CN117104909A - Damping rubber piece split charging device - Google Patents

Abstract

The invention discloses a vibration-damping rubber part split charging device, which relates to the technical field of rubber part split charging and comprises a feeding assembly, wherein a guide classification assembly is movably arranged at the top of the feeding assembly, and a vibration split charging assembly is arranged on the side surface of the feeding assembly. According to the invention, the angle is changed when the telescopic frame is used for screening, so that the guiding conveying effect is carried out on rubber parts with different volumes, the electric lifting rod can control the height of the corner motor to be electrically telescopic and adjustable, the height of the corner motor is conveniently changed, the telescopic frame is driven to be adjusted along with the height adjustment of the corner motor, the screening work on materials with different heights is facilitated, the telescopic frame through which the first section passes is arranged to be higher, the telescopic frame through which the second section passes is arranged to be lower, and therefore complete classifying operation is realized, and the guiding conveying effect can be provided by the guide wheel group in the screening process.

Description

Damping rubber piece split charging device

Technical Field

The invention relates to the technical field of rubber part split charging, in particular to a damping rubber part split charging device.

Background

Damping rubber is a general term for various rubber dampers. Namely, the characteristics of eliminating mechanical vibration by using rubber can be utilized to achieve the purposes of shock absorption, noise reduction and harm caused by impact reduction. The shock absorbing rubber is used to prevent transmission of vibration and impact or to buffer the intensity of vibration and impact. Damping rubbers are widely used in various motor vehicles, equipment and instruments, automated office facilities and household appliances. In recent years, some large buildings, bridges, computer rooms, etc., are also supported by laminated rubber mats for isolating earthquakes to reduce the earthquake response of the building. Vibration is typically controlled by three pathways: reducing the excitation force of the seismic source; separating the shock from the excitation source (shock isolation); the vibration of the vibrator is alleviated. The shock absorbing rubber is mainly used for the latter two.

In the prior art, for example, the Chinese patent number is: the split charging device for producing the electronic components comprises a box body, wherein a first bearing is fixedly connected to the left side wall of the box body, and a split charging barrel is fixedly connected to the inner part of the first bearing. This partial shipment device is used in electronic components production, in the middle of pouring the electronic components that will need the partial shipment into the box through the inlet pipe, electronic components can fall into the inside of partial shipment section of thick bamboo, and rethread servo motor drives the actuating lever and rotates, and the actuating lever rotates and drives the second gear and rotate, the second gear can drive first gear and partial shipment section of thick bamboo in proper order and rotate, and partial shipment section of thick bamboo pivoted in-process makes the electronic components that is less than the filtration pore aperture, falls to the inside rubber slab top of separation frame, and the volume is greater than the rotation of filtration pore aperture can pass through partial shipment section of thick bamboo, removes the inside of connecting pipe and discharging pipe in proper order, collects the biggest electronic components of volume by the collecting box, has realized the partial shipment of electronic components.

The equipment of current article partial shipment is owing to need the fixed operation of screening partial shipment according to the size of filtration pore at the in-process of article partial shipment, can't adjust the device of partial shipment according to the demand to appear the limitation, cause the not good problem of result of use, to above-mentioned problem, propose a shock attenuation rubber spare partial shipment device.

Disclosure of Invention

The invention aims to provide a vibration-damping rubber part split charging device, which solves the problem that the split charging device cannot be adjusted according to requirements in the prior art, so that limitation occurs.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a shock attenuation rubber spare partial shipment device, includes feeding subassembly, feeding subassembly's top movable mounting has direction classification subassembly, feeding subassembly's side-mounting has vibration partial shipment subassembly, feeding subassembly's bottom is installed the mounting panel, charging subassembly is installed to top one side of mounting panel, vibration partial shipment subassembly sets up in charging subassembly's side, collecting assembly is installed to the top one end of mounting panel, collecting assembly sets up the one end at charging subassembly, two corner motors are installed to feeding subassembly's one side, electric lift pole is installed to corner motor's both sides, electric lift pole's bottom is connected with feeding subassembly's one side, corner seat is installed at corner motor's top, the top of corner seat is connected with the expansion bracket, the side of expansion bracket is provided with the guide pulley group;

the vibrating tray is installed at the top of vibration partial shipment subassembly, top one side of vibrating tray is provided with pneumatic side push cylinder, pneumatic side push rod is installed to pneumatic side push cylinder's one end, the flitch is installed to pneumatic side push rod's one end, the top side-mounting of vibrating tray has the push groove, the top of charging subassembly distributes and has a plurality of transmission shafts that charge, the outside of transmission shaft that charges is provided with the conveyer belt that charges, the top of conveyer belt that charges is provided with a plurality of partial shipment boxes, the bottom of collecting assembly is provided with pneumatic lifting column, the layer board is installed at pneumatic lifting column's top, a plurality of arrangement trays are installed at the top of layer board, flexible hydro-cylinder is installed at collecting assembly's top, connect the slat is installed to flexible hydro-cylinder's one end, connect the side-mounting of slat has two negative pressure pumps, the sucking disc is installed to the one end of negative pressure pump, the top of arrangement tray is provided with the blotter.

Preferably, a feeding frame is arranged on the outer side of the feeding assembly, a feeding belt is arranged on the inner side of the feeding frame, and a feeding rotating shaft is arranged on the inner side of the feeding belt.

Preferably, two ends of the feeding rotating shaft penetrate through the side face of the feeding frame, a feeding motor is arranged at one end of the feeding rotating shaft, one end of the feeding motor is arranged at one side of the feeding frame, and bottom supporting legs are arranged at the bottom of the feeding frame.

Preferably, a lifting guide rail is fixedly arranged on one side of the feeding assembly, the corner motor is slidably arranged on the inner side of the lifting guide rail, and the lifting guide rail is arranged on the side of the electric lifting rod.

Preferably, the outside of guide pulley group is provided with the guide pulley frame, one side fixed mounting of guide pulley frame is in the side of expansion bracket, guide pulley group evenly distributed is in the side of expansion bracket.

Preferably, one end of the expansion bracket is provided with a lifting joint, the bottom of the lifting joint is movably connected with a sleeve pipe, the bottom of the sleeve pipe is movably connected with a rotary sliding seat, the bottom of the rotary sliding seat is movably connected with an angle adjusting rail, and one side of the angle adjusting rail is connected with the side face of the feeding assembly.

Preferably, the side mounting of pay-off subassembly has the slip rail, the inboard sliding connection of slip rail has the sliding seat, the silo down is installed to the one end of sliding seat, the silo down sets up in the top of vibration dish.

Preferably, the inboard of vibration dish is provided with vibration material loading groove, vibration material loading machine is installed to the bottom of vibration dish, vibration base is installed to the bottom of vibration material loading machine, the installation base is installed to the bottom of vibration base.

Preferably, the charging frame is installed to the bottom of charging subassembly, the top of charging frame is connected with the bottom of charging transmission shaft, the both ends of charging transmission shaft are provided with drive gear, the outside of charging conveyer belt is provided with spacing, the motor is installed to the side of charging frame, the right angle frame is installed to the side of motor.

Preferably, the bottom of collecting the subassembly is installed the pneumatic seat, top one side fixed mounting of pneumatic seat has the curb plate, two the spliced pole is installed in the four corners between the arrangement tray, flexible hydro-cylinder's one end activity runs through in the side of curb plate, the side stay is installed to flexible hydro-cylinder's bottom.

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

1. according to the invention, the rotating angle seat is driven to rotate by adopting a rotating adjustment mode through the rotating angle motor, so that the telescopic frame can be driven to realize the function of rotating angle adjustment, the guiding and conveying functions are realized by changing angles when the telescopic frame is used for screening rubber parts with different volumes, the electric lifting rod can control the height of the rotating angle motor to be in electric telescopic adjustment, the height of the rotating angle motor is further conveniently changed, the telescopic frame is driven to be adjusted by the height adjustment of the rotating angle motor, the screening work of materials with different heights is facilitated, the telescopic frame passing through the first section is set to be higher, the telescopic frame passing through the second section is set to be lower, the guiding and conveying functions are realized in the screening process, the operation efficiency is improved, the screening work flexibility is ensured, and the profile that the screening work effect is poor due to the fixed single mode is avoided.

2. According to the invention, the vibration-damping rubber parts subjected to screening are conveyed through the telescopic frame classification guide and then conveyed to the inside of the vibration disc through the blanking groove, the hopper can vibrate in the vertical direction through the pulse electromagnet arranged below the vibration disc hopper, and the parts can automatically enter the assembling or processing position in a unified state according to the assembling or processing requirement through a series of track screening or posture change in the ascending process, so that unordered workpieces are automatically, orderly and directionally arranged and accurately conveyed to the next procedure.

3. According to the invention, the purpose of pushing the pneumatic side push rod and the pushing plate by utilizing the pneumatic side push cylinder is to accurately push the rubber to the inside of the split charging box to be tidied and placed by the pushing plate when the vibrating plate conveys the rubber to the position of the top close to the pushing groove, then conveying the rubber through the charging conveying belt, when conveying the rubber to the position of the split charging box, the telescopic cylinder moves the connecting slat to the position close to the split charging box, the sucking disc is attached to the side face of the split charging box, the suction force is generated by the negative pressure pump, the split charging box is dragged to stably fall inside the split charging box, the effect of stable tidying is improved, loading tidying can be performed by utilizing the sucking disc, meanwhile, the pneumatic lifting column is matched with the supporting plate to carry out supporting and provide lifting adjustment, lifting is facilitated after one layer of tidying is completed, the rubber can be continuously tidied in the next layer, the space occupation of equipment is reduced by adopting the function of vertical distribution placement, and meanwhile, the efficient loading force is maintained.

Drawings

FIG. 1 is a perspective view of a split charging device for shock absorbing rubber parts according to the present invention;

FIG. 2 is a schematic view of another angular structure of a split charging device for damping rubber parts according to the present invention;

FIG. 3 is a schematic view of a guide part of a split charging device for damping rubber parts according to the present invention;

FIG. 4 is an enlarged schematic view of the structure of the A-position of the split charging device for damping rubber parts according to the present invention;

FIG. 5 is a schematic view of another angular configuration of a guide assembly of a split charging device for shock absorbing rubber members according to the present invention;

FIG. 6 is an enlarged view of the structure of the shock absorbing rubber member sub-packaging device of the present invention;

FIG. 7 is a schematic diagram of a vibration sub-assembly of a vibration damping rubber sub-assembly apparatus according to the present invention;

FIG. 8 is an enlarged view of the structure of the shock absorbing rubber member sub-packaging device at C;

FIG. 9 is a schematic diagram of a conveying assembly of a split charging device for damping rubber parts according to the present invention;

FIG. 10 is a schematic view of a D-configuration of a split charging device for shock absorbing rubber members according to the present invention;

FIG. 11 is a schematic view of a collection assembly of a split charging device for shock absorbing rubber parts according to the present invention;

fig. 12 is an enlarged schematic view of the E-site of the shock absorbing rubber member sub-packaging apparatus of the present invention.

In the figure:

1. a feeding assembly; 101. a feeding frame; 102. a feeding belt; 103. bottom support legs; 104. a feeding motor; 105. a feeding rotating shaft; 2. a guide classification component; 201. a corner motor; 202. an electric lifting rod; 203. lifting the guide rail; 204. a corner seat; 205. a telescopic frame; 206. a guide wheel frame; 207. a guide wheel group; 208. a lifting joint; 209. a ferrule; 210. rotating the slide seat; 211. an angle adjusting rail; 3. vibrating the split charging assembly; 301. a sliding rail; 302. a sliding seat; 303. discharging groove; 304. a vibration plate; 305. vibrating the feeding groove; 306. pneumatic side pushing cylinder; 307. a pneumatic side push rod; 308. a pushing plate; 309. a pushing groove; 310. vibrating the feeding machine; 311. a vibration base; 312. a mounting base; 4. a charging assembly; 401. a charging rack; 402. a charging transmission shaft; 403. a transmission gear; 404. a charging conveyor belt; 405. packaging the components into boxes; 406. a limit bar; 407. a motor; 408. a right angle frame; 5. a collection assembly; 501. a side plate; 502. a pneumatic seat; 503. pneumatic lifting columns; 504. a supporting plate; 505. sorting the trays; 506. a cushion pad; 507. a connecting column; 508. a telescopic oil cylinder; 509. a side support; 510. connecting the lath; 511. a negative pressure pump; 512. and a sucking disc.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-12, there is shown: the utility model provides a shock attenuation rubber spare partial shipment device, including feeding subassembly 1, feeding subassembly 1's top movable mounting has direction classification subassembly 2, feeding subassembly 1's side-mounting has vibration partial shipment subassembly 3, feeding subassembly 1's bottom is installed the mounting panel, charging subassembly 4 is installed to top one side of mounting panel, vibration partial shipment subassembly 3 sets up in charging subassembly 4's side, collecting assembly 5 is installed to mounting panel's top one end, collecting assembly 5 sets up in charging subassembly 4's one end, two corner motors 201 are installed to feeding subassembly 1's one side, electric lift pole 202 is installed to corner motor 201's both sides, electric lift pole 202's bottom is connected with feeding subassembly 1's one side, corner seat 204 is installed at corner motor 201's top, corner seat 204's top is connected with expansion bracket 205, expansion bracket 205's side is provided with guide wheel group 207, adopt the mode of rotation regulation to drive corner seat 204 through corner motor 201 and rotate, the telescopic frame 205 can be driven to realize the function of adjusting the rotation angle, the guiding and conveying function can be realized by changing the angle when the telescopic frame 205 is used for sieving, and then rubber parts with different volumes can be guided and conveyed, the electric lifting rod 202 can control the height of the corner motor 201 to be adjusted in an electric telescopic way, so that the height of the corner motor 201 can be conveniently changed, the telescopic frame 205 can be driven to be adjusted along with the height adjustment of the corner motor 201, the sieving work can be carried out on materials with different heights, the telescopic frame 205 through which the first section passes can be arranged to be higher, the telescopic frame 205 through which the second section passes can be arranged to be lower, thereby realizing complete classifying operation, the guiding and conveying function can be provided by the guide wheel group 207 in the sieving process, improving the operation efficiency, ensuring the flexibility of the sieving work, avoiding a fixed single pattern that results in a profile with poor screening performance;

the vibration sub-assembly 3 is provided with a vibration plate 304 at the top, one side of the top of the vibration plate 304 is provided with a pneumatic side push cylinder 306, one end of the pneumatic side push cylinder 306 is provided with a pneumatic side push rod 307, one end of the pneumatic side push rod 307 is provided with a push plate 308, the top side of the vibration plate 304 is provided with a push groove 309, the top of the charging assembly 4 is provided with a plurality of charging transmission shafts 402, the outer side of the charging transmission shafts 402 is provided with a charging conveyor belt 404, the top of the charging conveyor belt 404 is provided with a plurality of sub-boxes 405, the bottom of the collecting assembly 5 is provided with a pneumatic lifting column 503, the top of the pneumatic lifting column 503 is provided with a supporting plate 504, the top of the supporting plate 504 is provided with a plurality of arranging trays 505, the top of the collecting assembly 5 is provided with a telescopic cylinder 508, one end of the telescopic cylinder 508 is provided with a connecting slat 510, the side of the connecting slat 510 is provided with two negative pressure pumps 511, one end of the negative pressure pumps 511 is provided with a sucker 512, the top of the tray 505 is provided with a buffer 506, after the sieving damping rubber piece is guided and conveyed by the telescopic bracket 205, the damping rubber piece is conveyed to the hopper 304 through the telescopic bracket 205, the hopper 304 is conveyed to the inner side of the hopper, the hopper through the hopper 304, the hopper is driven by the electromagnet to vibrate vertically by the vibrating hopper, and the vibrating tray is driven by the vibrating hopper through the vibrating hopper, and the vibrating tray is driven by the vibrating hopper to vibrate vertically by the vibrating vertical vibration plate. The parts in the hopper rise along the spiral track due to the vibrations. In the ascending process, through a series of rail screening or posture change, the parts can automatically enter the assembling or processing position in a unified state according to the assembling or processing requirements. The work purpose is to automatically, orderly, directionally and orderly arrange unordered workpieces and accurately convey the unordered workpieces to the next working procedure through vibration. The purpose of pushing the pneumatic side push rod 307 and the pushing plate 308 by utilizing the pneumatic side push cylinder 306 is that when the vibrating disk 304 conveys rubber parts to a position, the top of the position is close to the pushing groove 309, the pushing plate 308 is used for accurately pushing rubber to arrange and put in a separate box 405, then the rubber parts are conveyed by a charging conveying belt 404, when the rubber parts are conveyed to the position of the arranging tray 505, the telescopic cylinder 508 moves the connecting slat 510 to a position close to the separate box 405, the sucking disk 512 is attached to the side surface of the separate box 405, the suction force is generated by the negative pressure pump 511, the separate box 405 is dragged to stably fall in the arranging tray 505, the effect of stable arrangement is improved, loading arrangement can be carried out by utilizing the sucking disk, meanwhile, the pneumatic lifting column 503 is matched with the supporting plate 504 for lifting and lifting adjustment, the rubber parts can be continuously arranged in the next layer, the space occupation of equipment can be reduced by adopting the function of vertical arrangement and the efficient loading force can be maintained.

As shown in fig. 3 and 5, the feeding frame 101 is disposed on the outer side of the feeding assembly 1, the feeding belt 102 is disposed on the inner side of the feeding frame 101, the feeding rotating shaft 105 is disposed on the inner side of the feeding belt 102, the feeding belt 102 is installed through the feeding frame 101, the conveying function is provided, the effective transmission function is provided by the feeding rotating shaft 105, and the screening convenience is improved.

As shown in fig. 3 and fig. 5, two ends of the feeding rotating shaft 105 penetrate through the side surface of the feeding frame 101, one end of the single feeding rotating shaft 105 is provided with a feeding motor 104, one end of the feeding motor 104 is provided with one side of the feeding frame 101, the bottom of the feeding frame 101 is provided with a bottom supporting leg 103, the bottom supporting leg 103 can provide stable supporting effect for the feeding frame 101, and the feeding motor 104 is convenient for providing driving effect to drive the feeding rotating shaft 105 to realize transmission and subsequent conveying effect.

As shown in fig. 2-6, a lifting guide rail 203 is fixedly installed on one side of the feeding assembly 1, the corner motor 201 is slidably installed on the inner side of the lifting guide rail 203, the lifting guide rail 203 is arranged on the side of the electric lifting rod 202, and the lifting guide rail 203 is convenient for providing a guiding function in the lifting process for the corner motor 201, so that the lifting stability is improved, and the stable lifting effect is maintained.

As shown in fig. 2-6, a guide wheel frame 206 is arranged on the outer side of the guide wheel group 207, one side of the guide wheel frame 206 is fixedly installed on the side surface of the telescopic frame 205, the guide wheel group 207 is uniformly distributed on the side surface of the telescopic frame 205, and the guide wheel frame 206 can be used for installing the guide wheel group 207 and keeping stable rotation, so that high-efficiency guiding, conveying and classifying work can be realized.

As shown in fig. 2-6, one end of the expansion bracket 205 is provided with a lifting joint 208, the bottom of the lifting joint 208 is movably connected with a sleeve pipe 209, the bottom of the sleeve pipe 209 is movably connected with a rotating sliding seat 210, the bottom of the rotating sliding seat 210 is movably connected with an angle adjusting rail 211, one side of the angle adjusting rail 211 is connected with the side surface of the feeding assembly 1, the lifting joint 208 and the sleeve pipe 209 are mutually connected, the guiding support function can be provided in the lifting adjustment process, a certain limiting effect is achieved, the rotating sliding seat 210 is rotatably connected at the bottom of the sleeve pipe 209 and is matched with the angle adjusting rail 211 in a sliding manner, the translation guiding can be achieved, and the expansion bracket 205 has the expansion function and can be used in the normal operation in the corner adjustment process.

As shown in fig. 7 and 8, a sliding rail 301 is installed on a side surface of the feeding assembly 1, a sliding seat 302 is slidably connected to an inner side of the sliding rail 301, a blanking groove 303 is installed at one end of the sliding seat 302, the blanking groove 303 is disposed above a vibration disc 304, a guiding sliding function can be provided for the sliding seat 302 through the sliding rail 301, and the blanking groove 303 is connected with the sliding seat 302 to achieve a sliding adjustment function so as to be convenient for being matched with the telescopic frame 205 for conveying at different angles.

As shown in fig. 7 and 8, the inner side of the vibration plate 304 is provided with a vibration feeding groove 305, the bottom of the vibration plate 304 is provided with a vibration feeding machine 310, the bottom of the vibration feeding machine 310 is provided with a vibration base 311, the bottom of the vibration base 311 is provided with a mounting base 312, the vibration feeding groove 305 facilitates conveying and guiding movement of objects, and the vibration feeding machine 310 can cooperate with the vibration base 311 to provide an effective guiding effect, and the mounting base 312 is used in a stable support at the bottom.

As shown in fig. 9 and 10, the loading frame 401 is installed at the bottom of the loading assembly 4, the top of the loading frame 401 is connected with the bottom of the loading transmission shaft 402, the transmission gears 403 are arranged at two ends of the loading transmission shaft 402, the limit strips 406 are arranged on the outer side of the loading transmission belt 404, the motor 407 is installed on the side face of the loading frame 401, the right-angle frame 408 is installed on the side face of the motor 407, a stable supporting installation effect can be provided for the loading transmission shaft 402 through the loading frame 401, the transmission gears 403 facilitate transmission among the gears, and further the loading transmission belt 404 is driven to realize synchronous transmission and conveying functions, the limit strips 406 can provide limit effects on one side of the split box 405, and the placing accuracy is guaranteed.

As shown in fig. 11 and 12, the bottom of the collecting assembly 5 is provided with a pneumatic seat 502, one side of the top of the pneumatic seat 502 is fixedly provided with a side plate 501, four corners between two sorting trays 505 are provided with connecting columns 507, one end of a telescopic cylinder 508 movably penetrates through the side surface of the side plate 501, the bottom of the telescopic cylinder 508 is provided with a side support 509, the bottom of the telescopic cylinder 508 can be provided with support through the pneumatic seat 502, the side plate 501 can be provided with support on the side surface, the connecting columns 507 can provide erection installation effect for the sorting trays 505 conveniently, and the side support 509 can keep stable supporting effect for the telescopic cylinder 508.

In the invention, when the shock-absorbing rubber part split charging device is used, firstly, the feeding belt 102 is installed through the feeding frame 101 and the conveying function is provided, the feeding rotating shaft 105 provides an effective transmission function, the screening convenience is improved, the bottom supporting legs 103 can provide a stable supporting function for the feeding frame 101, the feeding motor 104 is convenient for providing a driving function, the feeding rotating shaft 105 is driven to realize a transmission and a subsequent conveying function, the lifting guide rail 203 is convenient for providing a guiding function in the lifting process for the rotating angle motor 201, the lifting stability is facilitated, the stable lifting effect is maintained, the rotating angle seat 204 is driven to rotate through the rotating angle motor 201 in a rotation adjusting mode, the expansion frame 205 is driven to realize a rotation angle adjusting function, the guiding conveying function is facilitated for rubber parts with different volumes through changing angles during the screening through the expansion frame 205, the electric lifting rod 202 can control the height of the corner motor 201 to be electrically telescopic and adjustable, thereby facilitating the change of the height of the corner motor 201, being beneficial to driving the telescopic frame 205 to be adjusted along with the height adjustment of the corner motor 201, being beneficial to screening materials with different heights, being beneficial to setting the telescopic frame 205 through which the first section passes to be higher and setting the telescopic frame 205 through which the second section passes to be lower, realizing complete classification operation, the guide wheel group 207 can provide guiding and conveying functions in the screening process, improving the operation efficiency, ensuring the flexibility of the screening operation, avoiding the profile of poor screening operation effect caused by a fixed single mode, the guide wheel frame 206 can be used for installing the guide wheel group 207, keeping stable rotation, being beneficial to realizing high-efficiency guiding and conveying classification operation, the lifting joint 208 and the sleeved pipe 209 are connected with each other, the guiding support function can be provided in the lifting adjustment process, a certain limiting effect is achieved, the rotating sliding seat 210 is rotationally connected to the bottom of the sleeved pipe 209 and matched with the angle adjustment rail 211, sliding connection can achieve translational guiding, the telescopic frame 205 has telescopic effect, normal operation in the rotation angle adjustment process can be guaranteed, after the screened damping rubber piece is guided and conveyed through the telescopic frame 205 in a classified manner, the screened damping rubber piece can be conveyed to the inside of the vibration disc 304 through the blanking groove 303, a pulse electromagnet is arranged below the hopper of the vibration disc 304, the hopper can vibrate in the vertical direction, and the inclined spring piece drives the hopper to twist around the vertical axis of the hopper. The parts in the hopper rise along the spiral track due to the vibrations. In the ascending process, through a series of rail screening or posture change, the parts can automatically enter the assembling or processing position in a unified state according to the assembling or processing requirements. The work purpose is to automatically, orderly, directionally and orderly arrange unordered workpieces and accurately convey the unordered workpieces to the next working procedure through vibration. The purpose of pushing the pneumatic side push rod 307 and the pushing plate 308 by utilizing the pneumatic side push cylinder 306 is that when the vibrating plate 304 conveys rubber parts to the position of the top close to the push trough 309, the sliding rail 301 can provide guiding sliding action for the sliding seat 302, the lower trough 303 is connected with the sliding seat 302 so as to realize sliding adjustment function, so that the matching telescopic frame 205 is convenient to convey and guide objects at different angles, the vibrating feeding trough 305 is convenient to convey and guide objects, the vibrating feeding machine 310 is matched with the vibrating base 311 to provide effective guiding action, the mounting base 312 ensures stable supporting and use at the bottom, the pushing plate 308 accurately pushes rubber parts to the inside of the split charging box 405 to be tidied, the charging frame 401 can provide stable supporting and mounting effect for the charging transmission shaft 402, the transmission gear 403 is convenient to drive the gears to each other, the charging conveyor belt 404 is further driven to realize synchronous transmission and conveying function, the limit bar 406 can provide limit action on one side of the split charging box 405, the split charging box 405 is ensured to be accurately put, then conveyed through the charging conveyor belt 404, when the split charging box 505 is conveyed to the position, the vibrating feeding machine 310 is matched with the vibrating base 311 to provide effective guiding action, the vibrating base 311 can be matched with the vibrating base 311 to provide stable supporting and lay down on the side of the split charging box 405, the split charging box 405 can be stably by adopting the lifting mechanism, the lifting mechanism to stably lift the split charging box 405 to the split charging box by the lifting device, the split charging box 405 can be stably and stably arranged at the side by adopting the lifting mechanism, the lifting mechanism is further down and the lifting and lowering the lifting mechanism is matched with the lifting and lowering the lifting mechanism to fill the compression plate 405 to be sequentially and the lifting and lowering the lifting mechanism to be used. While maintaining an efficient loading force.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. The utility model provides a shock attenuation rubber spare partial shipment device, includes feeding subassembly (1), its characterized in that: the automatic feeding device is characterized in that a guide classifying assembly (2) is movably arranged at the top of the feeding assembly (1), a vibrating sub-packaging assembly (3) is arranged on the side face of the feeding assembly (1), a mounting plate is arranged at the bottom of the feeding assembly (1), a charging assembly (4) is arranged on one side of the top of the mounting plate, the vibrating sub-packaging assembly (3) is arranged on the side face of the charging assembly (4), a collecting assembly (5) is arranged at one end of the mounting plate, two corner motors (201) are arranged on one side of the feeding assembly (1), electric lifting rods (202) are arranged on two sides of each corner motor (201), a corner seat (204) is arranged at the top of each corner motor (201), a telescopic bracket (205) is connected to the top of each corner seat, and a guide wheel group (207) is arranged on the side face of each telescopic bracket (205);

the utility model provides a vibrating sub-assembly (3) of vibration, vibration dish (304) are installed at the top, top one side of vibration dish (304) is provided with pneumatic side push cylinder (306), pneumatic side push rod (307) are installed to the one end of pneumatic side push cylinder (306), push plate (308) are installed to the one end of pneumatic side push rod (307), push away silo (309) are installed to the top side of vibration dish (304), the top of charging subassembly (4) distributes and has a plurality of charge transmission shafts (402), the outside of charging transmission shafts (402) is provided with charge conveyer belt (404), the top of charge conveyer belt (404) is provided with a plurality of sub-boxes (405), the bottom of collecting subassembly (5) is provided with pneumatic lifting column (503), layer board (504) are installed at the top of pneumatic lifting column (503), a plurality of arrangement trays (505) are installed at the top of layer board (504), flexible hydro-cylinder (508) are installed at the top of collecting subassembly (5), connection (510) are installed to the one end of flexible hydro-cylinder (508), connect (510), two negative pressure pump (511) are installed at the top of connecting tray (511), negative pressure pump (511).

2. The shock absorbing rubber piece sub-packaging device according to claim 1, wherein: the feeding device is characterized in that a feeding frame (101) is arranged on the outer side of the feeding assembly (1), a feeding belt (102) is arranged on the inner side of the feeding frame (101), and a feeding rotating shaft (105) is arranged on the inner side of the feeding belt (102).

3. The shock absorbing rubber piece sub-packaging device according to claim 2, wherein: the two ends of the feeding rotating shaft (105) penetrate through the side face of the feeding frame (101), a feeding motor (104) is arranged at one end of the feeding rotating shaft (105), one end of the feeding motor (104) is arranged at one side of the feeding frame (101), and bottom supporting legs (103) are arranged at the bottom of the feeding frame (101).

4. The shock absorbing rubber piece sub-packaging device according to claim 1, wherein: one side of the feeding assembly (1) is fixedly provided with a lifting guide rail (203), the corner motor (201) is slidably arranged on the inner side of the lifting guide rail (203), and the lifting guide rail (203) is arranged on the side of the electric lifting rod (202).

5. The shock absorbing rubber piece sub-packaging device according to claim 4, wherein: the outside of guide pulley group (207) is provided with guide pulley frame (206), one side fixed mounting of guide pulley frame (206) is in the side of expansion bracket (205), guide pulley group (207) evenly distributed is in the side of expansion bracket (205).

6. The shock absorbing rubber piece sub-packaging device according to claim 5, wherein: one end of expansion bracket (205) is provided with lift joint (208), the bottom swing joint of lift joint (208) has ferrule (209), the bottom swing joint of ferrule (209) has rotation slide (210), the bottom swing joint of rotation slide (210) has angle adjustment rail (211), one side of angle adjustment rail (211) is connected with the side of pay-off subassembly (1).

7. The shock absorbing rubber piece sub-packaging device according to claim 1, wherein: the side mounting of pay-off subassembly (1) has slip rail (301), the inboard sliding connection of slip rail (301) has sliding seat (302), silo (303) under the one end of sliding seat (302) is installed, silo (303) set up in the top of vibration dish (304).

8. The shock absorbing rubber piece sub-packaging device according to claim 7, wherein: the inside of vibration dish (304) is provided with vibration material loading groove (305), vibration material loading machine (310) are installed to the bottom of vibration dish (304), vibration base (311) are installed to the bottom of vibration material loading machine (310), install base (312) in the bottom of vibration base (311).

9. The shock absorbing rubber piece sub-packaging device according to claim 1, wherein: the bottom of charging subassembly (4) is installed charging frame (401), the top of charging frame (401) is connected with the bottom of charging transmission shaft (402), the both ends of charging transmission shaft (402) are provided with drive gear (403), the outside of charging conveyer belt (404) is provided with spacing (406), motor (407) are installed to the side of charging frame (401), right angle frame (408) are installed to the side of motor (407).

10. The shock absorbing rubber piece sub-packaging device according to claim 1, wherein: the pneumatic collecting device is characterized in that a pneumatic seat (502) is arranged at the bottom of the collecting assembly (5), side plates (501) are fixedly arranged on one side of the top of the pneumatic seat (502), connecting columns (507) are arranged at four corners between the two sorting trays (505), one end of a telescopic oil cylinder (508) movably penetrates through the side face of each side plate (501), and a side support frame (509) is arranged at the bottom of the telescopic oil cylinder (508).