CN220261154U - Pattern processingequipment is used in tire production - Google Patents

Abstract

The utility model discloses a pattern processing device for tire production, which comprises: the device comprises a pair of concave conveying blocks, a pair of belt conveyors, a processing table and a processing bracket, wherein the pair of concave conveying blocks are respectively arranged on two sides of the processing table, the pair of belt conveyors are respectively arranged on the inner sides of the pair of concave conveying blocks, the processing bracket is arranged on the processing table, a limiting lifting structure is arranged on the processing table, and a hot melting processing structure is arranged on the processing bracket; the utility model relates to the technical field of tire production, wherein a tire is lifted and internally expanded and fixed through a limiting lifting structure, then the tire is pushed to the inner side of a hot melting processing structure through lifting, and the tire is melted by high-temperature gas and low-temperature gas, so that the tire is cooled and solidified, and the tire is convenient for processing patterns.

Description

Pattern processingequipment is used in tire production

Technical Field

The utility model relates to the technical field of tire production, in particular to a pattern processing device for tire production.

Background

Tires are ground-engaging rolling, annular elastomeric rubber articles assembled on a variety of vehicles or machines. The automobile body is usually arranged on a metal rim, can support the automobile body, buffer external impact, realize contact with a road surface and ensure the running performance of the automobile. The existing pattern processing equipment for producing automobile tires cannot fix tires with different sizes when in use, the existing pattern processing equipment for producing automobile tires is unstable in clamping the tires when in use, rubber which is easy to dissolve in an electric heating groove is adhered to a heating surface during processing, a user is required to close the equipment and then wipe the electric heating groove for continuous use, the processing efficiency of tire patterns is affected, the quality of the tire patterns is affected, for example, a 'CN 217195664U tread pattern engraving equipment for producing tires', the 'tire is a grounding rolling annular elastic rubber product assembled on various vehicles or machinery', the tire is usually mounted on a metal rim, a vehicle body can be supported, external impact is buffered, the side surface of the tire is required to be engraved, and the engraved patterns can be used as brand marks; 1. the conventional tread pattern engraving equipment for tire production is not provided with a positioning device, so that the tire is inconvenient to fix during installation, and the tire position is deviated and the pattern engraving position is deviated in the clamping process; 2. when the tread pattern carving equipment for the traditional tire production is used for carving patterns, the tire needs to be manually clamped, so that time is consumed, and the clamping of the tire is not facilitated; 3. the conventional tread pattern carving equipment for tire production is not provided with a buffer device, the carving machine directly performs pattern carving on the tire, and after long-time use, the service life of the carving machine is reduced due to the contact and collision between the carving machine and the tire.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: a pattern processing device for tire production, comprising: the device comprises a pair of concave conveying blocks, a pair of belt conveyors, a processing table and a processing bracket, wherein the pair of concave conveying blocks are respectively arranged on two sides of the processing table, the pair of belt conveyors are respectively arranged on the inner sides of the pair of concave conveying blocks, the processing bracket is arranged on the processing table, a limiting lifting structure is arranged on the processing table, and a hot melting processing structure is arranged on the processing bracket;

the hot melt processing structure comprises: the device comprises a pair of square drainage tubes, a pair of square telescopic inner tubes, a pair of telescopic limiting square plates, two pairs of multi-section hydraulic push rods, a pair of drainage fans, a cooler, a radiator, an electric heating rod, a mechanical arm, a cutting knife, a cleaning box, an ultrasonic vibrator, a coiled electric heating tube, two pairs of horizontal telescopic hydraulic push rods and a pair of concave arc extrusion blocks;

the pair of the two-section type hydraulic push rods are respectively connected to the pair of the telescopic limiting return plates, the pair of the drainage fans are respectively arranged on the inner sides of the pair of the two-section type drainage tubes, the cooler and the electric heating rod are respectively arranged on the inner sides of the pair of the two-section type telescopic inner tubes, the radiator is arranged on the outer sides of the two-section type telescopic inner tubes, the mechanical arm is arranged on the processing bracket, the cutting knife is arranged on the mechanical arm, the cleaning box is arranged on the processing bracket, the ultrasonic vibrator and the electric heating pipe are arranged on the inner sides of the cleaning box, the two pairs of the horizontal telescopic push rods are respectively arranged on the inner sides of the cleaning box in parallel, and the two pairs of the horizontal telescopic push rods are respectively arranged on the inner sides of the cleaning box in parallel to the pair of the concave-shaped telescopic push rods;

it should be noted that, in the above, the operation of a pair of belt conveyer through a pair of concave transportation piece inboard drives the tire on it respectively, thereby reach and transport the processing bench with the tire, go up and down to the tire through spacing elevation structure, drive the spacing back plate of flexible on it respectively through two pairs of lift hydraulic push rods, drive the flexible inner tube of the shape of returning on it through spacing back plate, make the flexible inner tube of shape of returning flexible and stretch out and draw back along the inboard of returning the shape drainage tube, thereby reach and stretch out and draw back the flexible inner tube towards the tire, through a pair of drainage fan operation, cool down or heat the inboard air of a pair of flexible inner tube of shape of returning respectively through cooler and electrothermal heating rod, heat the tire earlier, fuse the tire through high temperature, thereby facilitate processing, drive the cutting knife on it to the tire through the robotic arm, carry out the cooling plastic type through the robotic arm with the cutting knife, remove the inboard of clean box through the dirt on the flexible inner tube of flexible deflector coil, simultaneously squeeze the scale through the flexible electric pressure of vibration of a pair of cutter, thereby reach the relative vibration of the cutter on the relative circular arc through the flexible extrusion of a pair of flexible inner tube, the vibration of cutter, reach the relative vibration of the cutter is realized.

Preferably, the limiting lifting structure comprises: two pairs of high multi-section hydraulic push rods, lifting cylindrical blocks, a plurality of convex expansion blocks, a plurality of circular arc expansion blocks, a plurality of expansion limiting shafts, a plurality of expansion sleeve springs, a plurality of expansion loop-shaped magnets, expansion cylindrical electromagnets, circular ring inflation tubes, a plurality of inflation shaft tubes, an inflation pump, a resistance regulator and a plurality of circular arc inflation air bags;

the processing bench is provided with a cylindrical lifting groove, two pairs of high multi-section hydraulic push rods are arranged on the inner sides of the cylindrical lifting grooves in a parallel manner, lifting cylindrical blocks are arranged on the pushing ends of the two pairs of high multi-section hydraulic push rods, a plurality of convex expansion grooves are respectively arranged on the lifting cylindrical blocks, a plurality of convex expansion blocks are respectively movably inserted on the inner sides of the convex expansion grooves, a plurality of expansion limiting shafts are respectively movably inserted on the inner sides of the convex expansion grooves, a plurality of circular arc expansion blocks are respectively arranged on a plurality of convex expansion blocks, a plurality of expansion sleeve springs are respectively sleeved on a plurality of expansion limiting shafts, a plurality of expansion return magnets are respectively arranged on a plurality of convex expansion blocks, expansion cylindrical electromagnets are respectively arranged on the lifting cylindrical blocks, a plurality of circular arc expansion airbags are respectively arranged on the circular arc expansion blocks, a plurality of circular arc inflation tubes are respectively arranged on the lifting cylindrical blocks, a plurality of circular arc inflation rings are respectively inserted on the circular arc inflation rings and connected with the inflation tubes, and the circular arc inflation rings are respectively connected with the inflation tubes;

it should be noted that, in the above, through high multistage formula hydraulic ram flexible, drive the lift cylinder piece on it and go up and down, insert the inboard of tire with the lift cylinder piece, circular telegram through the expansion cylinder electro-magnet, magnetic repulsion drives the expansion back-shaped magnet on it through the expansion cylinder electro-magnet, drive the protruding type expansion piece on it through the expansion back-shaped magnet, make the inboard inflation of the inboard protruding type expansion groove of a plurality of lift cylinder piece respectively, through inserting the inboard of tire with the expansion of a plurality of protruding type expansion piece, inflate the ring gas tube through the pump, inflate the inboard of a plurality of inflation central siphon through the ring gas tube, inflate the inflation of a plurality of circular arc inflation gasbag through a plurality of inflation central siphon respectively, through the inflation of a plurality of protruding type expansion piece and a plurality of circular arc inflation gasbag, thereby reach and extrude fixedly according to the inflation back-shaped magnet, afterwards, go up and down the tire through high multistage formula hydraulic ram, thereby reach and go up and down the tire, thereby reach and carry out the processing support with the tire.

Preferably, a pair of concave limiting blocks are arranged on the inner side of the processing table.

Preferably, a plurality of limiting wheels are respectively arranged on the inner sides of the pair of concave limiting blocks.

Preferably, the pair of concave limiting blocks are in a ladder shape.

Preferably, the processing table is provided with a plurality of wheel grooves, and the inner sides of the wheel grooves are respectively provided with a feeding wheel.

Advantageous effects

The utility model provides a pattern processing device for tire production. The beneficial effects are as follows: this pattern processingequipment for tire production goes up and down the internal expansion through spacing elevation structure with the tire fixed, later through going up and down with the inboard of tire propelling movement hot melt processing structure, through high temperature gas and low temperature gas to reach and carry out the hot melting with the tire and solidify with cooling, thereby make things convenient for the tire to process the pattern.

Drawings

Fig. 1 is a schematic front sectional view of a pattern processing device for tire production according to the present utility model.

Fig. 2 is a schematic bottom view of a pattern processing device for tire production according to the present utility model.

In the figure: 1. a concave transport block; 2. a belt conveyor; 3. a processing table; 4. processing a bracket; 5. a clip-shaped drainage tube; 6. a telescopic inner tube in a shape of a loop; 7. a telescopic limit return plate; 8. a multi-section hydraulic push rod; 9. a drainage fan; 10. a cooler; 11. a heat sink; 12. an electric heating rod; 13. a mechanical arm; 14. a cleaning tank; 15. an ultrasonic vibrator; 16. a coiled electric heating tube; 17. a horizontal telescopic hydraulic push rod; 18. a concave arc extrusion block; 19. a height multi-section hydraulic push rod; 20. lifting the cylindrical block; 21. a convex expansion block; 22. an arc expansion block; 23. an expansion limit shaft; 24. expanding the sleeve spring; 25. an expanded return magnet; 26. an expansion cylinder electromagnet; 27. a circular ring inflation tube; 28. an inflatable shaft tube; 29. an inflator pump; 30. the circular arc expands the balloon.

Detailed Description

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

All electric parts and the adaptive power supply are connected through wires by the person skilled in the art, and a proper controller and encoder should be selected according to actual conditions so as to meet control requirements, specific connection and control sequence, and the electric connection is completed by referring to the following working principles in the working sequence among the electric parts, and the detailed connection means are known in the art, and mainly introduce the working principles and processes as follows, and do not describe the electric control.

Examples

The present utility model will be described in detail below with reference to the accompanying drawings, as shown in fig. 1-2, a pair of concave transport blocks 1 are respectively mounted on two sides of the processing table 3, a pair of belt conveyors 2 are respectively mounted on the inner sides of the pair of concave transport blocks 1, the processing support 4 is mounted on the processing table 3, a limiting lifting structure is mounted on the processing table 3, and a hot melting processing structure is mounted on the processing support 4; the hot melt processing structure comprises: a pair of return drainage tubes 5, a pair of return telescopic inner tubes 6, a pair of telescopic limiting return plates 7, two pairs of multi-section hydraulic push rods 8, a pair of drainage fans 9, a cooler 10, a radiator 11, an electric heating rod 12, a mechanical arm 13, a cutting knife, a cleaning box 14, an ultrasonic vibrator 15, a coiled electric heating tube 16, two pairs of horizontal telescopic hydraulic push rods 17 and a pair of concave arc extrusion blocks 18; the pair of the square-shaped drainage pipes 5 are arranged on the processing support 4, the pair of the square-shaped telescopic inner pipes 6 are movably inserted into the inner sides of the pair of the square-shaped drainage pipes 5 respectively, the pair of the telescopic limiting square-shaped plates 7 are arranged on the pair of the square-shaped telescopic inner pipes 6 respectively, the two pairs of the multi-section hydraulic push rods 8 are arranged on the processing support 4, pushing ends of the two pairs of the multi-section hydraulic push rods 8 are connected to the pair of the telescopic limiting square-shaped plates 7 respectively, the pair of the drainage fans 9 are arranged on the inner sides of the pair of the square-shaped drainage pipes 5 respectively, the cooler 10 and the electric heating rod 12 are arranged on the inner sides of the pair of the square-shaped telescopic inner pipes 6 respectively, the radiator 11 is arranged on the outer sides of the square-shaped telescopic inner pipes 6, the mechanical arm 13 is arranged on the processing support 4, the cutter is arranged on the mechanical arm 13, the cleaning box 14 is arranged on the processing support 4, the vibrator 15 and the coiled type electric box 16 are arranged on the inner sides of the two pairs of horizontal push rods 17 and the two pairs of horizontal push rods 17 are arranged on the inner sides of the horizontal telescopic push rods 17 respectively; the limit lifting structure comprises: two pairs of height multi-section hydraulic push rods 198, lifting cylindrical blocks, a plurality of convex expansion blocks, a plurality of circular arc expansion blocks, a plurality of expansion limiting shafts, a plurality of expansion sleeve springs, a plurality of expansion loop-shaped magnets, expansion cylindrical electromagnets, circular ring inflation tubes, a plurality of inflation shaft tubes, an inflation pump, a resistance regulator and a plurality of circular arc inflation air bags; the processing table 3 is provided with a cylindrical lifting groove, two pairs of height multi-section hydraulic push rods 198 are installed on the inner sides of the cylindrical lifting grooves in a pair of parallel, lifting cylindrical blocks are installed on the pushing ends of the two pairs of height multi-section hydraulic push rods 198, a plurality of convex expansion grooves are respectively formed in the lifting cylindrical blocks, a plurality of convex expansion blocks are respectively movably inserted on the inner sides of the convex expansion grooves, a plurality of expansion limiting shafts are respectively movably inserted on the inner sides of the convex expansion grooves, a plurality of circular expansion blocks are respectively installed on the convex expansion blocks, a plurality of expansion sleeve springs are respectively sleeved on the expansion limiting shafts, a plurality of expansion return magnets are respectively installed on the convex expansion blocks, expansion cylindrical electromagnets are respectively installed on the lifting cylindrical blocks, a plurality of expansion air bags are respectively installed on the circular expansion blocks, a plurality of circular ring pipes are respectively installed on the lifting cylindrical blocks, a plurality of circular ring pipes are respectively inserted on the circular ring pipes, and the circular ring pipes are respectively connected with the circular expansion rings and the circular ring pipes, and the circular ring pipes are respectively connected with the circular ring pipes; a pair of concave limiting blocks are arranged on the inner side of the processing table 3; a plurality of limiting wheels are respectively arranged on the inner sides of the pair of concave limiting blocks; the pair of concave limiting blocks are in a ladder shape; a plurality of wheel grooves are formed in the processing table 3, and feeding wheels are respectively arranged on the inner sides of the wheel grooves.

According to the attached figures 1-2, a pair of belt conveyors 2 on the inner sides of a pair of concave conveying blocks 1 are used for running to respectively drive tires on the belt conveyors, so that the tires are conveyed to a processing table 3, the tires are lifted by a limiting lifting structure, two pairs of lifting hydraulic pushing rods are used for respectively driving telescopic limiting return plates 7 on the lifting hydraulic pushing rods, the telescopic return inner pipes 6 on the lifting hydraulic pushing rods are driven by the telescopic limiting return plates 7, the telescopic return inner pipes 6 are telescopic along the inner sides of the return drainage pipes 5, the telescopic return inner pipes 6 are telescopic towards the tires, the pair of drainage fans 9 are used for running, the air on the inner sides of the pair of return drainage pipes 5 and the inner sides of the pair of telescopic return inner pipes 6 is cooled or heated by a cooler 10 and an electric heating rod 12 respectively, firstly heating the tire, hot melting the tire at high temperature, thereby facilitating processing, driving a cutting blade on the tire through a mechanical arm 13 to process the tire, cooling and molding the tire through cooling air, moving the cutting blade to the inner side of a cleaning box 14 through the mechanical arm 13, cleaning dirt on the cutting blade through sonic vibration by an ultrasonic vibrator 15, heating cleaning liquid by a coiled electric heating pipe 16, thereby hot melting the dirt on the cutting blade, and simultaneously driving a pair of concave arc extrusion blocks 18 on the cutting blade through the expansion and contraction of two pairs of horizontal expansion hydraulic push rods 17, and achieving the purpose of extruding and knocking the dirt on the cutting blade through the relative expansion and contraction of the pair of concave arc extrusion blocks 18; the lifting cylindrical blocks are driven to lift through the expansion of the height multi-section type hydraulic push rod 198, the lifting cylindrical blocks are inserted into the inner side of a tire, the expansion cylindrical electromagnet is electrified, the expansion cylindrical electromagnet is magnetically repelled to drive the expansion rectangular magnet on the lifting cylindrical blocks, the expansion rectangular magnet is used for driving the convex expansion blocks on the lifting cylindrical blocks, the convex expansion blocks are respectively expanded along the inner sides of the convex expansion grooves of the inner sides of the lifting cylindrical blocks, the convex expansion blocks are respectively inserted into the inner sides of the tire, the annular inflation tube is inflated through the inflator pump, the inner sides of the inflation shaft tubes are inflated through the annular inflation tube, the inflation of the arc expansion air bags is respectively carried out through the inflation shaft tubes, the expansion of the convex expansion blocks and the arc expansion air bags is carried out, the inner side expansion extrusion fixing is achieved according to different tire sizes, and then the tire is lifted for the second time through the height multi-section type hydraulic push rod 198, so that the tire is pushed onto the processing bracket 4.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A pattern processing device for tire production, comprising: the device is characterized in that the pair of concave conveying blocks, the pair of belt conveyors, the processing table and the processing bracket are respectively arranged on two sides of the processing table, the pair of belt conveyors are respectively arranged on the inner sides of the pair of concave conveying blocks, the processing bracket is arranged on the processing table, the processing table is provided with a limiting lifting structure, and the processing bracket is provided with a hot melting processing structure;

the hot melt processing structure comprises: the device comprises a pair of square drainage tubes, a pair of square telescopic inner tubes, a pair of telescopic limiting square plates, two pairs of multi-section hydraulic push rods, a pair of drainage fans, a cooler, a radiator, an electric heating rod, a mechanical arm, a cutting knife, a cleaning box, an ultrasonic vibrator, a coiled electric heating tube, two pairs of horizontal telescopic hydraulic push rods and a pair of concave arc extrusion blocks;

the pair of the flexible inner tubes of the shape of returning is installed on the processing support, the pair of flexible inner tubes of the shape of returning is movable cartridge respectively in the inboard of a pair of flexible inner tubes of shape of returning, a pair of flexible spacing back plate is installed respectively in a pair of flexible inner tubes of shape of returning, two pairs of multistage hydraulic pusher is installed on the processing support, and two pairs of multistage hydraulic pusher pushing ends are connected respectively in a pair of flexible spacing back plate, a pair of drainage fan is installed respectively in a pair of the inboard of flexible inner tubes of shape of returning, cooler and electric heat heating rod are installed respectively in a pair of flexible inner tubes of shape of returning, robotic arm is installed in on the processing support, cutting knife install in on the robotic arm, the cleaning box install in on the processing support, ultrasonic vibrator and coil type electric heating tube install in the inboard of cleaning box, two pairs of horizontal telescopic pusher are parallel to the cleaning box respectively in the inboard is installed in a pair of concave type hydraulic pusher pushing ends are installed respectively in the horizontal telescopic pusher pushing ends of two pairs of concave type push rods.

2. The pattern processing device for tire production according to claim 1, wherein the limit lifting structure comprises: two pairs of high multi-section hydraulic push rods, lifting cylindrical blocks, a plurality of convex expansion blocks, a plurality of circular arc expansion blocks, a plurality of expansion limiting shafts, a plurality of expansion sleeve springs, a plurality of expansion loop-shaped magnets, expansion cylindrical electromagnets, circular ring inflation tubes, a plurality of inflation shaft tubes, an inflation pump, a resistance regulator and a plurality of circular arc inflation air bags;

the processing bench is provided with a cylindrical lifting groove, two pairs of high multistage hydraulic push rods are installed on the inner sides of the cylindrical lifting groove in a pairwise parallel mode, the lifting cylindrical blocks are installed on the pushing ends of the high multistage hydraulic push rods, a plurality of convex telescopic grooves are respectively formed in the lifting cylindrical blocks, the convex expansion blocks are respectively movably inserted and installed on the inner sides of the convex telescopic grooves, the expansion limiting shafts are respectively movably inserted and installed on the inner sides of the convex telescopic grooves, the circular arc expansion blocks are respectively installed on the convex expansion blocks, the expansion sleeve springs are respectively sleeved on the expansion limiting shafts, the expansion return magnets are respectively installed on the convex expansion blocks, the expansion cylindrical electromagnets are respectively installed on the lifting cylindrical blocks, the circular arc expansion air bags are respectively installed on the circular arc expansion blocks, the circular arc expansion pipe is installed on the lifting cylindrical blocks, the circular arc expansion pipe is respectively inserted and installed on the circular arc pipe, the circular arc expansion pipe is respectively connected with the inflation ring, and the circular arc pipe is connected with the inflation resistor.

3. A pattern processing apparatus for tire production as in claim 2, wherein a pair of concave stoppers are provided on the inner side of said processing table.

4. A pattern processing device for tire production as in claim 3, wherein a plurality of stopper wheels are provided on the inner sides of a pair of said concave stoppers, respectively.

5. A tire manufacturing pattern processing device as in claim 4, wherein a pair of said concave stoppers are trapezoidal in shape.

6. A pattern processing device for tire production as in claim 5, wherein said processing table is provided with a plurality of wheel grooves, and the inner sides of said wheel grooves are respectively provided with a feeding wheel.