CN203580329U

CN203580329U - Fully-automatic thermal-transfer-printing gold-stamping machine for shoe materials

Info

Publication number: CN203580329U
Application number: CN201320611209.2U
Authority: CN
Inventors: 梁永棋; 刘兆谋
Original assignee: Foshan Nanhaiguolin Electronics Mechanics Technology Co Ltd
Current assignee: Foshan Nanhaiguolin Electronics Mechanics Technology Co Ltd
Priority date: 2013-09-30
Filing date: 2013-09-30
Publication date: 2014-05-07
Anticipated expiration: 2023-09-30

Abstract

The utility model provides a fully-automatic thermal-transfer-printing stamping machine for shoe materials. The fully-automatic thermal-transfer-printing gold-stamping machine for the shoe materials comprises a case, as well as a stamping mechanism, a multi-working-position rotary disc mechanism, a material-conveying platform, a loading mechanism, an unloading mechanism, a conveying line and a shaping location mechanism which are installed on the case, wherein the stamping mechanism, the loading mechanism and the unloading mechanism are correspondingly installed at the periphery of the multi-working-position rotary disc mechanism, and the material-conveying platform is correspondingly installed at one side of the loading position of the case and orderly matched with the loading mechanism above the material-conveying platform; the conveying line is correspondingly installed at one side of the unloading position of the case and orderly matched with the unloading mechanism above the conveying line; the shaping location mechanism is installed on the case and arranged at the periphery of the multi-working-position rotary disc mechanism, and located between the loading mechanism and the stamping mechanism, and the shaping location mechanism, the stamping mechanism, the loading mechanism and the unloading mechanism are orderly matched with corresponding working positions on the multi-working-position rotary disc mechanism respectively. According to the fully-automatic thermal-transfer-printing gold-stamping machine for the shoe materials, the processed quality of the shoe materials are ensured, and the displacements of the shoe materials during a transport process are prevented.

Description

The hot transfer printing gilding press of a kind of Full-automatic shoe material

Technical field

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

Background technology

Known in the industry, gold stamping also referred to as thermoprint, a kind of printing decoration technique, is exactly by metallic plate heating, executes paper tinsel, impresses out golden word or pattern on printed matter.Along with the develop rapidly of gilding technology, footwear material gilding press arises at the historic moment.At present, existing footwear material gilding press all tends to electromechanical integration development, with the work of machinery replacement manpower, not only save manpower but also can reduce labour intensity, but footwear material is located inaccuracy in transportation, be difficult to guarantee the quality of the rear footwear material of processing, meanwhile, in feeding, discharge process footwear material fixing unstable, transport the problem such as slow and reduced widely operating efficiency.。

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, and a kind of reliable, footwear material accurate positioning reasonable in design, the stable hot transfer printing gilding press of Full-automatic shoe material efficiently of loading and unloading are provided.

For achieving the above object, technical scheme provided by the utility model is: the hot transfer printing gilding press of a kind of Full-automatic shoe material, it includes cabinet and is arranged on respectively thermoprint mechanism, station dial mechanism, conveying platform, feed mechanism, shedding mechanism, pipeline and the shaping detent mechanism on cabinet, wherein, described thermoprint mechanism, feed mechanism, shedding mechanism correspondence is arranged on the periphery of station dial mechanism, conveying platform correspondence is arranged on upper material level one side of cabinet, and coordinates in order with the feed mechanism of the side of being located thereon; What described pipeline correspondence was arranged on cabinet unloads material level one side, and coordinates in order with the shedding mechanism of the side of being located thereon; Described shaping detent mechanism is arranged on cabinet and is placed in station dial mechanism periphery, this shaping detent mechanism is between feed mechanism and thermoprint mechanism, and itself and thermoprint mechanism, feed mechanism, shedding mechanism coordinate in order with the corresponding station in station dial mechanism respectively.

Described shaping detent mechanism includes locating rack joint chair, positioning cylinder framework, lift cylinder, front air cylinder expansion link, front air cylinder seat and left and right positioning component, left and right positioning component is by left and right positioning seat and a left side, right cylinder composition, wherein, positioning cylinder framework is fixedly mounted on locating rack joint chair top, its one end bridge joint away from locating rack joint chair has front air cylinder expansion link, with the front air cylinder cover for seat of front air cylinder, be connected on this front air cylinder expansion link, the front guide post being slidably mounted on described front air cylinder seat is driven by front air cylinder, it is provided with prelocalization plate near locating rack joint chair one end, this prelocalization plate be arranged on locating rack joint chair towards it----a side on rear position plate coordinate location, described rear position plate is driven by the rear guide post being arranged in locating rack joint chair, and lift cylinder is arranged on positioning cylinder frame roof and between locating rack joint chair and front air cylinder expansion link, its piston rod through the left and right positioning seat below positioning cylinder framework and positioning cylinder framework, be connected and be arranged on left and right positioning seat on vertically run through positioning cylinder framework lifting guide post coordinate lifting, this lifting guide post correspondence is located at the relative both sides of lift cylinder, a described left side, right cylinder is arranged on respectively on the relative two sides of left and right positioning seat length direction, and left, right cylinder respectively by piston rod pass the side that is arranged on separately with separately one to one left and right backstay be connected.

Described feed mechanism includes guide frame, guide post, Rodless cylinder, the first linear bearing, material loading lift cylinder, cylinder mount pad and vacuum slot, wherein, described guide post and Rodless cylinder vertically side by side level be arranged on guide frame, and guide post is located at respectively the upper of Rodless cylinder, below, simultaneously, on every guide post, be all slidably fitted with the first linear bearing, and all the first linear bearings are fixedly connected by the piston of cylinder mount pad and Rodless cylinder, make its piston of following Rodless cylinder realize reciprocal translational motion, described material loading lift cylinder is vertically arranged on the base plate of cylinder mount pad, its piston rod head is down fixedly connected through base plate and the vacuum slot of cylinder mount pad, the guide pillar matching with the second linear bearing on the base plate of cylinder mount pad is vertically installed on described vacuum slot, and this guide pillar correspondence is located at the relative both sides of material loading lift cylinder, on described cylinder mount pad top board, discharging lift cylinder is vertically installed, this discharging lift cylinder is positioned at the top of a guide pillar, and meanwhile, the piston rod head of this discharging lift cylinder is corresponding with the top of this guide pillar.

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

Described footwear material holds down assembly and includes symmetrical compression bar and for driving the power source of this symmetrical compression bar oscilaltion.

The utility model is adopting after such scheme, its great advantage is by shaping detent mechanism being installed between feed mechanism and thermoprint mechanism, for the footwear material before processing is accurately located, guarantee the quality after the processing of footwear material, meanwhile, vacuum slot is installed on feed mechanism, is made to fix better footwear material, prevent that footwear material is shifted in transportation, better realize the upper material process of footwear material gilding press.

Accompanying drawing explanation

Fig. 1 is stereogram of the present utility model.

Fig. 2 is the stereogram of shaping detent mechanism in the utility model.

Fig. 3 is the front view of shaping detent mechanism in the utility model.

Fig. 4 is the left view of shaping detent mechanism in the utility model.

Fig. 5 is the stereogram of feed mechanism in the utility model.。

The specific embodiment

Below in conjunction with specific embodiment, the utility model is described in further detail.

Referring to accompanying drawing 1 to shown in accompanying drawing 5, the hot transfer printing gilding press of Full-automatic shoe material described in the present embodiment, it includes cabinet 1 and is arranged on respectively the thermoprint mechanism 2 on cabinet 1, station dial mechanism 3, conveying platform 4, feed mechanism 5, shedding mechanism 6, pipeline 7 and shaping detent mechanism 8, wherein, station dial mechanism 3 is four station turnplate mechanisms, described thermoprint mechanism 2, feed mechanism 5, shedding mechanism 6 and shaping detent mechanism 8 correspondences are arranged on four station turnplate mechanism peripheries, conveying platform 4 correspondences are arranged on upper material level one side of cabinet 1, and coordinate in order with the feed mechanism 5 of the side of being located thereon, what described pipeline 7 correspondences were arranged on cabinet 1 unloads material level one side, and coordinates in order with the shedding mechanism 6 of the side of being located thereon, described shaping detent mechanism 8 is between feed mechanism 5 and thermoprint mechanism 2, and itself and thermoprint mechanism 2, feed mechanism 5, shedding mechanism 6 coordinate in order with the corresponding station in four station turnplate mechanisms respectively.

Described shaping detent mechanism 8 includes locating rack joint chair 801, positioning cylinder framework 802, lift cylinder 803, front air cylinder expansion link 804, front air cylinder seat 805 and left and right positioning component 809, left and right positioning component 809 is by left and right positioning seat 810 and a left side,

right cylinder

811, 812 compositions, wherein, positioning cylinder framework 802 is fixedly mounted on locating rack joint chair 801 tops, its one end bridge joint away from locating rack joint chair 801 has front air cylinder expansion link 804, with the front air cylinder seat 805 of front air cylinder 807, be socketed on this front air cylinder expansion link 804, the front guide post 806 being slidably mounted on described front air cylinder seat 805 is driven by front air cylinder 807, it is provided with prelocalization plate 808 near locating rack joint chair 801 one end, this prelocalization plate 808 be arranged on locating rack joint chair 801 towards it----a side on rear position plate 815 coordinate location, described rear position plate 815 is driven by the rear guide post 816 being arranged in locating rack joint chair 801, and lift cylinder 803 is arranged on positioning cylinder framework 802 tops and between locating rack joint chair 801 and front air cylinder expansion link 804, its piston rod through positioning cylinder framework 802, be connected with the left and right positioning seat 810 of positioning cylinder framework 802 belows and be arranged on left and right positioning seat 810 on vertically run through positioning cylinder framework 802 lifting guide post 814 coordinate lifting, these lifting guide post 814 correspondences are located at the relative both sides of lift cylinder 809, a described left side,

right cylinder

811, 812 are arranged on respectively on the relative two sides of left and right positioning seat 810 length directions, and left,

right cylinder

811, 812 respectively by piston rod pass the side that is arranged on separately with separately one to one left and right backstay 813 be connected.

Described feed mechanism 5 includes guide frame 501, guide post 502, Rodless cylinder 503, the first linear bearing 504, material loading lift cylinder 505, cylinder mount pad 506 and vacuum slot 507, wherein, described guide post 502 and Rodless cylinder 503 vertically side by side level be arranged on guide frame 501, and guide post 502 is located at respectively the upper of Rodless cylinder 503, below, simultaneously, on every guide post 502, be all slidably fitted with the first linear bearing 504, and all the first linear bearings 504 are fixedly connected by cylinder mount pad 506 and the piston of Rodless cylinder 503, make its piston of following Rodless cylinder 503 realize reciprocal translational motion, described material loading lift cylinder 505 is vertically arranged on the base plate of cylinder mount pad 506, its piston rod head is down fixedly connected through base plate and the vacuum slot 507 of cylinder mount pad 506, the guide pillar 509 matching with the second linear bearing 508 on the base plate of cylinder mount pad 506 is vertically installed on described vacuum slot 507, and these guide pillar 509 correspondences are located at the relative both sides of material loading lift cylinder 505, on described cylinder mount pad 506 top boards, discharging lift cylinder 510 is vertically installed, this discharging lift cylinder 510 is positioned at the top of a guide pillar 509, and meanwhile, the piston rod head of this discharging lift cylinder 510 is corresponding with the top of this guide pillar 509.

Each station place of four described station turnplate mechanisms is equipped with a footwear material and holds down assembly 9, for compressing the footwear material of processing to be processed, this footwear material holds down assembly and 9 includes symmetrical compression bar 901 and for driving the cylinder of these symmetrical compression bar 901 oscilaltions.

Be below the specific works process of the hot transfer printing gilding press of the above-mentioned Full-automatic shoe material of the present embodiment: during work, first conveying platform 4 operates, footwear material to be processed is transported to feed mechanism 5, when footwear material is transported to after assigned address, material loading lift cylinder 505 starts action, drive vacuum slot 507 down to hold a footwear material to be processed, material loading lift cylinder 505 resets afterwards, after material loading lift cylinder 505 resets, discharging lift cylinder 510 moves, down stretch out its piston rod, withstand the top of its corresponding guide pillar 509, drive its decline, and then make the vacuum slot 507 that holds footwear material to be processed drop to desired location, the piston of Rodless cylinder 503 starts action afterwards, with dynamic air cylinder mount pad 506, move to the corresponding station of four station turnplate mechanisms, now, the footwear material that the footwear material level to be processed that vacuum slot 507 holds injects this station place holds down assembly in 9, after the footwear material to be processed holding on vacuum slot 507 is laid down, discharging lift cylinder 510, Rodless cylinder 503 resets successively, prepare action next time, circulation in this way, simultaneously, the rotating disk of four station turnplate mechanisms starts to rotate, the station place that the pending footwear material being pressed with on it is gone to shaping detent mechanism positions, when pending footwear material goes to position location, lift cylinder 803 drives the plane of positioning component 809 liftings in left and right to footwear material place, left,

right cylinder

811, 812 drive respectively each self-corresponding left and right backstay 813 to be adjacent to respectively footwear material dual-side to be processed, make footwear material be adjusted upward to optimum position at right and left, before front air cylinder 807 drives, guide post 806 moves toward the direction near footwear material to be processed, by prelocalization plate 808, coordinate with rear position plate 815, press close to respectively the rear and front end of footwear material, make footwear material be adjusted upward to optimum position in front and back, adjust the station place that footwear material to be processed behind position goes to thermoprint mechanism 2 by the dial rotation of four station turnplate mechanisms again and carry out thermoprint processing, when after electrochemical aluminum foil required on this footwear material to be processed thermoprint, the rotating disk of four station turnplate mechanisms is rotated further again, now, another station place in this four station turnplates mechanism has compressed the footwear material to be processed of being put for the second time by feed mechanism 5, the station place that this footwear material to be processed is come thermoprint mechanism 2 along with the dial rotation of four station turnplate mechanisms carries out thermoprint processing, simultaneously, just now in thermoprint the footwear material of required electrochemical aluminum foil equally along with the dial rotation of this four station turnplates mechanism, go to shedding mechanism 6 and carry out discharging, finally by pipeline 7, the footwear material processing is transported away.

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

Claims

1. the hot transfer printing gilding press of Full-automatic shoe material, it includes cabinet (1) and is arranged on respectively thermoprint mechanism (2), station dial mechanism (3), conveying platform (4), feed mechanism (5), shedding mechanism (6), the pipeline (7) on cabinet (1), wherein, described thermoprint mechanism (2), feed mechanism (5), shedding mechanism (6) correspondence are arranged on station dial mechanism (3) periphery, conveying platform (4) correspondence is arranged on upper material level one side of cabinet (1), and coordinates in order with the feed mechanism (5) of the side of being located thereon; What described pipeline (7) correspondence was arranged on cabinet (1) unloads material level one side, and coordinates in order with the shedding mechanism (6) of the side of being located thereon; It is characterized in that: it also includes the shaping detent mechanism (8) that is arranged on cabinet (1) and goes up and be placed in station dial mechanism (3) periphery, this shaping detent mechanism (8) is positioned between feed mechanism (5) and thermoprint mechanism (2), and itself and thermoprint mechanism (2), feed mechanism (5), shedding mechanism (6) coordinate in order with the corresponding station in station dial mechanism (3) respectively.

2. the hot transfer printing gilding press of a kind of Full-automatic shoe material according to claim 1, it is characterized in that: described shaping detent mechanism (8) includes locating rack joint chair (801), positioning cylinder framework (802), lift cylinder (803), front air cylinder expansion link (804), front air cylinder seat (805) and left and right positioning component (809), left and right positioning component (809) is by left and right positioning seat (810) and a left side, right cylinder (811, 812) composition, wherein, positioning cylinder framework (802) is fixedly mounted on locating rack joint chair (801) top, its one end bridge joint away from locating rack joint chair (801) has front air cylinder expansion link (804), with the front air cylinder seat (805) of front air cylinder (807), be socketed on this front air cylinder expansion link (804), the front guide post (806) being slidably mounted on described front air cylinder seat (805) is driven by front air cylinder (807), it is provided with prelocalization plate (808) near locating rack joint chair (801) one end, this prelocalization plate (808) be arranged on locating rack joint chair (801) towards it----a side on rear position plate (815) coordinate location, described rear position plate (815) is driven by the rear guide post (816) being arranged in locating rack joint chair (801), and lift cylinder (803) is arranged on positioning cylinder framework (802) top and be positioned at locating rack joint chair (801) and front air cylinder expansion link (804) between, its piston rod through the left and right positioning seat (810) below positioning cylinder framework (802) and positioning cylinder framework (802), be connected and be arranged on left and right positioning seat (810) on vertically run through positioning cylinder framework (802) lifting guide post (814) coordinate lifting, this lifting guide post (814) correspondence is located at the relative both sides of lift cylinder (809), a described left side, right cylinder (811, 812) be arranged on respectively on the relative two sides of left and right positioning seat (810) length direction, and left, right cylinder (811, 812) respectively by piston rod pass the side that is arranged on separately with separately one to one left and right backstay (813) be connected.

3. the hot transfer printing gilding press of a kind of Full-automatic shoe material according to claim 1, it is characterized in that: described feed mechanism (5) includes guide frame (501), guide post (502), Rodless cylinder (503), the first linear bearing (504), material loading lift cylinder (505), cylinder mount pad (506) and vacuum slot (507), wherein, described guide post (502) and Rodless cylinder (503) vertically side by side level be arranged on guide frame (501), and guide post (502) is located at respectively the upper of Rodless cylinder (503), below, simultaneously, on every guide post (502), be all slidably fitted with the first linear bearing (504), and all the first linear bearings (504) are fixedly connected by cylinder mount pad (506) and the piston of Rodless cylinder (503), make its piston of following Rodless cylinder (503) realize reciprocal translational motion, described material loading lift cylinder (505) is vertically arranged on the base plate of cylinder mount pad (506), its piston rod head is down fixedly connected through base plate and the vacuum slot (507) of cylinder mount pad (506), the guide pillar (509) matching with the second linear bearing (508) on the base plate of cylinder mount pad (506) is vertically installed on described vacuum slot (507), and this guide pillar (509) correspondence is located at the relative both sides of material loading lift cylinder (505), on described cylinder mount pad (506) top board, discharging lift cylinder (510) is vertically installed, this discharging lift cylinder (510) is positioned at the top of a guide pillar (509), meanwhile, the piston rod head of this discharging lift cylinder (510) is corresponding with the top of this guide pillar (509).

4. the hot transfer printing gilding press of a kind of Full-automatic shoe material according to claim 1, it is characterized in that: described station dial mechanism (3) is four station turnplate mechanisms, wherein, each station place of this four station turnplates mechanism is equipped with a footwear material and holds down assembly (9), for compressing the footwear material of processing to be processed.

5. a kind of Full-automatic shoe material gilding press according to claim 4, is characterized in that: described footwear material hold down assembly (9) include symmetrical compression bar (901) and for driving the power source of this symmetrical compression bar (901) oscilaltion.