CN214652429U - Novel cushion rubber deviation rectifying device of rubber tire forming machine - Google Patents

Abstract

The application discloses novel rubber tire building machine fills up and glues deviation correcting device, wherein novel rubber tire building machine fills up and glues deviation correcting device includes section bar frame and an at least conveyer belt. The section bar frame is provided with a guide assembly, at least one support frame and at least one deviation rectifying assembly. The guide assembly comprises a driving mandrel and at least one guide rail, so that the support frame can move directionally. The driving core shaft is sleeved with at least one driving roller. The support frame is correspondingly provided with a support roller, so that the support frame is matched with the driving roller to wind the conveying belt. The deviation rectifying assembly comprises a monitoring mechanism for monitoring the cushion rubber on the surface of the conveyor belt and an executing mechanism for driving the supporting frame. The deviation-rectifying conveying system can simultaneously rectify the deviation and cushion the rubber on line through a plurality of conveying belts, so that the processing efficiency is effectively improved, the forming quality is greatly improved, and the deviation-rectifying conveying system has a very wide application range.

Description

Novel cushion rubber deviation rectifying device of rubber tire forming machine

Technical Field

The utility model relates to a conveying equipment technical field especially relates to a novel rubber tire make-up machine fills up and glues deviation correcting device for directional transport fills up and glues.

Background

The soft base material, such as cushion rubber attached to the inner layer of the tire, is difficult to automatically correct in the attaching process due to the soft texture, so that the soft base material is effectively and accurately attached to an accurate position. Therefore, the effect of correcting the cushion rubber needs to be achieved by indirectly correcting the deviation by the aid of the conveying medium.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a novel rubber tire make-up machine fills up and glues deviation correcting device through setting up the support frame and rectifying the subassembly, can carry out effective monitoring and rectifying to the pad that the conveyer belt was carried is glued.

Another object of the utility model is to provide a novel rubber tire make-up machine fills up and glues deviation correcting device can carry simultaneously and rectify many pads and glue, and work efficiency is high, and work quality is high.

Another object of the utility model is to provide a novel rubber tire building machine fills up and glues deviation correcting device, the directional removal through section bar frame is suitable for the wheel hub that quick replacement was pasted and is covered.

Another object of the utility model is to provide a novel rubber tire building machine fills up and glues deviation correcting device can accomplish fast through setting up the nip rolls and fill up the subsides of gluing on the wheel hub surface and cover.

Another object of the utility model is to provide a novel rubber tire building machine fills up and glues deviation correcting device, through setting up the cooperation of swager and monitoring mechanism one-to-one, can effectively, accurate pushing down fills up glues, can also effectively resources are saved simultaneously, reduce cost.

In order to realize the utility model discloses above at least one purpose, the utility model provides a novel rubber tire make-up machine fills up and glues deviation correcting device for directional transport pad is glued, wherein the conveying system that rectifies includes a section bar frame and an at least conveyer belt, wherein section bar frame is provided with:

the guide assembly comprises a driving mandrel and at least one guide rail which are arranged in parallel along the length direction of the section bar frame, wherein the driving mandrel is positioned at the end part of the length direction and is sleeved with at least one driving roller set in a sliding manner along the axial direction;

the supporting frame is in one-to-one correspondence with the driving roller sets along the length direction and is provided with a sliding groove matched with the guide rail, one end of the supporting frame, far away from the driving roller sets, is provided with a supporting roller set so as to wind the conveying belt through the supporting roller sets and the driving roller sets, and the other end of the supporting frame is connected with the driving roller sets; and

at least one deviation rectifying assembly, wherein the deviation rectifying assembly comprises a monitoring mechanism and an executing mechanism matched with the monitoring mechanism, wherein the monitoring mechanism is matched with the conveying belt and close to the end part of the length direction of the section frame to monitor the surface of the conveying belt, the executing mechanism is matched with the supporting frame supporting the conveying belt to rectify deviation when the monitoring mechanism monitors that the cushion deviates from a preset position, so that the supporting frame and the corresponding driving roller set are driven to move along the axial direction to further drive the conveying belt to rectify deviation of the cushion.

In a possible embodiment, the drive roller set, the support frame, the conveyor belt and the deviation rectification assembly are implemented as two or more.

In a possible embodiment, the monitoring mechanism is implemented as a linear image acquisition device, and the actuating mechanism is correspondingly implemented as a deviation correcting actuator, wherein a driving end of the deviation correcting actuator is fixedly connected to the support frame.

In one possible embodiment, the linear image detection device is embodied as a photosensor.

In a possible embodiment, the profile frame consists of a plurality of threaded square tubes.

In a possible embodiment, the deviation correcting device further includes a base and a pressing roller set, wherein the profile frame is arranged on the base in an orientable manner close to or far from the hub, and the end of the profile frame, where the monitoring mechanism is arranged, is close to the hub, and the pressing roller set is arranged on the profile frame in an orientable manner close to or far from the hub, so as to apply the cushion rubber to the surface of the hub when the cushion rubber is conveyed to be close to the hub, thereby realizing simultaneous application of a plurality of cushion rubbers.

In a possible embodiment, the nip roll set includes at least two nip rolls, wherein at least two nip rolls are respectively matched with at least two monitoring mechanisms in a one-to-one correspondence manner, so that the cushion gum is monitored by the monitoring mechanisms, and the cushion gum is pressed down by the corresponding nip rolls after a predetermined time delay.

In a possible embodiment, the profile frame is provided with a buffer at one end close to the hub.

In one possible embodiment, the buffer member includes a bumper strip and an elastic body, wherein the elastic body is disposed on a side of the bumper strip close to the hub.

In a possible embodiment, the profile frame is provided with at least one transition roller at an end close to the hub, wherein the transition roller is located in the extension direction of the conveyor belt and close to the hub to provide the cushion rubber with a transition to be applied to the hub.

These and other objects, features and advantages of the present invention will become more fully apparent from the following detailed description.

Drawings

Fig. 1 shows a schematic structural diagram of a cushion rubber deviation correcting device of a novel rubber tire building machine according to a preferred embodiment of the present application.

Fig. 2 is a schematic structural diagram of a support stand according to a preferred embodiment of the present application.

Fig. 3 is a schematic structural diagram of the support frame around which the conveyor belt is wound according to a preferred embodiment of the present application.

Fig. 4 shows a schematic structural diagram of a cushion rubber deviation correcting device of the novel rubber tire building machine according to a preferred embodiment of the present application.

Fig. 5 shows a partial structural schematic of fig. 4 of the present application.

Detailed Description

The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the disclosure of the specification, the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships that are based on those shown in the drawings, which are merely for convenience in describing the invention and to simplify the description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore the terms should not be construed as limiting the invention.

With reference to the accompanying drawings 1 to 5, a novel rubber tire building machine cushion rubber deviation correcting device according to a preferred embodiment of the present invention will be described in detail below, wherein the novel rubber tire building machine cushion rubber deviation correcting device is used for directionally conveying cushion rubber 100, and the cushion rubber 100 is attached to a surface of a rotating hub 200. The novel rubber cushion deviation rectifying device of the rubber tire building machine comprises a profile frame 10 and at least one conveying belt 20, wherein the profile frame 10 is provided with a guide assembly, at least one support frame 12 and at least one deviation rectifying assembly 13.

The guiding assembly comprises a driving mandrel 111 and at least one guide rail 112 which are arranged in parallel at intervals along the length direction of the profile frame 10, wherein the driving mandrel 111 is positioned at the end part of the length direction and is sleeved with at least one driving roller group 113 in an axially slidable manner.

The support frame 12 corresponds to the driving roller sets 113 one by one along the length direction, and is provided with a sliding groove matched with the guide rail 112. The support frame 12 is provided with a support roller set 121 at one end far away from the drive roller set 113, so as to wind the conveyor belt 20 through the support roller set 121 and the drive roller set 113, and the right end of the support frame 12 is connected with the drive roller set 113, wherein preferably, the right end of the support frame 12 is respectively clamped at two ends of the drive roller set 113, so that when the support frame 12 is driven in an axial direction perpendicular to the length direction, the support frame 12 can synchronously drive the drive roller set 113 to directionally move on the guide rail 112, so that the conveyor belt 20 wound on the support roller set 121 and the drive roller set 113 is synchronously driven, and thus directional deviation rectification of the cushion rubber 100 on the surface of the conveyor belt 20 is realized. It should be noted that the number and the positions of the supporting frames 12 and the conveying belts 20 can be determined according to the number and the positions of the driving roller sets 113 sleeved on the driving mandrel 111, so that a plurality of cushion rubbers 100 can be conveyed simultaneously.

The deviation rectifying assembly 13 comprises a monitoring mechanism 131 and an executing mechanism 132 matched with the monitoring mechanism 131, wherein the monitoring mechanism 131 is matched with the conveying belt 20 and is close to the end part of the length direction of the section bar frame 10 so as to monitor the cushion rubber 100 on the surface of the conveying belt 20. Specifically, the monitoring mechanism 131 is disposed downstream of the conveyor belt 20, wherein the downstream of the conveyor belt 20 is mostly proximate to the application end of the cushion rubber 100, and is used for monitoring whether the travel track of the cushion rubber 100 on the surface of the conveyor belt 20 is within a preset range. In addition, it can be understood by those skilled in the art that the monitoring mechanisms 131 may be disposed at both ends of the profile frame 10 in the longitudinal direction in some cases, so that the conveyor belt 20 can rotate in the forward direction and the reverse direction at the same time, thereby performing bidirectional conveying. The actuator 132 cooperates with the supporting frame 12 supporting the conveyer belt 20 to correct the position of the supporting frame 12 when the monitoring mechanism 131 monitors that the cushion rubber 100 deviates from a predetermined position, so as to drive the supporting frame 12 and the corresponding driving roller set 113 to move axially, thereby driving the conveyer belt 20 to correct the position of the cushion rubber 100.

Briefly, in the deviation rectifying conveying system suitable for the cushion rubber 100, a sub deviation rectifying conveying system for rectifying the deviation of the cushion rubber 100 is formed according to each driving roller set 113 sleeved on the driving mandrel 111, and the sub deviation rectifying conveying system is composed of the driving roller sets 113, the corresponding supporting frames 12, the conveying belts 20 wound on the driving roller sets 113, and the deviation rectifying assemblies 13 for monitoring the conveying belts 20 and rectifying the deviation of the conveying belt supports 12. Performing closed-loop control according to the real-time online deviation rectifying path of the cushion rubber 100 of the deviation rectifying component 13 through the conveyer belt 20; in addition, when the plurality of driving roller sets 113 on the driving mandrel 111 simultaneously drive the plurality of conveyor belts 20 to operate, the cushion rubber 100 on each conveyor belt 20 can be monitored in real time and adjusted in an online deviation rectifying manner, so that the working efficiency is substantially improved, the working quality is ensured, and the social competitiveness of enterprises is improved.

As a preferred embodiment of the present invention, the driving roller set 113, the supporting frame 12, the conveying belt 20 and the deviation rectifying component 13 are implemented as two or more than two to simultaneously convey two or more than two of the cushion rubber 100, or utilize one or some of the sub-deviation rectifying conveying systems to convey a single or part of the cushion rubber 100, which is set according to actual working requirements, for example, the cushion rubber 100 is attached to different positions of hubs with different specifications. Make this conveying system of rectifying not only can carry many simultaneously fill up and glue 100, can also carry through only controlling part sub-conveying system of rectifying to effective resources are saved is suitable for the application of carrying the pad of multiple specification and glues 100, for example can paste simultaneously when possessing more sub-rectifying system and cover the pad that the interval is 30mm ~ 50mm and glue 100, can paste simultaneously and cover the pad that the interval is 50mm ~ 70mm or more apart from gluing 100, its basis drive roller set 113's interval, promptly the interval of conveyer belt 20 can set up in a flexible way.

It is worth mentioning that the monitoring mechanism 131 is implemented as a linear image acquisition device. The actuating mechanism 132 is correspondingly implemented as a deviation correcting actuator, wherein the driving end of the deviation correcting actuator 132 is fixedly connected to the supporting frame 12.

Further preferably, the linear image acquisition device is implemented as a photosensor.

It should be noted that, in order to ensure the structural stability of the profile frame 10, ensure the structural reasonability of the deviation rectification conveying system, and facilitate the arrangement and connection of various electric wires, the profile frame 10 is composed of a plurality of threading square pipes, and various lines used by the deviation rectification conveying system can all run in the threading square pipes. The profile frame 10 is provided with a plurality of ribs 14 in parallel in the longitudinal direction.

It is worth mentioning that in a possible embodiment, namely, when the novel rubber tire building machine cushion rubber deviation correcting device is used for a building machine, the deviation correcting device further comprises a base 30 and a pressing roller group 40 in combination with fig. 4 and 5.

The profile frame 10 is arranged on the base 30 so as to be oriented closer to or farther from the hub 200, and the profile frame 10 is arranged at the end where the monitoring mechanism 131 is arranged, i.e. the left end of the profile frame 10 is close to the hub 200. Specifically, the profile frame 10 is hinged to the base 30, the base 30 is provided with a guide rail (not shown) for the profile frame 10 to move left and right, and a driving cylinder (not shown) is arranged on the right side of the profile frame 10. When the hub 200 is formed, the driving cylinder drives the profile frame 10 to move leftwards to be close to the hub 200, and after the cushion rubber 100 is completely attached, the profile frame 10 is pulled rightwards, so that an operation space is provided for replacing the hub 200. The pressing roller set 40 may be positioned close to or far from the hub 200 to the profile frame 10 to apply the cushion rubber 100 to the surface of the hub 200 when the cushion rubber 100 is conveyed close to the hub 200, thereby achieving simultaneous application of a plurality of cushion rubbers 100.

As a preferred embodiment of the present invention, the pressing roller set 40 includes at least two pressing rollers 41, wherein at least two pressing rollers 41 respectively cooperate with at least two monitoring mechanisms 131 in a one-to-one correspondence manner. In each sub deviation rectifying conveying system, when the monitoring mechanism 131 monitors the cushion rubber 100 and delays for a predetermined time, the corresponding nip roller 41 presses down the cushion rubber 100 until the cushion rubber 100 is completely attached to the hub 200, and then the nip roller 41 is reset. According to the operation of the monitoring mechanism 131, the corresponding nip roll 41 can operate, so that the energy is effectively saved, and the enterprise cost is reduced.

In order to prevent the profile frame 10 from being damaged to the hub 200 during the movement of the profile frame 10, a buffer member 50 is disposed at one end of the profile frame 10 close to the hub 200.

Specifically, the cushion 50 includes a bumper strip 51 and an elastic body 52, wherein the elastic body 52 is disposed on a side of the bumper strip 51 close to the hub 200. The elastomer 52 is preferably embodied as a rubber pad.

As a preferred embodiment of the present invention, the section frame 10 is provided with at least one transition roller 60 at one end close to the hub 200, wherein the transition roller 60 is located in the extending direction of the conveyer belt 20 and close to the hub 200, so as to provide the cushion rubber 100 with a transition adhered to the hub 200.

It will be appreciated by persons skilled in the art that the embodiments of the invention shown in the foregoing description are given by way of example only and are not limiting of the invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (10)

1. The utility model provides a novel rubber tire building machine fills up and glues deviation correcting device for directional transport fills up and glues, its characterized in that, wherein deviation correcting device includes a section bar frame and an at least conveyer belt, wherein the section bar frame is provided with:

the guide assembly comprises a driving mandrel and at least one guide rail which are arranged in parallel along the length direction of the section bar frame, wherein the driving mandrel is positioned at the end part of the length direction and is sleeved with at least one driving roller set in a sliding manner along the axial direction;

the supporting frame is in one-to-one correspondence with the driving roller sets along the length direction and is provided with a sliding groove matched with the guide rail, one end of the supporting frame, far away from the driving roller sets, is provided with a supporting roller set so as to wind the conveying belt through the supporting roller sets and the driving roller sets, and the other end of the supporting frame is connected with the driving roller sets; and

at least one deviation rectifying assembly, wherein the deviation rectifying assembly comprises a monitoring mechanism and an executing mechanism matched with the monitoring mechanism, wherein the monitoring mechanism is matched with the conveying belt and close to the end part of the length direction of the section frame to monitor the surface of the conveying belt, the executing mechanism is matched with the supporting frame supporting the conveying belt to rectify deviation when the monitoring mechanism monitors that the cushion deviates from a preset position, so that the supporting frame and the corresponding driving roller set are driven to move along the axial direction to further drive the conveying belt to rectify deviation of the cushion.

2. The new rubber tire building machine cushion rubber deviation correcting device according to claim 1, wherein the driving roller set, the supporting frame, the conveying belt and the deviation correcting component are implemented as two or more than two.

3. The new rubber tire building machine cushion rubber deviation correcting device according to claim 2, wherein the monitoring mechanism is implemented as a linear image collecting device, the actuating mechanism is correspondingly implemented as a deviation correcting actuator, wherein the driving end of the deviation correcting actuator is fixedly connected to the supporting frame.

4. The new rubber tire building machine cushion rubber deviation correcting device according to claim 3, wherein the linear image capturing device is implemented as a photoelectric sensor.

5. The novel rubber cushion deviation correcting device for the rubber tire building machine as claimed in any one of claims 1 to 4, wherein the profile frame is composed of a plurality of threaded square tubes.

6. The apparatus according to claim 5, wherein the apparatus further comprises a base and a pressing roller set, wherein the frame is disposed on the base and can be oriented close to or away from a hub, and the frame is disposed close to the hub at an end where the monitoring mechanism is disposed, and wherein the pressing roller set is disposed on the frame and can be oriented close to or away from the hub, so as to apply the cushion gum to the surface of the hub when the cushion gum is conveyed close to the hub, thereby achieving simultaneous application of a plurality of cushion gums.

7. The deviation rectifying device for cushion gum of rubber tire building machine according to claim 6, wherein said set of nip rolls comprises at least two nip rolls, wherein at least two of said nip rolls are respectively matched with at least two of said monitoring mechanisms in a one-to-one correspondence manner, so as to monitor said cushion gum by said monitoring mechanisms and press down said cushion gum by said corresponding nip rolls after delaying a predetermined time.

8. The cushion rubber deviation correcting device of a novel rubber tire building machine according to claim 6, wherein the section bar frame is provided with a buffer at one end close to the wheel hub.

9. The new rubber tire building machine cushion rubber deviation correcting device of claim 8, wherein said buffer comprises a bumper strip and an elastic body, wherein said elastic body is disposed on a side of said bumper strip close to said wheel hub.

10. The deviation rectifying device for rubber cushion of rubber tire building machine according to claim 6, wherein said frame is provided with at least one transition roller at an end near said hub, wherein said transition roller is located in the extending direction of said conveyer belt and close to said hub to provide the transition of said rubber cushion to be adhered to said hub.

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