limit holes which are distributed in a mirror image manner, the lower side of the adjacent U-shaped frame 50 is fixedly connected with a sliding ring 51 which is provided with an inner side, the inner side of the sliding ring 51 is fixedly connected with a protection pad 52, the protection pad 52 is a silica gel pad, the middle part of the swinging frame 16 is fixedly connected with a first annular plate 17 positioned on the adjacent sliding frame 54, the upper side of the sliding frame is far away from the adjacent sliding frame 52, the protection pad is contacted with the protection pad 52, and the protection pad is contacted with the protection pad 53, and the protection pad is contacted with the protection pad 52, and the protection pad is fixed on the fixing plate 53.

Referring to fig. 10 and 11, an annular array of oil storage chambers 5301 are disposed in the fixed plate 53, hydraulic oil is stored in the oil storage chambers 5301, the sliding member 54 is in sealing sliding fit with the adjacent oil storage chambers 5301, a spring is disposed between the sliding member 54 and the adjacent oil storage chambers 5301, the sliding member 54 is provided with two fan-shaped through holes which are mirror-image distributed with the center of the circle as a reference point, a limiting plate 55 which is symmetrically distributed and is in sliding fit with the two fan-shaped through holes which are mirror-image distributed on the adjacent sliding member 54 is fixedly connected in the oil storage chambers 5301, hydraulic oil in the adjacent oil storage chambers 5301 flows through the fan-shaped through holes which are mirror-image distributed on the adjacent sliding member 54 during sliding of the sliding member 54, so that buffering of the sliding member 54 is realized, the moving speed of the sliding member 54 is reduced, the thickness of the side of the limiting plate 55 away from the center of the adjacent fixed plate 53 is smaller than the thickness of the side of the center of the circle close to the center of the adjacent fixed plate 53, the thickness of the limiting plate 55 is gradually changed, a protective assembly for providing safety protection for the shock absorber 1 is disposed in the storage box 10, the limiting plate 55 and the hydraulic oil in the process of the same time as the fan-shaped through holes which are mirror-image distributed on the adjacent sliding member 54 is gradually reduced, so that the flow of the hydraulic oil in the process of the fan-shaped through holes which gradually flows up to the fan-shaped through holes which are gradually and gradually distributed on the same through hole.

Referring to fig. 3, 4 and 12, the protection assembly includes a vibration sensing module 6 for monitoring vibration force of the storage box 10, the vibration sensing module 6 is disposed at a left side of an inner bottom of the storage box 10, the storage box 10 is provided with a control panel electrically connected with the vibration sensing module 6, an air bag 60 is fixedly connected in the storage box 10, the air bag 60 is fully inflated to provide protection for the shock absorber 1, the air bag 60 is disposed below the two fixing frames 12 in mirror image distribution, a second fixing member 61 is fixedly connected in the storage box 10, the second fixing member 61 is disposed below the air bag 60, a driving member 62 electrically connected with the control panel is disposed in the storage box 10, the driving member 62 is an electric push rod, a telescopic portion of the driving member 62 is in sealing sliding fit with the second fixing member 61, a second sliding plate 63 is in sealing sliding connection in the second fixing member 61, the second sliding plate 63 is fixedly connected with a telescopic end of the driving member 62 disposed in the second fixing member 61, the left side of the second fixing piece 61 is fixedly connected and communicated with two first air delivery pipes 64 which are distributed in a front-back mirror image mode, the left sides of the two first air delivery pipes 64 which are distributed in the front-back mirror image mode are fixedly connected and communicated with the left side of the air bag 60, the left side of the second fixing piece 61 is fixedly connected and communicated with two second air delivery pipes 65 which are distributed in the front-back mirror image mode, the right sides of the two second air delivery pipes 65 which are distributed in the front-back mirror image mode are fixedly connected and communicated with the right side of the air bag 60, the second air delivery pipes 65 which are distributed in the mirror image mode are positioned between the first air delivery pipes 64 which are distributed in the mirror image mode, the second sliding plate 63 extrudes air in the second fixing piece 61 and conveys the air into the two first air delivery pipes 64 and the second air delivery pipes 65, the two first air delivery pipes 64 and the second air delivery pipes 65 convey the air into the air bag 60, after the air bag 60 is inflated, the lower side of the shock absorber 1 is protected in a surrounding mode, and the first limiting frame 17 is matched with the fixation of the shock absorber 1 so as to realize the comprehensive protection of the shock absorber 1.

When the length of the shock absorber 1 is required to be stored to be greater than the length of the shock absorber 1 in fig. 4 (the connecting frame 1001 is already attached to the adjacent first fixing member 13), at this time, the user pulls the sliding frame 5001 to a position away from the adjacent U-shaped frame 50 (the adjacent spring is pressed in the moving process of the sliding frame 5001), so that the sliding frame 5001 slides out of the adjacent and mirror-distributed limiting holes on the adjacent U-shaped frame 50, to release the limiting of the U-shaped frame 50 and the sliding ring 51 and the upper parts thereof, then the user presses down the U-shaped frame 50 and the sliding ring 51 and the upper parts thereof, so that the central axes of the adjacent and mirror-distributed limiting holes on the U-shaped frame 50 coincide with the middle part of the adjacent sliding frame 5001, then the user releases the sliding frame 5001, and inserts the adjacent and mirror-distributed limiting holes in the adjacent and mirror-distributed limiting holes under the action of the sliding frame 5001, so as to limit the U-shaped frame 50 and the upper parts thereof, by the above operation, the distance of the U-shaped frame 50 and the upper parts thereof is adjusted, the distance of the sliding frame 50 and the upper parts thereof is moved down, so that the distance of the swing pad 52 and the distance of the adjacent swing frame 16 is adjusted, and the distance of the swing 16 is further reduced, and the distance of the swing device is adjusted, and the distance of the swing device is 16 is further reduced, and the distance is adjusted, and the distance is further the distance is adjusted.

After the assembly of the shock absorber 1 is completed, a user controls the telescopic end of the driving member 62 through the control panel to push the second sliding plate 63 to the left, and the second sliding plate 63 extrudes air in the second fixing member 61 in the sliding process, so that the air in the second fixing member 61 enters the air bag 60 through the two first air delivery pipes 64 and the second air delivery pipes 65 distributed in a mirror image manner, the air bag 60 is inflated, the upper side of the inflated air bag 60 is contacted with the lower side of the shock absorber 1, the lower side of the shock absorber 1 is protected in a surrounding manner, and the shock absorber 1 is fixed by the aid of the first limiting frame 17, so that the shock absorber 1 is comprehensively protected.

When the placing position of the storage box 10 vibrates, the storage box 10 is vibrated to be transmitted to the shock absorber 1, when the vibration degree is low, the expansion of the air bag 60 is used for providing shock absorption for the shock absorber 1, when the vibration degree is high, the vibration sensing module 6 is used for monitoring the vibration degree, when the vibration sensing module 6 is used for monitoring the vibration degree is high, the vibration sensing module 6 is transmitted to the control panel, the control panel is used for controlling the driving piece 62 to pull the second sliding plate 63 at the telescopic end of the driving piece to the right side, the left side in the second fixing piece 61 is gradually formed into a negative pressure environment in the process of moving the second sliding plate 63 to the right side, under the action of the negative pressure environment formed at the left side in the second fixing piece 61, gas in the air bag 60 enters the left side in the second fixing piece 61 through the two first gas pipes 64 and the second gas pipes 65 which are distributed in a mirror image mode, along with the transfer of the gas in the air bag 60, the air bag 60 is contracted after deformation to release the fixation of the lower side of the shock absorber 1, so that the shock absorber 1 is prevented from being triggered in advance and further vibrated due to the fact that the shock absorber 1 is transmitted to the shock absorber 1 in the shock absorber 1 caused by the strong vibration of the outside, when the shock absorber 1 is subjected to strong vibration of the outside of the shock absorber 10, the upper side of the shock absorber 1 is limited by the adjacent first limiting frame 17, the lower side of the shock absorber 1 is limited by the inflated air bag 60, the strong vibration of the outside of the shock absorber 10 can transmit the vibration force from the upper side and the lower side of the shock absorber 1 to the middle part of the shock absorber 1, the shock absorber 1 can vibrate before being put into operation or can be automatically retracted, parts on the shock absorber 1 can be loosened after the shock absorber 1 is retracted, the wear rate of the shock absorber 1 can be increased after the shock absorber 1 is retracted, the use time period of the shock absorber 1 is reduced).

After the limit of the shock absorber 1 is released by the air bag 60, the shock absorber 1 is affected by the vibration force of the storage box 10 to swing randomly, the shock absorber 1 is fixed at a single point in the fixed process by the shrinkage of the air bag 60 and the limit of the shock absorber 1, and when the storage box 10 is prevented from strong vibration, the air bag 60 and the first limit frame 17 perform two-point positioning on the shock absorber 1, so that the vibration force is transmitted to the middle part of the shock absorber 1 from the upper side and the lower side of the shock absorber 1.

When the vibration absorber 1 swings randomly along the ball joint part of the lower side of the adjacent T-shaped frame 15 and the adjacent swinging frame 16, when the vibration absorber 1 swings with the adjacent swinging frame 16, the sliding piece 54 on the same side with the swinging side direction contacts with the inner wall of the adjacent protection pad 52, so that the swinging of the sliding piece 54 and parts on the sliding piece is buffered, when the swinging amplitude of the vibration absorber 1 is overlarge, the sliding piece 54 on the same side with the swinging direction contacts with the inner wall of the adjacent protection pad 52 and then is extruded to slide into the adjacent oil storage cavity 5301, the adjacent spring is extruded (the spring is gradually contracted) when the sliding piece 54 slides into the adjacent oil storage cavity 5301, hydraulic oil in the adjacent oil storage cavity 5301 flows through fan-shaped through holes distributed in a mirror image mode on the adjacent sliding piece 54 in the sliding process of the sliding piece 54, so that the moving speed of the sliding piece 54 is reduced, and the swinging of the fixing plate 53 and parts on the fixing plate 53 is buffered.

In the process that the sliding piece 54 slides into the adjacent oil storage cavity 5301, the fan-shaped through holes distributed in a mirror image mode on the sliding piece 54 and the adjacent limiting plates 55 which are symmetrically distributed slide in opposite directions, and the fan-shaped through holes on the limiting plates 55 and the fan-shaped through holes on the adjacent sliding piece 54 are gradually shielded in the process of sliding in opposite directions, so that the flow rate of hydraulic oil flowing through the fan-shaped through holes distributed in a mirror image mode on the sliding piece 54 in the same time is reduced, gradual speed reduction of the sliding piece 54 is achieved, the moving speed of the sliding piece 54 is further reduced, and swinging of the fixing plates 53 and parts on the fixing plates are further buffered.

When the vibration damper 1 does not swing any more, the vibration damper 1 swings vertically under the action of gravity, so that the central axis of the vibration damper 1 slowly forms a vertical state with the horizontal plane, the fixing plate 53 and parts on the fixing plate 53 are driven to swing and reset in the resetting and swinging process of the vibration damper 1, the sliding piece 54 on the same side with the swinging direction is not contacted with the inner wall of the adjacent protection pad 52 any more, and the sliding piece 54 is driven to move and reset under the action of the adjacent spring of the sliding piece 54.

When the vibration sensing module 6 detects that the storage box 10 is no longer vibrating, the vibration sensing module 6 transmits signals to the control panel, the control panel controls the driving piece 62 to pull the second sliding plate 63 at the telescopic end of the driving piece to the left, and in the process that the second sliding plate 63 moves to the left, gas in the second fixing piece 61 enters the air bag 60 through the two first gas pipes 64 and the second gas pipe 65 which are distributed in a mirror image mode, so that the air bag 60 expands, and the fixation of the shock absorber 1 is restored.

While the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made therein without departing from the spirit and scope of the invention as defined in the following claims. Accordingly, the detailed description of the disclosed embodiments is to be taken only by way of illustration and not by way of limitation, and the scope of protection is defined by the content of the claims.

Claims (10)

1. The utility model provides a bin convenient to get and put, its characterized in that, including storage box (10), storage box (10) articulates there is apron (11), rigid coupling has mount (12) of mirror image distribution in storage box (10), mount (12) rigid coupling has first mounting (13) of sharp array distribution, first mounting (13) sliding connection has connecting rod (14), connecting rod (14) are not located adjacently one end rigid coupling in first mounting (13) has T shape frame (15), T shape frame (15) towards adjacently one side ball of first mounting (13) has connect swing frame (16), swing frame (16) keep away from adjacently one side spline joint of T shape frame (15) is provided with first spacing (17) that are used for carrying out spacing shock absorber (1), swing frame (16) are provided with spacing subassembly to it, be provided with first buffer assembly in first mounting (13), first buffer assembly is used for adjacent connecting rod (14).

2. The storage box for automobile parts convenient to take and place according to claim 1, wherein connecting frames (1001) which are mirror images and distributed in a linear array are connected in a sliding mode in the storage box (10), the connecting frames (1001) are fixedly connected with parts, which are adjacent to the connecting rods (14) and are not located in the first fixing pieces (13), of the connecting rods (14), and the connecting frames (1001) are used for limiting the adjacent connecting rods (14).

3. The storage box for automobile parts convenient to get and put according to claim 1, characterized in that, limit assembly is including stopper (20) that mirror image distributes, mirror image distribution stopper (20) all sliding connection in adjacent swing frame (16) are close to adjacent one side of first spacing (17), mirror image distribution stopper (20) all with adjacent first spacing (17) spacing cooperation, stopper (20) with be provided with the spring between adjacent swing frame (16), one side that swing frame (16) are close to adjacent first spacing (17) rigid coupling has elastic expansion link (21), the flexible end rigid coupling of elastic expansion link (21) has second spacing (22), second spacing (22) and adjacent and be mirror image distribution stopper (20) all spacing cooperation.

4. The storage box for automobile parts convenient to take and place according to claim 2, wherein the first buffer component comprises a first sliding plate (30) in sliding fit with the adjacent first fixing piece (13), the first sliding plate (30) is fixedly connected to one end, adjacent to the connecting rod (14), of the connecting rod (14) located in the adjacent first fixing piece (13), hydraulic oil is stored in the first fixing piece (13), the first sliding plate (30) is provided with fluid channels (31) in mirror image distribution, the fluid channels (31) are arranged in a circular truncated cone shape towards the top in the adjacent first fixing piece (13) and used for guiding the hydraulic oil in the adjacent first fixing piece (13), and the first sliding plate (30) is provided with a resistance adjusting component used for adjusting the flow quantity of the adjacent fluid channels (31) in mirror image distribution.

5. The storage box for automobile parts convenient to take and place according to claim 4, wherein the resistance adjusting assembly comprises a rotating ring (40), the rotating ring (40) is rotatably connected in the adjacent first sliding plate (30), a torsion spring is arranged between the rotating ring (40) and the adjacent first sliding plate (30), a rotating plate (41) is fixedly connected to one side, away from the adjacent first sliding plate (30), of the rotating ring (40), and the rotating plate (41) is used for shielding the adjacent fluid channels (31) which are in mirror image distribution.

6. The storage box for automobile parts convenient to pick up and place according to claim 5, wherein the first sliding plate (30) is in spline connection with a sliding rod (42), one side, away from the adjacent first sliding plate (30), of the sliding rod (42) is fixedly connected with a resistance plate (43), inclined sliding grooves distributed in an annular array are formed in the rotating ring (40), limiting pins distributed in an annular array are fixedly connected with the sliding rod (42), and the limiting pins of the sliding rod (42) are in sliding fit with the adjacent inclined sliding grooves in the rotating ring (40).

7. The storage box for automobile parts convenient to get and put according to claim 3, further comprising a second buffer component with swing frame (16) quantity is unanimous, the second buffer component sets up in the adjacent swing frame (16), the second buffer component is used for carrying out buffering to adjacent bumper shock absorber (1), the second buffer component is including U-shaped frame (50), U-shaped frame (50) sliding connection in adjacent T-shaped frame (15), U-shaped frame (50) are provided with the spacing hole of mirror image and being sharp array distribution, T-shaped frame (15) sliding connection has carriage (5001), carriage (5001) with be adjacent be provided with the spring between T-shaped frame (15), carriage (5001) with be adjacent on U-shaped frame (50) spacing hole spacing cooperation of mirror image distribution, U-shaped frame (50) rigid coupling has sliding ring (51), be provided with the conical surface in sliding ring (51), sliding ring (52) inner slide (16) are located in the sliding ring (50) and are located the fixed bolster (53), the fixed bolster (53) is located in the fixed bolster.

8. The storage box for automobile parts convenient to pick up and place according to claim 7, wherein an oil storage cavity (5301) distributed in an annular array is arranged in the fixing plate (53), hydraulic oil is stored in the oil storage cavity (5301), the sliding piece (54) is in sliding fit with the adjacent oil storage cavity (5301), the sliding piece (54) is provided with fan-shaped through holes distributed in a mirror image mode, a limiting plate (55) distributed in a symmetrical mode is fixedly connected in the oil storage cavity (5301), a spring is arranged between the sliding piece (54) and the adjacent oil storage cavity (5301), and the limiting plate (55) is in sliding fit with the adjacent fan-shaped through holes on the adjacent sliding piece (54).

9. The storage box for automobile parts convenient to take and place according to claim 8, wherein the thickness of the limiting plate (55) close to the center side of the adjacent fixed plate (53) is larger than the thickness of the side far away from the center side of the adjacent fixed plate (53), the thickness of the limiting plate (55) is gradually changed, and the storage box (10) is provided with a protection component for providing safety protection for the shock absorber (1).

10. The storage box for automobile parts convenient to take and place according to claim 9, wherein the protection assembly comprises a vibration sensing module (6), the vibration sensing module (6) is arranged in the storage box (10), the storage box (10) is provided with a control panel, the vibration sensing module (6) is electrically connected with the control panel, an air bag (60) for protecting the shock absorber (1) is fixedly connected in the storage box (10), the air bag (60) is positioned below the fixed frame (12) in mirror distribution, a second fixing piece (61) is fixedly connected below the air bag (60) in the storage box (10), a driving piece (62) electrically connected with the control panel is arranged in the storage box (10), a telescopic part of the driving piece (62) is in sliding fit with the second fixing piece (61), a second sliding plate (63) is connected in sliding connection with the second fixing piece (61), the second sliding plate (63) is fixedly connected with the second fixing piece (62) in a mirror distribution manner, the second fixing piece (61) is fixedly connected with a second air pipe (64) at one side of the second fixing piece (64), the second fixing piece is fixedly connected with the second fixing piece (64) and is fixedly connected with a second air pipe (64) at one side of the second fixing piece, the second fixing piece (61) is fixedly connected and communicated with a second air pipe (65) in mirror image distribution, and one side, far away from the second fixing piece (61), of the second air pipe (65) in mirror image distribution is fixedly connected and communicated with the other side of the air bag (60).