CN111251697B

CN111251697B - Honeycomb panel production and processing pressing equipment with automatic gluing function

Info

Publication number: CN111251697B
Application number: CN202010065807.9A
Authority: CN
Inventors: 不公告发明人
Original assignee: Jiangsu Amoeba Materials Co Ltd
Current assignee: Jiangsu amoeba Materials Co., Ltd
Priority date: 2020-01-20
Filing date: 2020-01-20
Publication date: 2020-09-22
Anticipated expiration: 2040-01-20
Also published as: CN111251697A

Abstract

The invention discloses a press-fit device with automatic gluing function for producing and processing honeycomb plates, which comprises: the processing support is provided with a honeycomb raw material transportation structure, a hot glue coating structure and a pressing structure; the invention has the advantages that the pressing structure is larger than a plurality of layers of paper boards for uniform extrusion, heat on the paper boards is absorbed into cooling liquid in the cooling groove in the cooling roller through the cooling roller, the cooling liquid is converted between the heat exchange box and the cooling groove, and the heat of the cooling liquid in the heat exchange box is dissipated through the radiator outside the heat exchange box, so that secondary pressing and cooling are carried out on the pressed paper boards, the phenomenon of displacement between the paper boards in a hot glue state is avoided, meanwhile, gaps between the paper boards are smaller through secondary pressing, and the phenomena of fluffiness and easy delamination between the paper boards are avoided.

Description

Honeycomb panel production and processing pressing equipment with automatic gluing function

Technical Field

The invention relates to the technical field of paperboard processing, in particular to a pressing device with an automatic gluing function for honeycomb board production and processing.

Background

The honeycomb plate is a plate made of two thin panels firmly adhered to two sides of a layer of thick honeycomb core material, and is also called a honeycomb sandwich structure. The honeycomb panel also refers to a panel in which a large number of cutoff waveguides are welded together to form a cutoff waveguide array, thereby forming a large opening area and preventing electromagnetic wave leakage. The cellular board is divided into: buffer cellular board and packing cellular board. Due to the special structure, the compression strength can be improved, and the cost of the paper honeycomb plate can be reduced.

In the process of implementing the invention, the inventor finds that at least the following problems exist in the prior art: in the traditional installation of the honeycomb panel, glue is manually coated on the surface, the manual glue brushing method wastes time and labor, the effect is poor, the efficiency is low, the extruded honeycomb panel can be processed after being cooled, the time is wasted, and meanwhile, glue is easy to deform when not being cooled.

Disclosure of Invention

The invention aims to solve the problems, designs the pressing equipment with the automatic gluing function for producing and processing the honeycomb board, and solves the problems that the workload of manual gluing is large and the displacement of the board is easy to occur in hot gluing in the prior art.

The technical scheme of the invention for realizing the aim is as follows: the utility model provides a pressfitting equipment is used in honeycomb panel production and processing with automatic rubber coating function, includes: the processing support is provided with a honeycomb raw material transportation structure, a hot glue coating structure and a pressing structure;

the honeycomb raw material transportation structure comprises: the device comprises a plurality of raw material shafts with the same structure, a plurality of supporting brackets with the same structure, a plurality of hydraulic chucks with the same structure and a plurality of auxiliary rollers with the same structure;

the material shaft processing device comprises a plurality of material shafts, a plurality of hydraulic chucks and an auxiliary roller, wherein every two of the material shafts are horizontally and parallelly arranged on a processing support, the hydraulic chucks are respectively arranged on the plurality of supporting supports, the plurality of material shafts are respectively and movably arranged on the plurality of hydraulic chucks, and the plurality of auxiliary rollers are movably arranged on the processing support through bearings.

Preferably, the thermal paste structure includes: the hot melting device comprises a hot melting box, a plurality of hot melting rollers with the same structure and a hot melting assembly;

the hot melting box is arranged on the processing support, the hot melting rollers are movably arranged in the hot melting box through bearings, and the hot melting assembly is arranged above the hot melting box.

Preferably, the hot melt assembly includes: the rubber box, the shunt tubes, the electric heating tubes and a plurality of drainage tubes with the same structure;

the glue box is arranged on the hot melting box, the shunt tubes are arranged on the glue box, heating grooves are formed in the glue box, the electric heating tubes are arranged in the heating grooves, the plurality of drainage tubes are arranged on the shunt tubes, and the other ends of the plurality of drainage tubes are respectively connected to the plurality of hot melting rollers.

Preferably, the press-fit structure includes: the pressing box, the pressing hydraulic cylinder, the pressing extrusion block and the extrusion assembly are arranged in the pressing box;

the pressing box is arranged on the processing support, the pressing hydraulic cylinder is arranged on the pressing box, the pressing extrusion block is arranged on the pushing end of the pressing hydraulic cylinder, and the extrusion assembly is arranged on the pressing extrusion block.

Preferably, the extrusion assembly includes: two pairs of pressing rollers with the same structure and a pair of triangular pressing blocks with the same structure;

two pairs of pressing grooves with the same structure are formed in the pressing extrusion block, the two pairs of pressing rollers are movably installed in the two pairs of pressing grooves through bearings respectively, and the pair of triangular pressing blocks are installed on two sides of the bottom end of the pressing extrusion block.

Preferably, a plurality of gluing holes with the same structure are respectively formed in the plurality of hot melting rollers.

Preferably, an auxiliary cooling extrusion structure is arranged on the processing bracket;

the auxiliary cooling extrusion structure includes: the cooling box, a plurality of cooling rollers with the same structure, a cooling hydraulic cylinder, a cooling extrusion block and a cooling assembly;

the cooling box is installed on the processing support, the cooling hydraulic cylinder is installed on the top end in the cooling box, the cooling extrusion block is installed on the pushing end of the cooling hydraulic cylinder, a plurality of cooling grooves with the same structure are formed in the cooling extrusion block, a plurality of cooling rollers are movably installed in the plurality of cooling grooves through bearings respectively, and the cooling assembly is installed on the cooling box.

Preferably, the cooling assembly includes: the cooling system comprises a temperature changing box, a radiator, a cooling flow dividing pipe and a plurality of cooling pipes with the same structure;

the cooling drum is characterized in that the temperature change box is arranged on the cooling box, the radiator is arranged on the temperature change box, the cooling flow dividing pipes are arranged on the temperature change box, the cooling pipes are respectively arranged on the cooling drums, and the other ends of the cooling pipes are connected to the cooling flow dividing pipes.

Preferably, cooling liquid grooves are formed in a plurality of cooling rollers.

Preferably, infrared distance measuring instruments are arranged in the pressing box and the cooling box.

The pressing equipment for producing and processing the honeycomb board with the automatic gluing function, which is manufactured by the technical scheme of the invention, evenly extrudes a plurality of layers of paper boards through a pressing structure, absorbs heat on the paper boards into cooling liquid in the cooling grooves in the cooling roller through the cooling roller, the cooling liquid is converted between the heat exchange box and the cooling grooves, and the heat of the cooling liquid in the heat exchange box is dissipated through the radiator outside the heat exchange box, so that secondary pressing and cooling are carried out on the pressed paper boards, the phenomenon of displacement between the paper boards in a hot glue state is avoided, and meanwhile, gaps between the paper boards are smaller through the secondary pressing, and the phenomena of fluffiness and easy delamination between the paper boards are avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of a pressing device for producing and processing a honeycomb panel with an automatic gluing function according to the present invention.

Fig. 2 is a schematic top view of the pressing device for producing and processing the honeycomb panel with the automatic gluing function according to the present invention.

Fig. 3 is a schematic side view of the pressing device for producing and processing the honeycomb panel with the automatic gluing function according to the present invention.

Fig. 4 is a schematic side view of a hot gluing structure of a pressing device for producing and processing a honeycomb panel with an automatic gluing function according to the present invention.

Fig. 5 is a partially enlarged schematic view of a pressing device for producing and processing a honeycomb panel with an automatic gluing function according to the present invention.

In the figure: 1-processing a bracket; 2-a raw material shaft; 3-a support bracket; 4-a hydraulic chuck; 5-auxiliary roller; 6-a hot melting box; 7-hot melting roller; 8-glue box; 9-a shunt tube; 10-electric heating tubes; 11-a drainage tube; 12-heating the groove; 13-pressing box; 14-pressing hydraulic cylinders; 15-pressing the extrusion block; 16-a pressing roller; 17-a triangular press-fit block; 18-pressing the groove; 19-glue coating holes; 20-a cooling box; 21-cooling the roller; 22-cooling the hydraulic cylinder; 23-cooling the extruded block; 24-cooling the grooves; 25-temperature changing box; 26-a heat sink; 27-cooling the shunt tube; 28-a cooling tube; 29-a cooling liquid tank; 30-infrared range finder.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings, and as shown in fig. 1 to 5, a press-fit device for producing and processing a honeycomb panel with an automatic gluing function includes: the processing device comprises a processing bracket 1, wherein a honeycomb raw material transportation structure, a hot glue coating structure and a pressing structure are arranged on the processing bracket 1; the honeycomb raw material transportation structure comprises: the device comprises a plurality of raw material shafts 2 with the same structure, a plurality of supporting brackets 3 with the same structure, a plurality of hydraulic chucks 4 with the same structure and a plurality of auxiliary rollers 5 with the same structure; the plurality of raw material shafts 2 are horizontally arranged on a processing bracket 1 in parallel in pairs, the plurality of hydraulic chucks 4 are respectively arranged on the plurality of supporting brackets 3, the plurality of raw material shafts 2 are respectively movably arranged on the plurality of hydraulic chucks 4, and the plurality of auxiliary rollers 5 are movably arranged on the processing bracket 1 through bearings; the thermal paste structure includes: the hot melting device comprises a hot melting box 6, a plurality of hot melting rollers 7 with the same structure and a hot melting assembly; the hot melting box 6 is arranged on the processing bracket 1, the hot melting rollers 7 are movably arranged in the hot melting box 6 through bearings, and the hot melting assembly is arranged above the hot melting box 6; the hot melt assembly, comprising: the rubber box 8, the shunt tubes 9, the electric heating tubes 10 and a plurality of drainage tubes 11 with the same structure; the glue box 8 is arranged on the hot melting box 6, the shunt tube 9 is arranged on the glue box 8, a heating groove 12 is formed in the glue box 8, the electric heating tube 10 is arranged in the heating groove 12, the plurality of drainage tubes 11 are arranged on the shunt tube 9, and the other ends of the plurality of drainage tubes 11 are respectively connected to the plurality of hot melting rollers 7; the lamination structure includes: the pressing box 13, the pressing hydraulic cylinder 14, the pressing extrusion block 15 and the extrusion assembly; the pressing box 13 is arranged on the processing bracket 1, the pressing hydraulic cylinder 14 is arranged on the pressing box 13, the pressing extrusion block 15 is arranged on the pushing end of the pressing hydraulic cylinder 14, and the extrusion component is arranged on the pressing extrusion block 15; the extrusion assembly, comprising: two pairs of pressing rollers 16 with the same structure and a pair of triangular pressing blocks 17 with the same structure; two pairs of pressing grooves 18 with the same structure are formed in the pressing extrusion block 15, two pairs of pressing rollers 16 are movably mounted in the two pairs of pressing grooves 18 through bearings respectively, and a pair of triangular pressing blocks 17 are mounted on two sides of the bottom end of the pressing extrusion block 15; a plurality of gluing holes 19 with the same structure are respectively arranged on the plurality of hot melting rollers 7; an auxiliary cooling and extruding structure is arranged on the processing bracket 1; the auxiliary cooling extrusion structure includes: the cooling box 20, a plurality of cooling rollers 21 with the same structure, a cooling hydraulic cylinder 22, a cooling extrusion block 23 and a cooling component; the cooling box 20 is mounted on the processing bracket 1, the cooling hydraulic cylinder 22 is mounted at the top end in the cooling box 20, the cooling extrusion block 23 is mounted at the pushing end of the cooling hydraulic cylinder 22, a plurality of cooling grooves 24 with the same structure are formed in the cooling extrusion block 23, a plurality of cooling rollers 21 are respectively and movably mounted in the plurality of cooling grooves 24 through bearings, and the cooling assembly is mounted on the cooling box 20; the cooling assembly, comprising: the cooling system comprises a temperature changing box 25, a radiator 26, a cooling shunt pipe 27 and a plurality of cooling pipes 28 with the same structure; the temperature changing box 25 is mounted on the cooling box 20, the radiator 26 is mounted on the temperature changing box 25, the cooling branch pipes 27 are mounted on the temperature changing box 25, the plurality of cooling pipes 28 are respectively mounted on the plurality of cooling rollers 21, and the other ends of the plurality of cooling pipes 28 are connected to the cooling branch pipes 27; cooling liquid grooves 29 are formed in the plurality of cooling rollers 21; an infrared distance measuring instrument 30 is arranged in the compression box and the cooling box 20.

The present embodiment is characterized by comprising: a honeycomb raw material transportation structure, a hot glue coating structure and a pressing structure are arranged on the processing bracket; honeycomb raw materials transportation structure includes: the device comprises a plurality of raw material shafts with the same structure, a plurality of supporting brackets with the same structure, a plurality of hydraulic chucks with the same structure and a plurality of auxiliary rollers with the same structure; the material processing device comprises a plurality of material shafts, a plurality of hydraulic chucks, a plurality of auxiliary rollers and a plurality of auxiliary rollers, wherein the plurality of material shafts are arranged on a processing bracket in a pairwise horizontal parallel manner; carry out even extrusion through pressfitting structure is greater than a plurality of layers of cardboards, adsorb the coolant liquid in the cooling recess in the cooling drum through cooling drum with the heat on the cardboard, the coolant liquid is in the conversion between heat transfer case and cooling recess, through the radiator outside the heat transfer case, distribute away the heat of the coolant liquid in the heat transfer case, thereby reach and carry out secondary pressfitting and cooling to the cardboard after the pressfitting, the phenomenon of taking place the displacement between the cardboard under having avoided the hot glue state appears, simultaneously through secondary pressfitting, make the gap between the cardboard littleer, avoided between the cardboard fluffier, easily take off the appearance of layer phenomenon.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained. The following working principles, detailed connecting means thereof, and the following main descriptions of the working principles and processes are well known in the art, and will be referred to by those skilled in the art for the specific connection and operation sequence of the components in this application.

Example (b): a plurality of same raw material barrels are fixed through a hydraulic chuck 4 on a supporting bracket 3, the raw material barrels are more conveniently replaced and fed through the hydraulic chuck 4, the raw materials are stably fed through a plurality of raw material shafts 2, the raw materials are extruded and limited through a hot melting roller 7 in a hot melting box 6, meanwhile, glue in the glue box 8 is heated through an electric heating pipe 10, the viscosity of the glue is reduced, the glue flows into a plurality of drainage pipes 11 through a shunt pipe 9 on the glue box 8 and flows into a plurality of hot melting rollers 7 through a plurality of drainage pipes 11 respectively, the heated glue is uniformly coated on the raw material paperboards through glue coating holes 19 on the hot melting roller 7, meanwhile, the pressing extrusion plates 15 on the pushing end of the pressing hydraulic cylinder 14 and pressing components on the pressing extrusion plates are pushed through extension of a pressing hydraulic cylinder 14 in the pressing box 13, and a plurality of layers of paperboards are pressed through a pressing roller 16 in the pressing components, the plurality of layers of paperboards are attached together, glue between the paperboards is extruded and moved towards the middle through the pair of triangular pressing blocks, the distance from the pressing block 15 to the paperboards is measured through the infrared range finder 30, then the cooling hydraulic cylinder 22 in the cooling box 20 is extended to push the cooling pressing plate 23 on the pushing end of the cooling hydraulic cylinder 22, the cooling roller 21 on the cooling pressing plate 23 is pressed on the paperboards, cooling liquid in the heat exchange box 25 flows into the plurality of cooling pipes 28 through the cooling branch pipes 27 and flows into the cooling grooves 24 in the cooling roller 21 through the cooling pipes 28, heat on the paperboards is absorbed into the cooling liquid in the cooling grooves 24 in the cooling roller 21 through the cooling roller 21, the cooling liquid is converted between the heat exchange box 25 and the cooling grooves 24, and the heat of the cooling liquid in the heat exchange box 25 is dissipated through the radiator 26 outside the heat exchange box 25, thereby achieving the secondary pressing and cooling of the pressed paperboards, avoiding the displacement phenomenon between the paperboards in a hot glue state, simultaneously reducing the gaps between the paperboards through the secondary pressing, avoiding the fluffiness between the paperboards and the easy delamination phenomenon, extruding the hot glue between the paperboards to the central position through the pair of triangular pressing blocks 17, avoiding the extrusion of the hot glue into the space between the paperboards through the paperboard, enabling the paperboard raw materials to be more conveniently mounted and dismounted through the honeycomb raw material transportation structure, avoiding the pause phenomenon of the paperboards in the pressing transportation process through the matching of the pressing roller 16 and the cooling roller 21, reducing the transportation difficulty problem, adopting the cooling roller 21 and the pressing roller 16 with the length being larger than the width of the raw materials, avoiding the phenomenon that part of the paperboards are not pressed in the pressing process, the pressure acting on the paperboard can be equalized as much as possible, and the product percent of pass is improved; one piece of paper board is pressed continuously without waiting, so that the production efficiency is not reduced.

Preferably, the thermal paste structure further includes: the hot melting device comprises a hot melting box 6, a plurality of hot melting rollers 7 with the same structure and a hot melting assembly;

the hot melt box 6 is arranged on the processing support 1, the hot melt rollers 7 are movably arranged in the hot melt box 6 through bearings, and the hot melt assembly is arranged above the hot melt box 6.

Preferably, further, the hot melt assembly includes: the rubber box 8, the shunt tubes 9, the electric heating tubes 10 and a plurality of drainage tubes 11 with the same structure;

the rubber box 8 is installed on the hot melting box 6, the shunt tubes 9 are installed on the rubber box 8, heating grooves 12 are formed in the rubber box 8, the electric heating tubes 10 are installed in the heating grooves 12, the drainage tubes 11 are installed on the shunt tubes 9, and the other ends of the drainage tubes 11 are connected to the hot melting rollers 7 respectively.

Preferably, further, the press-fit structure includes: the pressing box 13, the pressing hydraulic cylinder 14, the pressing extrusion block 15 and the extrusion assembly;

the pressing box 13 is arranged on the processing support 1, the pressing hydraulic cylinder 14 is arranged on the pressing box 13, the pressing extrusion block 15 is arranged on the pushing end of the pressing hydraulic cylinder 14, and the extrusion assembly is arranged on the pressing extrusion block 15.

Preferably, further, the extrusion assembly includes: two pairs of pressing rollers 16 with the same structure and a pair of triangular pressing blocks 17 with the same structure;

two pairs of pressing grooves 18 with the same structure are formed in the pressing extrusion block 15, two pairs of pressing rollers 16 are movably mounted in the two pairs of pressing grooves 18 through bearings respectively, and one pair of triangular pressing blocks 17 are mounted on two sides of the bottom end of the pressing extrusion block 15.

Preferably, a plurality of glue applying holes 19 with the same structure are respectively formed on a plurality of hot melting rollers 7.

Preferably, an auxiliary cooling extrusion structure is arranged on the processing bracket 1;

the auxiliary cooling extrusion structure includes: the cooling box 20, a plurality of cooling rollers 21 with the same structure, a cooling hydraulic cylinder 22, a cooling extrusion block 23 and a cooling component;

the cooling box 20 is installed on the processing support 1, the cooling hydraulic cylinder 22 is installed at the top end in the cooling box 20, the cooling extrusion block 23 is installed at the pushing end of the cooling hydraulic cylinder 22, a plurality of cooling grooves 24 with the same structure are formed in the cooling extrusion block 23, a plurality of cooling rollers 21 are movably installed in the plurality of cooling grooves 24 through bearings respectively, and the cooling assembly is installed on the cooling box 20.

Preferably, the cooling assembly further includes: the cooling system comprises a temperature changing box 25, a radiator 26, a cooling shunt pipe 27 and a plurality of cooling pipes 28 with the same structure;

the temperature changing box 25 is installed on the cooling box 20, the radiator 26 is installed on the temperature changing box 25, the cooling branch pipes 27 are installed on the temperature changing box 25, the plurality of cooling pipes 28 are respectively installed on the plurality of cooling rollers 21, and the other ends of the plurality of cooling pipes 28 are connected to the cooling branch pipes 27.

Preferably, a plurality of cooling drums 21 have cooling liquid tanks 29 formed therein.

Preferably, an infrared distance meter 30 is disposed in the compression box and cooling box 20.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some modifications that may be made to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. The utility model provides a pressfitting equipment is used in honeycomb panel production and processing with automatic rubber coating function, includes: the processing support (1) is characterized in that a honeycomb raw material transportation structure, a hot glue coating structure and a pressing structure are arranged on the processing support (1); the processing bracket (1) is also provided with an auxiliary cooling extrusion structure;

the auxiliary cooling extrusion structure includes: the cooling device comprises a cooling box (20), a plurality of cooling rollers (21) with the same structure, a cooling hydraulic cylinder (22), a cooling extrusion block (23) and a cooling assembly; the cooling box (20) is mounted on the processing support (1), the cooling hydraulic cylinder (22) is mounted at the inner top end of the cooling box (20), the cooling extrusion block (23) is mounted at the pushing end of the cooling hydraulic cylinder (22), a plurality of cooling grooves (24) with the same structure are formed in the cooling extrusion block (23), a plurality of cooling rollers (21) are respectively and movably mounted in the plurality of cooling grooves (24) through bearings, and the cooling assembly is mounted on the cooling box (20);

the honeycomb raw material transportation structure comprises: a plurality of raw material shafts (2) with the same structure, a plurality of supporting brackets (3) with the same structure, a plurality of hydraulic chucks (4) with the same structure and a plurality of auxiliary rollers (5) with the same structure;

the material shafts (2) are horizontally arranged on the processing support (1) in parallel in pairs, the hydraulic chucks (4) are respectively arranged on the support supports (3), the material shafts (2) are respectively movably arranged on the hydraulic chucks (4), and the auxiliary rollers (5) are movably arranged on the processing support (1) through bearings;

the thermal paste structure includes: the hot melting device comprises a hot melting box (6), a plurality of hot melting rollers (7) with the same structure and a hot melting assembly; the hot melting box (6) is arranged on the processing bracket (1), the hot melting rollers (7) are movably arranged in the hot melting box (6) through bearings, and the hot melting assembly is arranged above the hot melting box (6);

the lamination structure includes: the pressing box (13), the pressing hydraulic cylinder (14), the pressing extrusion block (15) and the extrusion assembly; the pressing box (13) is arranged on the processing support (1), the pressing hydraulic cylinder (14) is arranged on the pressing box (13), the pressing extrusion block (15) is arranged on the pushing end of the pressing hydraulic cylinder (14), and the extrusion assembly is arranged on the pressing extrusion block (15).

2. The pressing device with the automatic gluing function for the production and processing of the cellular board as claimed in claim 1, wherein the hot melting assembly comprises: the rubber box (8), the shunt tubes (9), the electric heating tubes (10) and a plurality of drainage tubes (11) with the same structure;

the hot-melting box is characterized in that the glue box (8) is arranged on the hot-melting box (6), the shunt tubes (9) are arranged on the glue box (8), heating grooves (12) are formed in the glue box (8), the electric heating tubes (10) are arranged in the heating grooves (12), the drainage tubes (11) are arranged on the shunt tubes (9), and the other ends of the drainage tubes (11) are respectively connected onto the hot-melting rollers (7).

3. The pressing device with the automatic gluing function for the production and processing of the honeycomb panel as claimed in claim 1, wherein the extrusion assembly comprises: two pairs of pressing rollers (16) with the same structure and a pair of triangular pressing blocks (17) with the same structure;

two pairs of pressing grooves (18) with the same structure are formed in the pressing extrusion block (15), the two pairs of pressing rollers (16) are movably mounted in the two pairs of pressing grooves (18) through bearings respectively, and the pair of triangular pressing blocks (17) are mounted on two sides of the bottom end of the pressing extrusion block (15).

4. The pressing equipment with the automatic gluing function for producing and processing the honeycomb panel is characterized in that a plurality of gluing holes (19) with the same structure are respectively formed in a plurality of hot melting rollers (7).

5. The pressing device for producing and processing the honeycomb panel with the automatic gluing function according to claim 1, wherein the cooling assembly comprises: the cooling system comprises a temperature changing box (25), a radiator (26), a cooling shunt pipe (27) and a plurality of cooling pipes (28) with the same structure;

the cooling device is characterized in that the temperature change box (25) is arranged on the cooling box (20), the radiator (26) is arranged on the temperature change box (25), the cooling branch pipes (27) are arranged on the temperature change box (25), the cooling pipes (28) are respectively arranged on the cooling rollers (21), and the other ends of the cooling pipes (28) are connected to the cooling branch pipes (27).

6. The pressing equipment for producing and processing the honeycomb panel with the automatic gluing function according to claim 1, wherein a plurality of cooling rollers (21) are internally provided with cooling liquid grooves (29).

7. The pressing equipment with the automatic gluing function for producing and processing the cellular board is characterized in that an infrared distance meter (30) is arranged in the pressing box and the cooling box (20).