CN110640588A - Tire dull polish machine - Google Patents

Abstract

The invention relates to the technical field of polishing equipment, in particular to a tire sander, which comprises a carrier for bearing a tire, a feeding device communicated with the carrier and used for supplying the tire to the carrier, a polishing device for polishing the tire and a material taking and placing device for picking up the tire borne by the carrier to the polishing device for polishing, wherein the material taking and placing device comprises a material taking and placing part for picking up the tire borne by the carrier, a rotating driver for driving the material taking and placing part to rotate, a material taking and placing driver for driving the material taking and placing part to be close to or far away from the carrier and a moving driver for driving the material taking and placing part to move between the carrier and the polishing device, the material taking and placing part is arranged at the output end of the rotating driver, the rotating driver is connected with the output end of the material taking and placing driver, and the material taking and placing driver is. The automatic tire feeding and discharging device realizes automatic supply, transfer, polishing and discharging of tires, has high automation degree, reduces labor intensity and cost, and improves the efficiency and quality of tire polishing.

Description

Tire dull polish machine

Technical Field

The invention relates to the technical field of grinding equipment, in particular to a tire grinding machine.

Background

The processing of toy model requires to be more highly refined, not only provides higher technological requirement to the roughness of surface around the tire, still need polish the tread of toy tire simultaneously. In the prior art, a tire is generally manually installed in a rotating shaft to rotate, then sand paper is held by hands to polish the tread of the rotating tire, the processing mode is poor in polishing quality, the polishing labor intensity and labor cost are high, the efficiency is low, and the requirements of modern social production cannot be met.

Disclosure of Invention

In order to solve the technical problems, the invention aims to provide a tire sander, which realizes automatic feeding, transferring, sanding and discharging of tires, has high automation degree, reduces labor intensity and cost, and improves efficiency and quality of tire sanding.

In order to achieve the purpose, the invention adopts the following technical scheme:

a tire sander comprises a carrier for bearing a tire, a feeding device communicated with the carrier and used for supplying the tire to the carrier, a sanding device for sanding the tire and a material taking and placing device for picking up the tire borne by the carrier to the sanding device for sanding, wherein the material taking and placing device comprises a material taking and placing part, a rotating driver, a material taking and placing driver and a moving driver, the material taking and placing driver is used for driving the material taking and placing part to be close to or far away from the carrier, the material taking and placing driver is used for driving the material taking and placing part to move between the carrier and the sanding device, the material taking and placing part is installed at the output end of the rotating driver, the rotating driver is connected with the output end of the material taking and placing driver, and the material taking and placing driver is connected with the output end of the moving driver.

Further, get and put the material piece and be the pivot, the material end of getting of pivot is coniform and is provided with the spacing step that is used for conflicting the tire, one side of dull polish device is provided with and keeps off the material piece.

Further, the carrier is provided with a positioning cavity communicated with the discharge end of the feeding device and used for positioning the tire and a material taking opening communicated with the positioning cavity, and the material taking opening is used for allowing a material taking and placing piece to be inserted into the positioning cavity to pick up the tire.

Further, the carrier is provided with and is used for being positioned the positioning mechanism of tire in the location intracavity, positioning mechanism sets up in the locating piece of carrier, connects in the connecting rod of locating piece and sets up in the locating part of the one end that the locating piece was kept away from to the connecting rod including going up and down, the locating part is used for contradicting with the top of carrier.

Furthermore, the positioning mechanism further comprises an elastic piece, one end of the elastic piece abuts against the positioning block, and the other end of the elastic piece abuts against the carrier.

Furthermore, dull polish device includes the slide, install in the resilience piece of slide, install in the dull polish board of resilience piece and be used for driving slide reciprocating motion's dull polish driver.

Furthermore, the rebound piece is bent into a V shape by an elastic plate, one side of the rebound piece is arranged on the sliding plate, and the sanding plate is arranged on the other side of the rebound piece.

Further, tire dull polish machine still including installing in the board and being used for carrying out absorbent dust extraction with the produced dust of tire of will polishing, dust extraction is including the dust catcher that is located the collection cover of dull polish device's below and communicates with the collection cover.

Furthermore, the feeding device comprises a vibration disc, a guide rail connected to a discharge port of the vibration disc, a linear vibrator arranged at the bottom of the guide rail, and a sensor arranged at a feed end of the guide rail.

Furthermore, a material guide plate is arranged below the material blocking part, and a collecting box is arranged at the discharge end of the material guide plate.

The invention has the beneficial effects that: during actual work, the feeding device supplies tires to the carrier, the carrier bears and positions the tires, the material taking and placing driver of the material taking and placing device drives the material taking and placing part to pick up the tires in the carrier, then the moving driver drives the material taking and placing driver to jointly take and place the materials and the tires to move to the grinding device, meanwhile, the rotating driver drives the material taking and placing part to jointly rotate with the tires, the grinding device polishes the rotating tires, and finally the material taking and placing part releases the polished tires. The automatic tire feeding and discharging device is simple and compact in structure, achieves automatic feeding, transferring, polishing and discharging of tires, is high in automation degree, reduces labor intensity and cost, and improves tire polishing efficiency and quality.

Drawings

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

Fig. 2 is a schematic perspective view of a carrier and a positioning mechanism according to the present invention.

Fig. 3 is an exploded view of the carrier and the positioning mechanism of the present invention.

Fig. 4 is a perspective view of the sanding device and the dam of the present invention.

Fig. 5 is a schematic perspective view of the material taking and placing member of the present invention.

Description of reference numerals:

1. a machine platform; 2. a carrier; 21. a positioning cavity; 22. a material taking port; 23. a through hole; 24. a guide hole; 3. a feeding device; 31. a vibration plate; 32. a guide rail; 33. a linear vibrator; 34. an inductor; 4. a sanding device; 41. a slide plate; 42. a rebound board; 43. sanding a plate; 44. a sanding drive; 5. a material taking and placing device; 51. taking and placing a material part; 511. a limiting step; 52. a rotation driver; 53. a material taking and placing driver; 54. a movement driver; 6. a material blocking part; 61. an open slot; 7. a positioning mechanism; 71. positioning blocks; 711. abutting against the inclined plane; 72. a connecting rod; 73. a limiting member; 74. an elastic member; 75. a guide bar; 8. a dust collection device; 9. a material guide plate; 91. a collection box; 92. a first moving plate; 93. a second moving plate.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1 to 5, the tire sander provided by the present invention comprises a machine table 1, a carrier 2 mounted on the machine table 1 and used for carrying a tire, a feeding device 3 communicated with the carrier 2 and used for supplying the tire to the carrier 2, a sanding device 4 used for sanding the tire, and a material taking and placing device 5 used for picking up the tire carried by the carrier 2 to the sanding device 4 for sanding, wherein the material taking and placing device 5 comprises a material taking and placing member 51 used for picking up the tire carried by the carrier 2, a rotating driver 52 used for driving the material taking and placing member 51 to rotate, a material taking and placing driver 53 used for driving the material taking and placing member 51 to approach or separate from the carrier 2, and a moving driver 54 used for driving the material taking and placing member 51 to move between the carrier 2 and the sanding device 4, the material taking and placing member 51 is mounted at an output end of the rotating driver 52, the rotating driver 52 is connected with an output end of, the take and place driver 53 is connected to the output of the moving driver 54.

In actual work, the feeding device 3 supplies tires to the carrier 2, the carrier 2 bears and positions the tires, the material taking and placing driver 53 of the material taking and placing device 5 drives the material taking and placing piece 51 to pick up the tires in the carrier 2, then the moving driver 54 drives the material taking and placing driver 53 to move together with the material taking and placing piece 51 and the tires to the grinding device 4, meanwhile, the rotating driver 52 drives the material taking and placing piece 51 to rotate together with the tires, the grinding device 4 polishes the rotating tires, and finally the material taking and placing piece 51 releases the polished tires. The automatic tire feeding and discharging device is simple and compact in structure, achieves automatic feeding, transferring, polishing and discharging of tires, is high in automation degree, reduces labor intensity and cost, and improves tire polishing efficiency and quality.

In this embodiment, the material taking and placing member 51 is a rotating shaft, a material taking end of the rotating shaft is conical and is provided with a limiting step 511 for abutting against a tire, and a material blocking member 6 is arranged on one side of the grinding device 4; specifically, the material blocking part 6 is provided with an open slot 61 used for accommodating the middle part of the rotating shaft, and the open slot 61 is in a U shape.

When materials need to be taken, the material taking end of the material taking and placing part 51 is aligned with the inner ring of the tire carried by the carrier 2, then the material taking and placing driver 53 drives the material taking and placing part 51 to move close to the carrier 2 until the material taking end of the material taking and placing part 51 is inserted into the inner ring of the tire, the limiting step 511 is abutted against the side face of the tire so as to limit the tire, the position accuracy and stability of the tire on the material taking and placing part 51 are ensured, and therefore the material taking and placing part 51 can stably pick up the tire. The material taking end of the material taking and placing member 51 is conical, so that the material taking end of the material taking and placing member 51 can be inserted into the inner ring of the tire, the friction resistance and abrasion between the material taking and placing member 51 and the tire are reduced, and the material taking and placing member 51 can take materials more stably and smoothly. When the ground tire needs to be blanked, the middle of the material taking and placing part 51 is located in the groove 61 for the material blocking part 6, the material taking and placing driver 53 drives the material taking and placing part 51 to move backwards together with the ground tire, so that the tire on the material taking and placing part 51 is abutted to the material blocking part 6, the tire is blocked by the material blocking part 6 until the material blocking part breaks away from the material taking and placing part 51, and the purpose of blanking the ground tire is achieved.

In this embodiment, the carrier 2 is provided with a positioning cavity 21 communicated with the discharge end of the feeding device 3 and used for positioning the tire, and a material taking opening 22 communicated with the positioning cavity 21, the material taking opening 22 is U-shaped, and the material taking opening 22 is used for allowing the material taking and placing member 51 to be inserted into the positioning cavity 21 to pick up the tire.

The feeding device 3 supplies tires to the positioning cavity 21 of the carrier 2, and the positioning cavity 21 positions the tires, so that the tires are in a state and a position waiting for being taken away, and the accuracy of taking and placing the material 51 is ensured; because the carrier 2 is provided with the U-shaped material taking port 22, after the material taking and placing part 51 is inserted into the inner ring of the tire, the moving driver 54 directly drives the material taking and placing driver 53 to move together with the material taking and placing part 51 and the tire close to the grinding device 4, the action is simple, the tire is transferred in one step, the time for transferring the tire is shortened, and the efficiency for grinding the tire is improved.

In this embodiment, the carrier 2 is provided with a positioning mechanism 7 for positioning the tire in the positioning cavity 21, the positioning mechanism 7 includes a positioning block 71 disposed on the carrier 2 in a lifting manner, a connecting rod 72 connected to the positioning block 71, and a limiting member 73 disposed at one end of the connecting rod 72 far away from the positioning block 71, and the limiting member 73 is used for abutting against the top of the carrier 2.

After the feeding device 3 feeds the tire into the positioning cavity 21 of the carrier 2, the positioning block 71 abuts against the tire, thereby positioning the tire in the positioning cavity 21. After the material taking and placing element 51 is inserted into the inner ring of the tire, the moving driver 54 drives the material taking and placing driver 53 to move the material taking and placing element 51 and the tire out of the positioning cavity 21, in the process, along with the movement of the tire, the tire abuts against the positioning block 71, so that the positioning block 71 moves upwards, until the tire moves out of the positioning cavity 21, the positioning block 71 resets (moves downwards) under the action of gravity until the limiting block 73 abuts against the top of the carrier 2, and the positioning block 71 is proved to move downwards to be in place, so that the next tire can be positioned. This positioning mechanism 7's simple structure, the dead weight through locating piece 71 is contradicted the location to the tire, when being convenient for the tire to shift out location chamber 21, has also guaranteed the position accuracy and the stability of tire in location chamber 21, has improved and has got the accuracy that material 51 picked up the tire of putting.

Specifically, the carrier 2 is provided with a through hole 23, the through hole 23 is used for lifting a connecting rod 72, the connecting rod 72 is a screw rod, the limiting member 73 is a nut, one end of the screw rod is in threaded connection with the positioning block 71, and the other end of the screw rod is in threaded connection with the nut. Through screw rod and nut threaded connection to be convenient for adjust the position of locating piece 71 in carrier 2, thereby be convenient for adjust the distance between the bottom of locating piece 71 and the diapire in location chamber 21, make can fix a position the tire of different specifications (diameter size), the practicality is strong, and application scope is wide.

In this embodiment, the positioning mechanism 7 further includes an elastic element 74, one end of the elastic element 74 abuts against the positioning block 71, and the other end of the elastic element 74 abuts against the carrier 2. The elastic force of the elastic piece 74 provides continuous downward pressure for the positioning block 71, so that the positioning block 71 always abuts against the tire in the positioning cavity 21, the stability of abutting and positioning of the positioning block 71 against the tire is ensured, and in the process that the tire moves out of the positioning cavity 21, the elastic piece 74 buffers the positioning block 71, the lifting stability of the positioning block 71 is ensured, and the hard impact collision between the positioning block 71 and the carrier 2 is avoided.

Specifically, the elastic member 74 is a spring, which has a simple structure, low cost, good elasticity, long service life and convenient replacement; the positioning block 71 is provided with a guide rod 75, the spring is sleeved outside the guide rod 75, the assembly of the spring is facilitated, the guide rod 75 limits the spring, and the spring is prevented from being bent or inclined when being pressed to affect the normal work of the spring; the carrier 2 is provided with a guide hole 24 in sliding fit with the guide rod 75, and the guide rod 75 is in sliding fit with the guide hole 24 to play a role in guiding the lifting of the positioning block 71, so that the lifting stability of the positioning block 71 is improved; the positioning block 71 is provided with the conflict inclined plane 711 for conflicting the tire, conflicts the tire through the conflict inclined plane 711, on one hand, the structure is simple, the processing is convenient, the processing cost is reduced, the tire positioning effect is good, on the other hand, the tire is convenient to move out of the positioning cavity 21, and the positioning block 71 is also convenient to lift.

In this embodiment, the polishing device 4 includes a sliding plate 41 slidably disposed on the machine platform 1, a resilient member disposed on the sliding plate 41, a polishing plate 43 disposed on the resilient member, and a polishing driver 44 for driving the sliding plate 41 to reciprocate; preferably, the sanding driver 44 is an air cylinder, and the sliding plate 41 is mounted on a piston cylinder of the air cylinder. When the material taking and placing piece 51 picks up the tire and moves to the sanding device 4, the rotating driver 52 drives the material taking and placing piece 51 to rotate together with the tire, so that the tire is ground on the surface of the sanding plate 43, meanwhile, the sanding driver 44 drives the sliding plate 41 to reciprocate together with the rebound piece and the sanding plate 43, the sanding plate 43 moving in a reciprocating mode polishes the rotating tire, the tire is polished by the rotation of the tire and the reciprocating movement of the sanding plate 43, the tire polishing quality is good, and the tire polishing efficiency is greatly improved. Wherein, the elastic force of resilience piece improves the extrusion force of continuously contradicting the tire for dull polish board 43, guarantees that dull polish board 43 contacts with the tire all the time to the quality of polishing to the tire has been improved.

In this embodiment, the resilient member is a spring sheet formed by bending an elastic plate into a V shape, one side of the resilient member is mounted on the sliding plate 41, and the sanding plate 43 is mounted on the other side of the resilient member. This resilience piece's simple structure, it is convenient to manufacture, and is with low costs, through the resilience force of the resilience piece of V type, provides ascending extrusion force to dull polish board 43 effectively to guarantee that dull polish board 43 can continuously polish the tire, improved the quality of polishing the tire.

In this embodiment, the tire sander further includes a dust suction device 8 installed on the machine table 1 and configured to suck dust generated by tire sanding, and the dust suction device 8 includes a collection cover (not shown) located below the sanding device 4 and a dust collector (not shown) communicated with the collection cover.

Because a large amount of dust (dust) is generated in the process of polishing the tire, the quality of polishing the tire is influenced, the working environment is easily polluted, and the service life of the tire polishing machine is influenced, after the collection cover collects the dust, the dust in the collection cover is adsorbed by the dust collector, so that dust can be effectively collected in time, the accumulation of the dust is avoided, and the quality of polishing the tire is improved.

In this embodiment, the feeding device 3 includes a vibration plate 31, a guide rail 32 connected to a discharge port of the vibration plate 31, a linear vibrator 33 installed at the bottom of the guide rail 32, and a sensor 34 installed at a feed end of the guide rail 32. A large number of tyres to be ground are placed in the vibration disc 31, the vibration disc 31 supplies the tyres in sequence into the guide rail 32, so that the tyres move along the guide rail 32 until the tyres in the guide rail 32 enter the positioning cavities 21 of the carriers 2 in sequence, thereby realizing the automatic feeding of the tyres. Wherein, the linear vibrator 33 drives the guide rail 32 to vibrate to ensure the stability of the movement of the tire in the guide rail 32, thereby ensuring the continuous supply of the tire; when the vibration disc 31 conveys the tire to the guide rail 32, the inductor 34 detects the tire entering the guide rail 32, and after the inductor 34 detects the tire, the inductor 34 feeds back a signal to the material taking and placing device 5, so that the material taking and placing device 5 picks up the tire in the carrier 2, the automatic control of the material taking and placing device 5 is realized, and the tire can be smoothly picked up by the material taking and placing device 5.

In this embodiment, a material guiding plate 9 is disposed below the material blocking member 6, and a collecting box 91 is disposed at a discharging end of the material guiding plate 9. After the material blocking part 6 blocks the polished tire to be separated from the material taking and placing part 51, the tire falls down to the material guide plate 9, the polished tire is guided through the material guide plate 9, so that the polished tire can be accurately moved into the collecting box 91, and the polished tire is collected and stored.

Specifically, the rotating driver 52 is a motor, the material taking and placing driver 53 is a material taking cylinder, the material taking cylinder drives the rotating driver 52 to move close to or away from the carrier 2 through the first moving plate 92, the moving driver 54 is a moving cylinder, and the moving cylinder drives the material taking cylinder to move between the carrier 2 and the sanding device 4 through the second moving plate 93.

Preferably, the feed end of the guide rail 32 is provided with a counter (not shown) for counting the number of tires, thereby facilitating counting of the number of ground tires.

Preferably, the sanding plate 43 may be sandpaper, which is simple in structure, low in cost, and easy to replace.

All the technical features in the embodiment can be freely combined according to actual needs.

The above embodiments are preferred implementations of the present invention, and the present invention can be implemented in other ways without departing from the spirit of the present invention.

Claims (10)

1. A tire dull polish machine which characterized in that: the tire sanding device comprises a carrier for bearing a tire, a feeding device communicated with the carrier and used for supplying the tire to the carrier, a sanding device for sanding the tire and a material taking and placing device for picking up the tire borne by the carrier to the sanding device for sanding, wherein the material taking and placing device comprises a material taking and placing part for picking up the tire borne by the carrier, a rotating driver for driving the material taking and placing part to rotate, a material taking and placing driver for driving the material taking and placing part to be close to or far away from the carrier and a moving driver for driving the material taking and placing part to move between the carrier and the sanding device, the material taking and placing part is arranged at the output end of the rotating driver, the rotating driver is connected with the output end of the material taking and placing driver, and the material taking and placing driver is connected with.

2. A tire sander as set forth in claim 1, wherein: the material taking and placing part is a rotating shaft, the material taking end of the rotating shaft is conical and is provided with a limiting step for abutting against a tire, and the material blocking part is arranged on one side of the grinding device.

3. A tire sander as set forth in claim 1, wherein: the carrier is provided with the location chamber that communicates with feedway's discharge end and is used for fixing a position the tire and with the material mouth of getting of location chamber intercommunication, get the material mouth and be used for supplying to get the material piece and insert the location intracavity in order to pick up the tire.

4. A tyre sander as set forth in claim 3, wherein: the carrier is provided with and is used for being positioned the positioning mechanism of tire in the location intracavity, positioning mechanism sets up in the locating piece of carrier including going up and down, connects in the connecting rod of locating piece and sets up in the locating part of the one end that the locating piece was kept away from to the connecting rod, the locating part is used for contradicting with the top of carrier.

5. A tyre sander as set forth in claim 4, wherein: the positioning mechanism further comprises an elastic piece, one end of the elastic piece abuts against the positioning block, and the other end of the elastic piece abuts against the carrier.

6. A tire sander as set forth in claim 1, wherein: the dull polish device includes the slide, install in the resilience piece of slide, install in the dull polish board of resilience piece and be used for driving slide reciprocating motion's dull polish driver.

7. A tyre sander as set forth in claim 6, wherein: the rebound piece is bent into a V shape by an elastic plate, one side of the rebound piece is arranged on the sliding plate, and the sanding plate is arranged on the other side of the rebound piece.

8. A tire sander as set forth in claim 1, wherein: tire dull polish machine is still including installing in the board and being used for carrying out absorbent dust extraction with the produced dust of tire of will polishing, dust extraction including the collection cover that is located dull polish device's below and with the dust catcher of collecting the cover intercommunication.

9. A tire sander as set forth in claim 1, wherein: the feeding device comprises a vibration disc, a guide rail connected to a discharge port of the vibration disc, a linear vibrator arranged at the bottom of the guide rail and a sensor arranged at a feed end of the guide rail.

10. A tire sander as set forth in claim 2, wherein: a material guide plate is arranged below the material blocking part, and a collecting box is arranged at the discharge end of the material guide plate.

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