CN218966562U - 3D pattern embossing and cutting integrated device for pen bag inner shell - Google Patents

Abstract

The application discloses a pen bag inner shell 3D pattern imprinting and cutting integrated device, which relates to the technical field of pattern imprinting equipment and comprises an installation top plate, a small template, a heating column and an installation frame; the mounting top plate is fixedly arranged below the lower pressing plate of the stamping equipment; the heating columns are fixedly arranged on the lower surface of the mounting top plate; the mounting frame is fixedly arranged on the lower surface of the mounting top plate and surrounds the heating column; the bottom of the small template is a metal shell, and a heating cylinder which is in butt joint with the heating column is fixedly arranged on the upper surface of the metal shell of the small template; the top of the small template is a heat insulation plate, and an installation groove shell which can be in interference fit with the installation frame is fixedly arranged on the upper surface of the heat insulation plate. The method has the effect of saving time cost for cleaning and maintaining the imprinting template.

Description

3D pattern embossing and cutting integrated device for pen bag inner shell

Technical Field

The application relates to the technical field of pattern imprinting equipment, in particular to a 3D pattern imprinting and cutting integrated device for an inner shell of a pen bag.

Background

When clothing production or case and bag product production is carried out, according to the demand of design, the three-dimensional stamp decoration needs to be added to part of the product to appear 3D visual effect. Such as branding icons, cartoon patterns, etc.

For example, on office appliances such as pen bags, as a decoration element, a 3D embossed pattern often appears, and during production, the pattern is generally formed by heating with a corresponding mold, pressing on a corresponding material, cutting, and sewing on the surface of an object to be decorated in a sewing manner. Like products such as pen bag, because the product stamp type is more, often need prepare multiple impression template, when carrying out the template change, it is all very inconvenient to the connection and the installation of heating part, generally for tearing down monoblock heating template, has the impression arch of a plurality of same patterns on the monoblock heating template, therefore when heating template local needs clearance maintenance, still need dismantle whole template, leads to the impression template to maintain the required time cost of clearance higher.

Disclosure of Invention

The utility model aims to solve the problem that the time cost is high when the imprinting template is maintained and cleaned.

The application provides an integrative device is cut in 3D pattern impression of pen bag inner shell adopts following technical scheme:

A3D pattern embossing and cutting integrated device of an inner shell of a pen bag comprises a mounting top plate, a small template, a heating column and a mounting frame;

the mounting top plate is fixedly arranged below the lower pressing plate of the stamping equipment;

the heating columns are fixedly arranged on the lower surface of the mounting top plate;

the mounting frame is fixedly arranged on the lower surface of the mounting top plate and surrounds the heating column;

the bottom of the small template is a metal shell, and a heating cylinder which is in butt joint with the heating column is fixedly arranged on the upper surface of the metal shell of the small template;

the top of the small template is a heat insulation plate, and an installation groove shell which can be in interference fit with the installation frame is fixedly arranged on the upper surface of the heat insulation plate.

Through adopting above-mentioned technical scheme, the mode that little template passes through installation cell shell and installing frame fastening is installed in the installation roof below, has realized the modularization unitized installation of impression template, and then only need promptly dismantle the change with the little template that corresponds when carrying out clearance and the maintenance of impression template can, has saved the time cost of equipment maintenance clearance. The heat emitted by the heating column is conducted to the metal shell of the small template through the heating cylinder, and then the small template is heated, so that the small template can conveniently carry out 3D pattern imprinting on the material.

Optionally, a cutting knife is fixedly arranged at the edge of the metal shell at the bottom of the small template.

By adopting the technical scheme, after the material is stamped, the material is cut downwards by the cutting knife through the small template, and then the material is stamped and then cut.

Optionally, the upper surface of the metal shell of the small template is fixedly provided with a plurality of heating plates connected with the heating cylinder;

the heating plate is made of metal.

Through adopting above-mentioned technical scheme, the efficiency of the heat of an improvement heating cylinder to the metal casing transfer of small form board can be effectually improved in the setting of hot plate, and then the impression effect of small form board to the material is improved.

Optionally, an unlocking hole is formed in the position, opposite to the edge of the mounting frame, of the upper surface of the mounting top plate;

an unlocking plate is connected in the unlocking hole in a sliding way;

a limiting plate is fixedly arranged on the upper surface of the unlocking plate;

and the top of the circumferential side wall of the unlocking hole is provided with a limit groove.

Through adopting above-mentioned technical scheme, when need dismantling the small form board, push down the limiting plate, the unlocking plate is ejecting from the unlocking hole and with the installation cell shell downward top move for installation cell shell and installation frame separation, and then accomplish the dismantlement of small form board.

Optionally, a reset spring is fixedly arranged on the inner bottom wall of the limit groove;

the top end of the reset spring is fixedly connected with the lower surface of the limiting plate;

when the return spring is in a natural state, the bottom end of the unlocking plate is positioned in the unlocking hole.

Through adopting above-mentioned technical scheme, reset spring's setting makes the unblock board keep being located the state of unlocking hole, and then the installation of convenient installation cell-shell on the installing frame.

Optionally, a connection frame plate is fixedly arranged on the upper surface of the limiting plate corresponding to the same mounting frame;

the upper surface of the connecting frame plate is fixedly provided with a pressing button.

By adopting the technical scheme, the pressing button is pressed down, and the connecting frame plate is driven by the pressing button to drive the unlocking plate to move downwards, so that the efficiency of disassembling the corresponding small template is effectively improved.

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

1. the small templates are arranged on the mounting top plate in an interference fit manner through the mounting groove shell and the mounting frame, so that modularized unitized mounting of the imprinting templates is realized, and when the imprinting templates are maintained and cleaned, only the corresponding small templates are required to be replaced, and the time cost required by maintenance and cleaning of the imprinting templates is effectively saved;

2. after the small template is installed, the metal shell of the small template is heated through heat conduction of the heating column and the heating cylinder, and the efficiency of heat transfer of the heating cylinder to the small template is effectively improved through the heating plate, so that imprinting of the small template on materials is realized, and the imprinting effect of the modularized imprinting template is improved;

3. the design of unlocking plate can be convenient dismantle the little template of corresponding position on the installation roof, the effectual efficiency that has improved the change little template.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present application;

FIG. 2 is a partial cross-sectional view showing a heating assembly;

fig. 3 is a partial cross-sectional view showing the disassembly assembly.

In the figure, 1, a top plate is installed; 11. unlocking the hole; 12. a limit groove; 13. a mounting frame; 2. a small template; 21. installing a groove shell; 22. a cutting knife; 23. a heat insulating plate; 3. a heating assembly; 31. heating the column; 32. a heating cylinder; 33. a heating plate; 4. disassembling the assembly; 41. unlocking plate; 411. a limiting plate; 42. a return spring; 43. connecting a frame plate; 431. the button is pressed down.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-3.

The embodiment of the application discloses a pen bag inner shell 3D pattern embossing and cutting integrated device.

Referring to fig. 1 and 2, the pen pouch inner case 3D pattern embossing and trimming integrated device includes a mounting top plate 1 and a small template 2. The mounting top plate 1 is fixedly arranged below a lower pressing plate of the stamping equipment and is driven by the telescopic device to move up and down. A plurality of mounting frames 13 are mounted on the inner top wall of the mounting top plate 1. The top of the small template 2 is a heat insulation plate 23 with a heat insulation function, and the bottom is a metal shell protruding downwards. The upper surface of the heat insulating plate 23 at the top of the small template 2 is fixedly provided with a mounting groove shell 21, and the mounting groove shell 21 can be in interference fit with the mounting frame 13. The edge part of the small template 2 is fixedly provided with a cutting knife 22. The insulating panel 23 is a glass fiber panel in this embodiment. A heating component 3 for heating the metal shell of the small template 2 is arranged between the mounting top plate 1 and the small template 2, and a dismounting component 4 for dismounting the small template 2 is also arranged on the mounting top plate 1.

The small template 2 is installed on the lower surface of the installation top plate 1 in an interference fit mode through the installation groove shell 21 and the installation frame 13, modularized unitized installation of the imprinting template is achieved, the metal shell of the small template 2 is heated through the heating component 3, when the installation top plate 1 moves downwards, the small template 2 imprints 3D patterns on materials through the metal shell heated by the small template 2, and the materials are cut through the cutting knife 22. When the imprinting template is required to be maintained and cleaned, the corresponding small template 2 is only required to be detached from the mounting top plate 1 through the detaching assembly 4 for replacement, so that the time cost required by the maintenance and cleaning of the imprinting template is effectively saved.

Referring to fig. 2, the heating assembly 3 includes a heating column 31, a heating cylinder 32, and a heating plate 33. The heating column 31 is fixedly arranged on the lower surface of the mounting top plate 1 and positioned in the center of the mounting frame 13, and the heating column 31 is a heating rod. The heating cylinder 32 is fixedly arranged on the inner bottom wall of the small template 2 and fixedly connected with the metal shell of the small template 2, and the heating cylinder 32 can be sleeved on the heating column 31. The heating plates 33 are a plurality of and fixedly arranged on the upper surface of the metal shell of the small template 2, the plurality of heating plates 33 are circumferentially distributed by taking the central axis of the heating column 31 as the center, the top ends of the heating plates 33 are fixedly connected with the circumferential side wall of the heating column 31, and the heating plates 33 and the heating column 31 are made of copper materials.

After the small template 2 is installed on the installation top plate 1, the small template 2 is heated through the heating column 31, the heating cylinder 32 transfers heat emitted by the heating column 31 to the metal shell of the small template 2, the efficiency of heat conduction of the heating cylinder 32 to the metal shell of the small template 2 is effectively improved through the heating plate 33, and then the small template 2 can be effectively heated, and the imprinting effect on materials is improved.

Referring to fig. 2 and 3, the dismounting assembly 4 includes an unlocking plate 41, a return spring 42, and a connection frame plate 43. The upper surface of the mounting top plate 1 is provided with an unlocking hole 11 around the mounting frame 13. The unlocking hole 11 is located opposite to the mounting position of the mounting groove housing 21. The unlocking plate 41 is vertically slidably coupled in the unlocking hole 11. The limiting plate 411 cannot pass through the unlocking hole 11 because the limiting plate 411 is fixedly arranged on the upper surface of the unlocking plate 41. The circumferential side wall of the unlocking hole 11 is provided with a limit groove 12 for the limit plate 411 to slide inside. The bottom end of the return spring 42 is fixedly arranged on the inner bottom wall of the limit groove 12, and the top end of the return spring 42 is fixedly connected with the lower surface of the limit plate 411. The connection frame plate 43 is fixedly arranged on the upper surface of the limiting plate 411, and surrounds the corresponding area of the mounting frame 13. The upper surface of the connection frame plate 43 is fixedly provided with a push button 431. When the return spring 42 is in a natural state, the unlocking plate 41 is completely located in the unlocking hole 11.

When the corresponding small template 2 needs to be disassembled, the corresponding pressing button 431 is pressed downwards, the pressing button 431 drives the unlocking plate 41 to move downwards through the connecting frame plate 43, the unlocking plate 41 stretches out of the unlocking hole 11, the mounting groove shell 21 is pushed downwards, the mounting groove shell 21 is separated from the mounting frame 13, and the disassembly of the corresponding small template 2 is completed. The efficiency of dismantling small form 2 has effectually been improved. After the push button 431 is released, the reset spring 42 drives the unlocking plate 41 to reset, so that the installation of a new small template 2 is facilitated, and the disassembly and assembly efficiency of the small template 2 is effectively improved.

The implementation principle of the 3D pattern embossing and cutting integrated device for the pen bag inner shell is as follows: the small template 2 is installed on the installation frame 13 through the installation groove shell 21, the heating cylinder 32 is heated through the heating column 31, then the metal shell of the small template 2 is heated, and when the installation top plate 1 moves downwards, the small template 2 imprints materials and cuts the materials through the cutting knife 22. When the imprinting template is required to be maintained or cleaned, the corresponding pressing button 431 is pressed, the unlocking plate 41 is driven to extend out of the unlocking hole 11 and push the mounting groove shell 21 of the corresponding small template 2 downwards, the corresponding small template 2 is detached, and the new small template 2 is mounted on the corresponding mounting frame 13, so that the imprinting template maintenance and cleaning efficiency is effectively improved, and the time cost required by the imprinting template maintenance and cleaning is saved.

The embodiments of the present utility model are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (6)

1. 3D pattern impression cuts integrative device of pen bag inner shell, its characterized in that: comprises a mounting top plate (1), a small template (2), a heating column (31) and a mounting frame (13);

the mounting top plate (1) is fixedly arranged below a lower pressing plate of the stamping equipment;

the plurality of heating columns (31) are fixedly arranged on the lower surface of the mounting top plate (1);

the mounting frame (13) is fixedly arranged on the lower surface of the mounting top plate (1) and surrounds the heating column (31);

the bottom of the small template (2) is a metal shell, and a heating cylinder (32) which is in butt joint with the heating column (31) is fixedly arranged on the upper surface of the metal shell of the small template (2);

the top of the small template (2) is provided with a heat insulation plate (23), and the upper surface of the heat insulation plate (23) is fixedly provided with a mounting groove shell (21) which can be in interference fit with the mounting frame (13).

2. The pen pouch inner housing 3D pattern embossing and trimming integrated device as claimed in claim 1, wherein: and a cutting knife (22) is fixedly arranged at the edge of the metal shell at the bottom of the small template (2).

3. The pen pouch inner housing 3D pattern embossing and trimming integrated device as claimed in claim 1, wherein: the upper surface of the metal shell of the small template (2) is fixedly provided with a plurality of heating plates (33) connected with the heating cylinder (32);

the heating plate (33) is made of metal.

4. The pen pouch inner housing 3D pattern embossing and trimming integrated device as claimed in claim 1, wherein: an unlocking hole (11) is formed in the position, opposite to the edge of the mounting frame (13), of the upper surface of the mounting top plate (1);

an unlocking plate (41) is slidably connected in the unlocking hole (11);

a limiting plate (411) is fixedly arranged on the upper surface of the unlocking plate (41);

limiting grooves (12) are formed in the tops of the circumferential side walls of the unlocking holes (11).

5. The pen pouch inner housing 3D pattern embossing and trimming integrated device as defined in claim 4, wherein: a reset spring (42) is fixedly arranged on the inner bottom wall of the limit groove (12);

the top end of the reset spring (42) is fixedly connected with the lower surface of the limiting plate (411);

when the return spring (42) is in a natural state, the bottom end of the unlocking plate (41) is positioned in the unlocking hole (11).

6. The pen pouch inner housing 3D pattern embossing and trimming integrated device as defined in claim 5, wherein: the upper surface of the limiting plate (411) corresponding to the same mounting frame (13) is fixedly provided with a connecting frame plate (43);

the upper surface of the connecting frame plate (43) is fixedly provided with a pressing button (431).

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