CN111673989A

CN111673989A - Processing equipment of rubber tyer

Info

Publication number: CN111673989A
Application number: CN202010665718.8A
Authority: CN
Inventors: 李金山
Original assignee: Guangzhou Jinfeng Machinery Technology Co ltd
Current assignee: Guangzhou Jinfeng Machinery Technology Co ltd
Priority date: 2020-07-11
Filing date: 2020-07-11
Publication date: 2020-09-18

Abstract

The invention discloses a processing device of a rubber wheel, which comprises an in-out furnace conveying device, a die opening and demolding device and a die closing device, wherein the in-out furnace conveying device is arranged behind the die closing device and the die opening and demolding device, the die opening and demolding device is arranged on one side of the die closing device, the die comprises a pressing block, an upper die, a lower die and a knockout shaft, the upper die is arranged below the die opening and demolding device for transferring, the material receiving device is arranged in front of the die opening and demolding device, the lower die transferring device is arranged below the upper die transferring device, a wheel core placing device is arranged in front of the die closing device, a die frame and the die are conveyed to the lower part of the lower die transferring device by the in-out furnace conveying device, the die opening and demolding are carried out, a wheel core is pushed by a wheel core pushing mechanism to be placed in the lower die, and the die opening and, The composition of the lower die, the die assembly, and the in-and-out furnace conveying device convey, heat and solidify the die and the die carrier.

Description

Processing equipment of rubber tyer

Technical Field

The invention relates to the technical field of rubber wheel machining and forming, in particular to rubber wheel machining equipment

Background

In the prior art, the production process of processing a wheel core into a rubber wheel is as follows: firstly, manually placing a rubber wheel core in a lower die; secondly, screwing and fixing the upper die and the lower die by bolts; thirdly, manually placing the whole mould into a baking furnace, and preheating the mould for a certain time; then, injecting glue into the mold from the gap of the upper mold towards the mouth after the mouth is preheated by manual glue injection; finally, after the mould after glue injection is placed for a period of time, the mould is placed in a baking oven, heated, cured and molded to form a rubber wheel, the connecting bolt of the mould is manually disassembled, the mould is opened, and the rubber wheel is taken out; in the whole processing process, the placement of the rubber core of the rubber wheel, the clamping and locking of the die, the heating, curing and the dismounting of the finished product are all completed manually, a large amount of manual labor is used, the processing efficiency is very low, and the mechanization degree is very low.

It follows that the prior art is deficient.

Disclosure of Invention

To prior art about in the wheel core machine-shaping processing: the invention aims to solve the technical problems that the mold core in the mold can be automatically heated and solidified into the rubber wheel, the mold is conveyed and demoulded, the rubber wheel core is automatically placed in the mold and automatically closed, manual operation is not needed, labor input is saved, and the rubber wheel machining efficiency is improved.

In order to solve the technical problem, the invention provides a rubber wheel processing device which comprises a mold and a workbench, wherein the workbench is arranged below the mold and used for producing a rubber wheel through the mold and a mold frame;

the mould comprises a pressing block, an upper mould, a lower mould and a knockout shaft, wherein the upper mould is arranged between the pressing block and the knockout shaft, the pressing block is connected with the upper part of the upper mould, the upper mould is arranged above the lower mould, the knockout shaft sequentially penetrates through the pressing block, the upper mould and the lower mould to be connected, and one end of the knockout shaft is provided with a bulge inserted into a mould frame.

An upper die which supports an upper die after the die is demolded and transfers the upper die to the left and the right under the die closing device and the die opening and demolding device is arranged below the die opening and demolding device;

the front of the die opening and demolding device is provided with a material receiving device for receiving a rubber wheel formed after demolding a die, the material receiving device comprises a material receiving mechanism and a material pushing mechanism for pushing the material receiving mechanism to move to the lower part of the die opening and demolding device to receive the material, the material pushing mechanism is positioned at one side of the material receiving mechanism and is connected with the material receiving mechanism, and the material pushing mechanism pushes the material receiving mechanism to the lower part of the die demolding device to receive the rubber wheel produced by demolding of the die demolding device;

a lower die transfer device for carrying out left and right conveying on the lower die is arranged below the upper die transfer device;

the front of the mould closing device is provided with a wheel core placing device, the wheel core placing device comprises a wheel core pushing mechanism and a placing mechanism which can be inserted into a central hole of a wheel core of a rubber wheel and place the wheel core in a lower mould, and the placing mechanism is positioned below the wheel core pushing mechanism and is connected with the wheel core pushing mechanism;

the driving lever mechanism is arranged between the die assembly device and the upper die transfer device and used for driving the die to the uniform direction for glue injection and comprises a magnetic coupling rodless cylinder, a driving lever assembly and a driving lever slide rail, the magnetic coupling rodless cylinder is arranged on one side of the driving lever slide rail, the driving lever mechanism is connected to the lower portions of the magnetic coupling rodless cylinder and the movable slide rail, and the magnetic coupling rodless cylinder drives the driving lever mechanism to move left and right along the movable slide rail and is used for driving a pressing block on the die to be stirred by the driving lever mechanism to inject glue.

The in-out furnace conveying device conveys the die carrier and the die to the lower part of the lower die transferring device, the die opening demoulding device lifts the die upwards to open the die so that the upper die is separated from the rubber wheel adhered on the upper die and the lower die, then the die demoulding device presses down the upper die and the material beating shaft penetrating through the upper die so that the upper die is separated from the rubber wheel adhered on the upper die, meanwhile, the lower die transferring device moves the lower die and the die carrier to the lower part of the die closing device, the wheel core pushing mechanism pushes the placing mechanism to place the wheel core in the lower die, the upper die transferring device supports the upper die and the material beating shaft from the lower part of the lower die transferring device and conveys the upper die and the material beating shaft to the lower part of the die opening demoulding device, the die opening device presses down the upper die and the material beating shaft to complete die closing of the die, the deflector rod mechanism stirs the press block to enable the upper die to be stirred to the, the heating and curing of the mold, the conveying and demolding of the mold which is heated and cured into the rubber wheel, the automatic placement of the rubber wheel core in the mold and the automatic mold closing are realized, manual operation is not needed, the labor investment is saved, and the processing efficiency of the rubber wheel is improved.

Further, business turn over stove conveyor is including carrying out the heating solidification to the wheel core of injecting glue in the mould and forming the oven of rubber tyer, die carrier transport module, sensing die carrier and mould and carrying the inductive pick-up that promotes to die carrier transport module on and drive die carrier transport module carries the mould on the die carrier, die carrier transport module installs in the rear of oven, inductive pick-up installs in the below of die carrier transport module, install in the oven and promote die carrier transport module to die carrier and mould whole.

Further, die carrier clamping device is installed to die sinking shedder below both sides, and this die carrier clamping device includes the commentaries on classics board, drives the commentaries on classics board and carries out the pivoted pivot, drive actuating cylinder, the pivot is located the commentaries on classics board and drives between the actuating cylinder, the one end of pivot is installed in the top that drives actuating cylinder, the one end of pivot is installed on the commentaries on classics board, the die carrier die clamping cylinder that can press from both sides tight die carrier is installed to the commentaries on classics board, it drives the die carrier die.

Furthermore, the workbench comprises a shaping device, the shaping device comprises a shaping cylinder and an installation plate, the shaping cylinder is installed on two sides in front of the furnace inlet and outlet conveying device through the installation plate, and the shaping cylinder is ejected out to position the die carrier conveyed out by the furnace inlet and outlet conveying device and the die above the die carrier in order to facilitate die opening and demolding of the die.

Further, the die sinking shedder is including holding down plate, lift cylinder, elevator motor, the lift cylinder is located between holding down plate and the elevator motor, the one end and the holding down plate of lift cylinder are connected, and its other end and elevator motor are connected, splint are installed to preceding, the back both sides of holding down plate below, install clamping piece and die clamping cylinder on the splint, die clamping cylinder is located the top of clamping piece and is connected rather than, die clamping cylinder drive clamping piece rotates thereby drive splint and fold and press from both sides tight last mould be convenient for the holding down plate to push down or mention last mould and knockout shaft and carry out the die sinking and drawing of patterns.

Further, receiving mechanism goes on receiving the material panel that breaks away from and catches the hopper that connects of the rubber tyer that breaks away from the mould including being convenient for mould behind the die sinking, it is located the below that connects the hopper and is connected rather than to connect the material panel, promote receiving mechanism including the gliding guide rail, with gliding guide rail mutually support the top slide, be located the promotion cylinder of gliding guide rail one side, the top slide is located the both sides that connect the material panel and is located the top of gliding guide rail, the top slide is connected with the material panel and is formed the slip track, promotion cylinder and receiving mechanism connect the material panel to be connected, thereby it slides along the slip track through the slip track to promote the material panel and realize receiving the material panel to move to last mould below to promote the cylinder.

Further, the placing mechanism comprises a wheel core lane-dividing conveying belt for dividing and conveying the wheel core, a discharging fixing plate and a lifting discharging cylinder for driving the discharging fixing plate to lift, the discharging fixing plate is positioned between the wheel core lane-dividing conveying belt and the lifting discharging cylinder, the discharging fixing plate is arranged above the wheel core lane-dividing conveying belt, a discharging shaft is arranged at the bottom end of the discharging fixing plate, the wheel core lane-dividing conveying belt conveys the wheel core to the position below the discharging shaft at the bottom end of the discharging fixing plate, the lifting discharging cylinder drives the discharging fixing plate to descend so as to insert the discharging shaft into a central hole of the wheel core, the wheel core pushing mechanism comprises a cantilever beam, a cylinder pushing seat, a pushing arm cylinder and a pushing arm lead screw, the pushing arm cylinder is arranged on one side of the pushing arm lead screw, one end of the pushing arm lead screw is connected with the pushing arm cylinder, and the cylinder pushing seat penetrates through the pushing arm and the position below the cantilever beam to, the lifting discharging cylinder drives the discharging shaft below the discharging fixing plate to descend so that the core of the discharging shaft is placed in the lower die.

Further, the upper die transfer device comprises a conveying slide rail, a sliding fixing plate and an upper die transfer slide block, wherein the conveying slide rail, the sliding fixing plate and the upper die transfer slide block are located below the upper die transfer device and below the die opening and demolding device and the die closing device, the upper die transfer slide block is located between the conveying slide rail and the sliding fixing plate, the bottom end of the upper die transfer slide block and the bottom end of the sliding fixing plate are connected, two ends of the sliding fixing plate are connected with supporting arms, supporting plates capable of supporting the material beating shafts are installed on the supporting arms, after demolding of the die, when the upper die and the material beating shafts penetrating through the upper die are transferred, the supporting arms rotate to drive the supporting plates to support the material beating shafts, and the sliding fixing plate performs left and right sliding on the conveying slide rail through the upper die transfer slide block, so that.

Furthermore, the lower die transfer device comprises a supporting frame for supporting the lower die and the die frame, the supporting frame is arranged below the die opening and demolding device and the die closing device, an electromagnetic push-pull plate, a supporting cylinder and a sliding block fixing plate are sequentially arranged in the supporting frame from top to bottom, the electromagnetic push-pull plate is arranged above the sliding block fixing plate, the air cylinder is connected with the lower part of the electromagnetic push-pull plate, the supporting cylinder is arranged between the electromagnetic push-pull plate and the sliding block fixing plate, the sliding block is connected below the sliding block fixing plate, a sliding rail matched with the sliding block is arranged below the sliding block, the supporting cylinder lifts the electromagnetic push-pull plate to enable the electromagnetic push-pull plate to support the lower die, the electromagnetic push-pull plate slides through a slide block connected to a slide block fixing plate at the lower part, so that the lower die supported by the electromagnetic push-pull plate slides along the lower parts of the die opening and demolding device and the die closing device.

Further, the mould closing device comprises a closing template, a lead screw and a power motor, the lead screw is arranged between the closing template and the power motor, one end of the lead screw is connected with the closing template, the other end of the lead screw is connected with the power motor, the power motor drives the lead screw to drive the closing template to move up and down, a clamping jaw clamping piece and a clamping jaw clamping cylinder are installed at the bottom end of the closing template, one end of the clamping jaw clamping piece is installed above the clamping jaw, one end of the clamping jaw clamping piece is installed below the clamping jaw clamping cylinder, and the clamping jaw clamping cylinder drives the clamping jaw clamping piece to rotate to drive the clamping jaw to fold or open the clamping jaw so as to realize closing of.

Compared with the prior art, the scheme of the invention at least comprises the following beneficial effects:

the invention relates to a processing device of rubber wheels, which is provided with an in-out furnace conveying device, a die opening and demolding device and a die closing device, wherein the in-out furnace conveying device is arranged behind the die closing device and the die opening and demolding device, the die opening and demolding device is arranged on one side of the die closing device, the die comprises a pressing block, an upper die, a lower die and a knockout shaft, the knockout shaft sequentially penetrates through the pressing block, the upper die and the lower die to be connected, an upper die transfer is arranged below the die opening and demolding device, a material receiving device is arranged in front of the die opening and demolding device, a lower die transfer device is arranged below the upper die transfer device, a wheel core placing device is arranged in front of the die closing device, a die frame and the die are conveyed to the lower side of the lower die transfer device by the in-out furnace conveying device, the die opening and demolding device lifts the die upwards to open the, meanwhile, the lower die and the die carrier are moved to the position below the die closing device by the lower die transfer device, the wheel core pushing mechanism pushes the placing mechanism to place the wheel core in the lower die, the upper die transfer device supports the upper die and the material beating shaft from the position below the lower die transfer device and transports the upper die and the material beating shaft to the position below the die opening and demolding device, the die opening and demolding device presses the upper die and the material beating shaft to complete die closing of the die on the lower die, the pressing block is stirred by the stirring rod mechanism to enable the upper die to be stirred to a uniform direction so as to glue injection, the die and the die carrier are conveyed and heated and cured by the furnace feeding and discharging conveying device, and the heating and curing of the die, the die for heating and curing the rubber wheel is conveyed and demolded, the rubber wheel core is placed, automatically closed and automatically heated, manual operation is not needed, labor input is saved, the rubber wheel processing.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

FIG. 1 is a schematic structural view of a rubber wheel processing apparatus according to the present invention;

FIG. 2 is a schematic view of another angle configuration of a rubber wheel manufacturing apparatus of the present invention;

FIG. 3 is a sectional view of the mold and frame of a rubber tire according to the present invention;

FIG. 4 is a schematic structural view of the toggle mechanism of the present invention;

fig. 5 is a schematic structural view of a formwork delivery assembly of the present invention;

FIG. 6 is a schematic structural diagram of a mold-opening and demolding device of the invention;

fig. 7 is a schematic view showing the construction of the formwork clamping apparatus of the present invention;

fig. 8 is a schematic structural diagram of the receiving device of the invention;

FIG. 9 is a schematic structural view of the wheel core placement device of the present invention;

FIG. 10 is a schematic view of the upper mold transfer apparatus of the present invention;

FIG. 11 is a schematic view showing the construction of a lower mold transfer apparatus of the present invention;

FIG. 12 is a schematic view of the installation of the electromagnetic push-pull plate and the slider of the present invention;

fig. 13 is a schematic configuration diagram of the mold clamping apparatus of the present invention.

In the figure, an in-out furnace conveying device 1, an oven 11, a conveying chain 12, a die carrier conveying assembly 13, a pushing conveying plate 131, a pushing optical axis 132, an optical axis movable block 133, a conveying plate cylinder 134, a deflector rod mechanism 14, a magnetic coupling rodless cylinder 141, a deflector rod assembly 142, a deflector rod 1421, a deflector fixed plate 1422, a deflector rod 1423, a clamping block 1424, a deflector rod shaft sleeve 1425, a deflector rod slide rail 143, a die opening and demolding device 2, a lower pressing plate 21, a lifting cylinder 22, a lifting motor 23, a clamping plate 24, a clamping member 25, a clamping cylinder 26, a die clamping device 3, a die clamping plate 31, a screw rod 32, a power motor 33, a clamping jaw 34, a clamping jaw 35, a clamping jaw clamping cylinder 36, an upper die transferring device 4, a conveying slide rail 41, a slide fixed plate 42, an upper die transferring slide block 43, a supporting arm 44, a rotating shaft 441, a gear 442, a rack, the device comprises a supporting frame 51, an electromagnetic push-pull plate 52, a lifting cylinder 53, a slider fixing plate 54, a slider 55, a sliding rail 56, a receiving device 6, a receiving mechanism 61, a receiving panel 611, a receiving hopper 612, a pushing mechanism 62, a lower sliding guide 621, an upper sliding plate 622, a pushing cylinder 623, a wheel core placing device 7, a placing mechanism 71, a wheel core separating conveyor belt 711, a discharging fixing plate 712, a lifting discharging cylinder 713, a discharging shaft 714, a wheel core pushing mechanism 72, a cantilever 721, a cylinder pushing seat 722, a pushing arm cylinder 723, a pushing arm screw rod 724, a shaping device 8, a shaping cylinder 81, a mounting plate 82, a mold frame clamping device 9, a rotating plate 91, a rotating shaft 92, a driving cylinder 93, a mold frame clamping cylinder 94, a mold 10, an upper mold 101, a lower mold 102, a pressing block 103, a feeding shaft 104, a protrusion 105, a mold frame 106.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

As shown in fig. 1-2, the rubber tyer processing equipment according to the present invention includes a mold frame 106, a mold 10, and a table, wherein the table includes an in-out furnace conveying device 1, a mold opening and demolding device 2, and a mold clamping device 3, the in-out furnace conveying device 1 is installed behind the mold clamping device 3 and the mold opening and demolding device 2, the mold opening and demolding device 2 is installed on one side of the mold clamping device 3, the in-out furnace conveying device 1 conveys and heats and cures the whole of the mold 10 and the mold frame 106 into the rubber tyer, the mold opening and demolding device 2 can open and demold the mold 10, and the mold clamping device 3 can assemble and mold the upper mold 101 and the lower mold 102 demolded by the mold 10.

As shown in fig. 2 to 11, in the embodiment of the present invention, when the four molds 10 are installed on the mold frame 106, four wheels can be processed at the same time, and the production efficiency is high, the mold 10 includes a pressing block 103, an upper mold 101, a lower mold 102, and a material-striking shaft 104, the pressing block 103 is connected to the upper side of the upper mold 101, the upper mold 101 is installed above the lower mold 102, the material-striking shaft 104 sequentially penetrates through the pressing block 103, the upper mold 101, and the lower mold 102 to be connected, one end of the material-striking shaft 104 is provided with a protrusion 105 inserted into the mold frame 106, a slot-clamping plate 107 is installed inside the mold 10, and the protrusion 105 clamps the slot-clamping plate 107, thereby realizing the installation of the mold 10.

In the embodiment of the invention, the mold opening and demolding device 2 is symmetrically arranged on the right side of the mold closing device 3, the upper mold transfer device 4 is arranged below the mold opening and demolding device 2, so that the mold opening and demolding device 2 is positioned on the right side of the upper mold transfer device 4, the mold closing device 3 is positioned on the left side of the upper mold transfer device 4, the upper mold transfer device 4 is used for supporting the upper mold 101 and the knockout shaft 104 after demolding of the mold 10 and conveying the upper mold 101 and the knockout shaft 104 below the mold closing device 3 and the mold opening and demolding device 2 to the left and right, so that the upper mold 101 after demolding from the lower side of the mold opening and demolding device 2 and the knockout shaft 104 penetrating through the briquetting 103 of the upper mold 101 are conveyed below the mold closing device 3, and the mold 10 can conveniently carry out the next process.

A material receiving device 6 for receiving the rubber wheel formed after the demolding of the mold 10 is arranged in front of the mold opening and demolding device 2, the material receiving device 6 comprises a material receiving mechanism 61 and a material pushing mechanism 62, the material pushing mechanism 62 is positioned on one side of the material receiving mechanism 61 and is connected with the material receiving mechanism 61, and the material pushing mechanism 62 pushes the material receiving mechanism 61 to the position below the demolding device of the mold 10 to receive the rubber wheel generated by the demolding of the demolding device of the mold 10;

the lower mold transfer device 5 is installed below the upper mold transfer device 4, the lower mold transfer device 5 is also installed below the mold opening and demolding device 2, and the lower mold 102 and the mold frame 106 located below the lower mold 102 can be transported from the lower mold 102, which is demolded from below the mold opening and demolding device 2, to below the mold clamping device 3 by the lower mold transfer device 5, so that the next process can be conveniently performed on the mold 10.

A wheel core placing device 7 is arranged in front of the mold clamping device 3, the wheel core placing device 7 comprises a wheel core pushing mechanism 72 and a placing mechanism 71 which can be inserted into a center hole of a rubber wheel core and place the wheel core in a lower mold 102, and the placing mechanism 71 is positioned below the wheel core pushing mechanism 72 and connected with the wheel core pushing mechanism 72.

When the invention is specifically implemented, a shift lever mechanism 14 for shifting the mold 10 to a uniform direction for injecting glue is installed between the mold clamping device 3 and the upper mold transfer device 4, the shift lever mechanism 14 comprises a magnetic coupling rodless cylinder 141, a shift lever assembly 142 and a shift lever slide rail 143, the magnetic coupling rodless cylinder 141 is installed on one side of the shift lever slide rail 143, the shift lever mechanisms 14 are connected below the magnetic coupling rodless cylinder 141 and the shift lever slide rail 143, and the magnetic coupling rodless cylinder 141 drives the shift lever mechanism 14 to move left and right along the shift lever slide rail 143.

The shift lever mechanism 14 includes a shift lever shaft 1421, a shift lever fixing plate 1422, and a shift lever 1423, the shift lever shaft 1421 is disposed between the shift lever fixing plate 1422 and the shift lever 1423, wherein the upper end of the shift lever fixing plate 1422 is connected to a moving slider 55 that is engaged with the shift lever rail 143, so that the shift lever mechanism 14 is connected to the lower side of the shift lever rail 143, the lower end of the shift lever fixing plate 1422 is connected to the upper end of the shift lever shaft 1421, the lower end of the shift lever shaft 1421 is connected to a clamping block 1424 through a clamping block 1424, the clamping block 1424 is further connected to the shift lever 1423, so that the shift lever shaft 1421, the shift lever 1423 and the clamping block 1424 are connected to form a T-shape, the shift lever fixing plate 1422 is connected to the magnetically coupled rodless cylinder 141, a lever shaft sleeve 1425 is sleeved on one end of the shift lever, the magnetically coupled rodless cylinder 141 drives the shift lever fixing plate 1422 to drive the shift lever 142, The right movement drives the shifting rod shaft sleeve 1425 to shift, and the pressing block 103 above the upper die 101 is shifted to the uniform direction, so that the glue injection nozzle can conveniently inject glue to the rubber wheel core.

The mold frame 106 and the mold 10 are conveyed to the lower part of the lower mold transfer device 5 by the in-out furnace conveying device 1, the mold 10 is lifted upwards by the mold opening and demolding device 2 to open the mold, so that the upper mold 101 is separated from the rubber tyer adhered to the upper mold 101 and the lower mold 102, then the mold 10 demolding device presses the upper mold 101 and the material beating shaft 104 penetrating through the upper mold 101 to separate the upper mold 101 from the rubber tyer adhered to the upper mold 101, meanwhile, the lower mold transfer device 5 moves the lower mold 102 and the mold frame 106 to the lower part of the mold closing device 3, the wheel core pushing mechanism 72 pushes the placing mechanism 71 to place the wheel core in the lower mold 102, the upper mold transfer device 4 holds the upper mold 101 and the material beating shaft 104 from the lower part of the lower mold transfer device 5 and conveys the upper mold 101 and the material beating shaft 104 to the lower part of the mold opening and demolding device 2, the mold opening and demolding device 2 presses the upper mold 101 and the material beating shaft 104 on the lower mold 102 to complete, the heating and curing of the mold 10, the conveying and demolding of the mold 10 which is heated and cured into the rubber wheel, the placement of the rubber wheel core, the automatic mold closing and the automatic heating are realized, manual operation is not needed, the labor investment is saved, the rubber wheel machining efficiency is improved, and the production efficiency is improved.

Specifically, this business turn over stove conveyor 1 includes oven 11, die carrier 106 transport module 13, senses die carrier 106 and mould 10 and carries from oven 11 and promote to die carrier 106 transport module 13 on and drive die carrier 106 transport module 13 and carry out the inductive pick-up that carries to the mould 10 on the die carrier 106 and the last mould, die carrier 106 transport module 13 is installed in the rear of oven 11, inductive pick-up (not in the figure) is installed in the below of die carrier 106 transport module 13, install in the oven 11 and promote die carrier 106 transport module 13 to die carrier 106 and mould 10 are whole on, heat the solidification through oven 11 to the wheel core of injecting glue in the mould 10 and form the rubber tyer.

In the concrete implementation of the invention, a conveying chain 12 is installed in an oven 11, the mold frame 106 and the mold 10 in the oven 11 are conveyed by the conveying chain 12, the conveying assembly 13 of the mold frame 106 comprises a pushing conveying plate 131, a pushing optical axis 132, an optical axis movable block 133 and a conveying plate cylinder 134, the top end of the optical axis movable block 133 is connected with the bottom end of the pushing conveying plate 131 and sleeved on the pushing optical axis 132, the conveying plate cylinder 134 is symmetrically installed at the left end and the right end of the pushing conveying plate 131, the pushing optical axis 132 is installed at one side of the conveying plate cylinder 134, and the conveying plate cylinder 134 drives the sliding block 55 on the pushing conveying plate 131 to slide on a sliding rail, so that the mold 10 and the mold frame 106 are conveyed.

The die set clamping devices 9 are installed on two sides of the lower portion of the die opening and demolding device 2, each die set clamping device 9 comprises a rotating plate 91, a rotating shaft 92 and a driving cylinder 93, the rotating shaft 91 is driven to rotate, the rotating shaft 92 is arranged between the rotating plate 91 and the driving cylinder 93, one end of the rotating shaft 92 is installed above the driving cylinder 93, one end of the rotating shaft 92 is installed on the rotating plate 91, a die set clamping cylinder 94 capable of clamping a die set 106 is installed on the rotating plate 91, and the driving cylinder 93 drives the rotating shaft 92 to drive the die set clamping cylinder 94 on the rotating plate 91 to rotate so that the die set clamping cylinder 94 clamps the die set 106.

The workbench comprises a shaping device 8, wherein the shaping device 8 is provided with a shaping cylinder 81 and a mounting plate 82, the shaping cylinder 81 is mounted on two sides in front of the furnace inlet and outlet conveying device 1 through the mounting plate 82, and a mold base 106 conveyed out of the furnace inlet and outlet conveying device 1 and a mold 10 above the mold base 106 are positioned in order through ejection of the shaping cylinder 81, so that mold opening and demolding of the mold 10 are facilitated.

The mold opening and demolding device 2 comprises a lower pressing plate 21, a lifting cylinder 22 and a lifting motor 23, wherein the lifting cylinder 22 is arranged between the lower pressing plate 21 and the lifting motor 23, one end of the lifting cylinder 22 is connected with the lower pressing plate 21, the other end of the lifting cylinder 22 is connected with the lifting motor 23, clamping plates 24 are arranged on the front side and the rear side below the lower pressing plate 21, a clamping piece 25 and a clamping cylinder 26 are arranged on the clamping plate 24, the clamping cylinder 26 is positioned above the clamping piece 25 and is connected with the clamping piece 25, the clamping cylinder 26 drives the clamping piece 25 to rotate so as to drive the clamping plate 24 to fold so as to clamp an upper mold 101, when a conveying plate 131 is pushed to convey a mold base 106 and a mold 10 to the lower part of the lower pressing plate 21, the lifting cylinder 22 drives the lower pressing plate 21 to descend, the clamping cylinder 26 drives the clamping plate 24 to clamp the upper mold 101, the lower pressing shaft 104 is pressed by the lower pressing plate 21, the upper die 101 and the rubber wheel stuck on the upper die 101 are separated from the lower die 102; the clamping plate 24 loosens the upper die 101, the lower pressing plate 21 is lifted through the lifting cylinder 22, the material receiving mechanism 61 is pushed to the lower portion of the lower pressing plate 21 by the material pushing mechanism 62, the lower pressing plate 21 presses the upper die 101 downwards to the material receiving mechanism 61, the material beating shaft 104 is lifted upwards, the protrusion 105 of the material beating shaft 104 abuts against the upper die 101 to be separated, demolding of the die 10 is achieved, manual die opening and demolding are not needed, and die opening and demolding efficiency is improved.

The material receiving mechanism 61 comprises a material receiving panel 611 and a material receiving hopper 612 for receiving a rubber wheel separated from an upper die 101, four hollow holes are arranged on the material receiving panel 611, the upper die 101 after die opening and a material beating shaft 104 penetrating through the upper die 101 are clamped through the four hollow holes, so that the rubber wheel adhered on the upper die 101 can be conveniently separated from the upper die 101 after the die 10 is die opened, the material beating shaft 104 is pressed downwards through a lower pressing plate 21, a bulge 105 of the material beating shaft 104 is pressed against the upper die 101, the rubber wheel and the upper die 101 are separated, the material receiving panel 611 is positioned below and connected with the material receiving hopper 612, the rubber wheel after die opening is conveniently received, the convenience is improved, the material pushing mechanism 62 comprises a lower sliding guide 621, an upper sliding plate 622 mutually matched with the lower sliding guide 621, and a pushing cylinder 623 positioned on one side of the lower sliding guide 621, the upper sliding plates 622 are arranged on two sides of the material receiving panel 611 and positioned above the lower sliding guide 621, the upper sliding plate 622 is connected with the material receiving panel 611 to form a sliding rail, the pushing cylinder 623 is connected with the material receiving panel 611 of the material receiving mechanism 61, and the pushing cylinder 623 pushes the material receiving panel 611 to slide along the sliding rail through the sliding rail, so that the material receiving panel 611 moves to the lower side of the upper die 101.

The placing mechanism 71 comprises a wheel core separating conveyor belt 711 for separating and conveying wheel cores, a discharging fixing plate 712 and a lifting discharging cylinder 713 for driving the discharging fixing plate 712 to lift, the discharging fixing plate 712 is positioned between the wheel core separating conveyor belt 711 and the lifting discharging cylinder 713, the discharging fixing plate 712 is arranged above the wheel core separating conveyor belt 711, a discharging shaft 714 is arranged at the bottom end of the discharging fixing plate 712, the wheel core separating conveyor belt 711 conveys the wheel cores to the lower part of the discharging shaft 714 at the bottom end of the discharging fixing plate 712, the lifting discharging cylinder 713 drives the discharging fixing plate 712 to descend to insert the discharging shaft 714 into a central hole of the wheel core, the wheel core pushing mechanism 72 comprises a cantilever beam 721, an air cylinder push seat 722, a push arm air cylinder 723 and a push arm screw rod 724, the push arm air cylinder 723 is arranged on one side of the push arm screw rod 724, one end of the push arm screw rod 724 is connected with the push arm 723 air cylinder, the cylinder pushing seat 722 penetrates through the pushing arm screw rod 724 and is connected with the lower part of the cantilever beam 721, the pushing arm cylinder 723 drives the pushing arm screw rod 724 to push the cylinder 623 seat to push the cantilever beam 721 to move, the rubber wheel core inserted into the discharging shaft 714 moves to the upper part of the lower die 102 due to the movement of the cantilever beam 721, and the lifting discharging cylinder 713 drives the discharging shaft 714 below the discharging fixing plate 712 to descend so that the wheel core is placed on the discharging shaft 714 in the lower die 102.

The upper mold transfer device 4 comprises a conveying slide rail 41, a sliding fixing plate 42 and an upper mold transfer slide block 43 which are positioned below the upper mold transfer device 4 and below the mold opening and demolding device 2 and the mold closing device 3, the upper mold transfer sliding block 43 is positioned between the transportation sliding rail 41 and the sliding fixing plate 42, the upper mold transfer sliding block 43 is connected with the bottom end of the sliding fixing plate 42, the two ends of the sliding fixing plate 42 are connected with the supporting arms 44, the supporting plate 45 capable of supporting the material beating shaft 104 is arranged on the supporting arm 44, when the upper die 101 and the material beating shaft 104 penetrating through the upper die 101 are transferred after the die 10 is demoulded, the supporting arm 44 rotates to drive the supporting plate 45 to support the material-beating shaft 104, and the sliding fixing plate 42 slides left and right on the conveying slide rail 41 through the upper mold transfer slider 43, so that the upper mold 101 and the material-beating shaft 104 penetrating through the upper mold 101 are transferred from the mold-opening and demolding device 2 to the mold-closing device 3.

In the specific implementation of the present invention, two ends of the sliding fixing plate 42 are connected to the support arm 44 through two ends of the rotating shaft 441, the rotating shaft 441 is sleeved with a gear 442, a rack 443 meshed with the gear 442 is disposed above the gear 442, one end of the rack is connected to the telescopic cylinder 444, and the telescopic cylinder 444 pushes the rack 443 to drive the gear 442 to rotate, so as to drive the rotating shaft 441 to rotate, thereby rotating the support arm 44.

The lower mold transfer device 5 includes a support frame 51 for supporting the lower mold 102 and the mold frame 106, the support frame 51 is installed below the mold opening and releasing device 2 and the mold clamping device 3, an electromagnetic push-pull plate 52, a supporting cylinder 53 and a sliding block fixing plate 54 are sequentially arranged in the supporting frame 51 from top to bottom, the electromagnetic push-pull plate 52 is arranged above the slide block fixing plate 54, the air cylinder is connected with the lower part of the electromagnetic push-pull plate 52, the supporting cylinder 53 is arranged between the electromagnetic push-pull plate 52 and the sliding block fixing plate 54, the sliding block 55 is connected below the sliding block fixing plate 54, a slide rail 56 which is matched with the slide block 55 is arranged below the slide block 55, the supporting air cylinder 53 raises the electromagnetic push-pull plate 52 to enable the electromagnetic push-pull plate 52 to support the lower die 102, the electromagnetic push-pull plate 52 slides through the slide block 55 connected to the lower slide block fixing plate 54, so that the lower mold 102 held by the electromagnetic push-pull plate 52 slides along the lower side of the mold opening and demolding device 2 and the mold clamping device 3.

As shown in fig. 3, the mold clamping device 3 includes a mold clamping plate 31, a lead screw 32, and a power motor 33, the lead screw 32 is disposed between the mold clamping plate 31 and the power motor 33, one end of the lead screw 32 is connected to the mold clamping plate 31, the other end of the lead screw 32 is connected to the power motor 33, the power motor 33 drives the lead screw 32 to drive the mold clamping plate 31 to move up and down, a clamping jaw 34, a clamping jaw clamping member 35, and a clamping jaw clamping cylinder 36 are mounted at the bottom end of the mold clamping plate 31, one end of the clamping jaw clamping member 35 is mounted above the clamping jaw 34, one end of the clamping jaw clamping member 35 is mounted below the clamping jaw clamping cylinder 36, and the clamping jaw clamping cylinder 36 drives the clamping jaw 35 to rotate to drive the clamping jaw 34 to close or open so as.

While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not to be limited to the disclosed embodiment, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims

1. The utility model provides a processing equipment of rubber tyer, including through the mould with install in the workstation of mould below die carrier production rubber tyer, its characterized in that: the workbench comprises an in-out furnace conveying device, a mold opening and demolding device and a mold closing device, wherein the in-out furnace conveying device is used for conveying and heating the whole of a mold and a mold frame to form a rubber wheel;

An upper die transfer device which is used for supporting an upper die after the die is demolded and conveying the upper die to the left and the right below the die closing device and the die opening and demolding device is arranged below the die opening and demolding device;

the in-out furnace conveying device conveys the die carrier and the die to the lower die transfer device, the die is lifted upwards by the die opening and demolding device to open the die, so that the upper die is separated from the rubber wheel and the lower die which are adhered to the upper die, then the die demolding device presses the upper die downwards and penetrates through the material beating shaft of the upper die to separate the upper die from the rubber wheel which is adhered to the upper die, meanwhile, the lower die transfer device moves the lower die and the die carrier to the lower side of the die closing device, the wheel core pushing mechanism pushes the placing mechanism to place the wheel core in the lower die, the upper die transfer device supports the upper die and the material beating shaft from the lower side of the lower die transfer device and conveys the upper die and the material beating shaft to the lower side of the die opening and demolding device, the die opening and demolding device presses the upper die and the material beating shaft on the lower die to complete die.

2. The apparatus for processing rubber wheels according to claim 1, wherein: business turn over stove conveyor including to the mould in the wheel core of injecting glue add the thermal cure formation rubber tyer oven, die carrier transport assembly, sense die carrier and mould carry from the oven promote the die carrier transport assembly on and drive die carrier transport assembly carry out the inductive pick-up that carries to the mould on the die carrier and, die carrier transport assembly installs in the rear of oven, inductive pick-up installs in the below of die carrier transport assembly, install in the oven and promote die carrier transport assembly to die carrier and mould whole.

3. The apparatus for processing rubber wheels according to claim 1, wherein: die sinking shedder both sides in below are installed die carrier clamping device, and this die carrier clamping device includes the commentaries on classics board, drives the commentaries on classics board and carries out the pivoted pivot, drive actuating cylinder, the pivot is located the commentaries on classics board and drives between the actuating cylinder, the one end of pivot is installed in the top of driving actuating cylinder, the one end of pivot is installed on the commentaries on classics board, the die carrier die clamping cylinder that can press from both sides tight die carrier is installed to the commentaries on classics board, it drives the die carrier clamping cylinder that actuating cylinder drive pivot on the commentaries.

4. The apparatus for processing rubber wheels according to claim 1, wherein: the workbench comprises a shaping device, the shaping device comprises a shaping cylinder and an installation plate, the shaping cylinder is installed on two sides of the front of the furnace inlet and outlet conveying device through the installation plate, and the shaping cylinder is ejected out to position the die frame conveyed out by the furnace inlet and outlet conveying device and the die above the die frame in order to facilitate die opening and demolding of the die.

5. The apparatus for processing rubber wheels according to claim 1, wherein: the mould opening and demoulding device comprises a lower pressing plate, a lifting cylinder and a lifting motor, wherein the lifting cylinder is arranged between the lower pressing plate and the lifting motor, one end of the lifting cylinder is connected with the lower pressing plate, the other end of the lifting cylinder is connected with the lifting motor, clamping plates are arranged on the front side and the rear side of the lower pressing plate, clamping elements and clamping cylinders are arranged on the clamping plates, the clamping cylinders are located above the clamping elements and are connected with the clamping elements, and the clamping cylinders drive the clamping elements to rotate so as to drive the clamping plates to fold to clamp an upper mould, so that the lower pressing plate can be pressed down or an upper mould can be lifted, and a material beating shaft.

6. The apparatus for processing rubber wheels according to claim 1, wherein: receiving mechanism goes on the rubber tyer that glues on last mould to go on breaking away from including the die sinking back of being convenient for mould and connects the material receiving panel and catch the hopper that connects the rubber tyer that breaks away from last mould, connect the material receiving panel position in the below that connects the hopper and be connected rather than, pushing equipment is including promoting the cylinder, thereby it connects the material receiving panel of material receiving mechanism to be connected to promote the cylinder promotion to connect the material receiving panel to slide along the slip track through the slip track and realize connecing the material panel to remove to last mould below.

7. The apparatus for processing rubber wheels according to claim 1, wherein: the wheel core pushing mechanism comprises a cantilever beam, a cylinder pushing seat, a pushing arm cylinder and a pushing arm lead screw, the pushing arm cylinder is arranged on one side of the pushing arm lead screw, one end of the pushing arm lead screw is connected with the pushing arm cylinder, the cylinder pushing seat penetrates through the pushing arm lead screw and is connected with the lower part of the cantilever beam, the lifting discharging cylinder drives the discharging shaft below the discharging fixing plate to descend so that the core of the discharging shaft is placed in the lower die.

8. The apparatus for processing rubber wheels according to claim 1, wherein: the upper die transfer device comprises a conveying slide rail, a sliding fixing plate and an upper die transfer slide block, wherein the conveying slide rail, the sliding fixing plate and the upper die transfer slide block are positioned below the upper die transfer device and below the die opening and demolding device and the die closing device, the upper die transfer slide block is positioned between the conveying slide rail and the sliding fixing plate, the bottom end of the upper die transfer slide block and the bottom end of the sliding fixing plate are connected, two ends of the sliding fixing plate are connected with supporting arms, supporting plates capable of supporting the material beating shafts are installed on the supporting arms, the supporting plates are installed on the supporting arms, after demolding of the die, the upper die and the material beating shafts penetrating through the upper die are transferred, the supporting arms rotate to drive the supporting plates to support the material beating shafts, and the sliding fixing plate performs left and right sliding on the conveying slide.

9. The apparatus for processing rubber wheels according to claim 1, wherein: the lower die transfer device comprises a supporting frame for supporting the lower die and the die carrier, the supporting frame is arranged below the die opening and demolding device and the die closing device, an electromagnetic push-pull plate, a supporting cylinder and a sliding block fixing plate are sequentially arranged in the supporting frame from top to bottom, the electromagnetic push-pull plate is arranged above the sliding block fixing plate, the air cylinder is connected with the lower part of the electromagnetic push-pull plate, the supporting cylinder is arranged between the electromagnetic push-pull plate and the sliding block fixing plate, the sliding block is connected below the sliding block fixing plate, a sliding rail matched with the sliding block is arranged below the sliding block, the supporting cylinder lifts the electromagnetic push-pull plate to enable the electromagnetic push-pull plate to support the lower die, the electromagnetic push-pull plate slides through a slide block connected to a slide block fixing plate at the lower part, so that the lower die supported by the electromagnetic push-pull plate slides along the lower parts of the die opening and demolding device and the die closing device.

10. The apparatus for processing rubber wheels according to claim 1, wherein: the mold closing device comprises a mold closing plate, a lead screw and a power motor, wherein the lead screw is arranged between the mold closing plate and the power motor, one end of the lead screw is connected with the mold closing plate, the other end of the lead screw is connected with the power motor, the lead screw is driven by the power motor to drive the mold closing plate to move up and down, a clamping jaw clamping part and a clamping jaw clamping cylinder are installed at the bottom end of the mold closing plate, one end of the clamping jaw clamping part is installed above the clamping jaw, one end of the clamping jaw clamping part is installed below the clamping jaw clamping cylinder, and the clamping jaw clamping cylinder drives the clamping jaw to rotate to drive the clamping jaw to close or open the.