阅读说明：本技术 一种内胎与气门嘴交联装置及其工艺 (Inner tube and inflating valve crosslinking device and process thereof ) 是由 王荣华 邵晓林 于 2020-12-08 设计创作，主要内容包括：本发明公开了一种内胎与气门嘴交联装置及其工艺,涉及交联技术领域,包括支撑装置、流水线装置、涂胶装置、贴合装置和翻转装置,所述支撑装置呈水平设置,所述流水线装置设置在支撑装置的上方,所述涂胶装置设置在支撑装置的上方,所述贴合装置设置在支撑装置的上方,所述翻转装置设置在支撑装置的上方,本发明通过人工将气门嘴放置在吸附盘上后,通过流水线装置运行带动套设在流水线线体上的内胎转动,通过涂胶装置运行对内胎进行自动定位涂胶,涂胶完成后,内胎通过流水线装置运行到吸附盘的正下方时,翻转装置运行带动吸附盘翻转,同时,贴合装置运行使套设在流水线线体上的内胎与气门嘴贴合,从而实现自动化作业。(The invention discloses a device for crosslinking an inner tube and an inflating valve and a process thereof, which relate to the technical field of crosslinking and comprise a supporting device, a flow line device, a gluing device, a laminating device and a turnover device, wherein the supporting device is horizontally arranged, the flow line device is arranged above the supporting device, the gluing device is arranged above the supporting device, the laminating device is arranged above the supporting device, and the turnover device is arranged above the supporting device. Thereby realizing automatic operation.)

1. The utility model provides an inner tube of a tyre and inflating valve cross-linking device, its characterized in that, includes strutting arrangement (1), assembly line device (2), rubber coating device (3), laminating device (4) and turning device (5), strutting arrangement (1) is the level setting, assembly line device (2) set up the top at strutting arrangement (1), rubber coating device (3) set up the top at strutting arrangement (1), laminating device (4) set up the top at strutting arrangement (1) and are located rubber coating device (3) side, turning device (5) set up the side in strutting arrangement's top and be located laminating device (4).

2. An inner tube and valve stem cross-linking device according to claim 1, wherein said supporting device (1) comprises four supporting rods (14), four supporting plates (12), four supporting seats (13) and two supporting frames (14), said four supporting rods (11) are horizontally disposed, said two supporting plates (12) are symmetrically disposed at one side of said four supporting rods (11), said supporting seats (13) are disposed at the side end of one of said two supporting plates (12), said two supporting frames (14) are symmetrically disposed at two supporting plates (12), and said supporting blocks are disposed at the side end of one of said two supporting frames (14).

3. The inner tube and inflating valve cross-linking device according to claim 2, wherein the assembly line device (2) comprises two assembly line bodies (21), two assembly line seats (22), two rotating motors (23), a first belt pulley (24), a second belt pulley (25), two rotating belts (26) and an assembly belt (27), the two assembly line bodies (21) are symmetrically arranged on the four support rods (11), the assembly line seats (22) are arranged below one end of each assembly line body (21), the rotating motors (23) are arranged on the assembly line seats (22), the first belt pulley (24) is arranged on a main shaft of the rotating motors (23) and is in a matched and rotating connection state, the second belt pulley (25) is arranged at a side end of the first belt pulley (24), the rotating belts (26) are arranged on the first belt pulley (24) and the second belt pulley (25) and is in a matched and rotating connection state The assembly line comprises an assembly line body (21), a first belt pulley (25), a second belt pulley (27), a third belt pulley and a fourth belt pulley (21), wherein the assembly line body (21) is provided with a rotating shaft, the rotating shafts are matched with the rotating shaft, the rotating shafts are arranged at two ends of the assembly line body (21), one of the rotating shafts is movably connected with the second belt pulley (25), and the assembly line belt (27) is sleeved on the rotating shafts at two.

4. The inner tube and inflating valve cross-linking device according to claim 2, wherein the gluing device (3) comprises a gluing motor (31), a gluing frame (32), a gluing rod (33), a gluing shaft (34), a swinging rod (35), a movable rod (36), a gluing pillar (37) and a brush assembly (38), the gluing motor (31) is arranged at the supporting blocks of the two supporting frames (14), the gluing frame (32) is arranged at the side ends of the two supporting frames (14) and is positioned on the assembly line device (2), one end of the gluing rod (33) is arranged on the main shaft of the gluing motor (31) and is in a matched rotating connection state, one end of the gluing shaft (34) is arranged at the other end of the gluing rod (33) and is movably connected, one end of the swinging rod (35) is arranged at the other end of the gluing shaft (34) and is movably connected, activity pole (36) are equipped with two, two activity pole (36) are the symmetry respectively and set up on the other end of swinging arms (35) and are swing joint, rubber coating pillar (37) set up two the side of support frame (14) just is fixed connection, brush subassembly (38) set up the side of swinging arms (35) and are located the top of assembly line device (2), two the other end of one of them activity pole (36) is connected to on rubber coating pillar (37) and is swing joint, two the other end of another activity pole (36) is connected to on brush subassembly (38) and is swing joint.

5. The inner tube and inflating valve cross-linking device according to claim 4, wherein the brush assembly (38) comprises two glue coating brushes (381), two glue coating movable shafts (382), two glue coating brackets (383) and two glue coating boxes (384), the two glue coating brackets (383) are respectively symmetrically arranged on the assembly line device (2), two ends of each glue coating movable shaft (382) are respectively arranged on the two glue coating brackets (383) and movably connected with each other, the glue coating brushes (381) are sleeved at the central position of the glue coating movable shafts (382) and movably connected with each other, and the glue coating boxes (384) are arranged at the side ends of the glue coating brushes (381) and are positioned on the two glue coating brackets (383).

6. The inner tube and inflating valve cross-linking device according to claim 2, wherein the attaching device (4) comprises two attaching motors (41), two attaching shafts (42), two attaching columns (43), two attaching rods (44), two attaching rotating rods (45) and two jacking assemblies (46), the two attaching motors (41) are symmetrically arranged below the two support frames (14) and are fixedly connected, the two attaching shafts (42) are symmetrically arranged on the main shaft of the attaching motor (41) and are in a matching and rotating connection state, the two attaching columns (43) are symmetrically arranged on the inner sides of the two support frames (14), the two attaching shafts (42) penetrate through the two attaching columns (43) and are movably connected, laminating pole (44) are equipped with two, two laminating pole (44) are the symmetry respectively and set up two on laminating axle (42) and be swing joint, laminating bull stick (45) are equipped with two, two laminating bull stick (45) one end is the symmetry respectively and sets up two on laminating pole (44) and be swing joint, jack-up subassembly (46) are equipped with two, two jack-up subassembly (46) are the symmetry respectively and set up two the below of laminating bull stick (45).

7. The inner tube and valve nozzle cross-linking device according to claim 6, wherein the lifting assembly (46) comprises two lifting seesaws (461), two lifting blocks (462), two lifting columns (463) and two lifting pillars (464), one end of each of the two lifting seesaws (461) is symmetrically arranged on the other end of the attaching rotating rod (45) and movably connected, two lifting springs are symmetrically arranged below the two lifting seesaws (461), the number of the lifting blocks (462) is four, the four lifting blocks (462) are symmetrically arranged on two sides of the two lifting seesaws (461) and located on the supporting device (1), the number of the lifting columns (463) is two, the two ends of the two lifting columns (463) are symmetrically arranged on the four lifting blocks (462), the two jacking columns (463) are provided with jacking ports, the jacking support columns (464) are arranged at the other ends of the two jacking wanes (461), and the other ends of the two jacking wanes (461) penetrate through the jacking ports on the two jacking columns (463) and are fixedly connected with the two ends of the jacking support columns (464).

8. The inner tube and valve mouth crosslinking device according to claim 2, wherein the turnover device (5) comprises a turnover motor (51), two turnover frames (52), two turnover rods (53), a turnover turntable (54), two turnover shafts (55), a matching frame (56) and an adsorption disc (57), the turnover motor (51) is arranged on the supporting base (13), the two turnover frames (52) are symmetrically arranged on the supporting base (13) and are positioned at the side end of the turnover motor (51), the turnover rods (53) are arranged on the main shaft of the turnover motor (51) and are in matching and rotating connection, the turnover shafts (55) are arranged on one of the two turnover frames (52) and are movably connected, the turnover rods (53) penetrate through the other of the two turnover frames (52) and are movably connected, the turnover rotary table (54) is arranged on the turnover shaft (55) and movably connected with the turnover shaft, two turnover columns are arranged on the turnover rotary table (54), and the matching frame (56) is arranged on one of the two assembly line bodies (21).

9. The device for cross-linking an inner tube and an inflating valve as claimed in claim 8, wherein the suction disc (57) is movably connected to the turning shaft (55).

10. A process for cross-linking an inner tube with a valve according to claims 1 to 9, characterized by comprising the following steps:

s1, the inner tire is sleeved on the production line body (21) manually.

And S2, driving the inner tube sleeved on the assembly line body (21) to rotate through the operation of the assembly line device (2).

S3, when the inner tube rotates to the position right below the gluing device, the initial state of the gluing brush (381) is located in the gluing box (384), the gluing rod (33) on the main shaft of the gluing motor (31) is driven to rotate through the operation of the gluing motor (31), the gluing rod (33) drives the gluing shaft (34) to rotate, the gluing shaft (34) drives the gluing swing rod (35) to rotate, the gluing swing rod (35) drives the movable rod (36) to swing, and the gluing brush (381) is driven to swing through the swing of the movable rod (36) so that the gluing brush (381) can perform automatic gluing operation on the inner tube sleeved on the assembly line body (21) after the gluing brush (381) is stained with glue in the gluing box (384).

And S4, after the glue is coated, manually placing the inflating valve on an adsorption disc (57), and adsorbing the inflating valve by the adsorption disc.

S5, the inner tube runs right below the adsorption disc (57) through the production line body (21), the turning rod (53) on the main shaft of the turning motor (51) is driven to rotate by the running of the turning motor (51), the turning rod (53) drives the turning turntable (54) to rotate, and the turning turntable (54) drives the turning shaft (55) to rotate.

S6, simultaneously, the attaching shaft (42) on the main shaft of the attaching motor (41) is driven to rotate by the operation of the attaching motor (41), the attaching shaft (42) rotates to drive the attaching rod (44) to rotate, the attaching rod (44) rotates to drive the attaching rotating rod (45) to rotate, the attaching rotating rod (45) rotates to drive the jacking warped plate (461) to move up and down on the jacking column (463), and the attaching rotating rod (45) rotates to drive the jacking column (464) on the jacking warped plate (461) to jack up the inside of the production line body 21.

S7; thereby the inner tube sleeved on the production line body (21) is jacked up and just attached to the inflating valve.

S8; and finally, stopping the operation of all the devices and taking out the inner tube.

Technical Field

The invention relates to the technical field of crosslinking, in particular to a device and a process for crosslinking an inner tube and an inflating valve.

Background

The inner tube is commonly called the lining tube. The annular elastic tube is used for keeping the internal pressure of the tire and is provided with a tire valve. The function of the valve is to inflate and deflate the tire as a small part and to maintain the seal after the tire is inflated. The common air valve is composed of three main parts, namely an air valve body, an air valve core and an air valve cap, and is used for inflating and keeping air at a certain pressure in an inner tire. The inner tube should have good air tightness, heat resistance, elasticity, aging resistance and small permanent deformation. Generally, the rubber tube is made of butyl rubber, and the linear or branched polymer chains are connected into a net-shaped or body-shaped polymer through covalent bonds.

Disclosure of Invention

The embodiment of the invention provides a device and a process for crosslinking an inner tube and an inflating valve, and aims to solve the technical problems that automatic gluing cannot be performed, the accuracy is lacked and the efficiency is low when a branch inner tube and the inflating valve are crosslinked.

The embodiment of the invention adopts the following technical scheme: including strutting arrangement, assembly line device, rubber coating device, laminating device and turning device, strutting arrangement is the level setting, the assembly line device sets up the top at strutting arrangement, the rubber coating device sets up the top at strutting arrangement, the laminating device sets up the top at strutting arrangement and is located the rubber coating device side, turning device sets up the side that just is located the laminating device in strutting arrangement's top.

Furthermore, the supporting device comprises four supporting rods, supporting plates, supporting seats and supporting frames, the supporting frames are horizontally arranged, the number of the supporting rods is two, the number of the supporting plates is two, the two supporting plates are symmetrically arranged on one side of the four supporting rods, the supporting seats are arranged on the side end of one of the two supporting plates, the number of the supporting frames is two, the two supporting frames are symmetrically arranged on the two supporting plates, and the supporting block is arranged on the side end of one of the two supporting frames.

Further, the assembly line device comprises an assembly line body, an assembly line seat, a rotating motor, a first belt pulley, a second belt pulley, a rotating belt and an assembly line belt, two assembly line bodies are arranged, the two assembly line bodies are respectively and symmetrically arranged on the four supporting rods, the assembly line seat is arranged below one end of the assembly line body, the rotating motor is arranged on the assembly line seat, the first belt pulley is arranged on the main shaft of the rotating motor and is in a matched and rotating connection state, the second belt pulley is arranged at the side end of the first belt pulley, the rotating belt is sleeved on the first belt pulley and the second belt pulley and is in a matched and rotating connection state, two ends of the assembly line body are provided with matched rotating shafts, one of the matched rotating shafts is movably connected with the second belt pulley, the assembly line belt is sleeved on the matched rotating shafts at two ends of the assembly line body and is in a movable connection state.

Further, the gluing device comprises gluing motors, gluing frames, gluing rods, gluing shafts, swinging rods, movable rods, gluing pillars and brush assemblies, wherein the gluing motors are arranged at the supporting blocks of the two supporting frames, the gluing frames are arranged at the side ends of the two supporting frames and are positioned on the production line device, one ends of the gluing rods are arranged on a main shaft of the gluing motors and are in a matched rotating connection state, one ends of the gluing shafts are arranged at the other ends of the gluing rods and are in movable connection, one ends of the swinging rods are arranged at the other ends of the gluing shafts and are in movable connection, the two movable rods are symmetrically arranged at the other ends of the swinging rods and are in movable connection, the gluing pillars are arranged at the side ends of the two supporting frames and are in fixed connection, the brush assemblies are arranged at the side ends of the swinging rods and are positioned above the production line device, the other end of one of the two movable rods is connected to the gluing support column and movably connected with the gluing support column, and the other end of the other movable rod is connected to the brush component and movably connected with the brush component.

Further, the brush assembly comprises two gluing brushes, two gluing movable shafts, two gluing supports and two gluing boxes, the two gluing supports are symmetrically arranged on the two assembly line bodies respectively, two ends of each gluing movable shaft are arranged on the two gluing supports respectively and are movably connected, the gluing brushes are sleeved at the center of the gluing movable shafts and are movably connected, and the gluing boxes are arranged at the side ends of the gluing brushes and are located on the two gluing supports.

Further, the laminating device comprises two laminating motors, two laminating shafts, two laminating columns, two laminating rods, two laminating rotating rods and a jacking assembly, wherein the two laminating motors are symmetrically arranged below the two support frames respectively and are fixedly connected, the two laminating shafts are symmetrically arranged on a main shaft of the laminating motor respectively and are in a matched rotating connection state, the two laminating columns are symmetrically arranged on the inner sides of the two support frames respectively, the two laminating shafts penetrate through the two laminating columns and are movably connected, the two laminating rods are symmetrically arranged on the two laminating shafts respectively and are movably connected, the two laminating rotating rods are provided, one ends of the two laminating rotating rods are symmetrically arranged on the two laminating rods respectively and are movably connected, the jacking components are arranged in two, and the two jacking components are symmetrically arranged below the two laminating rotating rods respectively.

Further, the jacking assembly comprises two jacking wanes, a jacking block, a jacking column and a jacking strut, one end of each jacking wane is symmetrically arranged at the other end of the corresponding laminating rotating rod and movably connected with the corresponding jacking wane, two jacking springs are symmetrically arranged below the two jacking wanes respectively, four jacking blocks are arranged, two groups of the four jacking blocks are respectively and symmetrically arranged at two sides of the two jacking warping plates and are positioned on the supporting device, two jacking columns are arranged, two ends of the two jacking columns are respectively and symmetrically arranged on the four jacking blocks, jacking openings are arranged on the two jacking columns, the jacking pillar is arranged at two on the other end of the jacking wane, two the other end of the jacking wane runs through in two both ends that are located jacking pillar and jack-up mouth department on the jacking post are fixed connection.

Further, the turnover device comprises a turnover motor, two turnover frames, two turnover rods, two turnover turntables, two turnover shafts, a matching frame and an adsorption disc, wherein the turnover motor is arranged on the supporting seat, the two turnover frames are symmetrically arranged on the supporting seat and located at the side end of the turnover motor respectively, the turnover rods are arranged on a main shaft of the turnover motor and are in a matched rotating connection state, the turnover shafts are arranged on one of the two turnover frames and are in movable connection, the turnover rods penetrate through the other of the two turnover frames and are in movable connection, the turnover turntables are arranged on the turnover shafts and are in movable connection, two turnover columns are arranged on the turnover turntables, and the matching frame is arranged on one of the two assembly line bodies.

Further, the adsorption disc is arranged on the turnover shaft and movably connected with the turnover shaft.

A cross-linking process of an inner tube and an inflating valve comprises the following steps:

s1, the inner tube is sleeved on the production line body manually.

And S2, driving the inner tube sleeved on the assembly line body to rotate through the operation of the assembly line device.

S3, when the inner tube rotates under the gluing device, the initial state of the gluing brush is located in a gluing box, a gluing rod on a spindle of the gluing motor is driven to rotate by the operation of the gluing motor, a gluing shaft is driven to rotate by the rotation of the gluing rod, a gluing swing rod is driven to rotate by the rotation of the gluing shaft, the gluing swing rod drives a movable rod to swing, and the gluing brush is driven to swing by the swing of the movable rod, so that the automatic gluing operation of the inner tube sleeved on the assembly line body can be realized by the swing operation of the gluing brush after the gluing brush is adhered with glue in the gluing box.

And S4, after the glue is coated, manually placing the inflating valve on an adsorption disc, and adsorbing the inflating valve by the adsorption disc.

S5, the inner tube runs under the adsorption disc through the production line body, the turning rod on the main shaft of the turning motor is driven to rotate through the running of the turning motor, the turning rod drives the turning turntable to rotate, and the turning turntable drives the turning shaft to rotate.

And S6, simultaneously, driving a joint shaft on a joint motor main shaft to rotate through the operation of a joint motor, driving a joint rod to rotate through the rotation of the joint shaft, driving a joint rotating rod to rotate through the rotation of the joint rotating rod, driving a jacking wane to move up and down on the jacking column through the rotation of the joint rotating rod, and driving a jacking pillar on the jacking wane to jack up the inside of the production line body through the rotation of the joint rotating rod.

S7; thereby the inner tube sleeved on the assembly line body is jacked up and just attached to the inflating valve.

S8; and finally, stopping the operation of all the devices and taking out the inner tube.

The embodiment of the invention adopts at least one technical scheme which can achieve the following beneficial effects:

firstly, when glue needs to be coated in the embodiment of the invention, the initial state of the gluing brush is located in the gluing box, the operation of the gluing motor drives the rotation of the gluing rod on the spindle of the gluing motor, the rotation of the gluing rod drives the rotation of the gluing shaft, the rotation of the gluing shaft drives the rotation of the gluing oscillating rod, the rotation of the gluing oscillating rod drives the oscillation of the movable rod, and the oscillation of the movable rod drives the oscillation of the gluing brush, so that the gluing brush can perform oscillation operation on the inner tube sleeved on the production line after the gluing brush is stained with glue in the gluing box, and the oscillation operation of the gluing brush can.

Secondly, when the inner tube and the inflating valve need to be attached, the attaching shaft on the main shaft of the attaching motor is driven to rotate through the operation of the attaching motor, the attaching shaft rotates to drive the attaching rod to rotate, the attaching rod rotates to drive the attaching rotating rod to rotate, the jacking wane is driven to move up and down on the jacking column through the rotation of the attaching rotating rod, the jacking column on the jacking wane is driven to jack up the inside of the assembly line body through the rotation of the attaching rotating rod, and therefore the inner tube sleeved on the assembly line body is jacked up and is just attached to the inflating valve.

Thirdly, through the arranged turnover device, the turnover motor runs to drive the turnover rod on the main shaft of the turnover motor to rotate, the turnover rod rotates to drive the turnover turntable to rotate, the turnover turntable is arranged to drive the turnover shaft to rotate, and the arranged adsorption disc can automatically adsorb and repel the inflating valve.

Drawings

The accompanying drawings, which 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 is a schematic view of a first angular perspective structure of the present invention;

FIG. 2 is a schematic perspective view of a second angle according to the present invention;

FIG. 3 is a schematic diagram of the structure of the pipeline apparatus according to the present invention;

FIG. 4 is a schematic structural view of a first angle glue spreader of the present invention;

FIG. 5 is a schematic structural view of a second angle glue-applying device according to the present invention;

FIG. 6 is a schematic structural view of a first angle laminating apparatus according to the present invention;

FIG. 7 is a schematic structural view of a second angle-applying apparatus according to the present invention;

fig. 8 is a schematic structural view of the turning device of the present invention.

Reference numerals

A supporting device 1, a supporting rod 11, a supporting plate 12, a supporting seat 13, a supporting frame 14, an assembly line device 2, an assembly line body 21, an assembly line seat 22, a rotating motor 23, a first belt pulley 24, a second belt pulley 25, a rotating belt 26, an assembly line belt 27, a gluing device 3, a gluing motor 31, a gluing frame 32, a gluing rod 33, a gluing shaft 34, a swinging rod 35, a movable rod 36, a gluing support 37, a brush component 38 and a gluing brush 381, gluing movable shaft 382, gluing support 383, gluing box 384, attaching device 4, attaching motor 41, attaching shaft 42, attaching column 43, attaching rod 44, attaching rotating rod 45, jacking assembly 46, jacking warped plate 461, jacking block 462, jacking column 463, jacking strut 464, overturning device 5, overturning motor 51, overturning frame 52, overturning rod 53, overturning turntable 54, overturning shaft 55, matching frame 56 and adsorption disc 57.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

According to the drawings of fig. 1 to 8, a device for cross-linking an inner tube and an inflating valve comprises a supporting device 1, a flow line device 2, a gluing device 3, a laminating device 4 and a turnover device 5, wherein the supporting device 1 is horizontally arranged, the flow line device 2 is arranged above the supporting device 1, the gluing device 3 is arranged above the supporting device 1, the laminating device 4 is arranged above the supporting device 1 and is positioned at the side end of the gluing device 3, the turnover device 5 is arranged above the supporting device and is positioned at the side end of the laminating device 4, after the inflating valve is manually placed on an adsorption disc 57, the inner tube sleeved on a flow line body 21 is driven to rotate by the operation of the flow line device 1, the inner tube on the flow line is automatically positioned and glued by the operation of the gluing device 3, after the gluing is finished, when the inner tube runs to the position under the adsorption disc 57 through the flow line device 1, the operation of the turnover device 5 drives the adsorption disc 57 to turn over, and meanwhile, the operation of the laminating device 4 enables the inner tube sleeved on the assembly line body 21 to be laminated with the inflating valve, so that automatic operation is realized.

Preferably, the supporting device 1 includes a supporting frame 14, two supporting plates 12, four supporting seats 13 and four supporting frames 14, the four supporting rods 11 are respectively horizontally disposed, the two supporting plates 12 are symmetrically disposed on one side of the four supporting rods 11, the two supporting seats 13 are disposed on the side end of one of the two supporting plates 12, the two supporting frames 14 are symmetrically disposed on the two supporting plates 12, the supporting block is disposed on the side end of one of the two supporting frames 14, and the supporting device 1 can support equipment.

Preferably, the assembly line device 2 includes an assembly line body 21, an assembly line base 22, two rotating motors 23, two assembly line bodies 21 symmetrically disposed on the four support rods 11, two assembly line bases 22 disposed below one end of the assembly line body 21, the rotating motors 23 disposed on the assembly line base 22, the first belt pulley 24 disposed on a main shaft of the rotating motors 23 and in a matching rotating connection state, the second belt pulley 25 disposed at a side end of the first belt pulley 24, the rotating belts 26 sleeved on the first belt pulley 24 and the second belt pulley 25 and in a matching rotating connection state, two ends of the assembly line body 21 being provided with matching rotating shafts, one of the matching rotating shafts being in a movable connection state with the second belt pulley 25, the assembly line belt 27 is sleeved on a matching rotating shaft at two ends of the assembly line body 21 and is in a movable connection state, the rotating motor 23 rotates to drive the first belt pulley 24 on the main shaft of the rotating motor 23 to rotate, the first belt pulley 24 rotates to drive the second belt pulley 25 to rotate, the second belt pulley 25 rotates to drive the assembly line belt 27 to rotate on a rotating matching shaft, and the assembly line device 2 can drive an inner tube to move to realize automatic operation.

Preferably, the gluing device 3 includes a gluing motor 31, a gluing frame 32, two gluing rods 33, two gluing shafts 34, two oscillating rods 35, two movable rods 36, two gluing pillars 37 and a brush assembly 38, the gluing motor 31 is disposed at two support blocks on the support frame 14, the gluing frame 32 is disposed at two side ends of the support frame 14 and is located on the assembly line device 2, one end of the gluing rod 33 is disposed on a main shaft of the gluing motor 31 and is in a matching and rotating connection state, one end of the gluing shaft 34 is disposed at the other end of the gluing rod 33 and is movably connected, one end of the oscillating rod 35 is disposed at the other end of the gluing shaft 34 and is movably connected, the two movable rods 36 are respectively symmetrically disposed at the other end of the oscillating rod 35 and is movably connected, the gluing pillars 37 are disposed at two side ends of the support frames 14 and are fixedly connected, brush subassembly 38 sets up the side at swinging arms 35 and is located assembly line device 2's top, two on the other end of one of them movable rod 36 is connected to rubber coating pillar 37 and is swing joint, two on another movable rod 36's the other end is connected to brush subassembly 38 and is swing joint, and it rotates to drive the epaxial rubber coating pole 33 of rubber coating motor 31 main through the operation of rubber coating motor 31, and rubber coating pole 33 rotates and drives rubber coating axle 34 and rotate, and rubber coating axle 34 rotates and drives rubber coating swinging arms 35 and rotate, and rubber coating swinging arms 35 rotates and drives the swing of movable rod 36.

Preferably, the brush assembly 38 includes two gluing brushes 381, two gluing movable shafts 382, two gluing supports 383 and two gluing boxes 384, the two gluing supports 383 are symmetrically arranged on the two assembly line bodies 21, two ends of the gluing movable shaft 382 are arranged on the two gluing supports 383 and movably connected, the gluing brushes 381 are sleeved on the center of the gluing movable shafts 382 and movably connected, when the gluing brushes 381 operate, the swing track is arc-shaped, the gluing boxes 384 are arranged at the side ends of the gluing brushes 381 and located on the two gluing supports 383, when gluing is needed, the initial state of the gluing brushes 381 is located in the gluing boxes 384, the gluing rods 33 on the main shaft of the gluing motor 31 are driven to rotate by the operation of the gluing motor 31, and the gluing rods 33 drive the gluing shaft 34 to rotate, the gluing shaft 34 rotates to drive the gluing swing rod 35 to rotate, the gluing swing rod 35 rotates to drive the movable rod 36 to swing, and the movable rod 36 swings to drive the gluing brush 381 to swing, so that after the gluing brush 381 is stained with glue in the gluing box 384, the gluing brush 381 swings to conduct automatic gluing operation on the inner tube sleeved on the assembly line body 21.

Preferably, the attaching device 4 includes two attaching motors 41, two attaching shafts 42, two attaching columns 43, two attaching rods 44, two attaching rotating rods 45 and a jacking assembly 46, the attaching device 4 is provided, the two attaching motors 41 are symmetrically disposed below the two support frames 14 and fixedly connected to each other, the two attaching shafts 42 are symmetrically disposed on the main shaft of the attaching motor 41 and are in a matching rotating connection state, the two attaching columns 43 are symmetrically disposed on the inner sides of the two support frames 14, the two attaching shafts 42 penetrate the two attaching columns 43 and are movably connected to each other, the two attaching rods 44 are provided with two attaching rods 44, the two attaching rods 44 are symmetrically disposed on the two attaching shafts 42 and are movably connected to each other, laminating bull stick 45 is equipped with two, two laminating bull stick 45 one end is the symmetry respectively and sets up two on laminating pole 44 and be swing joint, jack-up subassembly 46 is equipped with two, two jack-up subassembly 46 is the symmetry respectively and sets up two laminating bull stick 45's below drives laminating motor 41 main epaxial laminating axle 42 through laminating motor 41 operation and rotates, and laminating axle 42 rotates and drives laminating pole 44 and rotate, and laminating pole 44 rotates and drives laminating bull stick 45 and rotate.

Preferably, the jacking assembly 46 includes two jacking-up plates 461, two jacking blocks 462, two jacking pillars 463 and two jacking pillars 464, where two jacking-up plates 461 are provided, one end of each of the two jacking-up plates 461 is symmetrically disposed on the other end of the fitting rotating rod 45 and movably connected, two jacking springs are symmetrically disposed below the two jacking-up plates 461, four jacking blocks 462 are provided, two sets of four jacking blocks 462 are symmetrically disposed on two sides of the two jacking-up plates 461 and located on the supporting device 1, two jacking pillars 463 are provided, two ends of each of the two jacking pillars 463 are symmetrically disposed on the four jacking-up blocks 462, two jacking ports are provided on the two jacking pillars 463, the jacking pillars 464 are provided on the other ends of the two jacking-up plates 461, the other ends of the two jacking-up plates 461 penetrate through the jacking-up ports on the two jacking-up pillars 463 and the two ends of the jacking pillars 464 are fixedly connected, rotate through laminating bull stick 45 and drive jack-up seesaw 461 and carry out the up-and-down motion on jack-up post 463, laminating bull stick 45 rotates and drives jack-up pillar 464 on the jack-up seesaw 461 with the inside jack-up of assembly line body 21, through the resilience of the jack-up spring that sets up, can provide the effect to the jack-up seesaw to the inner tube jack-up that the assembly line body 21 was established just in time with the valve cock laminating is established in the realization cover.

Preferably, the turnover device 5 includes a turnover motor 51, two turnover frames 52, two turnover rods 53, two turnover turntables 54, two turnover shafts 55, a matching frame 56 and an adsorption disc 57, the turnover motor 51 is disposed on the support base 13, the two turnover frames 52 are symmetrically disposed on the support base 13 and located at the side end of the turnover motor 51, the turnover rods 53 are disposed on the main shaft of the turnover motor 51 and are in a matching rotation connection state, the turnover shaft 55 is disposed on one of the two turnover frames 52 and is movably connected thereto, the turnover rod 53 penetrates through the other of the two turnover frames 52 and is movably connected thereto, the turnover turntables 54 are disposed on the turnover shafts 55 and are movably connected thereto, the turnover turntables 54 are provided with two turnover columns, the matching frame 56 is disposed on one of the two production line bodies 21, the turnover motor 51 runs to drive the turnover rod 53 on the main shaft of the turnover motor 51 to rotate, the turnover rod 53 rotates to drive the turnover turntable 54 to rotate, the turnover turntable 54 is provided with a drive turnover shaft 55 to rotate, and the turnover device 5 can intermittently drive the adsorption disc 57 to rotate.

Preferably, the adsorption disc 57 is movably connected to the turning shaft 55, and the valve can be automatically adsorbed and repelled through the adsorption disc 57.

When the invention is used: when the automatic gluing device is used, the rotating motor 23 rotates to drive the first belt pulley 24 on the main shaft of the rotating motor 23 to rotate, the first belt pulley 24 rotates to drive the second belt pulley 25 to rotate, the second belt pulley 25 rotates to drive the assembly line belt 27 to rotate on the rotating matching shaft, the arranged assembly line device 2 can drive the inner tube to move, when gluing is needed, the initial state of the gluing brush 381 is positioned in the gluing box 384, the gluing rod 33 on the main shaft of the gluing motor 31 is driven to rotate by the operation of the gluing motor 31, the gluing rod 33 rotates to drive the gluing shaft 34 to rotate, the gluing shaft 34 rotates to drive the gluing swinging rod 35 to rotate, the gluing swinging rod 35 rotates to drive the movable rod 36 to swing, the gluing brush 381 swings through the movable rod 36, and the automatic gluing operation of the inner tube sleeved on the assembly line body 21 can be realized after the gluing brush 381 is adhered with glue in the gluing box 384, when the inner tube is required to be attached to the valve, the operation of the attaching motor 41 drives the attaching shaft 42 on the main shaft of the attaching motor 41 to rotate, the rotation of the attaching shaft 42 drives the attaching rod 44 to rotate, the rotation of the attaching rod 44 drives the attaching rotating rod 45 to rotate, the rotation of the attaching rotating rod 45 drives the lifting plate 461 to move up and down on the lifting column 463, the rotation of the attaching rotating rod 45 drives the lifting column 464 on the lifting plate 461 to lift up the inside of the assembly line body 21, the operation of the overturning motor 51 drives the overturning rod 53 on the main shaft of the overturning motor 51 to rotate, the overturning rod 53 rotates to drive the overturning turntable 54 to rotate, the overturning turntable 54 is provided with the driving overturning shaft 55 to rotate, the arranged adsorption disc 57 can automatically adsorb and repel the valve, so that the inner tube sleeved on the assembly line body 21 is lifted up and just attached to the valve, and the valve is manually placed on the adsorption disc 57, the inner tube sleeved on the assembly line body 21 is driven to rotate by the operation of the assembly line device 2, the inner tube sleeved on the assembly line body 21 is automatically positioned and glued by the operation of the gluing device 3, after the gluing is completed, when the inner tube runs to the position under the adsorption disc 57 through the assembly line body 21, the adsorption disc 57 is driven to overturn by the operation of the overturning device 5, and meanwhile, the inner tube sleeved on the assembly line body 21 is attached to the inflating valve by the operation of the attaching device 4, so that the automatic operation is realized.

A cross-linking process of an inner tube and an inflating valve comprises the following steps:

s1, the inner tire is sleeved on the production line body 21 manually.

And S2, driving the inner tube sleeved on the assembly line body 21 to rotate by the operation of the assembly line device 2.

S3, when the inner tube rotates under the gluing device, the initial state of the gluing brush 381 is located in the gluing box 384, the gluing rod 33 on the main shaft of the gluing motor 31 is driven to rotate by the operation of the gluing motor 31, the gluing shaft 34 is driven to rotate by the rotation of the gluing rod 33, the gluing shaft 34 drives the gluing swing rod 35 to rotate, the gluing swing rod 35 drives the movable rod 36 to swing, and the gluing brush 381 is driven to swing by the swing rod 36 to operate, so that the automatic gluing operation of the inner tube sleeved on the assembly line 21 can be realized by the swinging operation of the gluing brush 381 after the gluing brush 381 is adhered with glue in the gluing box 384.

And S4, after the glue is coated, manually placing the inflating valve on the adsorption disc 57, and adsorbing the inflating valve by the adsorption disc.

S5, the inner tube runs under the adsorption disc 57 through the production line body 21, the turning rod 53 on the main shaft of the turning motor 51 is driven to rotate by the running of the turning motor 51, the turning rod 53 rotates to drive the turning turntable 54 to rotate, and the turning turntable 54 drives the turning shaft 55 to rotate.

S6, simultaneously, the operation of the attaching motor 41 drives the attaching shaft 42 on the main shaft of the attaching motor 41 to rotate, the rotation of the attaching shaft 42 drives the attaching rod 44 to rotate, the rotation of the attaching rod 44 drives the attaching rotating rod 45 to rotate, the rotation of the attaching rotating rod 45 drives the jacking warped plate 461 to move up and down on the jacking column 463, and the rotation of the attaching rotating rod 45 drives the jacking strut 464 on the jacking warped plate 461 to jack up the inside of the production line body 21.

S7; thereby the inner tube sleeved on the assembly line body 21 is jacked up and just attached to the inflating valve.

S8; and finally, stopping the operation of all the devices and taking out the inner tube.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.