CN220298089U - High-efficient gilt device of electrochemical aluminium - Google Patents

Abstract

The utility model relates to an electric aluminum high-efficiency gold stamping device which comprises a frame, wherein the frame comprises a table top, a gold stamping mechanism is arranged on the frame, a conveyor belt positioned above the table top is arranged on the frame, a feeding mechanism is arranged at the front end of the table top, the feeding mechanism comprises a feeding bin and a feeding assembly, the feeding bin is in a cube shape with an open upper end, the feeding bin is arranged on one side of the front end of the table top on the frame, the upper end of the feeding bin is lower than the table top, the feeding assembly comprises a supporting plate, a feeding suction nozzle, a first cylinder and a second cylinder, the first cylinder is horizontally arranged on the frame and parallel to the conveying direction of the conveyor belt, an output shaft of the first cylinder is connected with a sliding block which is arranged on the frame in a sliding manner, the second cylinder is vertically arranged on the sliding block, the supporting plate is connected to the output shaft of the second cylinder and positioned above the open upper end of the feeding bin, and the feeding suction nozzle is connected to the supporting plate and faces the feeding bin. The high-efficiency gilt device of electrochemical aluminium can realize automatic feeding and discharging of printing stock, saves manpower, and improves efficiency.

Description

High-efficient gilt device of electrochemical aluminium

Technical Field

The utility model relates to the technical field of printing, in particular to an electric aluminum high-efficiency gold stamping device.

Background

The gold stamping process uses the heat pressing transfer distance to transfer the aluminum layer in the alumite onto the surface of a printing stock to form a special metal effect, and the alumite is used as a main material for gold stamping, so that gold stamping is also called as alumite hot stamping.

The gilt of platelike stock such as cardboard is accomplished by gilt device, gilt mechanism is main working element of gilt device, gilt mechanism is including being used for heating and pressing down the gilt first subassembly of electric aluminium foil, be used for with electric aluminium foil around locating the receipts of gilt first subassembly and be used for driving the drive assembly who scalds first subassembly, drive assembly drive gilt first subassembly is pressed down and is accomplished gilt on the platelike stock that lies in gilt first subassembly below, in the gilt device of above-mentioned prior art, place platelike stock in gilt first subassembly below or with the last unloading operation that platelike stock took out from gilt first subassembly below all need the manual work participation of great degree, comparatively extravagant manpower, and the efficiency is not high, and there is certain potential safety hazard.

The present utility model has been made in view of the above problems.

Disclosure of Invention

The utility model provides an electric aluminum high-efficiency gold stamping device, which solves the problems existing in the use process of the prior art.

The technical scheme of the utility model is realized as follows:

the utility model provides an high-efficient gilt device of electrochemical aluminium, includes the frame, the frame includes the mesa, be provided with the gilt mechanism that is located the mesa top in the frame, be provided with the conveyer belt that is located the mesa top in the frame, the mesa front end is provided with feed mechanism, feed mechanism includes feed bin and material loading subassembly, the feed bin is upper end open-ended cube form, the upper end that is located mesa front end one side and feed bin in the frame is arranged in to the feed bin is less than the mesa, the material loading subassembly includes backup pad, material loading suction nozzle, first cylinder and second cylinder, first cylinder level sets up in the frame parallel with the direction of delivery of conveyer belt, the output shaft of first cylinder is connected with the sliding block that slides and set up in the frame, the vertical setting in the sliding block of second cylinder, the backup pad is connected in the upper end opening top that is located the feed bin on the output shaft of second cylinder, the material loading suction nozzle is connected in the backup pad towards the feed bin.

Preferably, the feeding bin is opened towards the rear side of the frame, a lifting groove communicated with the opening at the rear side of the feeding bin is formed in the feeding bin bottom plate, a screw rod lifting mechanism positioned at one side of the opening at the rear side of the feeding bin is arranged on the frame, and a lifting plate which is horizontally arranged and can pass through the lifting groove is connected to a movable seat of the screw rod lifting mechanism.

Preferably, the two side plates of the upper bin are provided with material placing grooves which upwards penetrate through the side plates of the upper bin.

Preferably, the mesa rear end is provided with receiving mechanism, receiving mechanism includes deflector and receipts feed bin, the deflector is vertical to be set up in the frame and the deflector upper end links up with the mesa to the mesa is crooked, receive the feed bin and be front side open-ended cube form, receive the feed bin and arrange in the frame and receive the front side opening of feed bin towards the deflector, receive and have blanking clearance between the front side opening of feed bin and the deflector.

Preferably, the guide plate is provided with a pushing port aligned with the front side opening of the receiving bin, one side of the guide plate, which is far away from the receiving bin, is horizontally provided with a third cylinder with an output shaft aligned with the pushing port, and the output shaft of the third cylinder can penetrate through the pushing port to extend into the receiving bin.

Preferably, a limiting plate in a circular arc shape is arranged above the bending part of the guide plate, and a guide gap is formed between the limiting plate and the bending part of the guide plate.

Preferably, the upper end of the receiving bin is in an opening shape, the lower end of the rear side plate of the receiving bin is hinged to the frame, the upper end of the rear side plate of the receiving bin is connected with a pulling plate, and a pulling hole is formed in the pulling plate.

Preferably, a plurality of rollers are rotatably arranged behind the receiving bin on the frame, a discharging groove through which the plurality of rollers can pass is formed in the rear side plate of the receiving bin, and the rollers can enter the receiving bin through the discharging groove when the receiving bin swings.

In summary, the beneficial effects of the utility model are as follows:

1. through the action of the feeding mechanism, printing materials stacked in the feeding bin can be automatically fed to the lower part of the stamping mechanism to carry out stamping operation, and the feeding operation and the stamping operation can be continuously carried out, so that the manual participation degree in the stamping operation process is reduced, the manpower is saved, the efficiency is improved, and the potential safety hazard of workers in feeding or discharging from the lower part of the stamping mechanism is avoided;

2. through the effect of unloading mechanism, make gilt printing stock that accomplishes constantly fall and accumulate in receiving the feed bin gradually and the pile is in receiving the feed bin, realize the automatic unloading of printing stock, saved the manpower, improved efficiency.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an enlarged schematic view of FIG. 1 at A;

FIG. 3 is a schematic diagram of the structure of FIG. 1 from a top view;

FIG. 4 is a schematic diagram of the structure of the upper silo in the utility model;

fig. 5 is a schematic structural view of a receiving bin in the utility model.

In the figure: 1. a frame; 11. a table top; 12. a roller; 2. a gold stamping mechanism; 21. gilt head assembly; 22. a winding and unwinding assembly; 23. a drive assembly; 3. a conveyor belt; 4. a feeding mechanism; 41. feeding a bin; 411. a lifting groove; 412. a material placing groove; 42. a support plate; 43. a feeding suction nozzle; 44. a first cylinder; 45. a second cylinder; 46. a sliding block; 5. a screw lifting mechanism; 51. a lifting plate; 6. a blanking mechanism; 61. a guide plate; 62. a material receiving bin; 621. pulling the plate; 622. pulling the hole; 623. a discharge chute; 63. blanking gaps; 64. a third cylinder; 65. a limiting plate; 66. and a material guiding gap.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to fig. 1 to 5 of the embodiments of the present utility model, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in the figure, an electrochemical aluminum high-efficiency gold stamping device comprises a frame 1, the frame 1 includes mesa 11, be provided with the gold stamping mechanism 2 that is located mesa 11 top in the frame 1, gold stamping mechanism 2 includes gold stamping head subassembly 21, receive and release subassembly 22 and drive assembly 23, drive assembly 23 is fixed to be set up in frame 1, receive and release subassembly 22 and gold stamping head subassembly 21 connect in drive assembly 23, be provided with the conveyer belt 3 that is located mesa 11 top in frame 1, mesa 11 is slightly less than the thickness of stock in the clearance of conveyer belt 3, mesa 11 front end is provided with feed mechanism 4, feed mechanism 4 includes feed bin 41 and material loading subassembly, feed bin 41 is upper end open-ended cube form, feed bin 41 is arranged in frame 1 and is located mesa 11 front end one side and the upper end of feed bin 41 is less than mesa 11, the feed bin subassembly includes backup pad 42, feed bin 43, first cylinder 44 and second cylinder 45, first cylinder 44 level sets up in frame 1 and is provided with the conveyer belt 3 in parallel with the first cylinder 45 and is connected with the output shaft 42 in the direction of the vertical cylinder 45, and the output shaft 45 is located in the vertical cylinder 45 that is connected to the upper end of the frame 45.

Specifically, the upper bin 41 is opened towards the rear side of the frame 1, a lifting groove 411 communicated with the opening at the rear side of the upper bin 41 is formed in the bottom plate of the upper bin 41, a screw rod lifting mechanism positioned at one side of the opening at the rear side of the upper bin 41 is arranged on the frame 1, and a lifting plate 51 which is horizontally arranged and can pass through the lifting groove 411 is connected to a moving seat of the screw rod lifting mechanism.

In the above embodiment, the plate-shaped printing objects such as cardboard to be gilded are stacked in the feeding bin 41, the second cylinder 45 drives the supporting plate 42 to move downwards along with the feeding suction nozzle 43 to approach the printing objects, after the printing objects are sucked by the feeding suction nozzle 43, the second cylinder 45 drives the supporting plate 42 to drive the printing objects sucked by the feeding suction nozzle 43 to rise to the height of the table top 11, then the first cylinder 44 drives the sliding block 46 to drive the printing objects sucked by the feeding suction nozzle 43 to move towards the table top 11, so that the end parts of the printing objects enter the gap between the table top 11 and the conveyor belt 3, the printing objects are driven by the conveyor belt to move towards the rear end of the table top 11 on the table top 11, when the printing objects move below the gilding head assembly 21, the conveyor belt stops working to enable the printing objects to be kept below the gilding head assembly 21, the driving assembly 23 drives the gilding head assembly 21 to move downwards to transfer the pattern on the electrochemical aluminum foil onto the printing objects, and then the conveyor belt continuously drives the printing objects to the rear end of the table top 11 to leave the table top 11 and leave the machine frame 1 to be piled up on the table top 11. Through the above mode, the printing stock stacked in the feeding bin 41 can be automatically fed to the lower part of the stamping mechanism 2 for stamping operation, and the feeding operation and the stamping operation can be continuously performed, so that the manual participation degree in the stamping operation process is reduced, manpower is saved, the efficiency is improved, the potential safety hazard of workers in feeding or discharging from the lower part of the stamping mechanism 2 is avoided, the height of the upper end of the printing stock in the feeding bin 41 is basically kept unchanged when the feeding assembly continuously feeds the printing stock in the feeding bin 41 to the table top 11, the effect that the feeding suction nozzle 43 absorbs the printing stock is prevented from being gradually reduced, the screw lifting mechanism 5 simultaneously drives the lifting plate 51 to lift through the lifting groove 411 to support the printing stock (the screw lifting mechanism belongs to the common prior art and is not excessively detailed), the lifting plate 51 drives the printing stock to lift when the printing stock in the feeding bin 41 is reduced, the height of the upper end of the printing stock in the feeding bin 41 is basically kept unchanged, the labor is saved, the printing stock is not required to be adjusted, and the labor is further improved, and the printing stability is further improved.

Preferably, the two side plates of the upper bin 41 are provided with a material placing groove 412 which is upwards communicated with the side plates of the upper bin 41, and when a worker places the piled printing stock into the upper bin 41 by hands or with a tool, the material placing groove 412 can be used for the passage of hands or tools, so that the operation of placing the printing stock into the upper bin 41 is convenient.

Further, the rear end of the table top 11 is provided with a receiving mechanism, the receiving mechanism comprises a guide plate 61 and a receiving bin 62, the guide plate 61 is vertically arranged on the machine frame 1, the upper end of the guide plate 61 is bent towards the table top 11 and is connected with the table top 11, the receiving bin 62 is in a cube shape with a front side opening, the receiving bin 62 is arranged on the machine frame 1, the front side opening of the receiving bin 62 faces the guide plate 61, a blanking gap 63 is formed between the front side opening of the receiving bin 62 and the guide plate 61, and the bottom plate of the receiving bin 62 extends towards the guide plate 61 and is propped against the guide plate 61 and is positioned below the blanking gap 63.

Specifically, the guide plate 61 is provided with a pushing port aligned with the front opening of the receiving bin 62, one side of the guide plate 61 away from the receiving bin 62 is horizontally provided with a third cylinder 64 with an output shaft aligned with the pushing port, and the output shaft of the third cylinder 64 can penetrate through the pushing port and extend into the receiving bin 62.

In the above preferred embodiment, the printed matter that is gilded by the gilding mechanism 2 slides onto the guide plate 61 when leaving the table 11 from the rear end of the table 11 under the action of the driving belt, falls vertically to the bottom plate of the receiving bin 62 under the guiding action of the guide plate 61, falls onto the bottom plate of the receiving bin 62 after passing through the blanking gap 63, gradually accumulates into the receiving bin 62 along with the continuous falling of the printed matter, and stacks in the receiving bin 62, thereby realizing automatic discharging of the printed matter, saving manpower, improving efficiency, and pushing the printed matter accumulated in the receiving bin 62 by the output shaft of the third cylinder 64 penetrating through the pushing port in the process of continuously accumulating the printed matter in the receiving bin 62, so that the accumulated printed matter in the receiving bin 62 is more orderly, facilitating the subsequent workers to discharge, further saving manpower, and improving efficiency.

Preferably, a circular arc plate-shaped limiting plate 65 is arranged above the bending part of the guide plate 61, a guide gap 66 is formed between the limiting plate 65 and the bending part of the guide plate 61, the printing stock slides into the guide gap 66 after leaving the table top 11, the limiting plate 65 plays a limiting role when the printing stock slides on the guide plate 61, the printing stock can be prevented from flying out of the guide plate 61 and cannot fall into the receiving bin 62 through the blanking gap 63, and the printing stock can be vertically fallen to the bottom plate of the receiving bin 62, so that the accumulation of the printing stock in the receiving bin 62 is tidier.

Still further, the upper end of receiving bin 62 is the opening form and receiving bin 62 posterior lateral plate lower extreme articulates in frame 1, receiving bin 62 posterior lateral plate upper end is connected with pulling plate 621, pulling plate 621 is last to be seted up pulling hole 622.

In the above preferred embodiment, after a certain amount of printing materials are accumulated in the receiving bin 62, the hook-shaped tool is used to extend into the pulling hole 622 to hook the pulling plate 621, and the receiving bin 62 is pulled to swing along the hinge shaft, so that the rear side plate of the receiving bin 62 is placed on the frame 1 after swinging for 90 degrees, at this time, a worker can conveniently detach the printing materials in the receiving bin 62 from the receiving bin 62 through the upper end opening of the receiving bin 62, thereby facilitating the unloading operation and improving the efficiency.

Preferably, a plurality of rollers 12 are rotatably arranged behind the receiving bin 62 on the frame 1, a discharging groove 623 through which a plurality of rollers 12 can pass is formed in the rear side plate of the receiving bin 62, the rollers 12 can enter the receiving bin 62 through the discharging groove 623 when the receiving bin 62 swings, after the receiving bin 62 swings by 90 degrees, the rollers 12 support printing stock in the receiving bin 62 through the discharging groove 623, and when a worker removes the printing stock from the receiving bin 62, the rolling rollers 12 enable the worker to conveniently move the printing stock to leave the receiving bin 62 through an upper end opening of the receiving bin 62, so that the discharging operation is further facilitated, and the efficiency is improved.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. The utility model provides an high-efficient gilt device of electrochemical aluminium, includes frame (1), frame (1) include mesa (11), be provided with gilt mechanism (2) that are located mesa (11) top on frame (1), its characterized in that: be provided with conveyer belt (3) that are located mesa (11) top on frame (1), mesa (11) front end is provided with feed mechanism (4), feed mechanism (4) are including last feed bin (41) and material loading subassembly, go up feed bin (41) and be upper end open-ended cube form, go up feed bin (41) and be located mesa (11) front end one side and go up feed bin (41) upper end and be less than mesa (11) on frame (1), material loading subassembly includes backup pad (42), material loading suction nozzle (43), first cylinder (44) and second cylinder (45), first cylinder (44) level set up on frame (1) with the direction of delivery of conveyer belt (3) parallel, the output shaft of first cylinder (44) is connected with slider (46) that slide set up on frame (1), second cylinder (45) are vertical to be set up on slider (46), backup pad (42) are connected on the output shaft of second cylinder (45) are located upper end of feed bin (41) and are located on backup pad (41), the suction nozzle (42) is located on the upper end of connection suction nozzle (41).

2. The high-efficiency gilding device of claim 1 wherein: the lifting groove (411) communicated with the rear side opening of the feeding bin (41) is formed in the rear side of the feeding bin (41) towards the machine frame, a screw rod lifting mechanism (5) located on one side of the rear side opening of the feeding bin (41) is arranged on the machine frame (1), and a lifting plate (51) which is horizontally arranged and can pass through the lifting groove (411) is connected to a moving seat of the screw rod lifting mechanism (5).

3. The high-efficiency gilding device of claim 2 wherein: and material placing grooves (412) which upwards penetrate through the side plates of the material loading bin (41) are formed in the two side plates of the material loading bin (41).

4. The high-efficiency gilding device of claim 1 wherein: the utility model discloses a material collecting device, including mesa (11), material collecting mechanism (6) are provided with to mesa (11) rear end, material collecting mechanism (6) are including deflector (61) and receipts feed bin (62), deflector (61) are vertical to be set up on frame (1) and deflector (61) upper end to mesa (11) crooked link up with mesa (11), receipts feed bin (62) are front side open-ended cube form, receive feed bin (62) and place on frame (1) and the front side opening of receipts feed bin (62) towards deflector (61), have blanking clearance (63) between the front side opening of receipts feed bin (62) and deflector (61).

5. The high-efficiency gilding device of claim 4 wherein: the guide plate (61) is provided with a pushing port aligned with the front side opening of the receiving bin (62), one side, far away from the receiving bin (62), of the guide plate (61) is horizontally provided with a third cylinder (64) with an output shaft aligned with the pushing port, and the output shaft of the third cylinder (64) can penetrate through the pushing port and extend into the receiving bin (62).

6. The high-efficiency gilding device of claim 5 wherein: a limiting plate (65) in a circular arc shape is arranged above the bending part of the guide plate (61), and a guide gap (66) is formed between the limiting plate (65) and the bending part of the guide plate (61).

7. The high-efficiency gilding device of claim 6 wherein: the upper end of the receiving bin (62) is in an opening shape, the lower end of the rear side plate of the receiving bin (62) is hinged to the frame (1), the upper end of the rear side plate of the receiving bin (62) is connected with a pulling plate (621), and the pulling plate (621) is provided with a pulling hole (622).

8. The high-efficiency gilding device of claim 7 wherein: the automatic feeding device is characterized in that a plurality of rollers (12) are rotatably arranged behind the receiving bin (62) on the frame (1), a discharge chute (623) through which the plurality of rollers (12) can pass is formed in the rear side plate of the receiving bin (62), and the rollers (12) can enter the receiving bin (62) through the discharge chute (623) when the receiving bin (62) swings.