CN217346831U - Feeding device and forming machine - Google Patents

Feeding device and forming machine Download PDF

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Publication number
CN217346831U
CN217346831U CN202221288348.1U CN202221288348U CN217346831U CN 217346831 U CN217346831 U CN 217346831U CN 202221288348 U CN202221288348 U CN 202221288348U CN 217346831 U CN217346831 U CN 217346831U
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China
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inner liner
composite
assembly
conveying
conveying mechanism
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杨慧丽
戚坤
孙振
张珍珍
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Mesnac Co Ltd
Qingdao Mesnac Electromechanical Engineering Co Ltd
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Mesnac Co Ltd
Qingdao Mesnac Electromechanical Engineering Co Ltd
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Abstract

The utility model provides a feeding device and a forming machine, wherein the feeding device is used for conveying sizing materials to a forming drum, the feeding device comprises a composite part conveying mechanism, a side wall feeding mechanism, an inner liner feeding mechanism and a compression roller mechanism, and the composite part conveying mechanism is used for conveying an inner liner and a side wall to the forming drum; the side wall feeding mechanism is connected with the composite part conveying mechanism, and the inner liner feeding mechanism is connected with the composite part conveying mechanism; the feeding device is provided with a first conveying mode and a second conveying mode, when the first conveying mode is adopted, the side wall feeding mechanism and the inner liner feeding mechanism simultaneously convey the side wall and the inner liner to the composite part conveying mechanism, the inner liner and the side wall are pressed by the pressing roller mechanism, and when the second conveying mode is adopted, the side wall feeding mechanism conveys the side wall or the inner liner feeding mechanism to the composite part conveying mechanism to convey the inner liner. The utility model provides a ground feedway has solved the problem of make-up machine feedway function singleness, utilization ratio lowland among the prior art.

Description

Feeding device and forming machine
Technical Field
The utility model relates to a tire manufacturing technical field particularly, relates to a feedway and make-up machine.
Background
A one-section feeding device of a traditional semi-steel one-step tire forming machine is a mechanical device which sequentially attaches PA composite part rubber (compounding an inner liner and a tire side) and cord fabric rubber on a forming drum, performs joint pressing, buckles a tire bead, inflates and reversely wraps the tire to form a cylindrical tire blank.
A one-section feeding device of a one-step light truck tire forming machine is a mechanical device which sequentially attaches an inner liner and a cord fabric to a forming drum, buckles the inner liner and the cord fabric into a tire bead for inflating and turning up, attaches a tire side sizing material to a turned-up tire body on the forming drum, and forms a cylindrical tire blank through forward wrapping by a compression roller.
The traditional semisteel tire and the light truck tire are different in manufacturing process, so that the two tires need to be supplied by the feeding devices independently, the utilization rate of the feeding devices is low, and cost saving is not facilitated.
SUMMERY OF THE UTILITY MODEL
A primary object of the present invention is to provide a feeding device and a forming machine, which can solve the problems of single function and low utilization rate of the feeding device of the forming machine in the prior art.
In order to achieve the above object, according to an aspect of the present invention, there is provided a feeding device for feeding a rubber material to a forming drum, the feeding device including: the composite part conveying mechanism is used for conveying the inner liner and the tire side to the forming drum; the tire side feeding mechanism is connected with the composite part conveying mechanism so as to convey a tire side to the composite part conveying mechanism; the inner liner feeding mechanism is connected with the composite part conveying mechanism so as to convey the inner liner to the composite part conveying mechanism; the compression roller mechanism is arranged on the composite part conveying mechanism to press the inner liner and the tire side; the feeding device is provided with a first conveying mode and a second conveying mode, when the first conveying mode is adopted, the side wall feeding mechanism and the inner liner feeding mechanism simultaneously convey the side wall and the inner liner to the composite part conveying mechanism, the inner liner and the side wall are pressed by the pressing roller mechanism, and when the second conveying mode is adopted, the side wall feeding mechanism conveys the side wall or the inner liner feeding mechanism to the composite part conveying mechanism to convey the inner liner.
Further, the feeding device further comprises: the first driving mechanism is in driving connection with the composite part conveying mechanism and the tire side feeding mechanism respectively so as to drive the composite part conveying mechanism and the tire side feeding mechanism to move simultaneously or drive the composite part conveying mechanism to move independently.
Further, the composite member conveying mechanism comprises: a composite transport assembly; the composite part cutting assembly is arranged on the composite part conveying assembly to cut the composite part or the tire side; the composite part length control assembly is arranged on the composite part conveying assembly and used for controlling the first driving mechanism to move according to the preset composite part length or the preset tire side length.
Furthermore, the composite part conveying assembly comprises a first composite part conveying belt and a second composite part conveying belt, the composite part fixed-length assembly is arranged on the first composite part conveying belt, the composite part cutting assembly is arranged on the second composite part conveying belt, and the first driving mechanism is further in driving connection with the first composite part conveying belt and the second composite part conveying belt respectively so as to drive the first composite part conveying belt and the second composite part conveying belt to move simultaneously or drive the second composite part conveying belt to move independently.
Further, the first driving mechanism comprises a plurality of driving motors, and each driving motor is in one-to-one driving connection with the first composite conveyor belt, the second composite conveyor belt and the sidewall feeding mechanism respectively, or the first driving mechanism comprises a driving motor and a clutch, and the driving motor is in driving connection with the composite conveying mechanism and is in driving connection with the sidewall feeding mechanism through the clutch.
Further, the inner liner layer feeding mechanism includes: a liner transfer assembly; the lining layer driving assembly is in driving connection with the lining layer conveying assembly so as to drive the lining layer conveying assembly to move; the inner liner cutting assembly is arranged on the inner liner conveying assembly to cut the inner liner; the inner liner fixed length subassembly, inner liner fixed length subassembly set up on inner liner conveying assembly to control the motion of inner liner drive assembly according to predetermined inner liner length.
Further, inner liner conveying assembly includes first inner liner conveyer belt and second inner liner conveyer belt, and inner liner drive assembly is connected with first inner liner conveyer belt and second inner liner conveyer belt drive respectively to decide the subassembly at the inner liner and drive first inner liner conveyer belt and second inner liner conveyer belt motion simultaneously before deciding the inner liner, and decide the subassembly at the inner liner and decide the first inner liner conveyer belt motion of independent drive after the inner liner.
Further, the feeding device further comprises: and the guide roller assembly is arranged between the lining layer feeding mechanism and the press roller mechanism so as to convey the lining layer on the lining layer feeding mechanism to the composite part conveying mechanism.
Further, the feeding device further comprises: a cord fabric conveying mechanism; and the cord fabric feeding mechanism is connected with the cord fabric conveying mechanism so as to convey the cord fabric to the forming drum through the cord fabric conveying mechanism.
Further, the feeding device further comprises: the rubber conveying mechanism is respectively connected with the composite piece conveying mechanism and the cord fabric conveying mechanism so as to convey rubber on the composite piece conveying mechanism and the cord fabric conveying mechanism to the forming drum; and the deviation rectifying mechanism is arranged on the rubber conveying mechanism and is used for regulating the rubber position on the rubber conveying mechanism to enable the rubber to be wound on the forming drum according to a preset position.
According to another aspect of the present invention, there is provided a forming machine, comprising a forming drum and a feeding device, wherein the feeding device is the above feeding device.
Use the technical scheme of the utility model's feedway for to the shaping drum transport sizing material, feedway includes: the composite part conveying mechanism is used for conveying the inner liner and the tire side to the forming drum, wherein the composite part conveying mechanism can realize the transportation of three sizing materials of an independent tire side, an independent inner liner and a composite part formed by pressing the tire side and the inner liner; the tire side feeding mechanism is connected with the composite part conveying mechanism so as to convey the tire side to the composite part conveying mechanism; the inner liner feeding mechanism is connected with the composite part conveying mechanism so as to convey the inner liner to the composite part conveying mechanism; the tire side feeding mechanism and the inner liner feeding mechanism can independently convey rubber materials to the composite part conveying mechanism and can also convey the rubber materials to the composite part conveying mechanism simultaneously, and when the tire side feeding mechanism and the inner liner feeding mechanism convey the rubber materials to the composite part conveying mechanism simultaneously, the compression roller mechanism is arranged on the composite part conveying mechanism to press the inner liner and the tire side into the PA composite part. The utility model discloses feedway of above-mentioned structure has first transport mode and second transport mode, and when first transport mode, side wall feedway and inner liner feedway carry side wall and inner liner to compound conveyor simultaneously to make compression roller mechanism pressfitting inner liner and side wall, when carrying the mode at the second, side wall feedway carries side wall or inner liner feedway to compound conveyor to carry the inner liner to compound conveyor.
Drawings
The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:
fig. 1 shows a schematic view of an embodiment of a molding machine according to the invention.
Wherein the figures include the following reference numerals:
10. a forming drum; 20. a composite part conveying mechanism; 21. a press roll mechanism; 22. a composite transport assembly; 221. a first composite conveyor belt; 222. a second composite conveyor belt; 23. cutting the composite part into components; 24. a composite length-fixed component; 30. a sidewall feeding mechanism; 40. an inner liner layer feeding mechanism; 41. a liner layer transfer assembly; 411. a first inner liner conveyor; 412. a second inner liner conveyor; 42. cutting the inner liner; 43. the inner liner layer fixed length component; 50. a guide roller assembly; 60. a cord fabric conveying mechanism; 61. a curtain fabric length-fixing component; 62. a cord fabric cutting assembly; 70. a cord fabric feeding mechanism; 80. a sizing material conveying mechanism.
Detailed Description
It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.
In order to solve the problems of single function and low utilization rate of a feeding device of a forming machine in the prior art, the utility model provides a feeding device and a forming machine.
The utility model provides a feedway for to 10 transport sizing materials of forming drum, feedway includes: the composite part conveying mechanism 20 is used for conveying an inner liner and a tire side to the forming drum 10, wherein the composite part conveying mechanism 20 can realize the transportation of three sizing materials of an independent tire side, an independent inner liner and a composite part formed by pressing the tire side and the inner liner; the sidewall feeding mechanism 30 is connected with the composite part conveying mechanism 20 to convey the sidewalls to the composite part conveying mechanism 20; the lining layer feeding mechanism 40 is connected with the composite part conveying mechanism 20 so as to convey the lining layer to the composite part conveying mechanism 20; wherein, the side wall feeding mechanism 30 and the inner liner feeding mechanism 40 can independently convey rubber to the composite part conveying mechanism 20, and also can convey rubber to the composite part conveying mechanism 20 at the same time, when the side wall feeding mechanism 30 and the inner liner feeding mechanism 40 convey rubber to the composite part conveying mechanism 20 at the same time, the press roll mechanism 21 is arranged on the composite part conveying mechanism 20 to press the inner liner and the side wall into a PA composite part.
The utility model discloses the feedway of above-mentioned structure has first transport mode and second transport mode, and when first transport mode, side wall feed mechanism 30 and inner liner feed mechanism 40 carry side wall and inner liner to compound conveyor 20 simultaneously to make compression roller mechanism 21 pressfitting inner liner and side wall, when second transport mode, side wall feed mechanism 30 carries side wall or inner liner feed mechanism 40 to compound conveyor 20 and carries the inner liner to compound conveyor 20.
Furthermore, the utility model discloses a feedway still is equipped with control mechanism, and control mechanism and foretell composite conveying mechanism 20, side wall feedway 30, inner liner feedway 40 and compression roller mechanism 21 are the control connection respectively to control corresponding mechanism motion respectively according to feedway's two kinds of transport modes.
The feeding device further comprises a first driving mechanism which is in driving connection with the composite part conveying mechanism 20 and the sidewall feeding mechanism 30 respectively so as to drive the composite part conveying mechanism 20 and the sidewall feeding mechanism 30 to move simultaneously or drive the composite part conveying mechanism 20 to move independently.
The composite part conveying mechanism comprises a composite part conveying assembly 22, a composite part cutting assembly 23 and a composite part fixed-length assembly 24, wherein the composite part cutting assembly 23 is arranged on the composite part conveying assembly 22 so as to cut a composite part or a tire side; a composite length assembly 24 is disposed on the composite transport assembly 22 to control movement of the first drive mechanism according to a predetermined composite length or sidewall length. Subassembly 23 is decided to compound and compound fixed length subassembly 24 can carry out the fixed length to compound under first mode of carrying and decide, also can carry out the fixed length to the side wall alone under the second mode of carrying and decide, and compound is decided and is equipped with the cut-off knife on the subassembly 23.
In addition, the composite part length determining assembly 24 has two fixed length detection methods, in one embodiment, the composite part length determining assembly 24 includes a detection switch, and the detection switch can judge the length of the glue material according to the movement time or the movement distance of the composite part conveying assembly 22 to control the start and stop of the composite part conveying assembly 22, so that the composite part cutting assembly 23 cuts the glue material on the composite part conveying assembly 22 when the composite part conveying assembly 22 stops moving. According to another embodiment, the composite length determining assembly 24 includes a detection camera for detecting the length of glue travel to control the start and stop of the composite feed assembly 22.
The composite part conveying assembly 22 comprises a first composite part conveying belt 221 and a second composite part conveying belt 222, the composite part length fixing assembly 24 is arranged on the first composite part conveying belt 221, and the composite part cutting assembly 23 is arranged on the first composite part conveying belt 221 or the second composite part conveying belt 222, wherein the first driving mechanism is further in driving connection with the first composite part conveying belt 221 and the second composite part conveying belt 222 respectively so as to drive the first composite part conveying belt 221 and the second composite part conveying belt 222 to move simultaneously or drive the second composite part conveying belt 222 to move independently. The first driving mechanism comprises a plurality of driving motors, and each driving motor is respectively in one-to-one driving connection with the first composite part conveyor belt 221, the second composite part conveyor belt 222 and the sidewall feeding mechanism 30, or the first driving mechanism comprises a driving motor and a clutch, and the driving motor is in driving connection with the composite part conveying mechanism 20 and is in driving connection with the sidewall feeding mechanism 30 through the clutch.
In addition, the first driving assembly may further include a plurality of driving motors and a clutch combination as required, for example, the first driving assembly includes two driving motors and a clutch, the two driving motors are respectively connected to the first composite conveyor belt 221 and the second composite conveyor belt 222 in a driving manner, and the driving motor connected to the second composite conveyor belt 222 is further connected to the sidewall feeding mechanism 30 through the clutch.
The inner liner feeding mechanism 40 comprises an inner liner conveying assembly 41, an inner liner driving assembly, an inner liner cutting assembly 42 and an inner liner fixed-length assembly 43, wherein the inner liner driving assembly is in driving connection with the inner liner conveying assembly 41 so as to drive the inner liner conveying assembly 41 to move; the lining layer cutting assembly 42 is arranged on the lining layer conveying assembly 41 to cut the lining layer; a liner length control assembly 43 is provided on the liner transfer assembly 41 to control the liner drive assembly movement according to a preset liner length. Inner liner conveying assembly 41 includes first inner liner conveyer belt 411 and second inner liner conveyer belt 412, and inner liner drive assembly is connected with first inner liner conveyer belt 411 and the drive of second inner liner conveyer belt 412 respectively to decide the first inner liner conveyer belt 411 of drive simultaneously and the motion of second inner liner conveyer belt 412 before subassembly 42 decides the inner liner at the inner liner, and decide subassembly 42 at the inner liner and drive first inner liner conveyer belt 411 motion alone after the inner liner.
Subassembly 42 is decided to foretell inner liner sets up on first inner liner conveyer belt 411 or second inner liner conveyer belt 412, and inner liner fixed length subassembly 43 sets up on first inner liner conveyer belt 411, and subassembly 23 is decided to compound fixed length subassembly 24 and compound to the setting reference of subassembly 42 is decided to inner liner fixed length subassembly 43 and inner liner, and the principle is similar. When feedway required the independent feed of inner liner under the second transport mode, at this moment, required inner liner fixed length subassembly 43 and inner liner decide subassembly 42 cut the back with the inner liner fixed length and carry to sizing material conveying mechanism 80 on.
The feeding device further includes a guide roller assembly 50, and the guide roller assembly 50 is disposed between the liner feeding mechanism 40 and the press roller mechanism 21 to feed the liner on the liner feeding mechanism 40 to the composite conveying mechanism 20. The guide roller assembly 50 is secured to the second composite conveyor belt 222.
The feeding device further comprises a cord fabric feeding mechanism 60 and a cord fabric feeding mechanism 70, wherein the cord fabric feeding mechanism 70 is connected with the cord fabric feeding mechanism 60 so as to feed the cord fabric to the forming drum 10 through the cord fabric feeding mechanism 60. The cord fabric feeding mechanisms 70 can be provided in a plurality according to the requirement, the cord fabric feeding mechanisms 70 can feed different cord fabrics or the same cord fabric according to the requirement, and the feeding device shown in fig. 1 is provided with two cord fabric feeding mechanisms 70 which respectively feed the cord fabrics to the cord fabric feeding mechanism 60.
In addition, the cord fabric conveying mechanism 60 is further provided with a cord fabric fixed-length assembly 61 and a cord fabric cutting assembly 62 for fixed-length cutting of the cord fabric. The cord fabric conveying mechanism 60 is provided with a plurality of conveyor belts as required, and the plurality of conveyor belts can work simultaneously or independently.
The feeding device further comprises a rubber material conveying mechanism 80 and a deviation correcting mechanism, wherein the rubber material conveying mechanism 80 is respectively connected with the composite part conveying mechanism 20 and the cord fabric conveying mechanism 60 so as to convey rubber materials on the composite part conveying mechanism 20 and the cord fabric conveying mechanism 60 to the forming drum 10; the deviation correcting mechanism is arranged on the glue material conveying mechanism 80 so as to enable the glue material to be wound on the forming drum 10 according to a preset position by adjusting the glue material position on the glue material conveying mechanism 80.
The deviation rectifying mechanism is provided with a detection camera for detecting the running track of the rubber on the rubber conveying mechanism 80 and matching the rubber at the position of the forming drum 10, and when the position of the rubber deviates from the preset running track or is not matched with the position of the forming drum 10, the deviation rectifying mechanism enables the rubber to be wound on the forming drum 10 according to the preset track by adjusting the position of the forming drum 10 or the position of a conveyor belt of the rubber conveying mechanism 80.
The utility model also provides a one-time method make-up machine, including building drum 10 and feedway, feedway is foretell feedway.
The utility model discloses can realize two kinds of laminating technologies under one section feedway overall arrangement of well once-through tire building machine altogether:
the first conveying mode meets the requirement of a one-section laminating process of a common semisteel passenger tire, and comprises the following specific steps:
1) the rubber conveying mechanism 80 is switched to a rubber conveying state of the PA composite part, wherein the rubber of the PA composite part comprises an inner liner and a tire side;
2) the first inner liner conveying belt 411 and the second inner liner conveying belt 412 are switched to synchronously move to convey inner liner rubber;
3) the second composite conveyor belt 222 and the sidewall feeding mechanism 30 are switched to synchronously act to convey sidewall rubber;
4) conveying the lining layer rubber material to the compression roller mechanism 21 through the guide roller assembly 50 to be pre-compounded with the sidewall rubber material to form a PA composite part;
5) the PA composite part finishes the fixed-length cutting of the PA composite part through the composite part fixed-length assembly 24 and the composite part cutting assembly 23 and then is wound on the forming drum 10 through the glue material conveying mechanism 80;
6) the cord fabric feeding mechanisms 70 are respectively conveyed by the cord fabric conveying mechanism 60 and sequentially pass through the cord fabric fixed-length assembly 61 and the cord fabric cutting assembly 62 to finish fixed-length cutting;
7) the cut cord fabric rubber is sequentially wound on the forming drum 10 through the rubber conveying mechanism 80 after the PA composite part is wound and attached to complete the attachment of a section of rubber.
The second conveying mode meets the first-stage laminating process of the light truck tire:
1) the first inner liner conveying belt 411 and the second inner liner conveying belt 412 are switched to synchronously move to convey inner liner rubber;
2) the inner liner fixed-length component 43 and the inner liner cutting component 42 finish fixed-length cutting of inner liner sizing materials;
3) after the inner liner rubber material is cut in a fixed length, the second inner liner conveyor 412 stops conveying, the first inner liner conveyor 411 is switched to a state of independently conveying the inner liner rubber material, and the inner liner rubber material is continuously conveyed to the second composite conveyor 222;
4) the second composite conveyor belt 222 is switched to a state of conveying the inner liner rubber alone, and synchronously conveys the inner liner rubber to the rubber conveying mechanism 80 with the first inner liner conveyor belt 411;
5) the rubber material conveying mechanism 80 is switched to a rubber material conveying state of the PA composite part, and rubber material of the inner liner is applied to the forming drum 10;
6) the cord fabric feeding mechanisms 70 are respectively conveyed by the cord fabric conveying mechanism 60, and the cord fabric fixed-length assembly 61 and the cord fabric cutting assembly 62 finish fixed-length cutting;
7) after the cut cord fabric sizing material is wound and fitted on the inner liner of the forming drum 10, the cord fabric sizing material is sequentially wound on the inner liner of the forming drum through a sizing material conveying mechanism 80, and then the tire bead is buckled to complete inflation turn-up;
8) the sidewall feeding mechanism 30 and the second composite conveyor belt 222 are switched to a synchronous conveying state to convey the sidewall rubber continuously forwards;
9) the composite part cutting component 23 and the composite part fixed-length component 24 finish fixed-length cutting of rubber materials on the side wall, and the rubber materials are conveyed to the rubber material conveying mechanism 80 through the first composite part conveying belt 221;
10) the rubber material conveying mechanism 80 is switched to a single side rubber material conveying state, and the side rubber material is applied to the rubber material after the reverse wrapping of the forming drum 10 and is subjected to forward wrapping and pressing to complete the manufacture of a section of tire body cylinder.
From the above description, it can be seen that the above-mentioned embodiments of the present invention achieve the following technical effects:
1. the utility model discloses a one-section feeding device of a one-step tire building machine, which realizes the feeding requirements of two tire processes by changing an inner liner feeding mechanism 40/a composite piece conveying component 22 and a tire feeding mechanism;
2. the rubber material conveying mechanism 80 in the layout of the one-section feeding device of the one-step tire forming machine can realize the free switching function of the conveying state of the rubber material of the PA composite part and the independent conveying state of the rubber material of the tire side and the inner liner;
3. the first inner liner conveyor belt 411 in the layout of one section of the feeding device of the once-through tire forming machine can realize the free switching function of two states of independently conveying inner liner rubber materials and synchronously conveying the inner liner rubber materials with the second inner liner conveyor belt 412;
4. the second composite conveyor belt 222 in the layout of the first-stage feeding device of the single-process tire building machine can realize the free switching function of two states of independently conveying the tire side sizing material and synchronously conveying the tire side sizing material with the tire side feeding mechanism 30;
5. the utility model discloses the sizing material kind and the quantity that use in the detailed embodiment of matrix laminating technology described in one section feedway overall arrangement of once-through tire make-up machine does not aim at the restriction claim the utility model discloses a scope, but only shows the utility model discloses a select embodiment. Based on the utility model provides an embodiment, all belong to through increasing other embodiments that sizing material quantity or change sizing material kind obtained the utility model discloses the scope of protection.
The utility model discloses one section feedway layout structure of well once method tire building machine is compact, not only satisfies the ordinary passenger child laminating technology of semisteel and also can satisfy light truck tire laminating technology to the lower cost realizes the satisfaction of two kinds of matrix section of thick bamboo laminating technologies, has improved commonality, the practicality of equipment, has higher price/performance ratio and market competition.
It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.
Unless specifically stated otherwise, the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present invention. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail, but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.
In the description of the present invention, it should be understood that the orientation or positional relationship indicated by the orientation words such as "front, back, up, down, left, right", "horizontal, vertical, horizontal" and "top, bottom" etc. are usually based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, and in the case of not making a contrary explanation, these orientation words do not indicate and imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore, should not be interpreted as limiting the scope of the present invention; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.
Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.
It should be noted that the terms "first", "second", and the like are used to define the components, and are only used for convenience of distinguishing the corresponding components, and if not stated otherwise, the terms have no special meaning, and therefore, the scope of the present invention should not be construed as being limited.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (11)

1. A feeding device for feeding glue to a forming drum (10), characterised in that it comprises:
a composite conveyor (20), said composite conveyor (20) being adapted to convey the liner and the sidewalls to said forming drum (10);
the sidewall feeding mechanism (30), the sidewall feeding mechanism (30) is connected with the composite part conveying mechanism (20) to convey the sidewall to the composite part conveying mechanism (20);
the inner liner feeding mechanism (40) is connected with the composite part conveying mechanism (20) so as to convey the inner liner to the composite part conveying mechanism (20);
the compression roller mechanism (21) is arranged on the composite part conveying mechanism (20) to press the inner liner and the tire side;
the feeding device is provided with a first conveying mode and a second conveying mode, when the first conveying mode is used, the side wall feeding mechanism (30) and the inner liner feeding mechanism (40) simultaneously convey the side wall and the inner liner to the composite conveying mechanism (20), the inner liner is pressed by the pressing roller mechanism (21) and the side wall, and when the second conveying mode is used, the side wall feeding mechanism (30) conveys the side wall to the composite conveying mechanism (20) or the inner liner feeding mechanism (40) conveys the inner liner to the composite conveying mechanism (20).
2. The feeder apparatus of claim 1, further comprising:
the first driving mechanism is respectively in driving connection with the composite part conveying mechanism (20) and the sidewall feeding mechanism (30) so as to drive the composite part conveying mechanism (20) and the sidewall feeding mechanism (30) to move simultaneously or drive the composite part conveying mechanism (20) to move independently.
3. The feeder device according to claim 2, characterised in that said compound delivery means (20) comprise:
a composite transport assembly (22);
a composite cut-off assembly (23), said composite cut-off assembly (23) being disposed on said composite transport assembly (22) to cut said composite or said sidewall;
a composite lay-up assembly (24), the composite lay-up assembly (24) being disposed on the composite transfer assembly (22) to control movement of the first drive mechanism according to a preset composite length or sidewall length.
4. The feeder device according to claim 3, wherein the composite member conveyor assembly (22) comprises a first composite member conveyor belt (221) and a second composite member conveyor belt (222), the composite member length determining assembly (24) is arranged on the first composite member conveyor belt (221), and the composite member cutting assembly (23) is arranged on the first composite member conveyor belt (221) or the second composite member conveyor belt (222), wherein the first driving mechanism is further in driving connection with the first composite member conveyor belt (221) and the second composite member conveyor belt (222), respectively, to drive the first composite member conveyor belt (221) and the second composite member conveyor belt (222) to move simultaneously or to drive the second composite member conveyor belt (222) to move separately.
5. The supply device according to claim 4, characterized in that said first drive means comprise a plurality of drive motors, each of which is drivingly connected to said first composite conveyor belt (221), said second composite conveyor belt (222) and said sidewall supply means (30), respectively, in a one-to-one correspondence, or
The first driving mechanism comprises a driving motor and a clutch, and the driving motor is in driving connection with the composite part conveying mechanism (20) and is in driving connection with the sidewall feeding mechanism (30) through the clutch.
6. The feeder device according to claim 1, wherein the inner liner feeding mechanism (40) comprises:
a liner transfer assembly (41);
the inner liner driving assembly is in driving connection with the inner liner conveying assembly (41) so as to drive the inner liner conveying assembly (41) to move;
the inner liner cutting assembly (42) is arranged on the inner liner conveying assembly (41) to cut the inner liner;
inner liner fixed length subassembly (43), inner liner fixed length subassembly (43) set up on inner liner conveying assembly (41) to according to predetermineeing inner liner length control inner liner drive assembly motion.
7. The feedway of claim 6, characterized in that, inner liner conveying assembly (41) includes first inner liner conveyer belt (411) and second inner liner conveyer belt (412), inner liner drive assembly respectively with first inner liner conveyer belt (411) with second inner liner conveyer belt (412) drive connection to decide subassembly (42) in the inner liner and decide before the inner liner drive simultaneously first inner liner conveyer belt (411) with second inner liner conveyer belt (412) motion, and decide subassembly (42) in the inner liner and drive alone after the inner liner first inner liner conveyer belt (411) motion.
8. The feeder apparatus according to claim 1, characterized in that it further comprises:
a guide roller assembly (50), the guide roller assembly (50) is arranged between the inner liner feeding mechanism (40) and the press roller mechanism (21) to convey the inner liner on the inner liner feeding mechanism (40) to the composite conveying mechanism (20).
9. The feeder apparatus according to claim 1, characterized in that it further comprises:
a cord fabric conveying mechanism (60);
the cord fabric feeding mechanism (70) is connected with the cord fabric conveying mechanism (60) so as to convey the cord fabric to the forming drum (10) through the cord fabric conveying mechanism (60).
10. The feeder of claim 9, further comprising:
the rubber conveying mechanism (80) is respectively connected with the composite piece conveying mechanism (20) and the cord fabric conveying mechanism (60) so as to convey the rubber on the composite piece conveying mechanism (20) and the cord fabric conveying mechanism (60) to the forming drum (10);
the deviation rectifying mechanism is arranged on the rubber material conveying mechanism (80) and is used for enabling the rubber material to be wound on the forming drum (10) according to a preset position by adjusting the rubber material position on the rubber material conveying mechanism (80).
11. A forming machine comprising a forming drum (10) and a feeding device, characterized in that the feeding device is a feeding device according to any one of claims 1-10.
CN202221288348.1U 2022-05-26 2022-05-26 Feeding device and forming machine Active CN217346831U (en)

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CN202221288348.1U CN217346831U (en) 2022-05-26 2022-05-26 Feeding device and forming machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202221288348.1U CN217346831U (en) 2022-05-26 2022-05-26 Feeding device and forming machine

Publications (1)

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CN217346831U true CN217346831U (en) 2022-09-02

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Family Applications (1)

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Country Link
CN (1) CN217346831U (en)

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