CN203063265U - Full-automatic shoe material gilding press - Google Patents

Abstract

The utility model provides a full-automatic shoe material gilding press. The full-automatic shoe material gilding press comprises a machine case, a hot stamping mechanism and a multi-station rotary table mechanism, wherein the hot stamping mechanism and the multi-station rotary table mechanism are arranged on the machine case. The full-automatic shoe material gilding press further comprises a conveying platform, a feeding mechanism, a discharging mechanism and a conveyor line, the conveying platform, the feeding mechanism, the discharging mechanism and the conveyor line are respectively arranged on the machine case. The hot stamping mechanism, the feeding mechanism and the discharging mechanism are correspondingly arranged on the periphery of the multi-station rotary table mechanism, and are respectively and orderly matched with corresponding stations on the multi-station rotary table mechanism. The conveying platform is correspondingly arranged on one side of the feeding position of the machine case, and is orderly matched with the feeding mechanism above the conveying platform. The conveyor line is correspondingly arranged on one side of the discharging position of the machine case, and is orderly matched with the discharging mechanism above the conveyor line. The full-automatic shoe material gilding press is high in automation, the feeding procedure and the discharging procedure of the full-automatic shoe material gilding press are completely completed through full-automatic machinery, and compared with a traditional manual feeding and discharging mode, the full-automatic shoe material gilding press can greatly save manpower, improves working efficiency and improves a material turnover rate.

Description

A kind of full-automatic footwear material gilding press

Technical field

The utility model relates to the technical field of footwear material process equipment, refers in particular to a kind of full-automatic footwear material gilding press.

Background technology

Known in the industry, gilding technology is a kind of specialty printing technology without printing ink, the so-called gold stamping technical process that refers under certain temperature and pressure, the electrochemical aluminum foil thermoprint be arrived the stock surface, and gilding press is exactly the process equipment of finishing this gilding technology specially.At present, existing footwear material gilding press because its upper and lower material process generally all is to adopt manually to finish, so not only time-consuming but also trouble, cause that the staff is many, labor strength greatly, inefficiency, production cost height, do not adapt to large-tonnage production demand; Therefore, along with the development of electromechanical integration, in order to reduce labor cost and production cost, reduction labour intensity, to enhance productivity and economic benefit, the upper and lower material process of footwear material gilding press realizes that automated job is extremely urgent now.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, and a kind of reliable, stable action reasonable in design, high efficiency, easy to operate full-automatic footwear material gilding press are provided.

For achieving the above object, technical scheme provided by the utility model is: a kind of full-automatic footwear material gilding press, it includes cabinet and is installed in thermoprint mechanism and station dial mechanism on this cabinet respectively, it also includes defeated material platform, feed mechanism, shedding mechanism, the pipeline that is installed in respectively on the cabinet, wherein, described thermoprint mechanism, feed mechanism, shedding mechanism correspondence are installed in the periphery of station dial mechanism, and respectively with this station dial mechanism on corresponding station cooperate in order; Described defeated material platform correspondence is installed in last material level one side of cabinet, and cooperates in order with the feed mechanism of the side of being located thereon; What described pipeline correspondence was installed in cabinet unloads material level one side, and cooperates in order with the shedding mechanism of the side of being located thereon.

Described defeated material platform includes the blowing platform, feeding pushes away frame, guided in translation assembly, horizontal sliding cylinder, lift cylinder and lift cylinder installing plate, wherein, described guided in translation assembly symmetry is installed in the relative both sides, bottom of blowing platform, and, be connected with the lift cylinder installing plate between the linear bearing of this both sides guided in translation assembly, simultaneously, this lift cylinder installing plate drives translation by the horizontal sliding cylinder that is positioned at the one side under the guiding of guided in translation assembly; The cylinder body of lift cylinder vertically is installed on this lift cylinder installing plate, and its piston rod head passes that the lift cylinder installing plate up stretches out and pushes away frame with the feeding of the side of being located thereon and joins; Described feeding pushes away the bottom that the frame correspondence is located at the blowing platform, simultaneously, correspondence offers many stroke grooves of arranging along its width spacing parallel arranging on this blowing platform, and, the length direction of every stroke groove all pushes away on the translation direction of frame in feeding, the multiple row vertically-arranged pin that feeding pushes away top of the trellis up stretches out from corresponding stroke groove respectively, and this multiple row vertically-arranged pin has a plurality of footwear materials to shelve the position along the translation direction equi-spaced apart that feeding pushes away frame.

Described feed mechanism includes feeding manipulator and is installed in material loading positioning component on this feeding manipulator, wherein, described feeding manipulator includes guide frame, guide post, first Rodless cylinder, first linear bearing, the material loading lift cylinder, the discharging lift cylinder, the first cylinder mount pad and the last stub bar that is wrapped with VELCRO, described guide post and first Rodless cylinder level side by side are installed on the guide frame, and guide post be located at respectively first Rodless cylinder on, the below, simultaneously, on every guide post, all be slidingly fitted with first linear bearing, and, all first linear bearings are fixedly connected by the piston of the first cylinder mount pad and first Rodless cylinder, the cylinder body of described material loading lift cylinder vertically is installed on the base plate of the first cylinder mount pad, and, base plate and last stub bar that the piston rod head of this material loading lift cylinder down passes the first cylinder mount pad are fixedly connected, simultaneously, first guide pillar that described second linear bearing of going up on the base plate that vertically is equipped with on the stub bar with the first cylinder mount pad matches, and the first guide pillar correspondence is located at the relative both sides of material loading lift cylinder, the cylinder body of described discharging lift cylinder vertically is installed on the top board of the first cylinder mount pad, and be positioned at the top of one first guide pillar, simultaneously, the piston rod head of this discharging lift cylinder is corresponding with the top of this first guide pillar; Described material loading positioning component includes the location lift cylinder, the second cylinder mount pad, traversing cylinder, the 3rd cylinder mount pad, backstay, the described second cylinder mount pad correspondence is installed on the side of guide frame, the cylinder body of location lift cylinder vertically is installed on the base plate of this second cylinder mount pad, and, the piston rod head of this location lift cylinder down passes the base plate of the second cylinder mount pad and the top board of the 3rd cylinder mount pad is fixedly connected, simultaneously, second guide pillar that the 3rd linear bearing on the base plate with the second cylinder mount pad matches vertically is installed on the top board of the 3rd cylinder mount pad, and the second guide pillar correspondence is located at the relative both sides of location lift cylinder, the cylinder body level of described traversing cylinder is installed on the side plate of the 3rd cylinder mount pad, and side plate and backstay that the piston rod head of this traversing cylinder passes the 3rd cylinder mount pad join.

Described shedding mechanism includes the discharging fixed mount that is fixed on the cabinet and is installed in unloading manipulator on this discharging fixed mount, wherein, described unloading manipulator includes the discharging guide post, second Rodless cylinder, the discharging linear bearing, its piston rod head is fitted with the acupuncture cylinder of draw point, the discharging pressing plate, the pressing plate cylinder, described discharging guide post and the second Rodless cylinder level are installed on the horizontal frame of discharging fixed mount, and arrange side by side up and down, simultaneously, discharging linear bearing slip cap is contained on this discharging guide post, and the piston by cylinder mount pad and second Rodless cylinder is fixedly connected, and drives translation by this second Rodless cylinder; The cylinder body of described acupuncture cylinder and pressing plate cylinder vertically is installed on the above-mentioned cylinder mount pad, and, the piston rod head of this pressing plate cylinder is fixedly connected with the discharging pressing plate that is positioned at its below, simultaneously, correspondingly on this discharging pressing plate is penetrated with the position of running through that a piston rod head for the acupuncture cylinder passes.

Described pipeline includes the belt conveyor line frame that is installed in cabinet one side and places being used in this belt conveyor line frame to drive the air cylinder driven assembly of the belt conveyor running on the belt conveyor line frame, wherein, described air cylinder driven assembly includes traction cylinder, clamping cylinder, traction plate frame and guidance set, described guidance set correspondence is installed in the relative both sides in the belt conveyor line frame, simultaneously, traction plate frame correspondence is installed on the linear bearing of this both sides guidance set, carries out guided in translation by the linear bearing of this both sides guidance set; Described clamping cylinder correspondence is located in the above-mentioned traction plate frame, and the top board of its cylinder body and this traction plate frame bottom vertically joins, simultaneously, movable pressing board in the piston rod of this clamping cylinder and this traction plate frame is fixedly connected, and is formed with the gap of passing for belt conveyor between the base plate of this movable pressing board and traction plate frame; The cylinder body correspondence of described traction cylinder is installed on the interior connection crossbeam of belt conveyor line frame, and simultaneously, the top board of the piston rod of this traction cylinder and above-mentioned traction plate frame is fixedly connected.

Described station dial mechanism is four station rotating disk mechanisms, and wherein, each station place of this four stations rotating disk mechanism is equipped with a footwear material and holds down assembly, and is used for compressing the footwear material of processing to be processed.

The power source that described footwear material holds down assembly and includes symmetrical compression bar and be used for driving this symmetrical compression bar oscilaltion.

The utility model is after having adopted such scheme, its great advantage is automaticity height of the present utility model, its upper and lower material process is finished by full-automatic mechanical fully, this traditional relatively artificial upper and lower material can be saved manpower greatly, increase work efficiency, and improve the material cycling rate, thereby be the full-automatic good condition that provides of producing of footwear material backward.

Description of drawings

Fig. 1 is axonometric drawing of the present utility model.

Fig. 2 is front view of the present utility model.

Fig. 3 is rearview of the present utility model.

Fig. 4 is side view of the present utility model.

Fig. 5 is vertical view of the present utility model.

Fig. 6 is the schematic diagram after defeated material platform of the present utility model is removed baffle plate.

Fig. 7 is the structural representation of pipeline of the present utility model.

The specific embodiment

The utility model is described in further detail below in conjunction with specific embodiment.

Referring to accompanying drawing 1 to shown in the accompanying drawing 7, the described full-automatic footwear material gilding press of present embodiment, it includes cabinet 1 and is installed in thermoprint mechanism 2 on this cabinet 1, station dial mechanism 3, defeated material platform 4, feed mechanism 5, shedding mechanism 6, pipeline 7 respectively, wherein, the described station dial of present embodiment mechanism 3 is four station rotating disk mechanisms, described thermoprint mechanism 2, feed mechanism 5, shedding mechanism 6 correspondences are installed in the periphery of this four stations rotating disk mechanism, and respectively with this four stations rotating disk mechanism on corresponding station cooperate in order; Described defeated material platform 4 correspondences are installed in last material level one side of cabinet 1, and cooperate in order with the feed mechanism 5 of the side of being located thereon; What described pipeline 7 correspondences were installed in cabinet 1 unloads material level one side, and cooperates in order with the shedding mechanism 6 of the side of being located thereon.

Described defeated material platform 4 includes blowing platform 401, feeding pushes away frame 402, guided in translation assembly 403, horizontal sliding cylinder 404, lift cylinder 405 and lift cylinder installing plate 406, wherein, described guided in translation assembly 403 symmetries are installed in the relative both sides, bottom of blowing platform 401, and, be connected with lift cylinder installing plate 406 between the linear bearing 407 of this both sides guided in translation assembly 403, simultaneously, this lift cylinder installing plate 406 drives translation by the horizontal sliding cylinder 404 that is positioned at the one side under the guiding of guided in translation assembly 403; The cylinder body of lift cylinder 405 vertically is installed on this lift cylinder installing plate 406, and its piston rod head passes that lift cylinder installing plate 406 up stretches out and pushes away frame 402 with the feeding of the side of being located thereon and joins; Described feeding pushes away the bottom that frame 402 correspondences are located at blowing platform 401, simultaneously, correspondence offers four stroke grooves 408 of arranging along its width spacing parallel arranging on this blowing platform 401, and, the length direction of every stroke groove 408 all pushes away on the translation direction of frame 402 in feeding, the multiple row vertically-arranged pin 409 that feeding pushes away frame 402 tops up stretches out from corresponding stroke groove 408 respectively, and this multiple row vertically-arranged pin 409 has nine footwear materials to shelve position 410 along the translation direction equi-spaced apart that feeding pushes away frame 402.

Described feed mechanism 5 includes feeding manipulator 501 and is installed in material loading positioning component 502 on this feeding manipulator 501, wherein, described feeding manipulator 501 includes guide frame 503, guide post 504, first Rodless cylinder 505, first linear bearing 506, material loading lift cylinder 507, discharging lift cylinder 508, the first cylinder mount pad 509 and the last stub bar 510 that is wrapped with VELCRO, described guide post 504 and first Rodless cylinder 505 level side by side are installed on the guide frame 503, and guide post 504 be located at respectively first Rodless cylinder 505 on, the below, simultaneously, on every guide post 504, all be slidingly fitted with first linear bearing 506, and, all first linear bearings 506 are fixedly connected by the piston of the first cylinder mount pad 509 and first Rodless cylinder 505, the cylinder body of described material loading lift cylinder 507 vertically is installed on the base plate of the first cylinder mount pad 509, and, base plate and last stub bar 510 that the piston rod head of this material loading lift cylinder 507 down passes the first cylinder mount pad 509 are fixedly connected, simultaneously, first guide pillar 512 that described second linear bearing of going up on the base plate that vertically is equipped with on the stub bar 510 with the first cylinder mount pad 509 511 matches, and first guide pillar, 512 correspondences are located at the relative both sides of material loading lift cylinder 507, the cylinder body of described discharging lift cylinder 508 vertically is installed on the top board of the first cylinder mount pad 509, and be positioned at the top of one first guide pillar 512, simultaneously, the piston rod head of this discharging lift cylinder 508 is corresponding with the top of this first guide pillar 512; Described material loading positioning component 502 includes location lift cylinder 513, the second cylinder mount pad 514, traversing cylinder 515, the 3rd cylinder mount pad 516, backstay 517, the described second cylinder mount pad, 514 correspondences are installed on the side of guide frame 503, the cylinder body of location lift cylinder 513 vertically is installed on the base plate of this second cylinder mount pad 514, and, the piston rod head of this location lift cylinder 513 down passes the base plate of the second cylinder mount pad 514 and the top board of the 3rd cylinder mount pad 516 is fixedly connected, simultaneously, second guide pillar 519 that the 3rd linear bearing 518 on the base plate with the second cylinder mount pad 514 matches vertically is installed on the top board of the 3rd cylinder mount pad 516, and second guide pillar, 519 correspondences are located at the relative both sides of location lift cylinder 513, the cylinder body level of described traversing cylinder 515 is installed on the side plate of the 3rd cylinder mount pad 516, and side plate and backstay 517 that the piston rod head of this traversing cylinder 515 passes the 3rd cylinder mount pad 516 join.

Described shedding mechanism 6 includes the discharging fixed mount 601 that is fixed on the cabinet 1 and is installed in unloading manipulator 602 on this discharging fixed mount 601, wherein, described unloading manipulator 602 includes discharging guide post 603, second Rodless cylinder 604, discharging linear bearing 605, its piston rod head is fitted with the acupuncture cylinder 606 of draw point, discharging pressing plate 607, pressing plate cylinder 608, described discharging guide post 603 and second Rodless cylinder, 604 levels are installed on the horizontal frame of discharging fixed mount 601, and arrange side by side up and down, simultaneously, discharging linear bearing 605 slip caps are contained on this discharging guide post 603, and the piston by cylinder mount pad and second Rodless cylinder 604 is fixedly connected, and drives translation by this second Rodless cylinder 604; The cylinder body of described acupuncture cylinder 606 and pressing plate cylinder 608 vertically is installed on the above-mentioned cylinder mount pad, and, the piston rod head of this pressing plate cylinder 608 is fixedly connected with the discharging pressing plate 607 that is positioned at its below, simultaneously, correspondingly on this discharging pressing plate 607 be penetrated with the position of running through that a piston rod head for acupuncture cylinder 606 passes.

Described pipeline 7 includes the belt conveyor line frame 701 that is installed in cabinet 1 one sides and places being used in this belt conveyor line frame 701 to drive the air cylinder driven assembly 703 of belt conveyor 702 runnings on the belt conveyor line frame 701, wherein, described air cylinder driven assembly 703 includes traction cylinder 704, clamping cylinder 705, traction plate frame 706 and guidance set 707, described guidance set 707 correspondences are installed in the relative both sides in the belt conveyor line frame 701, simultaneously, traction plate frame 706 correspondences are installed on the linear bearing 708 of this both sides guidance set 707, carry out guided in translation by the linear bearing 708 of this both sides guidance set 707; Described clamping cylinder 705 correspondences are located in the above-mentioned traction plate frame 706, and the top board of its cylinder body and this traction plate frame 706 bottom vertically joins, simultaneously, movable pressing board 709 in the piston rod of this clamping cylinder 705 and this traction plate frame 706 is fixedly connected, and is formed with the gap of passing for belt conveyor 702 between the base plate of this movable pressing board 709 and traction plate frame 706; The cylinder body correspondence of described traction cylinder 704 is installed on the connection crossbeam in the belt conveyor line frame 701, and simultaneously, the top board of the piston rod of this traction cylinder 704 and above-mentioned traction plate frame 706 is fixedly connected.

Each station place of described four station rotating disk mechanisms is equipped with a footwear material and holds down assembly 8, be used for compressing the footwear material of processing to be processed, wherein, described footwear material 8 power sources that include the compression bar 801 of a symmetry and be used for to drive these symmetrical compression bar 801 oscilaltions that hold down assembly are specially cylinder.

Below be the concrete course of work of the above-mentioned full-automatic footwear material gilding press of present embodiment: during work, at first need to shelve on the position 410 at each footwear material that feeding pushes away frame 402 and be placed with a stacked pending footwear material in advance, horizontal sliding cylinder 404 begins action afterwards, drive feeding and push away the up direction translation of material level of frame 402, after feeding pushes away frame 402 and moves to its extreme position, horizontal sliding cylinder 404 stops action, and lift cylinder 405 begins action, down driving feeding pushes away frame 402 and drops to desired location and stop, at this moment, the vertically-arranged pin 409 that feeding pushes away frame 402 tops drops to the bottom of blowing platform 401 fully, horizontal sliding cylinder 404 moves again afterwards, the drive feeding pushes away frame 402 and stops (just moving the width distance that a footwear material is shelved position 410) toward moving to desired locations in the other direction, lift cylinder 405 moves again afterwards, drive feeding and push away frame 402 toward rising, the vertically-arranged pin 409 that pushes away frame 402 tops until this feeding passes stroke groove 408 to desired location to be stopped, horizontal sliding cylinder 404 moves once more afterwards, drive feeding push away frame 402 promote to be positioned at top that pending footwear material up material level push away; After this horizontal sliding cylinder 404 arrives extreme limit of travel, location lift cylinder 513 begins action, stretching out its piston rod downwards drives the 3rd cylinder mount pad 516 and drops to desired location, locating lift cylinder 513 afterwards stops, traversing cylinder 515 actions, driving backstay 517 pushes away forward, until with above-mentioned be positioned at top that pending footwear material and be pushed on the material level till, locate lift cylinder 513 afterwards and traversing cylinder 515 resets, material loading lift cylinder 507 begins action, stub bar 510 down clings a footwear material to be processed in the driving, material loading lift cylinder 507 resets afterwards, 508 actions of discharging lift cylinder, down stretch out its piston rod, withstand the top of its corresponding one first guide pillar 512, drive its decline, and then make the last stub bar 510 that clings footwear material to be processed drop to desired location, the piston of first Rodless cylinder 505 begins action afterwards, driving the corresponding station that the first cylinder mount pad 509 moves to four station rotating disk mechanisms stops, at this moment, that footwear material that last stub bar 510 clings level footwear material of injecting this station place holds down assembly in 8, afterwards through this footwear material hold down assembly 8 compress after, discharging lift cylinder 508, first Rodless cylinder 505 resets successively, and feed mechanism 5 repeats its above course of action; Simultaneously, the rotating disk of four station rotating disk mechanisms begins to rotate, and the station place that the pending footwear material that is pressed with on it is gone to thermoprint mechanism 2 carries out the thermoprint processing; Behind electrochemical aluminum foil required on this pending footwear material thermoprint, the rotating disk of four station rotating disk mechanisms is rotated further again, at this moment, another station place on this four stations rotating disk mechanism has compressed the pending footwear material of being put for the second time by feed mechanism 5, the station place that this pending footwear material is come thermoprint mechanism 2 along with the dial rotation of four station rotating disk mechanisms carries out the thermoprint processing, simultaneously, just now in the thermoprint footwear material of required electrochemical aluminum foil equally along with the dial rotation of this four stations rotating disk mechanism, go to acupuncture cylinder 606 belows of shedding mechanism 6, at this moment, this acupuncture cylinder 606 moves at once, drive its piston rod head toward descending, draw point until its piston rod head place injects in the footwear material, the footwear material at this station place holds down assembly and 8 unclamps the footwear material afterwards, the footwear material is driven by acupuncture cylinder 606 and rises to desired location, this acupuncture cylinder 606 drives translation through second Rodless cylinder 604 afterwards, come the top of pipeline 7 until the footwear material that drives, at this moment, the pressing plate cylinder 608 of shedding mechanism 6 begins action, drive the discharging pressing plate 607 of its bottom toward pressing down, till the footwear material being broken away from the draw point of acupuncture cylinder 606 and being depressed on the belt conveyor 702 of pipeline 7, pressing plate cylinder 608 resets afterwards, shedding mechanism 6 repeats its above course of action, and pipeline 7 is waited until the footwear of the processing material Zhang Cihou that is stacked with setting on its belt conveyor 702, this pipeline 7 just can begin to carry out haul, at this moment, concrete condition is: the clamping cylinder 705 of pipeline 7 drives movable pressing board 709 declines and compresses belt conveyor 702, belt conveyor 702 running under 704 tractions of traction cylinder afterwards, finish the once transportation of material, clamping cylinder 705 resets afterwards, drive movable pressing board 709 and unclamp belt conveyor 702, prepare action next time; When the pending footwear material at the last material level place of defeated material platform 4 is processed fall after, at this moment, defeated material platform 4 repeats its above course of action, to be positioned at top that stacked pending footwear material material level on it is pushed into, backward whenever the pending footwear material at the last material level place of defeated material platform 4 is processed fall after, the footwear material that feeding pushes away frame 402 is shelved pending footwear material on the position 410 by the horizontal sliding forward in order of above-mentioned operating principle, till the pending footwear material in this defeated material platform 4 is processed one by one.

The embodiment of the above is the preferred embodiment of the utility model only, is not to limit practical range of the present utility model with this, so the variation that all shapes according to the utility model, principle are done all should be encompassed in the protection domain of the present utility model.

Claims (7)

1. full-automatic footwear material gilding press, it includes cabinet (1) and is installed in thermoprint mechanism (2) and station dial mechanism (3) on this cabinet (1) respectively, it is characterized in that: it also includes defeated material platform (4), feed mechanism (5), shedding mechanism (6), the pipeline (7) that is installed in respectively on the cabinet (1), wherein, described thermoprint mechanism (2), feed mechanism (5), shedding mechanism (6) correspondence are installed in the periphery of station dial mechanism (3), and respectively with this station dial mechanism (3) on corresponding station cooperate in order; Described defeated material platform (4) correspondence is installed in last material level one side of cabinet (1), and cooperates in order with the feed mechanism (5) of the side of being located thereon; What described pipeline (7) correspondence was installed in cabinet (1) unloads material level one side, and cooperates in order with the shedding mechanism (6) of the side of being located thereon.

2. a kind of full-automatic footwear material gilding press according to claim 1, it is characterized in that: described defeated material platform (4) includes blowing platform (401), feeding pushes away frame (402), guided in translation assembly (403), horizontal sliding cylinder (404), lift cylinder (405) and lift cylinder installing plate (406), wherein, described guided in translation assembly (403) symmetry is installed in the relative both sides, bottom of blowing platform (401), and, be connected with lift cylinder installing plate (406) between the linear bearing (407) of these both sides guided in translation assemblies (403), simultaneously, this lift cylinder installing plate (406) drives translation by the horizontal sliding cylinder (404) that is positioned at the one side under the guiding of guided in translation assembly (403); The cylinder body of lift cylinder (405) vertically is installed on this lift cylinder installing plate (406), and its piston rod head passes that lift cylinder installing plate (406) up stretches out and pushes away frame (402) with the feeding of the side of being located thereon and joins; Described feeding pushes away the bottom that frame (402) correspondence is located at blowing platform (401), simultaneously, go up correspondence at this blowing platform (401) and offer many stroke grooves (408) of arranging along its width spacing parallel arranging, and, the length direction of every stroke groove (408) all pushes away on the translation direction of frame (402) in feeding, the multiple row vertically-arranged pin (409) that feeding pushes away frame (402) top up stretches out from corresponding stroke groove (408) respectively, and this multiple row vertically-arranged pin (409) has a plurality of footwear materials to shelve position (410) along the translation direction equi-spaced apart that feeding pushes away frame (402).

3. a kind of full-automatic footwear material gilding press according to claim 1, it is characterized in that: described feed mechanism (5) includes feeding manipulator (501) and is installed in material loading positioning component (502) on this feeding manipulator (501), wherein, described feeding manipulator (501) includes guide frame (503), guide post (504), first Rodless cylinder (505), first linear bearing (506), material loading lift cylinder (507), discharging lift cylinder (508), the first cylinder mount pad (509) and the last stub bar (510) that is wrapped with VELCRO, described guide post (504) and first Rodless cylinder (505) level side by side are installed on the guide frame (503), and guide post (504) be located at respectively first Rodless cylinder (505) on, the below, simultaneously, on every guide post (504), all be slidingly fitted with first linear bearing (506), and, all first linear bearings (506) are fixedly connected by the piston of the first cylinder mount pad (509) with first Rodless cylinder (505), the cylinder body of described material loading lift cylinder (507) vertically is installed on the base plate of the first cylinder mount pad (509), and, base plate and last stub bar (510) that the piston rod head of this material loading lift cylinder (507) down passes the first cylinder mount pad (509) are fixedly connected, simultaneously, first guide pillar (512) that described second linear bearing of going up on the base plate that vertically is equipped with on the stub bar (510) with the first cylinder mount pad (509) (511) matches, and first guide pillar (512) correspondence is located at the relative both sides of material loading lift cylinder (507), the cylinder body of described discharging lift cylinder (508) vertically is installed on the top board of the first cylinder mount pad (509), and be positioned at the top of one first guide pillar (512), simultaneously, the piston rod head of this discharging lift cylinder (508) is corresponding with the top of this first guide pillar (512); Described material loading positioning component (502) includes location lift cylinder (513), the second cylinder mount pad (514), traversing cylinder (515), the 3rd cylinder mount pad (516), backstay (517), described second cylinder mount pad (514) correspondence is installed on the side of guide frame (503), the cylinder body of location lift cylinder (513) vertically is installed on the base plate of this second cylinder mount pad (514), and, the piston rod head of this location lift cylinder (513) down passes the base plate of the second cylinder mount pad (514) and the top board of the 3rd cylinder mount pad (516) is fixedly connected, simultaneously, second guide pillar (519) that the 3rd linear bearing (518) on the base plate with the second cylinder mount pad (514) matches vertically is installed on the top board of the 3rd cylinder mount pad (516), and second guide pillar (519) correspondence is located at the relative both sides of location lift cylinder (513), the cylinder body level of described traversing cylinder (515) is installed on the side plate of the 3rd cylinder mount pad (516), and side plate and backstay (517) that the piston rod head of this traversing cylinder (515) passes the 3rd cylinder mount pad (516) join.

4. a kind of full-automatic footwear material gilding press according to claim 1, it is characterized in that: described shedding mechanism (6) includes the discharging fixed mount (601) that is fixed on the cabinet (1) and is installed in unloading manipulator (602) on this discharging fixed mount (601), wherein, described unloading manipulator (602) includes discharging guide post (603), second Rodless cylinder (604), discharging linear bearing (605), its piston rod head is fitted with the acupuncture cylinder (606) of draw point, discharging pressing plate (607), pressing plate cylinder (608), described discharging guide post (603) and second Rodless cylinder (604) level are installed on the horizontal frame of discharging fixed mount (601), and arrange side by side up and down, simultaneously, discharging linear bearing (605) slip cap is contained on this discharging guide post (603), and the piston by cylinder mount pad and second Rodless cylinder (604) is fixedly connected, and drives translation by this second Rodless cylinder (604); The cylinder body of described acupuncture cylinder (606) and pressing plate cylinder (608) vertically is installed on the above-mentioned cylinder mount pad, and, the piston rod head of this pressing plate cylinder (608) is fixedly connected with the discharging pressing plate (607) that is positioned at its below, simultaneously, go up correspondence at this discharging pressing plate (607) and be penetrated with the position of running through that a piston rod head for acupuncture cylinder (606) passes.

5. a kind of full-automatic footwear material gilding press according to claim 1, it is characterized in that: described pipeline (7) includes the belt conveyor line frame (701) that is installed in cabinet (1) one side and places being used in this belt conveyor line frame (701) to drive the air cylinder driven assembly (703) of belt conveyor (702) running on the belt conveyor line frame (701), wherein, described air cylinder driven assembly (703) includes traction cylinder (704), clamping cylinder (705), traction plate frame (706) and guidance set (707), described guidance set (707) correspondence is installed in the relative both sides in the belt conveyor line frame (701), simultaneously, traction plate frame (706) correspondence is installed on the linear bearing (708) of this both sides guidance set (707), carries out guided in translation by the linear bearing (708) of this both sides guidance set (707); Described clamping cylinder (705) correspondence is located in the above-mentioned traction plate frame (706), and the top board of its cylinder body and this traction plate frame (706) bottom vertically joins, simultaneously, movable pressing board (709) in the piston rod of this clamping cylinder (705) and this traction plate frame (706) is fixedly connected, and is formed with the gap of passing for belt conveyor (702) between the base plate of this movable pressing board (709) and traction plate frame (706); The cylinder body correspondence of described traction cylinder (704) is installed on the interior connection crossbeam of belt conveyor line frame (701), and simultaneously, the top board of the piston rod of this traction cylinder (704) and above-mentioned traction plate frame (706) is fixedly connected.

6. a kind of full-automatic footwear material gilding press according to claim 1, it is characterized in that: described station dial mechanism (3) is four station rotating disk mechanisms, wherein, each station place of this four stations rotating disk mechanism is equipped with a footwear material and holds down assembly (8), is used for compressing the footwear material of processing to be processed.

7. a kind of full-automatic footwear material gilding press according to claim 6 is characterized in that: described footwear material hold down assembly (8) include the compression bar (801) of symmetry and the power source that is used for driving this symmetrical compression bar (801) oscilaltion.

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