CN113397275A - Production mold for glass short fiber training shoes and production equipment applying mold - Google Patents

Abstract

The utility model relates to a short glass fiber training shoes production mould, including the mould body that is used for carrying out the clamping to shoes, the mould body includes the clamping part, the mould body still includes locking portion, be connected with the supporting part on the mould body, still relate to an use short glass fiber training shoes production facility of mould, which comprises a frame, be provided with in the frame and be used for accepting the supporting part the supporting component, be used for transporting the defeated material subassembly of shoes, be used for to the rubber coating subassembly of sole rubber coating and be used for assembling the installation component of shoes and bottom plate. This application has the advantage that changes traditional manual assembly mode, has guaranteed the assembly efficiency of shoes, has also guaranteed the unity of assembly quality simultaneously.

Description

Production mold for glass short fiber training shoes and production equipment applying mold

Technical Field

The application relates to the technical field of pulley shoe preparation, in particular to a production mold for a glass short fiber training shoe and production equipment applying the mold.

Background

At present, professional roller skating players will use roller skating training shoes, now in order to guarantee the intensity and each item performance of roller skating training shoes, produce a glass short-fiber pulley shoes, for example the chinese utility model patent of publication number CN202161783U specifically discloses a high performance glass fiber pulley shoes, including the shoes body, set up the bottom plate in shoes body bottom, set up the gyro wheel support and the gyro wheel of pivot setting on the gyro wheel support under the bottom plate, the bottom plate of pulley shoes includes resin layer and glass fiber layer, the glass fiber layer setting in the resin layer.

In view of the above-mentioned related technologies, the inventor believes that there are the following defects that the shoe body, the bottom plate, the roller bracket and the roller are separated, the existing preparation process is that the assembly is performed manually after each part is assembled, the assembly efficiency is low, and the quality cannot be uniformly ensured.

Disclosure of Invention

In order to improve the assembly efficiency of training shoes, guarantee unified assembly quality, this application provides a production facility of short-staple glass training shoes production mould and applied this mould.

On the one hand, the application provides a short glass fiber training shoes production mould, adopts following technical scheme:

a short glass fiber training shoe production mold comprises a mold body used for clamping a shoe, wherein the mold body comprises a clamping portion, the clamping portion comprises arc plates used for clamping the front end or the rear end of the shoe, two ends of each arc plate are hinged with side plates, the clamping portions are provided with two groups, the end surfaces of the side plates in the two groups of clamping portions are oppositely arranged and mutually connected, the mold body further comprises a locking portion, the locking portion comprises ear plates fixed on one side of each side plate, and the ear plates in the two groups of clamping portions are detachably connected through a connecting piece;

the mould body is connected with a supporting part, and the supporting part comprises a supporting rod connected with the outer side of the arc plate.

Through adopting above-mentioned technical scheme, utilize clamping part and locking part to play the effect of fixed centre gripping to shoes at the in-process of preparation shoes, wherein two sets of arc boards can play tight effect of clamp to the front end and the rear end of shoes, the curb plate can carry out the centre gripping to the side of shoes simultaneously, because set up to articulated between arc board and the curb plate, consequently can adjust according to the size and the width of different shoes, be connected two sets of otic placodes after arc board and curb plate hold shoes, can carry out stable centre gripping to shoes. The bracing piece is convenient to the transmission of shoes, can cooperate the automatic transmission of the faster realization shoes of rigging equipment at the in-process of assembling shoes, has consequently improved the assembly efficiency of shoes.

Preferably, a connecting part is arranged between the two groups of side plates in the clamping parts, the connecting part comprises an insertion rod fixedly connected with one side plate, the other side plate is provided with a slotted hole for the insertion rod to slide and penetrate, the insertion rod is sleeved with a clamping spring, and the clamping spring is positioned in the slotted hole; and an elastic bandage is arranged on the die body.

Through adopting above-mentioned technical scheme, utilize grafting pole and centre gripping spring to realize the self-adaptation centre gripping between two sets of curb plates, at the convenient more swift of the in-process of installation mould body, improved the efficiency of assembly. Meanwhile, the elastic bandage is arranged, so that the connection between the mold body and the shoe is more tight, the mold body has a better clamping effect on the shoe, and the quality in the assembling process is ensured.

On the other hand, the application provides an use production facility of glass short fiber training shoes production mould, adopts following technical scheme:

the utility model provides an use production facility of glass short-staple training shoes production mould, includes the frame, be provided with the supporting component that is used for accepting the supporting part in the frame, be used for transporting defeated material subassembly of shoes, be used for the rubber coating subassembly of sole rubber coating and be used for assembling the installation component of shoes and bottom plate.

Through adopting above-mentioned technical scheme, erect the shoes of assembly in the mould on supporting component, defeated material subassembly can carry out automated transfer to shoes, at the in-process of transmission, the rubber coating subassembly can carry out the rubber coating to the sole earlier, when shoes remove to installation component top, the installation component can be with bottom plate installation to sole, the automated assembly of shoes and bottom plate has been realized, consequently, traditional manual assembly mode has been changed, the assembly efficiency of shoes has been guaranteed, the unity of assembly quality has also been guaranteed simultaneously.

Preferably, the supporting component comprises two supporting frames which are fixedly arranged on the rack and are parallel to each other, each supporting frame is fixedly provided with a plurality of bearing blocks and two bearing blocks on the supporting frame are in one-to-one correspondence, bearing grooves for the supporting rods to be erected are formed in the bearing blocks, and bearing pieces are connected in the bearing grooves through supporting springs.

Through adopting above-mentioned technical scheme, the piece that holds on two support frames can play the effect of accepting to the bracing piece at shoes both ends, accepts the groove and accepts the piece and can make comparatively steady placing of shoes between two support frames, and at the assembly and more steady of the in-process of transmitting shoes, guarantee assembly quality.

Preferably, the material conveying assembly comprises a vertical moving part connected with the rack in a sliding manner in the vertical direction and a transverse moving part connected with the vertical moving part in a sliding manner, the vertical moving part comprises two vertical moving rods which are parallel to each other, and the transverse moving part comprises two transverse moving rods connected with the vertical moving rods in a sliding manner; every all the rigid coupling has a plurality of butt plates that are used for accepting the bracing piece on the transverse shifting pole, be provided with the recess that corresponds with the bracing piece on the butt plate.

Through adopting above-mentioned technical scheme, when needing to transmit shoes, the vertical carriage release lever of rebound, butt joint board on the vertical carriage release lever is with bracing piece jack-up, make the bracing piece break away from with accepting an article of writing mutually, the transverse movement pole that slides along frame length direction again, make shoes remove to the top of next piece of accepting, the vertical carriage release lever of rebound again, make the bracing piece set up on next piece of accepting, shift when can accomplishing shoes in all stations, and it is comparatively steady at the in-process that shifts, realize the automated transport of shoes, the assembly efficiency is greatly improved.

Preferably, the lower end of the rack is fixedly connected with a first cylinder, a piston rod of the first cylinder is arranged upwards and fixedly connected with a movable bearing plate, the lower ends of the two vertical movable rods are fixedly connected with first guide rods, the first guide rods are slidably arranged in the rack in a penetrating manner, and the lower ends of the first guide rods are connected with the movable bearing plate; and a connecting plate is fixedly connected between the two transverse moving rods, a second cylinder is fixedly connected onto the connecting plate, and a piston rod of the second cylinder penetrates through the connecting plate and is connected with one of the vertical moving rods.

Through adopting above-mentioned technical scheme, when needing the book to the carriage release lever removal, start first cylinder, first cylinder supports the removal loading board, and the removal loading board can drive vertical movable plate rebound, restarts the second cylinder, realizes sliding of lateral shifting board to can realize the automatic transmission of shoes, improve assembly efficiency.

Preferably, the rubber coating subassembly is including the fixed rubber coating case that sets up in the frame, the both sides of rubber coating case all slide to be connected with the rubber coating and move the board, two the rubber coating is generally rotated between and is connected with glue spreader and rubber coating brush, the lower extreme of glue spreader extends to in the rubber coating incasement, the upper end of glue spreader and rubber coating brush all is higher than the rubber coating case.

Through adopting above-mentioned technical scheme, when shoes removed to rubber coating case top, remove two rubber coatings and move the board, rubber coating moves the board and moves the glue spreader and contact with the sole with the rubber coating brush removal, the glue spreader with the sizing material coating of rubber coating incasement to the sole, the rubber coating brush can brush the sizing material of sole evenly simultaneously, avoid the sizing material too much, consequently can realize automatic rubber coating, also can guarantee rubber coated quality simultaneously.

Preferably, the mounting assembly comprises a feeding part and a mounting part, the feeding part is used for conveying the bottom plate, an extension workbench is fixedly connected to one side of the rack, the feeding part comprises a connecting boss fixedly arranged on the extension workbench and a feeding plate connected with the connecting boss in a sliding manner, a template is movably connected to the feeding plate, a first mounting notch is formed in the position, corresponding to the template, of the feeding plate, and a trough for placing the bottom plate is formed in the template; the installation department is including the fixed installing frame that sets up at the frame lower extreme, the rigid coupling has the fourth cylinder in the installing frame, the piston rod of fourth cylinder is up and the rigid coupling has the installation to the board, the rigid coupling has the elasticity to connect the pad on the installation to the board, set up the second installation notch that supplies the installation to the board removal in the frame.

Through adopting above-mentioned technical scheme, when needs are with bottom plate mounting to sole, place the bottom plate on the template, the delivery sheet removes to the shoes below, restarts the fourth cylinder, and the fourth cylinder upwards supports the installation and supports the board, and the installation supports the board and rises and pass first installation notch butt template lower extreme from second installation notch, and the template upwards moves and finally contacts with the sole, can make elasticity butt pad glue at the sole, realizes supporting the automatic assembly of board and shoes.

Preferably, the feeding plate is provided with a guide hole, the lower end of the template is fixedly connected with a second guide rod, the second guide rod is connected with the guide hole in a sliding manner, a reset spring is arranged in the guide hole, and one end of the reset spring is fixedly connected with the guide hole while the other end is fixedly connected with the second guide rod.

Through adopting above-mentioned technical scheme, after the bottom plate has been assembled, the template resets under reset spring's effect, and the setting up of second guide bar and guiding hole can make accurate the recovering normal position of template, guarantees the next assembly of bottom plate, guarantees assembly quality.

Preferably, be provided with two sets of subassemblies that push down in the frame, one of them push down the subassembly and set up in the top of rubber coating subassembly, another push down the subassembly and set up in the top of installation component, the subassembly that pushes down includes the mounting bracket with the frame rigid coupling, mounting bracket upper end rigid coupling has the fifth cylinder, the piston rod of fifth cylinder is down and the rigid coupling has the removal frame, it is provided with briquetting under the elasticity to remove the frame internal fixation, set up in the briquetting under the elasticity and the corresponding butt joint groove of shoes shape.

Through adopting above-mentioned technical scheme, when carrying out rubber coating and bottom plate installation to shoes, start the fifth cylinder, the fifth cylinder supports moves the removal frame, makes elasticity lower pressing block downstream and butt shoes, and the stability of shoes in the assembling process can be guaranteed to elasticity lower pressing block, and more steady when assembling shoes guarantees the automatic assembly quality of shoes.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the shoe is fixedly clamped by the clamping part and the locking part in the process of preparing the shoe, wherein the front end and the rear end of the shoe can be clamped by the two groups of arc plates, meanwhile, the side surface of the shoe can be clamped by the side plates, the shoe can be stably clamped, the supporting rods are convenient for conveying the shoe, and the shoe can be quickly conveyed automatically by matching with assembling equipment in the process of assembling the shoe, so that the assembling efficiency of the shoe is improved;

2. defeated material subassembly can carry out automated transfer to shoes, and at the in-process of transmission, the rubber coating subassembly can carry out the rubber coating to the sole earlier, and when shoes removed to installation component top, the installation component can be with the bottom plate mounting to the sole, has realized the automatic assembly of shoes and bottom plate, has consequently changed traditional manual assembly mode, has guaranteed the assembly efficiency of shoes, has also guaranteed the unity of assembly quality simultaneously.

Drawings

FIG. 1 is a schematic structural diagram of a mold body in the present embodiment;

FIG. 2 is a schematic sectional view of the structure of the joint of two side plates in the die body;

FIG. 3 is a schematic view showing the overall structure of the production apparatus in this embodiment;

FIG. 4 is a schematic structural view of a support assembly and a feeding assembly;

FIG. 5 is an enlarged view of portion A of FIG. 4;

FIG. 6 is a schematic view of the feed delivery assembly;

FIG. 7 is an enlarged view of portion B of FIG. 6;

FIG. 8 is a schematic view showing a detailed structure of the glue application assembly;

FIG. 9 is a schematic view of a specific structure of the hold-down assembly;

fig. 10 is an exploded view of the structure at the installation of the assembly.

Description of reference numerals: 1. a shoe; 2. a mold body; 211. an arc plate; 212. a side plate; 22. a plug rod; 221. a clamping spring; 23. a support bar; 24. an ear plate; 25. an elastic band; 3. a frame; 31. an extension table; 4. a support assembly; 41. a support frame; 42. a bearing block; 421. a receiving groove; 422. a support spring; 423. a receiving sheet; 5. a material conveying component; 51. a vertical travel bar; 52. a transverse travel bar; 521. a butt joint plate; 6. a gluing component; 61. gluing boxes; 62. gluing and moving the plate; 63. a third cylinder; 64. glue spreading roller; 65. a gluing brush; 7. mounting the component; 711. connecting the bosses; 712. a feeding plate; 713. a template; 714. a first mounting notch; 715. a trough; 716. a guide hole; 717. a second guide bar; 718. a return spring; 721. installing a frame; 722. a fourth cylinder; 723. installing a resisting plate; 724. an elastic abutting pad; 725. a second mounting notch; 8. pressing the assembly; 81. a mounting frame; 82. a fifth cylinder; 83. moving the frame; 84. pressing the block under elasticity; 85. a butt joint groove; 9. a first cylinder; 10. moving the bearing plate; 11. a first guide bar; 12. a connecting plate; 13. a second cylinder.

Detailed Description

The present application is described in further detail below with reference to figures 1-10.

The embodiment of the application discloses a production mold of a short glass fiber training shoe, referring to fig. 1 and 2, the production mold comprises a mold body 2 for clamping a shoe 1, the mold body 2 comprises a clamping part, the clamping part comprises an arc plate 211 for clamping the front end or the rear end of the shoe 1, two ends of the arc plate 211 are hinged with side plates 212, the clamping part is provided with two groups, the end surfaces of the side plates 212 in the two groups of clamping parts are oppositely arranged and mutually connected, a connecting part is arranged between the side plates 212 in the two groups of clamping parts, the connecting part comprises an inserting rod 22 fixedly connected with one side plate 212, the inserting rod 22 can be a T-shaped rod, the inserting rod 22 is made of a deformable material, the rotation of the side plates 212 is ensured, the other side plate 212 is provided with a slotted hole for the inserting rod 22 to slide and penetrate, a clamping spring 221 is sleeved on the inserting rod 22, the clamping spring 221 is positioned in the slotted hole, one end of the clamping spring 221 abuts against the end of the T-shaped rod, and the other end abuts against the inner wall of the slot hole. Be connected with the supporting part on the mould body 2, the supporting part includes the bracing piece 23 of being connected with the arc board 211 outside, can install two bracing pieces 23 on an arc board 211, and bracing piece 23 can utilize the screw thread to be connected with arc board 211, all is comparatively convenient when installation and dismantlement.

Referring to fig. 1 and 2, the mold body 2 further includes a locking portion, the locking portion includes the ear plate 24 fixed on one side of the side plate 212, the ear plates 24 in the two sets of clamping portions are detachably connected through a connecting member, the connecting member can be configured as a bolt and a nut, and the detachment and installation are convenient.

Referring to fig. 1, be provided with elastic bandage 25 on the mould body 2, elastic bandage 25 can adopt high-elastic cloth, and when mould body 2 and 1 looks joint of shoes, elastic bandage 25 can cooperate with 1 appearance of shoes, plays fixed effect to 1 shoes, and shoes 1 is more firm with being connected of mould body 2 simultaneously.

The implementation principle of the embodiment is as follows: before assembling shoes 1, utilize the mould to play the clamping action to shoes 1, carry out the centre gripping with two arc boards 211 to the front end and the rear end of shoes 1, make curb plate 212 carry out the self-adaptation centre gripping to shoes 1 again, recycle the otic placode 24 in bolt and nut will two sets of clamping parts and link together, at the in-process of assembly, adjustment elastic bandage 25 makes its shape that adapts to shoes 1, it can on two arc boards 211 to install bracing piece 23 at last.

The embodiment of the application still discloses a short glass fiber training shoes production mould, refer to fig. 3, including frame 3, be provided with in frame 3 and be used for accepting the supporting part 4, be used for transporting defeated material subassembly 5 of shoes 1, be used for the rubber coating subassembly 6 of sole rubber coating and be used for assembling the installation component 7 of shoes 1 and bottom plate, still be provided with two sets of subassemblies 8 that push down in frame 3, one of them pushes down subassembly 8 and sets up in the top of rubber coating subassembly 6, another pushes down subassembly 8 and sets up in the top of installation component 7.

The initial end at supporting component 4 is placed to the shoes 1 that will install the mould, starts defeated material subassembly 5, and defeated material subassembly 5 transmits shoes 1 next station, when shoes 1 transmit to rubber coating subassembly 6 top, starts to push down subassembly 8, pushes down subassembly 8 and supports and move shoes 1 downwards, and rubber coating subassembly 6 can carry out the rubber coating to shoes 1. After the rubber coating is completed, the material conveying assembly 5 conveys the shoe 1 backwards, when the shoe 1 is conveyed to the position of the mounting assembly 7, the pressing assembly 8 runs, the mounting assembly 7 can mount the bottom plate to the bottom of the shoe 1, automatic assembly is realized, and mounting efficiency is improved.

Referring to fig. 4 and 5, the supporting assembly 4 includes two supporting frames 41 that are fixedly disposed on the frame 3 and are parallel to each other, a plurality of receiving blocks 42 are fixedly disposed on each supporting frame 41, the receiving blocks 42 on the two supporting frames 41 correspond to each other one by one, a receiving groove 421 for the supporting rod 23 to be set up is disposed on each receiving block 42, a receiving piece 423 is connected to the receiving groove 421 through a supporting spring 422, one end of the supporting spring 422 is fixedly connected to the bottom of the receiving groove 421, and the other end of the supporting spring is connected to the bottom of the receiving piece 423.

Referring to fig. 6 and 7, the feeding assembly 5 includes a vertical moving portion connected to the frame 3 in a sliding manner in a vertical direction and a horizontal moving portion connected to the vertical moving portion in a sliding manner, the vertical moving portion includes two vertical moving rods 51 parallel to each other, a first cylinder 9 is fixedly connected to the lower end of the frame 3, a piston rod of the first cylinder 9 is disposed upward and fixedly connected to the moving bearing plate 10, a first guide rod 11 is fixedly connected to the lower ends of the two vertical moving rods 51, and the first guide rod 11 is slidably arranged in the frame 3 and connected to the moving bearing plate 10.

Referring to fig. 6 and 7, the lateral moving portion includes two lateral moving rods 52 slidably connected to the vertical moving rod 51, each lateral moving rod 52 is fixedly connected to a plurality of abutting plates 521 for receiving the supporting rod 23, and the abutting plates 521 are provided with grooves corresponding to the supporting rod 23.

Referring to fig. 6 and 7, a connecting plate 12 is fixedly connected between the two transverse moving rods 52, a second cylinder 13 is fixedly connected to the connecting plate 12, and a piston rod of the second cylinder 13 passes through the connecting plate 12 and is connected to one of the vertical moving rods 51.

The first cylinder 9 is started, the first cylinder 9 abuts against the movable bearing plate 10, the movable bearing plate 10 can drive the vertical movable plate to move upwards, the transverse movable rod 52 moves upwards synchronously, and the abutting plate 521 can jack the supporting rod 23, so that the supporting rod 23 is separated from the bearing plate. And then the second cylinder 13 is started, the transverse moving plate moves towards the conveying direction of the conveying line, the shoe 1 is moved to the position above the next bearing block 42, the first cylinder 9 is started, the first cylinder 9 moves downwards, and the support rod 23 can be erected above the next bearing piece, so that the automatic conveying of the shoe 1 is realized.

Referring to fig. 8, the gluing assembly 6 includes a gluing box 61 fixedly arranged on the frame 3, two sides of the gluing box 61 are connected with a gluing moving plate 62 in a sliding manner, one side of the gluing box 61 is fixedly connected with a third cylinder 63, the end of a piston rod of the third cylinder 63 is fixedly connected with one gluing moving plate 62, two gluing rollers 64 and a gluing brush 65 are connected between the two gluing rollers in a rotating manner, the lower end of each gluing roller 64 extends into the gluing box 61, the upper ends of the gluing roller 64 and the gluing brush 65 are higher than the gluing box 61, the third cylinder 63 is started, the third cylinder 63 can drive the gluing roller 64 and the gluing brush 65 to move, and the gluing operation on the shoe 1 is realized.

Referring to fig. 9, push down subassembly 8 includes mounting bracket 81 with frame 3 rigid coupling, and mounting bracket 81 upper end rigid coupling has fifth cylinder 82, and the piston rod of fifth cylinder 82 is down and the rigid coupling has removal frame 83, removes frame 83 internal fixation and is provided with briquetting 84 under the elasticity, has seted up in briquetting 84 under the elasticity with the corresponding butt groove 85 of shoes 1 shape, briquetting 84 can adopt the silica gel material under the elasticity, can be abundant laminate with shoes 1 to can not lead to the fact the damage to shoes 1. In the process of brushing the glue, in order to ensure the sufficient glue coating of the sole, the elastic lower pressing block 84 plays a role in abutting against the shoe 1, and the stability of the shoe 1 in the process of brushing the glue is ensured.

Referring to fig. 10, the mounting assembly 7 includes a feeding portion and a mounting portion, the feeding portion is used for conveying the bottom plate, the extension table 31 is fixedly connected to one side of the frame 3, the feeding portion includes a connecting boss 711 fixedly disposed on the extension table 31 and a feeding plate 712 slidably connected to the connecting boss 711, an electric cylinder may be disposed on the connecting boss 711, and the electric cylinder drives the feeding plate 712 to slide in the width direction of the frame 3. The feeding plate 712 is movably connected with a template 713, a first mounting notch 714 is formed in the position, corresponding to the template 713, of the feeding plate 712, a trough 715 used for placing a bottom plate is arranged on the template 713, a guide hole 716 is formed in the feeding plate 712, a second guide rod 717 is fixedly connected to the lower end of the template 713, the second guide rod 717 is connected with the guide hole 716 in a sliding mode, a reset spring 718 is arranged in the guide hole 716, and one end of the reset spring 718 is fixedly connected with the guide hole 716 while the other end of the reset spring is fixedly connected with the second guide rod 717.

When the bottom plate is installed, the bottom plate can be placed on the template 713, wherein automatic feeding or manual feeding can be adopted, and the orientation of the bottom plate is ensured to be consistent with the orientation of the shoe 1 during feeding. The electric cylinder is then activated so that the feeding plate 712 moves the template 713 to an intermediate position above the frame 3, i.e. so that the bottom plate corresponds to the bottom of the shoe 1.

Referring to fig. 10, the mounting portion includes a mounting frame 721 fixedly disposed at the lower end of the frame 3, a fourth cylinder 722 is fixedly connected in the mounting frame 721, a piston rod of the fourth cylinder 722 faces upward and is fixedly connected with a mounting abutting plate 723, an elastic abutting pad 724 is fixedly connected to the mounting abutting plate 723, and a second mounting notch 725 for the mounting abutting plate 723 to move is disposed on the frame 3.

The fourth cylinder 722 is started, the fourth cylinder 722 upwards abuts against the installation abutting plate 723, the installation abutting plate 723 ascends from the second installation notch 725 and penetrates through the first installation notch 714 to abut against the lower end of the template 713, the template 713 moves upwards and finally contacts with the sole, the elastic abutting pad 724 can be adhered to the sole, and automatic assembly of the abutting plate and the shoe 1 is achieved.

The implementation principle of the embodiment is as follows: the shoe 1 with the mold installed is placed at the initial end of the supporting component 4, the first cylinder 9 is started, the first cylinder 9 abuts against the movable bearing plate 10, the movable bearing plate 10 can drive the vertical movable plate to move upwards, the transverse moving rod 52 moves upwards synchronously, and the abutting plate 521 can jack up the supporting rod 23 to enable the supporting rod 23 to be separated from the bearing plate. And then the second cylinder 13 is started, the transverse moving plate moves towards the conveying direction of the conveying line, the shoe 1 is moved to the position above the next bearing block 42, the first cylinder 9 is started, the first cylinder 9 moves downwards, and the support rod 23 can be erected above the next bearing piece, so that the automatic conveying of the shoe 1 is realized.

At the in-process of brushing the glue, start the subassembly 8 that pushes down that corresponds with the subassembly of brushing the glue, make fifth cylinder 82 drive briquetting 84 down and play the effect of butt to shoes 1 under the elasticity, restart third cylinder 63 can make third cylinder 63 drive the rubber coating roller 64 and the removal of rubber coating brush 65, realizes the rubber coating operation to shoes 1.

When the bottom plate is installed, the bottom plate can be placed on the template 713, wherein automatic feeding or manual feeding can be adopted, and the orientation of the bottom plate is ensured to be consistent with the orientation of the shoe 1 during feeding. The electric cylinder is then activated so that the feeding plate 712 moves the template 713 to an intermediate position above the frame 3, i.e. so that the bottom plate corresponds to the bottom of the shoe 1.

The pressing-down component 8 corresponding to the mounting component 7 is started, the fifth air cylinder 82 drives the elastic pressing-down block 84 to abut against the shoe 1, the fourth air cylinder 722 is started again, the fourth air cylinder 722 abuts against the mounting abutting plate 723 upwards, the mounting abutting plate 723 ascends from the second mounting notch 725 and penetrates through the first mounting notch 714 to abut against the lower end of the template 713, the template 713 moves upwards and is finally contacted with the shoe sole, the elastic abutting pad 724 can be adhered to the shoe sole, and automatic assembly of the abutting plate and the shoe 1 is achieved.

In the assembling process, the gluing component 6 and the mounting component 7 run synchronously, so that the assembling efficiency is improved to the maximum extent. After the assembly of the soleplate, the shoe 1 can be dried at a high temperature and the assembly of the shoe 1 can be continued by the same transmission method until the assembly is completed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a short-staple glass shoes production mould, its characterized in that: the shoe mold comprises a mold body (2) used for clamping a shoe (1), wherein the mold body (2) comprises a clamping part, the clamping part comprises arc plates (211) used for clamping the front end or the rear end of the shoe (1), two ends of each arc plate (211) are hinged with side plates (212), the clamping parts are provided with two groups, the end surfaces of the side plates (212) in the two groups of clamping parts are oppositely arranged and mutually connected, the mold body (2) further comprises a locking part, the locking part comprises ear plates (24) fixed on one side of each side plate (212), and the ear plates (24) in the two groups of clamping parts are detachably connected through connecting pieces;

the mould body (2) is connected with a supporting part, and the supporting part comprises a supporting rod (23) connected with the outer side of the arc plate (211).

2. The mold for producing a training shoe of chopped glass fibers as claimed in claim 1, wherein: a connecting part is arranged between the side plates (212) in the two groups of clamping parts, the connecting part comprises an insertion rod (22) fixedly connected with one side plate (212), the other side plate (212) is provided with a slotted hole for the insertion rod (22) to slide and penetrate, the insertion rod (22) is sleeved with a clamping spring (221), and the clamping spring (221) is positioned in the slotted hole; an elastic bandage (25) is arranged on the die body (2).

3. A production facility of using any one of 1-2 said glass short fiber training shoes production mould which characterized in that: including frame (3), be provided with in frame (3) and be used for accepting supporting part's supporting component (4), be used for transporting defeated material subassembly (5) of shoes (1), be used for rubber coating subassembly (6) to the sole rubber coating and be used for assembling installation component (7) of shoes (1) and bottom plate.

4. The production equipment for producing the mold by using the glass short fiber training shoes as claimed in claim 3, wherein: support assembly (4) are including fixed two support frame (41) that are parallel to each other that set up in frame (3), every fixed a plurality of piece (42), and two of bearing on support frame (41) piece (42) one-to-one on the support frame (41), set up the groove (421) of accepting that supply bracing piece (23) to set up on bearing piece (42), be connected with in accepting groove (421) through supporting spring (422) and accept piece (423).

5. The production equipment for producing the mold by using the glass short fiber training shoes as claimed in claim 4, wherein the production equipment comprises: the material conveying assembly (5) comprises a vertical moving part connected with the rack (3) in a sliding manner in the vertical direction and a transverse moving part connected with the vertical moving part in a sliding manner, the vertical moving part comprises two vertical moving rods (51) which are parallel to each other, and the transverse moving part comprises two transverse moving rods (52) connected with the vertical moving rods (51) in a sliding manner; each transverse moving rod (52) is fixedly connected with a plurality of abutting plates (521) used for abutting against the supporting rods (23), and grooves corresponding to the supporting rods (23) are formed in the abutting plates (521).

6. The production equipment for producing the mold by using the glass short fiber training shoes as claimed in claim 5, wherein: a first cylinder (9) is fixedly connected to the lower end of the rack (3), a piston rod of the first cylinder (9) is arranged upward and fixedly connected with a movable bearing plate (10), the lower ends of the two vertical moving rods (51) are fixedly connected with first guide rods (11), the first guide rods (11) are slidably arranged in the rack (3) in a penetrating mode, and the lower ends of the first guide rods are connected with the movable bearing plate (10); two the rigid coupling has connecting plate (12) between horizontal movable rod (52), the rigid coupling has second cylinder (13) on connecting plate (12), the piston rod of second cylinder (13) passes connecting plate (12) and links to each other with one of them vertical movable rod (51).

7. The production equipment for producing the mold by using the glass short fiber training shoes as claimed in claim 3, wherein: rubber coating subassembly (6) are including fixed rubber coating case (61) that sets up in frame (3), the both sides of rubber coating case (61) all slide and are connected with the rubber coating and move board (62), two the rubber coating rotates between general to be connected with glue spreader (64) and rubber coating brush (65), the lower extreme of glue spreader (64) extends to in rubber coating case (61), the upper end of glue spreader (64) and rubber coating brush (65) all is higher than rubber coating case (61).

8. The production equipment for producing the mold by using the glass short fiber training shoes as claimed in claim 3, wherein: the mounting assembly (7) comprises a feeding part and a mounting part, the feeding part is used for conveying a bottom plate, an extension workbench (31) is fixedly connected to one side of the rack (3), the feeding part comprises a connecting boss (711) fixedly arranged on the extension workbench (31) and a feeding plate (712) connected with the connecting boss (711) in a sliding mode, a template (713) is movably connected to the feeding plate (712), a first mounting notch (714) is formed in the position, corresponding to the template (713), of the feeding plate (712), and a trough (715) used for placing the bottom plate is formed in the template (713); the installation department is including fixed mounting frame (721) that sets up in frame (3) lower extreme, the rigid coupling has fourth cylinder (722) in mounting frame (721), the piston rod of fourth cylinder (722) is up and the rigid coupling has installation to support board (723), the rigid coupling has elasticity to support pad (724) on installation to board (723), set up second installation notch (725) that supply installation to support board (723) to remove on frame (3).

9. The production equipment for producing the mold by using the glass short fiber training shoes as claimed in claim 8, wherein: the die plate is characterized in that a guide hole (716) is formed in the feeding plate (712), a second guide rod (717) is fixedly connected to the lower end of the die plate (713), the second guide rod (717) is connected with the guide hole (716) in a sliding mode, a return spring (718) is arranged in the guide hole (716), one end of the return spring (718) is fixedly connected with the guide hole (716), and the other end of the return spring is fixedly connected with the second guide rod (717).

10. The production equipment for producing the mold by using the glass short fiber training shoes as claimed in claim 3, wherein: be provided with two sets of subassemblies (8) that push down on frame (3), one of them push down subassembly (8) and set up in the top of rubber coating subassembly (6), another push down subassembly (8) and set up the top at installation component (7), push down subassembly (8) include with mounting bracket (81) of frame (3) rigid coupling, mounting bracket (81) upper end rigid coupling has fifth cylinder (82), the piston rod of fifth cylinder (82) is down and the rigid coupling has removal frame (83), it is provided with elasticity briquetting (84) down to remove frame (83) internal fixation, set up in elasticity briquetting (84) and connect groove (85) with the corresponding butt of shoes (1) shape.

Images