CN115178403A - Automobile shock absorber ware spring spraying plastics treatment facility - Google Patents

Abstract

The invention relates to the field of plastic spraying, in particular to automobile shock absorber spring plastic spraying processing equipment. The invention provides automobile shock absorber spring plastic spraying treatment equipment which can uniformly spray plastic on an automobile shock absorber spring. The utility model provides an automobile shock absorber ware spring spraying plastics treatment facility, is including framework, guard gate, electronic slide rail and spraying plastics ware, and the front side rotation formula of framework is connected with the guard gate, and the jack has all been opened on the top of framework and the upper portion of antistatic cloth, and electronic slide rail is installed to the inside upside of framework, installs the spraying plastics ware that is used for blowout static powder on the slider of electronic slide rail. Through using the biax motor as drive power, can make the bumper shock absorber spring of putting on the cylinder rotate to under the rotatory effect of bumper shock absorber spring, the electrostatic powder that from the top down spouts can be evenly and comprehensive spout on the bumper shock absorber spring, and the plastic-spraying is effectual, and can avoid taking place the condition that the plastic-spraying dead angle leaked to spout with the part appears.

Description

Automobile shock absorber ware spring spraying plastics treatment facility

Technical Field

The invention relates to the field of plastic spraying, in particular to automobile shock absorber spring plastic spraying processing equipment.

Background

The bumper shock absorber spring is the vulnerable accessory in the car use, and the bumper shock absorber directly influences the stability that the car went, security and the life-span of other parts, and in order to let the bumper shock absorber often be in good operating condition, people usually can carry out the spraying plastics operation to the bumper shock absorber spring surface, guarantee that the spring steel of bumper shock absorber spring can not appear the corrosion, improve its life.

Even spraying plastics processing apparatus of automobile shock absorber ware spring according to patent grant publication No. CN214812342U, including spraying plastics case and spraying plastics pipe, the inside of spraying plastics case is provided with the installation piece, the left side of installation piece is fixed with the spraying plastics mouth, the one end of spraying plastics pipe is located the inside of spraying plastics case and is fixed with the spraying plastics mouth, set up threaded hole on the installation piece, the guiding hole has been seted up on the right side that just is located the screw hole on the installation piece, be provided with the guide bar in the guiding hole.

Although above-mentioned device can be through first motor, make the installation piece drive spray nozzle reciprocating motion from top to bottom, realize the upper and lower spraying of bumper shock absorber spring, through the second motor rotation at a slow speed, can make the bumper shock absorber spring rotate to the opposite side, thereby realize spraying once more to the bumper shock absorber spring, but above-mentioned device is when the spraying of bumper shock absorber spring, the clamp plate can block the bumper shock absorber spring, thereby lead to the unable comprehensive spraying plastics that carries on of bumper shock absorber spring, the condition of local hourglass spraying appears, make the spraying plastics homogeneity poor.

In order to solve the problems in the prior art, it is necessary to design an automobile shock absorber spring plastic spraying treatment device capable of uniformly spraying plastic on an automobile shock absorber spring, so that the effect of avoiding the local spray leakage on the automobile shock absorber spring is achieved.

Disclosure of Invention

The invention aims to overcome the defect that local spray leakage is easy to occur due to the fact that the existing spray-molding treatment equipment cannot uniformly spray the automobile shock absorber springs, and the technical problem to be solved is to provide the automobile shock absorber spring spray-molding treatment equipment capable of uniformly spraying the automobile shock absorber springs.

In order to solve the technical problem, the invention provides automobile shock absorber spring plastic spraying treatment equipment which comprises a frame body, a protective door, an electric slide rail and a plastic sprayer, wherein the front side of the frame body is rotatably connected with the protective door, the electric slide rail is arranged on the upper side in the frame body, the plastic sprayer for spraying electrostatic powder is arranged on a sliding piece of the electric slide rail, the automobile shock absorber spring plastic spraying treatment equipment also comprises antistatic cloth, a slide pull rod, a rolling mechanism and a shaking mechanism, the antistatic cloth for preventing the electrostatic powder from being adsorbed on the inner side wall of the frame body is connected to the inner side of the frame body, jacks are formed in the top of the frame body and the upper part of the antistatic cloth, the slide pull rod is slidably connected on the protective door, the rolling mechanism for driving a shock absorber spring to rotate is arranged on the frame body, and the shaking mechanism for knocking the frame body to shake the antistatic cloth is arranged at the back of the frame body.

Preferably, the rolling mechanism is including the mounting bracket, the cylinder, the sprocket, the chain, the double-shaft motor, bull stick and bevel gear, the inside downside of framework is connected with the mounting bracket, it is connected with two at least cylinders that are used for supporting the bumper shock absorber spring to rotate on the mounting bracket evenly spaced, one side of cylinder is connected with the sprocket, the sprocket is located the inboard of mounting bracket, be connected with the chain between the inside all sprockets of framework, sprocket and chain meshing, the double-shaft motor is installed to the right downside at framework back, the cylinder one end that is close to one side of double-shaft motor is connected with the bull stick, the bull stick rotates with the framework to be connected, all be connected with bevel gear on the output shaft of double-shaft motor one side and the one side that the bull stick is close to the double-shaft motor, two bevel gear meshing.

Preferably, the shaking mechanism comprises a first slide bar, a second slide bar, a first hitting plate, a first elastic part, a connecting rod and a cam, wherein two first slide bars are slidably connected to one side of the back of the frame body, two second slide bars are slidably connected to the other side of the back of the frame body, a first hitting plate used for hitting the back of the frame body is connected between the first slide bar and the second slide bars, first elastic parts are connected between the first slide bars and the frame body, a connecting rod is connected to an output shaft at the other side of the double-shaft motor, one end, close to the first hitting plate, of the connecting rod is connected with a cam used for pushing the first hitting plate in the direction away from the frame body, and the cam is in contact with the first hitting plate.

Preferably, still including being used for beating the complementary unit of framework both sides, complementary unit is including wedge frame, second beating board and second elastic component, and the equal sliding connection in both sides of framework has two at least wedge frames, is located to be connected with the second between the two wedge frames with one side and beats the board, is connected with the second elastic component between wedge frame and the framework.

Preferably, still including circulation mechanism, circulation mechanism is connected with the baffle including baffle, fan, housing and hose, and the downside of mounting bracket is located the downside of cylinder, and the bottom of baffle is evenly installed at the interval and is used for the fan that inhales the static powder downwards, and the downside of framework is connected with the housing that is unanimous with fan quantity and corresponds, and housing and framework intercommunication are connected with the hose between the bottom of housing and the spraying plastics ware and are communicated.

Preferably, the suspension device further comprises a suspension mechanism, the suspension mechanism comprises a first electromagnet, a sliding plate, a second electromagnet and a hanging rod, the lower portion of the sliding pull rod is connected with at least one first electromagnet, one side, close to the frame, of the protective door is connected with the sliding plate in a sliding mode, the sliding plate is connected with at least one second electromagnet used for being magnetically attracted with the first electromagnet, and the hanging rod used for suspending the shock absorber spring is connected to the sliding plate in a sliding mode at even intervals.

Preferably, the shock absorber further comprises a blocking mechanism, the blocking mechanism comprises a blocking disc, wedge blocks and a third elastic piece, the blocking disc used for blocking the shock absorber spring is connected to one side of the hanging rod, the two wedge blocks are connected to the blocking disc in a sliding mode, and the third elastic piece is connected between the wedge blocks and the blocking disc.

Preferably, the end of each wedge block which is far away from each other is an inclined surface.

The invention has the following beneficial effects: 1. through using the biax motor as drive power, can make the bumper shock absorber spring of putting on the cylinder rotate to under the rotatory effect of bumper shock absorber spring, the electrostatic powder that from the top down spouts can be evenly and comprehensive spout on the bumper shock absorber spring, and the plastic-spraying is effectual, and can avoid taking place the condition that the plastic-spraying dead angle leaked to spout with the part appears.

2. After the in-process spun static powder that spouts at the spraying plastics spouts the inside wall to the framework on, prevent that static cloth can block static powder to under the effect of preventing static cloth and preventing static, static powder can't adsorb on preventing static cloth, can prevent from this that static powder from attaching to on the inside wall of framework, avoid leading to the inconvenient clearance static powder of staff because of static powder is attached to on the inside wall of framework, brought the facility for the staff.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic diagram of a first partial body structure according to the present invention.

Fig. 3 is a state diagram of the present invention in use.

FIG. 4 is a schematic view of a second partial body structure according to the present invention.

Fig. 5 is a schematic view of a first partially separated body structure of the rolling mechanism of the present invention.

Fig. 6 is a schematic view of a second partial body structure of the rolling mechanism of the present invention.

FIG. 7 is an enlarged view of part A of the present invention.

Fig. 8 is a schematic perspective view of a part of the shaking mechanism and the auxiliary mechanism according to the present invention.

Fig. 9 is a partially enlarged view of the dithering mechanism of the present invention.

FIG. 10 is an enlarged view of section B of the present invention.

Fig. 11 is a schematic perspective view of the circulation mechanism of the present invention.

Fig. 12 is a perspective view of the suspending and stopping mechanism of the present invention.

FIG. 13 is an enlarged view of section C of the present invention.

FIG. 14 is an enlarged view of section D of the present invention.

The labels in the figures are: 1-frame, 2-guard gate, 21-antistatic cloth, 22-jack, 3-slide pull rod, 4-electric slide rail, 5-plastic sprayer, 6-rolling mechanism, 61-mounting rack, 62-roller, 63-sprocket, 64-chain, 65-biaxial motor, 66-rotating rod, 67-bevel gear, 7-shaking mechanism, 71-first slide rod, 72-second slide rod, 73-first striking plate, 74-first elastic member, 75-connecting rod, 76-cam, 8-auxiliary mechanism, 81-wedge frame, 82-second striking plate, 83-second elastic member, 9-circulating mechanism, 91-baffle, 92-fan, 93-frame cover, 94-hose, 10-hanging mechanism, 101-first electromagnet, 102-slide plate, 103-second, 104-hanging rod, 11-electromagnet blocking mechanism, 111-blocking disk, 112-wedge block, 113-third elastic member.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

The utility model provides an automobile shock absorber ware spring plastic-blasting treatment facility, please look over fig. 1-10, including framework 1, guard gate 2, antistatic cloth 21, slide pull rod 3, electronic slide rail 4, plastic-blasting ware 5, rolling mechanism 6 and shake mechanism 7, the front side of framework 1 is rotated and is connected with guard gate 2, the inboard of framework 1 is connected with antistatic cloth 21, jack 22 has all been opened on the top right side of framework 1 and the upper right side of antistatic cloth 21, the front side of guard gate 2 is rotated and is connected with slide pull rod 3, electronic slide rail 4 is installed to the inside upside of framework 1, plastic-blasting ware 5 is installed on the slider of electronic slide rail 4, be equipped with rolling mechanism 6 on the framework 1, the rear side of framework 1 is equipped with shake mechanism 7.

Referring to fig. 2, 3, 5, 6 and 7, the rolling mechanism 6 includes an installation frame 61, rollers 62, a chain wheel 63, a chain 64, a double-shaft motor 65, a rotating rod 66 and a bevel gear 67, the installation frame 61 is bolted to the lower side inside the frame 1, eight rollers 62 are rotatably connected to the installation frame 61 at even intervals, the chain wheel 63 is connected to the rear sides of the eight rollers 62, the eight chain wheels 63 are located inside the installation frame 61, the chain 64 is connected between the eight chain wheels 63, the chain wheel 63 is engaged with the chain 64, the rotating rod 66 is connected to the rear end of the right-side roller 62, the rotating rod 66 rotatably penetrates through the rear side of the frame 1, the double-shaft motor 65 is installed on the lower right side of the back of the frame 1, the bevel gear 67 is connected to an output shaft on the right side of the double-shaft motor 65 and the rear side of the rotating rod 66, and the two bevel gears 67 are engaged.

Referring to fig. 2, 8, 9 and 10, the shaking mechanism 7 includes a first slide bar 71, a second slide bar 72, a first striking plate 73, a first elastic member 74, a connecting bar 75 and a cam 76, the first slide bar 71 is connected to the right side of the back of the frame 1 in an up-down symmetrical manner, the second slide bar 72 is connected to the left side of the back of the frame 1 in an up-down symmetrical manner, the first striking plate 73 is connected between the first slide bar 71 and the second slide bar 72, the first elastic member 74 is connected between the first slide bar 71 and the frame 1 and between the second slide bar 72 and the frame 1, the connecting bar 75 is connected to the output shaft on the left side of the biaxial motor 65, the cam 76 is connected to the left end of the connecting bar 75, and the cam 76 is in contact with the first striking plate 73.

When the damper spring needs to be sprayed, the flexible tube for conveying the electrostatic powder is inserted into the frame body 1 through the insertion hole 22 and is communicated with the plastic sprayer 5, then the protective door 2 is pulled forwards through the sliding pull rod 3, then the damper spring is placed between two adjacent rollers 62, then the protective door 2 is pushed backwards and closed through the sliding pull rod 3, then the double-shaft motor 65 is started, the output shaft on the right side of the double-shaft motor 65 drives the rotating rod 66 and the rollers 62 on the rotating rod 66 through the bevel gear 67, the roller 62 on the rightmost side drives the chain wheel 63 on the roller to rotate, the chain wheel 63 on the rightmost side drives the remaining chain wheel 63 to rotate through the chain 64, the remaining chain wheel 63 drives the remaining rollers 62 to rotate after rotating, so that the damper spring on the roller 62 is driven to rotate when rotating, and meanwhile the output shaft on the left side of the double-shaft motor 65 drives the rotating rod 66 and the cam 76 to rotate, the cam 76 pushes the first hitting plate 73 backwards in the rotating process, the first hitting plate 73 drives the first sliding rod 71 and the second sliding rod 72 to move backwards, the first spring is compressed, then after the cam 76 does not push the first hitting plate 73 any more in the rotating process, the first spring is reset and drives the first hitting plate 73 to move forwards through the first sliding rod 71 and the second sliding rod 72 to reset and hit the back of the frame body 1, so that the cam 76 continuously rotates and intermittently pushes the first hitting plate 73, the first hitting plate 73 continuously hits the back of the frame body 1, the anti-static cloth 21 in the frame body 1 shakes, then a worker conveys the electrostatic powder into the plastic sprayer 5 through the flexible pipe, then the plastic sprayer 5 is started and the electric sliding rail 4 is started, the sliding part of the electric sliding rail 4 drives the plastic sprayer 5 to move left and right in a reciprocating manner, meanwhile, the plastic sprayer 5 sprays the electrostatic powder on the rotating damper springs, the electrostatic powder is adsorbed on the damper springs under the action of static electricity, then the damper springs in the frame body 1 can be sprayed with the electrostatic powder due to the fact that the plastic sprayer 5 moves left and right in a reciprocating manner, meanwhile, under the action of the rotation of the damper springs, the electrostatic powder can be uniformly and comprehensively sprayed on the damper springs, plastic spraying dead corners are avoided, meanwhile, the electrostatic powder which is not sprayed on the damper springs can be sprayed on the inner bottom of the frame body 1 and the anti-static cloth 21, under the anti-static effect of the anti-static cloth 21, the electrostatic powder cannot be adsorbed on the anti-static cloth 21, therefore, the electrostatic powder can be prevented from being attached on the inner side wall of the frame body 1, meanwhile, under the action of shaking of the anti-static cloth 21 due to the fact that the first hitting plate 73 hits the back of the frame body 1, static powder which is not attached to the anti-static cloth 21 but remains on the anti-static cloth 21 is shaken down to the inner bottom of the frame body 1 under the action of shaking of the anti-static cloth 21, the effect of shaking the residual static powder on the anti-static cloth 21 is achieved, then after the shock absorber spring is sprayed with plastic, the double-shaft motor 65, the electric sliding rail 4 and the plastic sprayer 5 are closed, the transmission of the static powder through the flexible pipe is stopped, then a worker pulls the flexible pipe out of the plastic sprayer 5 and pulls the elastic pipe out of the jack 22, then the protective door 2 is pulled forwards through the sliding pull rod 3, then the shock absorber spring is taken out, then the static powder falling to the inner bottom of the frame body 1 is collected, and finally the protective door 2 is pushed backwards through the sliding pull rod 3 to be closed, so that the equipment can be used through the operation.

Example 2

On the basis of embodiment 1, please look at fig. 1, 8, 9 and 10, and further include an auxiliary mechanism 8, where the auxiliary mechanism 8 includes a wedge frame 81, a second striking plate 82 and a second elastic member 83, two wedge frames 81 are slidably connected to two sides of the frame 1 in a front-back symmetric manner, the second striking plate 82 is connected between the four wedge frames 81 located on the same side, and the second elastic member 83 is connected between the wedge frame 81 and the frame 1.

First, when the first sliding bar 71 and the second sliding bar 72 respectively abut against the wedge frames 81 at the two sides, so that the second spring is compressed, after the first sliding bar 71 and the second sliding bar 72 drive the first striking plates 73 to move backward, the first sliding bar 71 and the second sliding bar 72 respectively do not abut against the adjacent wedge frames 81, so that the second spring is reset, and after the first sliding bar 71 and the second sliding bar 72 drive the second striking plates 82 at the two sides to move in a direction approaching to each other through the wedge frames 81 and respectively strike the two sides of the frame 1, and then after the first sliding bar 71 and the second sliding bar 72 drive the first striking plates 73 to move forward to strike the back of the frame 1, the first sliding bar 71 and the second sliding bar 72 push the second striking plates 82 at the two sides to a direction away from each other through the wedge frames 81, so that the two second striking plates 82 respectively strike the two sides of the frame 1 while the first striking plates 73 reciprocate back and forth to strike the back of the frame 1, so that the amplitude and frequency of the anti-static cloth 21 are increased, and the residual powder on the anti-static cloth 21 is shaken more rapidly shaken.

Example 3

On the basis of embodiment 2, please look at fig. 3 and 11, the plastic spraying device further includes a circulating mechanism 9, the circulating mechanism 9 includes a baffle 91, a fan 92, a frame cover 93 and a hose 94, the baffle 91 is bolted to the lower side of the mounting frame 61, the baffle 91 is located at the lower side of the drum 62, the fans 92 are evenly installed at the bottom of the baffle 91 at intervals, the frame covers 93 corresponding to the fans 92 in the same number are connected to the lower side of the frame 1, the frame covers 93 are communicated with the frame 1, and the hose 94 is connected between the bottom of the frame covers 93 and the plastic spraying device 5 and communicated with each other.

When spraying plastics to the bumper shock absorber spring, the staff starts the fan 92, the fan 92 sucks the electrostatic powder which falls downwards and is not sprayed on the bumper shock absorber spring downwards into the hose 94 through the frame cover 93, then the electrostatic powder in the hose 94 can be collected into the plastic sprayer 5, so that the plastic sprayer 5 can spray the electrostatic powder fed from the hose 94 onto the bumper shock absorber spring, the electrostatic powder which is sprayed but is not sprayed on the bumper shock absorber spring can be recycled, the effects of saving resources and reducing cost are achieved, and then after the plastic spraying is completed, the fan 92 is closed.

Example 4

On the basis of embodiment 3, please look at fig. 1, fig. 3, fig. 12 and fig. 13, the door protection device further includes a hanging mechanism 10, the hanging mechanism 10 includes a first electromagnet 101, a sliding plate 102, a second electromagnet 103 and a hanging rod 104, the rear lower side of the sliding pull rod 3 is connected with the first electromagnet 101 in a bilateral symmetry manner, the rear side of the protection door 2 is connected with the sliding plate 102 in a sliding manner, the sliding plate 102 is connected with the second electromagnet 103 in a bilateral symmetry manner, and the sliding plate 102 is connected with the hanging rods 104 in a sliding manner at regular intervals.

Please see fig. 3, fig. 12 and fig. 14, further comprising a blocking mechanism 11, wherein the blocking mechanism 11 comprises a blocking disc 111, a wedge block 112 and a third elastic member 113, the blocking disc 111 is connected to the rear side of the hanging rod 104, the blocking disc 111 is slidably connected to two vertically symmetrical wedge blocks 112, two ends of the two adjacent wedge blocks 112, which are away from each other, are inclined planes, and the third elastic member 113 is connected between the wedge block 112 and the blocking disc 111.

Firstly, the first electromagnet 101 and the second electromagnet 103 are both in a starting state, so that the first electromagnet 101 and the second electromagnet 103 are magnetically attracted together, then when a damper spring needs to be put into the device, the protective door 2 is pulled forwards through the sliding pull rod 3, the protective door 2 drives the hanging mechanism 10 and the blocking mechanism 11 on the protective door 2 to rotate forwards together, after the protective door 2 is opened, a worker pushes the hanging rod 104 towards the direction close to the protective door 2, the hanging rod 104 drives the blocking mechanism 11 on the hanging rod 104 to move together, after the blocking mechanism 11 is contacted with the sliding plate 102, the hanging rod 104 is stopped being pushed, then the damper spring is put into the device, then the worker pushes the protective door 2 backwards through the pull rod to close, the protective door 2 drives the hanging mechanism 10 and the blocking mechanism 11 on the protective door to rotate backwards together, after the protective door 2 is closed, the worker pushes the hanging rod 104 backwards, the hanging rod 104 drives the blocking mechanism 11 thereon to move backwards together, the wedge block 112 in the blocking mechanism 11 contacts with the damper spring and is pushed by the damper spring in the direction close to the baffle disc 111 in the process of moving backwards, the third spring is compressed, then the baffle disc 111 and the hanging rod 104 are inserted into the damper spring in the process of moving backwards, after the wedge block 112 moves backwards and is not pushed by the damper spring, the third spring resets and drives the wedge block 112 to move reversely and reset, then when the hanging rod 104 penetrates through the damper spring, the baffle disc 111 moves to the rear side of the damper spring, and the wedge block 112 contacts with the damper spring to push the damper spring to abut against the damper spring, the hanging rod 104 stops being pushed backwards, at the moment, the damper spring is in a state of being sleeved on the hanging rod 104, and then the damper spring needs to be taken out, the sliding pull rod 3 is pulled upwards, the sliding pull rod 3 drives the sliding plate 102 upwards through the first electromagnet 101 and the second electromagnet 103, the sliding plate 102 drives the stop lever and the blocking mechanism 11 to move upwards, the hanging rod 104 can be in contact with the damper spring and hang the damper spring in the process of moving upwards, so that the damper spring is not placed on the two adjacent rollers 62 any more, then the sliding pull rod 3 stops being pulled after the damper spring moves upwards to a proper position, the protective door 2 is opened through the sliding pull rod 3, the stop disc 111 and the wedge block 112 can prevent the damper spring from falling off the stop lever in the process of opening the protective door 2, after the protective door 2 is opened, a worker pushes the wedge block 112 towards the direction close to the stop disc 111, the third spring compresses, the wedge block 112 does not abut against the damper spring any more, at this time, the worker takes the damper spring down the damper spring from the hanging rod 104, then loosens the wedge block 112, the third spring resets and drives the wedge block 112 to move reversely, then the damper spring 104 is taken down through the sliding pull rod 102, the sliding pull rod 102 and the sliding pull rod 102 is moved downwards through the action of the second electromagnet 102, and the sliding pull rod 102 is convenient to move downwards, and the sliding pull rod 102 is closed.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that various changes, modifications and substitutions may be made by those skilled in the art without departing from the spirit of the invention, and all are intended to be included within the scope of the invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. The utility model provides an automobile shock absorber ware spring spraying plastics treatment facility, including framework (1), guard gate (2), electronic slide rail (4) and spraying plastics ware (5), the front side of framework (1) is connected with guard gate (2) in the rotation, electronic slide rail (4) are installed to the inside upside of framework (1), install spraying plastics ware (5) that are used for spouting electrostatic powder on the slider of electronic slide rail (4), a serial communication port, still including antistatic cloth (21), slide pull rod (3), rolling mechanism (6) and shake mechanism (7), the inboard of framework (1) is connected with antistatic cloth (21) that are used for preventing that electrostatic powder from adsorbing on framework (1) inside wall, jack (22) have all been opened on the top of framework (1) and the upper portion of antistatic cloth (21), slide type connection has slide pull rod (3) on guard gate (2), be equipped with on framework (1) and be used for driving rolling mechanism (6) that the shock absorber ware spring carries out the rotation, the back of framework (1) is equipped with shake mechanism (7) that are used for knocking framework (1) and let antistatic cloth (21) carry out the shake.

2. The automobile shock absorber spring plastic spraying processing equipment as claimed in claim 1, wherein the rolling mechanism (6) comprises a mounting frame (61), a roller (62), a chain wheel (63), a chain (64), a double-shaft motor (65), a rotating rod (66) and bevel gears (67), the mounting frame (61) is connected to the lower side of the inside of the frame body (1), at least two rollers (62) for supporting the shock absorber springs are rotatably connected to the mounting frame (61) at uniform intervals, the chain wheel (63) is connected to one side of each roller (62), the chain wheel (63) is located on the inner side of the mounting frame (61), the chain (64) is connected between all the chain wheels (63) inside the frame body (1), the chain wheels (63) are meshed with the chain (64), the double-shaft motor (65) is installed on the lower right side of the back of the frame body (1), the rotating rod (66) is connected to one end of each roller (62) close to one side of the double-shaft motor (65), the rotating rod (66) is rotatably connected to the frame body (1), an output shaft on one side of the double-shaft motor (65) and one side of the rotating rod (66) close to the double-shaft motor (65) are connected with the two bevel gears (67), and the two bevel gears (67) are meshed.

3. The automobile shock absorber spring plastic-blasting processing equipment is characterized in that the shaking mechanism (7) comprises a first sliding rod (71), a second sliding rod (72), a first hitting plate (73), a first elastic piece (74), a connecting rod (75) and a cam (76), wherein two first sliding rods (71) are connected to one side of the back of the frame body (1) in a sliding mode, two second sliding rods (72) are connected to the other side of the back of the frame body (1) in a sliding mode, the first hitting plate (73) used for hitting the back of the frame body (1) is connected between the first sliding rod (71) and the second sliding rod (72), the first elastic piece (74) is connected between the first sliding rod (71) and the frame body (1) and between the second sliding rod (72) and the frame body (1), the connecting rod (75) is connected to an output shaft on the other side of the double-shaft motor (65), one end, close to the first hitting plate (73), of the connecting rod (75) is connected with the cam (76) used for pushing the first hitting plate (73) in the direction far away from the frame body (1), and the cam (76) is in contact with the first hitting plate (73).

4. The automobile shock absorber spring plastic-blasting processing device according to claim 3, further comprising an auxiliary mechanism (8) for striking two sides of the frame body (1), wherein the auxiliary mechanism (8) comprises a wedge-shaped frame (81), a second striking plate (82) and a second elastic member (83), at least two wedge-shaped frames (81) are connected to two sides of the frame body (1) in a sliding manner, the second striking plate (82) is connected between the two wedge-shaped frames (81) located on the same side, and the second elastic member (83) is connected between the wedge-shaped frame (81) and the frame body (1).

5. The automobile shock absorber spring plastic spraying processing equipment is characterized by further comprising a circulating mechanism (9), wherein the circulating mechanism (9) comprises a baffle (91), a fan (92), a frame cover (93) and a hose (94), the baffle (91) is connected to the lower side of the mounting rack (61), the baffle (91) is located on the lower side of the roller (62), at least one fan (92) used for sucking electrostatic powder downwards is installed on the bottom of the baffle (91) at uniform intervals, the frame cover (93) which is consistent in number and corresponds to the fans (92) is connected to the lower side of the frame body (1), the frame cover (93) is communicated with the frame body (1), and the hose (94) is connected between the bottom of the frame cover (93) and the plastic spraying device (5) and communicated with the plastic spraying device.

6. The automobile shock absorber spring plastic spraying processing equipment is characterized by further comprising a hanging mechanism (10), wherein the hanging mechanism (10) comprises a first electromagnet (101), a sliding plate (102), a second electromagnet (103) and a hanging rod (104), the lower portion of the sliding pull rod (3) is connected with at least one first electromagnet (101), one side, close to the frame (1), of the protective door (2) is connected with the sliding plate (102) in a sliding mode, the sliding plate (102) is connected with at least one second electromagnet (103) used for magnetic attraction with the first electromagnet (101), and the hanging rod (104) used for hanging the shock absorber spring is connected to the sliding plate (102) in a sliding mode at even intervals.

7. The automobile shock absorber spring plastic spraying processing equipment as claimed in claim 6, further comprising a blocking mechanism (11), wherein the blocking mechanism (11) comprises a blocking disc (111), a wedge block (112) and a third elastic member (113), the blocking disc (111) used for blocking the shock absorber spring is connected to one side of the hanging rod (104), the two wedge blocks (112) are connected to the blocking disc (111) in a sliding manner, and the third elastic member (113) is connected between the wedge block (112) and the blocking disc (111).

8. The plastic injection molding processing device for the spring of the shock absorber of the automobile as claimed in claim 7, wherein the ends of the two adjacent wedge blocks (112) away from each other are both inclined surfaces.

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