CN216761020U - Embossing device for producing tear-resistant and flawless release paper - Google Patents

Abstract

The utility model discloses an embossing device for producing tear-resistant flawless release paper, which comprises a box body, wherein the box body is of a 'return' structure, a cold air cavity and a hot air cavity are formed in the box body, a lifting electric cylinder is arranged on the bottom wall of the top of the box body, the end of the cylinder rod is downwards arranged, a control press plate is arranged at the bottom end of the cylinder rod of the lifting electric cylinder, an upper embossing assembly is arranged at the bottom of the control press plate, a lower embossing assembly arranged corresponding to the upper embossing assembly is arranged on the top wall of the bottom of the box body below the upper embossing assembly, a plurality of air outlets are formed in the side surfaces of the upper embossing assembly and the lower embossing assembly and the inner wall of the box body at the bottom, where the cold air cavity is formed, a cooling air guide fan is arranged on the air outlets, and the hot air cavity is communicated with the rotating shafts in the upper embossing assembly and the lower embossing assembly through pipelines. The utility model avoids the defect of reduced yield caused by direct heating of the traditional embossing device and heating of the air gun, and simultaneously improves the yield.

Description

Embossing device for producing anti-tearing flawless release paper

Technical Field

The utility model relates to the technical field of embossing devices, in particular to an embossing device for producing tear-resistant flawless release paper.

Background

The existing release paper embossing device adopts the heating of a hot air gun, so that the product yield is influenced due to the fact that folds are easy to appear, cooling is not carried out after embossing, the product needs to be kept stand for natural cooling, and the production efficiency is low. Therefore, how to provide an embossing device for producing tear-resistant, flawless release paper is a problem that needs to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an embossing device for producing tear-resistant flawless release paper, which avoids the defect of reduction of yield caused by direct heating of the traditional embossing device and heating of an air gun, and improves the yield.

The embossing device for producing the tear-resistant flawless release paper comprises a box body, wherein the box body is of a 'return' structure, a cold air cavity and a hot air cavity are formed in the box body, a lifting electric cylinder is arranged on the bottom wall of the top of the box body, the end of the cylinder rod is downward, a control press plate is arranged at the bottom end of the cylinder rod of the lifting electric cylinder, an upper embossing assembly is arranged at the bottom of the control press plate, a lower embossing assembly arranged corresponding to the upper embossing assembly is arranged on the top wall of the bottom of the box body below the upper embossing assembly, a plurality of air outlets are formed in the side faces of the upper embossing assembly and the lower embossing assembly and the inner wall of the box body at the bottom, where the cold air cavity is formed, a cooling air guide fan is arranged on the air outlets, and the hot air cavity is communicated with the rotating shafts in the upper embossing assembly and the lower embossing assembly through pipelines.

Preferably, go up the impressed watermark subassembly and include that symmetry fixed mounting goes up installation riser, two in two of control pressure plate bottom go up to rotate between the installation riser and install the impressed watermark pivot, install driving motor in installation riser side, it directly links with last impressed watermark pivot to go up driving motor's output shaft, cup joint in the last impressed watermark pivot and install the impressed watermark cylinder.

Preferably, go up the installation riser bottom and install the upper bearing, go up the impressed watermark pivot both ends and peg graft respectively and install in the upper bearing, upward the cavity has been seted up in the impressed watermark pivot, the air-supply line is installed to the tip of going up the impressed watermark pivot and keeping away from last driving motor.

Preferably, the embossing component includes that symmetry fixed mounting installs riser, two under two on the bottom half roof under the symmetry the rotation installs down the impressed watermark pivot down between the installation riser, driving motor is installed down to installation riser side, driving motor's output shaft and the direct connection of impressed watermark pivot down, cup joint the lower impressed watermark cylinder of installing with last impressed watermark cylinder looks adaptation in the impressed watermark pivot down.

Preferably, lower bearing is installed to installation riser bottom down, the installation is in lower bearing is pegged graft respectively at lower impressed watermark pivot both ends, the cavity has been seted up in the impressed watermark pivot down, the air-supply line is installed to the tip that upper drive motor was kept away from in the impressed watermark pivot down.

Preferably, a pushing electric cylinder with a cylinder rod end transversely arranged is installed on the inner wall of the box body provided with the hot air cavity, a push plate is installed at the end part of the cylinder rod of the pushing electric cylinder, a fixing ring is installed on the push plate, an air guide insertion pipe matched with the air inlet pipe is installed in the fixing ring, and the air guide insertion pipe is communicated with the hot air cavity through a corrugated hose.

Preferably, the refrigerator is a semiconductor refrigerator, the refrigerating end face of the semiconductor refrigerator faces the cold air cavity, and the radiating end face of the semiconductor refrigerator faces the outside of the cold air cavity.

Preferably, the heat generator is an air pipe electric heater.

The utility model has the beneficial effects that:

(1) according to the utility model, the lifting electric cylinder controls the upper embossing roller to move downwards and is matched with the lower embossing roller to clamp and convey release paper, the electric cylinder is started to push to drive the air guide insertion pipe to be inserted into the air inlet pipe, hot air in the hot air cavity enters the lower embossing rotating shaft and the upper embossing rotating shaft through the air guide insertion pipe, heat is conducted to the corresponding lower embossing roller and the upper embossing roller through the lower embossing rotating shaft and the upper embossing rotating shaft while the embossing roller runs, and the release paper is heated, so that the defect that the yield is reduced due to direct heating of a traditional embossing device and heating of an air gun is avoided;

(2) the utility model conveys the embossed release paper outwards, and utilizes the cooling air guiding fan to guide the cold air in the cooling air cavity into the direction of the lower embossing rotating shaft and the upper embossing rotating shaft to directly cool the release paper conveyed out of the finished product, thereby improving the yield.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic structural diagram of an embossing apparatus for producing a tear-resistant, clear release paper according to the present invention;

FIG. 2 is a schematic structural diagram of an upper embossing assembly in an embossing apparatus for producing a tear-resistant, clear release paper according to the present invention;

FIG. 3 is a schematic structural diagram of a lower embossing assembly in an embossing apparatus for producing a tear-resistant, clear release paper according to the present invention;

fig. 4 is a schematic structural diagram of a push plate in an embossing device for producing tear-resistant clear release paper according to the present invention.

In the figure: 1-box body, 2-upper embossing component, 21-upper embossing rotating shaft, 22-upper embossing roller, 23-upper bearing, 24-upper mounting vertical plate, 25-upper driving motor, 3-lower embossing component, 31-lower embossing rotating shaft, 32-lower embossing roller, 33-lower bearing, 34-lower mounting vertical plate, 35-lower driving motor, 4-refrigerator, 5-heater, 6-cold air cavity, 7-hot air cavity, 8-lifting electric cylinder, 9-control pressure plate, 10-pushing electric cylinder, 11-push plate, 12-corrugated hose, 13-cooling air guiding fan, 14-air inlet pipe, 15-fixing ring and 16-air guiding insertion pipe.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Referring to fig. 1-4, an embossing device for producing tear-resistant flawless release paper, including box 1, box 1 is the "return" shape structure that inside offered cold air chamber 6 and hot-blast chamber 7, install the lift electric cylinder 8 that cylinder rod end set up downwards on the diapire of box 1 top, control pressure plate 9 is installed to lift electric cylinder 8's cylinder rod bottom, embossing component 2 is installed to control pressure plate 9 bottom, install the lower embossing component 3 that corresponds its setting on the box 1 bottom roof of going up embossing component 2 below, go up embossing component 2 and lower embossing component 3 side and bottom set up on the box 1 inner wall of cold air chamber 6 and seted up a plurality of air outlets, install cooling air guide fan 13 on the air outlet, hot-blast chamber 7 passes through the pipeline and sets up with the inside pivot intercommunication of last embossing component 2 and lower embossing component 3.

Go up embossing line subassembly 2 and include that symmetry fixed mounting installs riser 24 on two of control pressing plate 9 bottoms, rotate between the riser 24 of two and install embossing line pivot 21, install the riser side and install driving motor 25, go up driving motor 25's output shaft and last embossing line pivot 21 and directly link and be connected, cup joint on going up embossing line pivot 21 and install embossing line cylinder 22.

An upper bearing 23 is installed at the bottom end of the upper installation vertical plate 24, two ends of the upper embossing rotating shaft 21 are respectively installed in the upper bearing 23 in an inserted mode, a cavity is formed in the upper embossing rotating shaft 21, and an air inlet pipe 14 is installed at the end portion, far away from the upper driving motor 25, of the upper embossing rotating shaft 21.

Lower impressed watermark subassembly 3 includes two lower installation risers 34 of symmetry fixed mounting on box 1 bottom roof, rotates between two lower installation risers 34 and installs down impressed watermark pivot 31, and installation riser side installs down driving motor 35, and the output shaft of lower driving motor 35 directly links with lower impressed watermark pivot 31 to be connected, cup joints on the impressed watermark pivot 31 down and installs the lower impressed watermark cylinder 32 with last impressed watermark cylinder 22 looks adaptation.

The bottom end of the lower installation vertical plate 34 is provided with a lower bearing 33, the two ends of the lower embossing rotating shaft 31 are respectively inserted and installed in the lower bearing 33, a cavity is formed in the lower embossing rotating shaft 31, and the end part of the lower embossing rotating shaft 31 far away from the upper driving motor 25 is provided with an air inlet pipe 14.

Install the promotion electrical cylinder 10 that the cylinder rod end transversely set up on the box 1 inner wall of setting up hot-blast chamber 7, the push pedal 11 is installed to the cylinder rod tip that promotes electrical cylinder 10, install solid fixed ring 15 on the push pedal 11, install the wind-guiding intubate 16 with air-supply line 14 looks adaptation in the solid fixed ring 15, the position that the wind-guiding intubate 16 set up is exactly the horizontal position of the operation of lower impressed watermark pivot 31 and last impressed watermark pivot 21, the wind-guiding intubate 16 passes through corrugated hose 12 and hot-blast chamber 7 intercommunication setting.

During production, embossing cylinder 22 moves down and presss from both sides tight transport release paper with lower embossing cylinder 32 cooperation on the control of lift electric cylinder 8, start to promote electric cylinder 10 and drive wind-guiding intubate 16 and insert to air-supply line 14 in, hot-blast through wind-guiding intubate 16 entering in lower embossing pivot 31 and the last embossing pivot 21 in the hot-blast chamber 7, pass through lower embossing pivot 31 and last embossing pivot 21 when the embossing cylinder operation with heat conduction to corresponding lower embossing cylinder 32 and last embossing cylinder 22 on, and heat release paper, thereby avoided traditional embossing apparatus direct heating and air gun heating to bring the disadvantage that the yields descends.

In this embodiment, the refrigerator 4 is the semiconductor refrigerator 4, the refrigerating end face of the semiconductor refrigerator 4 faces the inside of the cold air chamber 6, the radiating end face of the semiconductor refrigerator 4 faces the outside of the cold air chamber 6, and the selection of the refrigerator 4 is not limited to that disclosed in this embodiment and all the refrigerating apparatuses capable of refrigerating the cold air chamber 6 can be selected.

When the embossed release paper is conveyed outwards, the cooling air guide fan 13 is used for guiding cold air in the refrigerating air cavity 6 to the direction of the lower embossing rotating shaft 31 and the upper embossing rotating shaft 21 to directly cool the release paper conveyed out of finished products, and the finished product rate is improved.

In this embodiment, the heater 5 is an air pipe electric heater, and the air pipe electric heater heats the hot air cavity 7, and the selection of the heater 5 is not limited to that disclosed in this embodiment, and all the devices that can heat the hot air cavity 7 can be selected.

It can be understood that the driving modes of the cooling air guiding fan 13, the pushing electric cylinder 10 and the lifting electric cylinder 8 in the utility model can be driven by an external power line, and the control of the cooling air guiding fan 13, the pushing electric cylinder 10 and the lifting electric cylinder 8 can be programmed by a controller provided by the controller, or can be controlled by a unified controller, for example, the main controller selects a taida AS228T controller, and the control principle can be realized by the existing control technology. The types of the cooling air guiding fan 13, the pushing electric cylinder 10 and the lifting electric cylinder 8 are not limited to a single type, and can be the types which are suitable for the utility model in the market.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (8)

1. The utility model provides an embossing apparatus for producing tear flawless from type paper, a serial communication port, the power distribution box comprises a box body, the box is inside to set up "returning" shape structure in cold air chamber and hot-blast chamber, install the lift electric cylinder that cylinder rod end set up downwards on the bottom wall of box top, control pressure plate is installed to lift electric cylinder's cylinder rod bottom, embossing assembly is installed to the control pressure plate bottom, install the lower embossing assembly that corresponds its setting on the bottom half roof of going up embossing assembly below, go up embossing assembly and lower embossing assembly side and bottom set up a plurality of air outlets on the box inner wall in cold air chamber, install cooling wind-guiding fan on the air outlet, hot-blast chamber passes through pipeline and last embossing assembly and the inside pivot intercommunication setting in embossing assembly down.

2. The embossing device for producing tear-resistant clear release paper according to claim 1, wherein the upper embossing assembly comprises two upper installation risers symmetrically and fixedly installed at the bottom of the control pressure plate, an upper embossing rotating shaft is installed between the two upper installation risers in a rotating mode, an upper driving motor is installed on the side of each upper installation riser, an output shaft of the upper driving motor is directly connected with the upper embossing rotating shaft, and an upper embossing roller is installed on the upper embossing rotating shaft in a sleeved mode.

3. The embossing device for producing the tear-resistant flawless release paper as claimed in claim 2, wherein an upper bearing is mounted at the bottom end of the upper mounting riser, two ends of the upper embossing rotating shaft are respectively inserted into the upper bearing, a cavity is formed in the upper embossing rotating shaft, and an air inlet pipe is mounted at the end of the upper embossing rotating shaft, which is far away from the upper driving motor.

4. The embossing device for producing the tear-resistant and flawless release paper according to claim 2, wherein the lower embossing component comprises two lower installation risers which are symmetrically and fixedly installed on the top wall of the bottom of the box body, a lower embossing rotating shaft is installed between the two lower installation risers in a rotating mode, a lower driving motor is installed on the side of each installation riser, an output shaft of the lower driving motor is directly connected with the lower embossing rotating shaft, and a lower embossing roller matched with the upper embossing roller is installed on the lower embossing rotating shaft in a sleeved mode.

5. The embossing device for producing the tear-resistant flawless release paper according to claim 4, wherein a lower bearing is installed at the bottom end of the lower installation riser, two ends of the lower embossing rotating shaft are respectively installed in the lower bearing in an inserted manner, a cavity is formed in the lower embossing rotating shaft, and an air inlet pipe is installed at the end, far away from the upper driving motor, of the lower embossing rotating shaft.

6. The embossing device for producing the tear-resistant flawless release paper as claimed in claim 5, wherein a pushing electric cylinder with a cylinder rod end transversely arranged is mounted on the inner wall of the box body provided with the hot air cavity, a push plate is mounted at the end part of the cylinder rod of the pushing electric cylinder, a fixing ring is mounted on the push plate, an air guide insertion pipe matched with the air inlet pipe is mounted in the fixing ring, and the air guide insertion pipe is communicated with the hot air cavity through a corrugated hose.

7. The embossing device for producing tear-resistant flawless release paper according to claim 1, further comprising a refrigerator mounted on the box body, wherein the refrigerator is a semiconductor refrigerator, a refrigerating end face of the semiconductor refrigerator is arranged towards the inside of the cold air cavity, and a radiating end face of the semiconductor refrigerator is arranged towards the outside of the cold air cavity.

8. The embossing device for producing tear-resistant, clear release paper according to claim 1, further comprising a heater mounted on the box, said heater being an air duct electric heater.

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