Honeycomb composite board production equipment facilitating quick grabbing

By setting up a double-sided hot pressing component and a vacuum suction cup gripping and unloading component in the honeycomb composite panel production equipment, the problem of the cumbersome reverse hot pressing required in the existing technology for honeycomb composite panels is solved, and efficient hot pressing and rapid unloading are achieved.

CN224392128UActive Publication Date: 2026-06-23HONICEL HONEYCOMB MATERIAL HLDG LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HONICEL HONEYCOMB MATERIAL HLDG LTD
Filing Date
2025-05-05
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing hot-pressing devices for honeycomb composite panels require repeated hot-pressing after the sides are reversed, which is cumbersome and results in low work efficiency.

Method used

The double-sided hot-pressing assembly is designed to hot-press the upper and lower sides of the honeycomb composite material through the cooperation of upper and lower heating plates, and to quickly pick up and remove the material through a vacuum suction cup.

Benefits of technology

It improves the hot pressing efficiency of honeycomb composite panels and simplifies the material discharge process, thereby increasing production efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to honeycomb plate production technical field, concretely discloses a kind of honeycomb composite board production equipment of quick grasping convenient, including hot-pressing support, the inside installation of hot-pressing support is used for the double-sided hot-pressing component of hot pressing, and the feed end of double-sided hot-pressing component is provided with the guiding feed component for feeding, the discharge end of double-sided hot-pressing component is provided with the catch discharge component for discharge;The double-sided hot-pressing component includes the upper heating plate and lower heating plate of being oppositely arranged on the horizontal center surface of hot-pressing support and being installed in the inside of hot-pressing support, the side of upper heating plate and lower heating plate close to hot-pressing support is fixed with pressure cylinder, and the discharge end of lower heating plate is fixed with discharge plate.The utility model is cooperated by the double-sided hot-pressing component of being set, lower heating plate and upper heating plate, can carry out hot pressing to the upper and lower two sides of honeycomb composite board, improve work efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of honeycomb panel production technology, and in particular to a honeycomb composite panel production equipment that facilitates rapid gripping. Background Technology

[0002] Honeycomb composite panels are typically made by bonding two panels to a honeycomb core material using adhesives. At high temperatures, the molecular activity of the adhesive increases, and the curing reaction speed is accelerated, ensuring a strong chemical bond between the panels and the honeycomb core material. Therefore, the honeycomb composite panels are hot-pressed using a hot-pressing device.

[0003] Currently, the hot pressing device for honeycomb composite panels mainly includes a heating component, a feeding component, and a discharging component. The heating component heats the honeycomb composite panels that are close to the feeding component and enter the device. In order to facilitate the hot pressing of honeycomb composite panels of different thicknesses, the heating component can generally be height-adjustable.

[0004] The honeycomb composite panel hot pressing device uses a liftable heating plate to hot press the honeycomb composite panel placed between the heating plate and the support plate. However, for honeycomb composite panels that require double-sided hot pressing, the honeycomb composite panel needs to be flipped over and passed through the hot pressing device again, which is quite cumbersome to use. Summary of the Invention

[0005] The purpose of this invention is to provide a honeycomb composite panel production equipment that facilitates rapid gripping. Through the arrangement of a double-sided hot pressing assembly, the lower heating plate and the upper heating plate cooperate with each other to hot press the upper and lower sides of the honeycomb composite panel, thereby improving work efficiency and solving the problems mentioned in the background art.

[0006] To achieve the above objectives, the present invention provides the following technical solution: a honeycomb composite board production equipment that facilitates rapid gripping, comprising a hot press support, wherein a double-sided hot press assembly for hot pressing is installed inside the hot press support, and a guide feeding assembly for feeding is provided at the feeding end of the double-sided hot press assembly, and a gripping and discharging assembly for discharging is provided at the discharging end of the double-sided hot press assembly.

[0007] The double-sided hot pressing assembly includes an upper heating plate and a lower heating plate installed inside the hot pressing bracket and arranged opposite each other along the horizontal center plane of the hot pressing bracket. A pressurizing cylinder is fixed on the side of the upper heating plate and the lower heating plate near the hot pressing bracket, and a discharge plate is fixed at the discharge end of the lower heating plate.

[0008] Preferably, the guiding feeding assembly includes a lifting plate that is slidably mounted on the end faces of the upper heating plate and the lower heating plate, and a guide groove is provided at the connection between the lifting plate and the upper heating plate and the lower heating plate, and a guide slider that is fixedly connected to the lifting plate is slidably arranged inside the guide groove.

[0009] Preferably, a connecting spring is fixedly connected between the guide slider and the guide groove, and multiple guide rollers that are evenly distributed at equal intervals are rotatably connected inside the lifting plate.

[0010] Preferably, the gripping and feeding assembly includes a support plate fixed to the feeding end of the hot press bracket, and the support plate and the feeding plate are parallel to each other.

[0011] Preferably, a gripping bracket is slidably connected to the bottom of the support plate, and vacuum suction cups are fixedly installed at the four corners of the bottom of the gripping bracket. An air pump that is connected to the vacuum suction cups via a pipe is fixedly connected to one side of the gripping bracket.

[0012] Preferably, the gripping and feeding assembly further includes a feeding motor fixed to the front end of the support plate, and a transmission screw is fixed to the power output end of the feeding motor. The surface of the transmission screw is connected to a screw slider through a screw sleeve.

[0013] Preferably, a guide groove for the lead screw is provided at the connection between the lead screw slider and the support plate, and a lifting cylinder is fixed at the bottom of the lead screw slider, with the telescopic end of the lifting cylinder fixedly connected to the gripping bracket.

[0014] Compared with the prior art, the beneficial effects of this utility model are:

[0015] 1. Through the set double-sided hot pressing component, the lower heating plate and the upper heating plate work together to hot press the upper and lower sides of the honeycomb composite material, thereby improving work efficiency;

[0016] 2. The honeycomb composite panel is positioned on top of the discharge plate by the set gripping and feeding component. The honeycomb composite panel is then sucked up by the vacuum suction cup to realize the discharge operation. Attached Figure Description

[0017] To more clearly illustrate the specific embodiments of this utility model or the technical solutions in the prior art, the drawings used in the description of the specific embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.

[0018] Figure 1 This is an overall structural view of the present invention;

[0019] Figure 2 This is a schematic diagram of a half-section of the present invention;

[0020] Figure 3 This is a bottom view of the structure of this utility model.

[0021] Explanation of reference numerals in the attached figures:

[0022] 1. Hot press support; 2. Double-sided hot press assembly; 201. Lower heating plate; 202. Upper heating plate; 203. Discharge plate; 204. Pressurizing cylinder; 3. Gripping and discharging assembly; 301. Discharge motor; 302. Support plate; 303. Gripping support; 304. Vacuum suction cup; 305. Transmission screw; 306. Screw slider; 307. Air pump; 308. Screw slide groove; 309. Lifting cylinder; 4. Guide feeding assembly; 401. Guide roller; 402. Lifting plate; 403. Guide slider; 404. Guide slide groove; 405. Connecting spring. Detailed Implementation

[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0024] This utility model provides a technical solution:

[0025] Please see Figures 1 to 3 A honeycomb composite panel production equipment that facilitates rapid gripping includes a hot press support 1, a double-sided hot press assembly 2 for hot pressing is installed inside the hot press support 1, and a guide feeding assembly 4 for feeding is provided at the feeding end of the double-sided hot press assembly 2, and a gripping and discharging assembly 3 for discharging is provided at the discharging end of the double-sided hot press assembly 2.

[0026] The double-sided hot pressing assembly 2 includes an upper heating plate 202 and a lower heating plate 201 installed inside the hot pressing bracket 1 and arranged opposite each other along the horizontal center plane of the hot pressing bracket 1. A pressurizing cylinder 204 is fixed on the side of the upper heating plate 202 and the lower heating plate 201 near the hot pressing bracket 1, and a discharge plate 203 is fixed at the discharge end of the lower heating plate 201.

[0027] The guiding feeding assembly 4 includes a lifting plate 402 that is slidably mounted on the end faces of the upper heating plate 202 and the lower heating plate 201. A guide groove 404 is provided at the connection between the lifting plate 402 and the upper heating plate 202 and the lower heating plate 201. A guide slider 403 that is fixedly connected to the lifting plate 402 is slidably arranged inside the guide groove 404. A connecting spring 405 is fixedly connected between the guide slider 403 and the guide groove 404. A plurality of guide rollers 401 that are evenly distributed at equal intervals are rotatably connected inside the lifting plate 402.

[0028] By adopting the above technical solution, after the honeycomb composite panel requiring hot pressing is coated with adhesive, it enters between the lower heating plate 201 and the upper heating plate 202 via the guide roller 401. A feeding motor can be installed at one end of the guide roller 401, driving the guide roller 401 to rotate, thereby feeding the honeycomb composite panel. During feeding, the pressure cylinder 204 can be activated, causing the lower heating plate 201 and the upper heating plate 202 to move, adjusting the distance between them. This, in turn, adjusts the distance between the lifting plate 402 on one side of the lower heating plate 201 and the upper heating plate 202, allowing the lifting plate 402 to move more smoothly. The distance between the two heating plates is adapted to the thickness of the honeycomb composite panel. The distance between the lifting plates 402 is slightly smaller than the distance between the lower heating plate 201 and the upper heating plate 202. When the lifting plate 402 presses the honeycomb composite panel, it can push the connecting spring 405 to compress in the opposite direction. The connecting spring 405 generates a reverse force until the honeycomb composite panel enters between the lower heating plate 201 and the upper heating plate 202. The lower heating plate 201 and the upper heating plate 202 clamp the honeycomb composite panel and perform hot pressing on the upper and lower surfaces of the honeycomb composite panel. By setting the lower heating plate 201 and the upper heating plate 202 to cooperate with each other, the upper and lower surfaces of the honeycomb composite panel can be hot pressed, improving work efficiency.

[0029] Specifically, such as Figure 2 and Figure 3 As shown, the gripping and feeding assembly 3 includes a support plate 302 fixed to the discharge end of the hot press bracket 1. The support plate 302 and the discharge plate 203 are parallel to each other. The bottom of the support plate 302 is slidably connected to the gripping bracket 303. Vacuum suction cups 304 are fixedly installed at the four corners of the bottom of the gripping bracket 303. An air pump 307 is fixedly connected to one side of the gripping bracket 303 through a pipe and communicates with the vacuum suction cup 304.

[0030] The gripping and feeding assembly 3 also includes a feeding motor 301 fixed to the front end of the support plate 302, and a transmission screw 305 is fixed to the power output end of the feeding motor 301. A screw slider 306 is connected to the surface of the transmission screw 305 through a screw sleeve. A screw groove 308 for guidance is provided at the connection between the screw slider 306 and the support plate 302. A lifting cylinder 309 is fixed to the bottom of the screw slider 306. The telescopic end of the lifting cylinder 309 is fixedly connected to the gripping bracket 303.

[0031] By adopting the above technical solution, during material discharge, when the honeycomb composite panel reaches the top of the discharge plate 203, the lifting cylinder 309 is activated, pushing the gripping bracket 303 downward. The gripping bracket 303 approaches the honeycomb composite panel, and then the air pump 307 on the gripping bracket 303 works. The air pump 307 extracts the gas from the bottom of the vacuum suction cup 304 through the pipe. At this time, the bottom of the vacuum suction cup 304 is in a negative pressure state, which can pick up the honeycomb composite panel. Then, the discharge motor 301 is activated. The power output end of the discharge motor 301 drives the transmission screw 305 to rotate. The screw slider 306 on the transmission screw 305 slides inside the screw groove 308, thereby driving the bottom honeycomb composite panel to move for discharge. The length of the support plate 302 can be set as needed to move the honeycomb composite panel to the discharge area. Through the set gripping and discharge component 3, the honeycomb composite panel is located at the top of the discharge plate 203, and the vacuum suction cup 304 picks up the honeycomb composite panel to realize the material discharge.

[0032] Working Principle: After the honeycomb composite panel requiring hot pressing is coated with adhesive, it enters between the lower heating plate 201 and the upper heating plate 202 via guide roller 401. A feeding motor can be installed at one end of the guide roller 401, driving the guide roller 401 to rotate, thereby feeding the honeycomb composite panel. During feeding, the pressurizing cylinder 204 can be activated, causing the lower heating plate 201 and the upper heating plate 202 to move, adjusting the distance between them. This, in turn, adjusts the distance between the lifting plates 402 on one side of the lower and upper heating plates 201 and 202, ensuring that the distance between the lifting plates 402 matches the thickness of the honeycomb composite panel. The distance between the lifting plates 402 is slightly smaller than the distance between the lower and upper heating plates 201 and 202. When the lifting plates 402 press the honeycomb composite panel, they can push the connecting spring 405 to compress in the opposite direction. The connecting spring 405 generates a reverse force until... The honeycomb composite panel enters between the lower heating plate 201 and the upper heating plate 202. The lower heating plate 201 and the upper heating plate 202 clamp the honeycomb composite panel, and heat-press the upper and lower surfaces of the honeycomb composite panel. When the honeycomb composite panel reaches the top of the discharge plate 203, the lifting cylinder 309 is activated, pushing the gripping bracket 303 to move downward. The gripping bracket 303 approaches the honeycomb composite panel, and then the air pump 307 on the gripping bracket 303 works. The air pump 307 extracts the gas from the bottom of the vacuum suction cup 304 through the pipe. At this time, the bottom of the vacuum suction cup 304 is in a negative pressure state, which can pick up the honeycomb composite panel. Then the discharge motor 301 is started. The power output end of the discharge motor 301 drives the transmission screw 305 to rotate. The screw slider 306 on the transmission screw 305 slides inside the screw groove 308, thereby driving the bottom honeycomb composite panel to move out. The length of the support plate 302 can be set as needed to move the honeycomb composite panel to the discharge area.

[0033] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and are not intended to limit it. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features therein. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this utility model.

Claims

1. A honeycomb composite board production equipment facilitating quick grabbing, comprising a hot pressing support (1), characterized in that: The heat pressing support (1) is internally provided with a double-sided heat pressing assembly (2) for heat pressing, and the feeding end of the double-sided heat pressing assembly (2) is provided with a guide feeding assembly (4) for feeding, and the discharging end of the double-sided heat pressing assembly (2) is provided with a grabbing discharging assembly (3) for discharging. The double-sided heat pressing assembly (2) comprises an upper heating plate (202) and a lower heating plate (201) oppositely arranged on the horizontal center surface of the heat pressing support (1), and the upper heating plate (202) and the lower heating plate (201) are fixed with a pressing air cylinder (204) near one side of the heat pressing support (1), and the discharging end of the lower heating plate (201) is fixed with a discharging plate (203).

2. The honeycomb composite panel production equipment according to claim 1, wherein: The guide feeding assembly (4) comprises a lifting plate (402) slidingly installed on the end surface of the upper heating plate (202) and the lower heating plate (201), and a guide sliding groove (404) is formed at the connection between the lifting plate (402) and the upper heating plate (202) and the lower heating plate (201), and a guide sliding block (403) fixedly connected with the lifting plate (402) is slidingly arranged in the guide sliding groove (404).

3. The honeycomb composite panel production equipment according to claim 2, wherein: The guide sliding block (403) and the guide sliding groove (404) are fixedly connected with a connecting spring (405), and a plurality of guide rollers (401) uniformly distributed at equal intervals are rotatably connected in the lifting plate (402).

4. The honeycomb composite panel production equipment according to claim 3, wherein: The grabbing discharging assembly (3) comprises a support plate (302) fixed to the discharging end of the heat pressing support (1), and the support plate (302) is parallel to the discharging plate (203).

5. The honeycomb composite panel production apparatus according to claim 4, wherein: The bottom of the support plate (302) is slidingly connected with a grabbing support (303), the bottom four corners of the grabbing support (303) are fixedly installed with a vacuum suction cup (304), and one side of the grabbing support (303) is fixedly connected with an air pump (307) in communication with the vacuum suction cup (304) through a pipeline.

6. The honeycomb composite panel production apparatus according to claim 5, wherein: The grabbing discharging assembly (3) further comprises a discharging motor (301) fixed to the front end of the support plate (302), and a transmission screw (305) is fixed to the power output end of the discharging motor (301), and a screw block (306) is connected to the surface of the transmission screw (305) through a screw sleeve.

7. The honeycomb composite panel production apparatus according to claim 6, wherein: The connection between the screw block (306) and the support plate (302) is provided with a screw sliding groove (308) for guiding, and a lifting air cylinder (309) is fixed to the bottom of the screw block (306), and the telescopic end of the lifting air cylinder (309) is fixedly connected with the grabbing support (303).