CN220480562U - Tire internal roughening device - Google Patents

Abstract

The utility model provides a tire internal roughening device. The tire internal roughening apparatus of the present utility model comprises: a machine tool body; the laser texturing assembly is used for texturing the inside of the tire to be roughened; the conveying assembly is used for conveying the tire to be roughened; the lifting rotating assembly is in butt joint with the conveying assembly and is used for lifting the tire to be roughened, which is conveyed to the lifting rotating assembly, to the position of the laser texturing assembly and carrying out internal texturing treatment on the tire to be roughened; the control assembly is used for controlling the operation of the laser texturing assembly, the conveying assembly and the lifting rotating assembly, so that the tire to be roughened completes internal texturing treatment in the machine tool body. The tire internal roughening device provided by the utility model can conveniently and rapidly finish cleaning/roughening treatment of the tire internal through the arrangement of a plurality of control components to cooperatively work.

Description

Tire internal roughening device

Technical Field

The utility model relates to a tire internal texturing device, and belongs to the field of laser equipment.

Background

When the tire is pressed against the road surface, air around the tire is vibrated by being pressed, and noise is generated. By steering and suspension systems, these noise will be conducted from the tire to the hub rather than into the cockpit. The special polyurethane foam can generate strong damping effect as a tire interlayer to block sound waves generated when the tire rolls. The density, hardness and the position and width of the polyurethane foam adhered to the inside of the tire are designed through repeated tests. Therefore, no matter how the vehicle is in the driving condition, the special polyurethane foam is used as the tire sound absorbing material, so that the noise transmitted into the vehicle can be reduced to the minimum, and the driving experience is greatly improved.

In fact, before the special polyurethane foam is coated, residues such as wax, glue and oil in the tire are required to be cleaned and roughened, so that the special polyurethane foam is conveniently coated, and therefore, how to provide a device capable of conveniently and quickly cleaning and roughening the interior of the tire is the basis of the existing silent tire preparation.

In view of the above, it is necessary to provide a tire inner texturing device to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to provide a tire internal roughening device which can conveniently and rapidly finish cleaning/roughening treatment of the tire internal part by arranging a plurality of control components to cooperatively work.

To achieve the above object, the present utility model provides a tire internal texturing apparatus comprising: a machine tool body; the laser texturing assembly is used for texturing the inside of the tire to be roughened; the conveying assembly is used for conveying the tire to be roughened; the lifting rotating assembly is in butt joint with the conveying assembly and is used for lifting the tire to be roughened, which is conveyed to the lifting rotating assembly, to the position of the laser texturing assembly and carrying out internal texturing treatment on the tire to be roughened; the control assembly is used for controlling the operation of the laser texturing assembly, the conveying assembly and the lifting rotating assembly, so that the tire to be roughened completes internal texturing treatment in the machine tool body.

As a further improvement of the present utility model, the tire internal texturing device further includes a dust removal component provided in the machine tool body, and the dust removal component is provided at the top of the machine tool body.

As a further improvement of the present utility model, the laser texturing assembly includes a position adjustment assembly connected within the machine tool body and a laser member connected to an end of the position adjustment assembly extending.

As a further development of the utility model, the transport assembly extends at least partially through the machine tool body and comprises a drive support, a transmission assembly arranged on the drive support and a drive member for driving the transmission assembly to operate.

As a further improvement of the present utility model, the elevation rotation assembly includes an elevation assembly, a transfer member provided on the elevation assembly, and a positioning rotation assembly provided on the transfer member.

As a further improvement of the present utility model, the lifting assembly includes a lifting slide, a lifting platform connected to an upper portion of the lifting slide, a conveying driving assembly for conveying the conveying member, and a lifting cylinder for driving the lifting platform to move up and down.

As a further improvement of the utility model, the transfer member comprises a transfer body, a transfer wheel set for supporting the transfer body, and a clamping assembly.

As a further improvement of the present utility model, the positioning and rotating assembly includes a slewing bearing assembly provided on the conveying member, a link assembly, and a servo motor for driving the link assembly.

As a further improvement of the utility model, the control assembly at least comprises a control main body and a display control device in control connection with the control main body.

The beneficial effects of the utility model are as follows:

according to the tire internal roughening device, the laser roughening assembly is arranged, and the relative position between the laser roughening assembly and the lifting rotating assembly is adjustable, so that the laser roughening assembly can conveniently roughen the inside of the tire to be roughened.

Drawings

FIG. 1 is a schematic view of the structure of the tire inner roughening apparatus of the present utility model in operation;

FIG. 2 is a schematic view of the laser texturing assembly of FIG. 1;

FIG. 3 is a schematic view of the transport assembly of FIG. 1;

FIG. 4 is a schematic view of the lifting and rotating assembly of FIG. 1;

fig. 5 is a schematic view of the transfer member and positioning and rotating assembly of fig. 4.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the present utility model will be described in detail with reference to the accompanying drawings and specific embodiments.

In this case, in order to avoid obscuring the present utility model due to unnecessary details, only the structures and/or processing steps closely related to the aspects of the present utility model are shown in the drawings, and other details not greatly related to the present utility model are omitted.

In addition, it should be further noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Referring to fig. 1 to 5, the present utility model provides a tire internal roughening apparatus for roughening the inside of a tire to be roughened. The tire internal roughening device includes: the machine tool comprises a machine tool body 1, a laser texturing assembly 2, a conveying assembly 3, a lifting rotating assembly 4 and a control assembly, wherein the laser texturing assembly 2, the conveying assembly 3 and the lifting rotating assembly 4 are accommodated in the machine tool body 1, and the control assembly is used for controlling the laser texturing assembly 2, the conveying assembly 3 and the lifting rotating assembly 4 to run, so that the tire to be textured is subjected to internal texturing in the machine tool body 1.

The machine tool body 1 is a hollow sealing cleaning room, and through holes 11 for the conveying components 3 to pass through are formed in two side walls of the sealing cleaning room. In a preferred embodiment of the present application, the tire internal roughening device further includes a dust removing component 5 disposed in the machine tool body 1, and the dust removing component 5 is disposed at the top of the machine tool body 1, so as to recover dust generated when the laser roughening component 2 works.

The laser roughening assembly 2 is accommodated in the machine tool body 1 and is used for roughening the inside of the tire to be roughened; in the present application, the laser texturing unit 2 is provided on the ceiling wall of the machine tool body 1, and extends downward from the ceiling wall. Specifically, the laser texturing assembly 2 includes a position adjusting assembly 21 connected in the machine tool body 1 and a laser member 22 connected at one end of the extending end of the position adjusting assembly 21, and further, the dust removing assembly 5 recovers dust generated when the laser member 22 works through a dust removing pipe 51 arranged beside the laser member 22, so as to prevent the dust generated when working from affecting the laser member 22.

The position adjustment assembly 21 includes an X-axis sliding rail 211, a Y-axis sliding rail 212, and a Z-axis cylinder 213, and the position adjustment assembly 21 is configured to drive the laser member 22 connected to an end thereof to perform position adjustment. The laser member 22 includes a PX-2 laser head, and the laser member 22 emits laser under the control of the control assembly, and then the inside of the tire to be roughened is cleaned and roughened.

The conveying assembly 3 is used for conveying tires to be roughened, and in the application, the conveying assembly 3 at least partially penetrates through the machine tool body 1 and comprises a driving bracket 31, a transmission assembly 32 arranged on the driving bracket 31 and a driving member 33 used for driving the transmission assembly 32 to run.

The driving bracket 31 includes a first driving bracket and a second driving bracket penetrating through the through holes 11 on two sides, and the transmission assembly 32 and the driving member 33 are disposed corresponding to the driving bracket 31; in this application, the transmission assembly 32 includes a transmission guide wheel assembly 321 disposed on the upper portion of the driving support 31 and a protection cover 322 covering the transmission guide wheel assembly 321 to protect the transmission guide wheel assembly 321, where the transmission guide wheel assembly 321 is symmetrically disposed on two sides of the length direction of the driving support 31, each side is provided with a plurality of driving wheels (not numbered) side by side, and the planes where the axes of the driving wheels are located are parallel. Further, drive member 33 is a chain servo drive system for controlling the operation of drive sheave assembly 321.

The lifting rotating assembly 4 is in butt joint with the conveying assembly 3 and is used for lifting the tire to be roughened, which is conveyed to the lifting rotating assembly 4, so that the tire to be roughened moves to the position of the laser roughening assembly 1, and internal roughening treatment of the tire to be roughened is performed.

In this application, the lifting and rotating assembly 4 is located between the first driving bracket and the second driving bracket, and specifically, the lifting and rotating assembly 4 includes a lifting assembly 41, a conveying member 42 disposed on the lifting assembly 41, and a positioning and rotating assembly 43 disposed on the conveying member 42.

The lifting assembly 41 includes a lifting slide 411, a lifting platform 412 connected to an upper portion of the lifting slide 411, a conveying driving assembly 413 for conveying the conveying member 42, and a lifting cylinder 414 for driving the lifting platform 412 to move up and down. Specifically, the lifting slide 411 is located between the first driving bracket and the second driving bracket, and the lifting slide 411 and the driving bracket 31 have the same extending direction, so as to achieve the docking with the driving bracket 31. The lifting platform 412 is movably connected to the end of the lifting slideway 411, and further, the lifting cylinder 414 is in driving connection with the lifting platform 412 to drive the lifting platform 412 to move along the vertical direction.

The conveying member 42 is used for positioning and conveying the tire to be roughened so as to facilitate the laser roughening assembly 2 to clean and roughen the interior of the tire to be roughened. In particular, the transfer member 42 may slide along the first driving bracket, the lifting slide 411, and the second driving bracket, and in this application, the transfer member 42 may include a transfer body 421, a transfer wheel set 422 for supporting the transfer body 421, and a clamping assembly 423.

The conveying main body 421 is in a horizontal plate shape, the conveying main body 421 in a horizontal plate shape is arranged on the lifting platform 412, the conveying wheel set 422 comprises a wheel bracket 4221 and a conveying wheel 4222 rotatably connected to the wheel bracket 4221, further, the conveying wheel set 422 is arranged at the edge of the conveying main body 421 in the length direction, and the axis of the conveying wheel 4222 is perpendicular to the plane where the conveying main body 421 is located. Further, the clamp assembly 423 includes a clamp bracket (not numbered), clamp rollers 4231 disposed along an outer peripheral edge of the clamp bracket, in this application, the clamp rollers 4231 are disposed in pairs, and a plurality of pairs of clamp rollers 4231 are disposed at equal intervals on the outer peripheral edge of the clamp bracket.

The positioning rotating group 43 is used for positioning and rotating the tire to be roughened so as to ensure that the laser roughening assembly 2 can act on the inner circumference of the tire to be roughened and ensure uniformity and comprehensiveness of roughening inside the tire to be roughened. In the present application, the positioning rotation group 43 includes a slewing bearing assembly 431 provided on the conveying member 3, a link assembly 432, and a servo motor 433 for driving the link assembly 432. Specifically, the pivoting support assembly 431 is configured to drive the clamping assembly 423 to perform circumferential operation, and includes an external tooth pivoting support 4311 in driving connection with the clamping assembly 423 and a linkage gear 4312 in driving connection with the servo motor 433, where the servo motor 433 drives the linkage gear 4312 to rotate, and then drives the external tooth pivoting support 4311 to rotate through the linkage gear 4312 to drive the clamping assembly 423 to rotate, and finally controls the tire to be roughened clamped on the clamping assembly 423 to rotate, so as to implement internal cleaning roughening treatment of the tire to be roughened through the laser roughening assembly 2.

The control assembly is used for controlling the operation of the laser texturing assembly 2, the conveying assembly 3 and the lifting rotating assembly 4, so that the tire to be textured finishes internal texturing treatment in the machine tool body.

When the tire internal roughening device is used, firstly, the tire to be roughened is hoisted onto the conveying member 42, the laser sensors on the first driving support, the lifting slide 411 and the second driving support are started, the conveying main body 421 is kept to run linearly stably through the conveying wheel set 422, the position where the lifting assembly 41 is located is reached to trigger the laser induction blocking switch, and at the moment, the clamping assembly 423 starts to work, and the tire to be roughened is automatically centered and clamped. Lifting cylinder 414 begins to descend and connecting rod assembly 432 is drivingly connected. The X-axis sliding rail 211, the Y-axis sliding rail 212 and the Z-axis air cylinder 213 in the position adjusting assembly 21 reach the designated position of the inner wall of the tire according to the linkage of the laser positioner, the dust removing assembly 5 is started, the servo motor 433 drives the connecting rod assembly 432, the slewing bearing assembly 431 and the clamping assembly 423 to start rotating, then the tire to be roughened is driven to rotate, the laser member 22 starts working from top to bottom, and the roughening cleaning is completed.

In summary, the tire internal roughening device of the utility model facilitates roughening the inside of the tire to be roughened by the laser roughening assembly by arranging the laser roughening assembly and adjusting the relative position between the laser roughening assembly and the lifting rotating assembly.

The above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model.

Claims (9)

1. A tire internal texturing apparatus, comprising:

a machine tool body;

the laser texturing assembly is used for texturing the inside of the tire to be roughened;

the conveying assembly is used for conveying the tire to be roughened;

the lifting rotating assembly is in butt joint with the conveying assembly and is used for lifting the tire to be roughened, which is conveyed to the lifting rotating assembly, to the position of the laser texturing assembly and carrying out internal texturing treatment on the tire to be roughened;

the control assembly is used for controlling the operation of the laser texturing assembly, the conveying assembly and the lifting rotating assembly, so that the tire to be roughened completes internal texturing treatment in the machine tool body.

2. The tire internal texturing device of claim 1 further comprising a dust removal assembly disposed within the machine tool body, and the dust removal assembly is disposed on top of the machine tool body.

3. The tire internal texturing apparatus of claim 1, wherein the laser texturing assembly comprises a position adjustment assembly connected within the machine tool body and a laser member connected at an end of the position adjustment assembly extending.

4. The tire internal texturing apparatus of claim 1, wherein the transport assembly extends at least partially through the machine body and comprises a drive bracket, a transmission assembly disposed on the drive bracket, and a drive member for driving the transmission assembly to operate.

5. The tire internal texturing apparatus of claim 1, wherein the elevation rotation assembly comprises an elevation assembly, a transfer member disposed on the elevation assembly, and a positioning rotation assembly disposed on the transfer member.

6. The tire internal texturing apparatus according to claim 5, wherein the elevation assembly comprises an elevation slide, an elevation platform connected to an upper portion of the elevation slide, a transport driving assembly for transporting the transport member, and an elevation cylinder for driving the elevation platform to move up and down.

7. The tire internal texturing device of claim 5, wherein the transfer member comprises a transfer body, a transfer wheel set for supporting the transfer body, and a clamping assembly.

8. The tire internal texturing apparatus of claim 5, wherein the positioning and rotating assembly comprises a slewing bearing assembly provided on the transfer member, a linkage assembly, and a servo motor for driving the linkage assembly.

9. The tire internal texturing device of claim 1, wherein the control assembly comprises at least a control body and a display control device in control connection with the control body.