CN212046337U - Automatic hot-pressing laminating machine for nanocrystalline - Google Patents

Abstract

The utility model discloses an automatic hot pressing laminating machine of nanocrystalline belongs to cross cutting technical field. The device comprises a conveying channel for conveying the nanocrystalline material, wherein a hot melt adhesive feeding module is arranged at the upstream of the conveying channel, a hot pressing module is arranged at the downstream of the conveying channel, and a CCD (charge coupled device) detection module is also arranged on the conveying channel and is positioned between the hot pressing module and the hot melt adhesive feeding module; the starting end of the transmission channel is also provided with a pressing module which is positioned at the upstream of the hot melt adhesive feeding module. The utility model discloses can be earlier at the compound location protection film on the nanocrystalline material, assemble the hot melt adhesive on the nanocrystalline material area, through hot pressing module hot pressing, use manpower sparingly, raise the efficiency, reduce harmfully.

Description

Automatic hot-pressing laminating machine for nanocrystalline

Technical Field

The utility model relates to a cross cutting technical field, in particular to automatic hot pressing laminating machine of nanocrystalline.

Background

The application range of the nanocrystalline in the technical field of die cutting is very wide. At present, in the laminating technology of nanocrystalline materials, a positioning column is generally used for assembling the hot melt adhesive and the nanocrystalline materials, then the assembled materials are hot-pressed on a jig plate, and products are taken down from the jig after the hot pressing is finished, so that the processing technology is complex, the working efficiency is low, and a large amount of manpower is wasted. Before hot pressing, the hot melt adhesive and the nanocrystalline material are not completely attached, and the hot pressing process has a risk of deviation, which easily causes poor products.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic hot pressing laminating machine of nanocrystalline can solve one or several kinds among the above-mentioned prior art problem.

According to one aspect of the utility model, the utility model provides an automatic hot pressing laminating machine of nanocrystalline, including the transfer passage who is used for conveying nanocrystalline material, the upper reaches of transfer passage are equipped with hot melt adhesive material loading module, and the low reaches of transfer passage are equipped with hot pressing module, still are equipped with CCD on the transfer passage and detect the module, and CCD detects the module and is located between hot pressing module and the hot melt adhesive material loading module; the starting end of the transmission channel is also provided with a pressing module which is positioned at the upstream of the hot melt adhesive feeding module.

In some embodiments, the CCD detection module comprises a first detection module for detecting the nano-crystalline material and a second detection module for detecting the hot melt adhesive material. The beneficial effects are that, can detect nanocrystalline material and hot melt adhesive material location respectively through CCD detection module, detect the material skew condition in real time to timely feedback conveniently rectifies and adjusts, guarantees product quality.

In some embodiments, there are two hot melt adhesive feeding modules, one on each side of the transport path. The automatic feeding device has the beneficial effects that the left side and the right side of the conveying channel can be respectively fed, the assembly efficiency is improved, and the processing time cost is reduced.

In some embodiments, there are two second detection modules. Therefore, when the hot melt adhesive materials are fed from the two sides of the conveying channel at the same time, the hot melt adhesive materials can be simultaneously detected and fed back in time, and the product quality is ensured.

In some embodiments, the hot pressing module comprises an upper cover plate, a lower cover plate and a temperature sensor; the upper cover plate can move up and down; the upper cover plate is provided with a heating plate, and the temperature sensor is connected with the heating plate. The hot-pressing module has the beneficial effects that the nanocrystalline material belt conveyed to the hot-pressing module through the conveying channel and the hot melt adhesive on the nanocrystalline material belt penetrate between the upper cover plate and the lower cover plate. After the hot-pressed material reaches the hot-pressing module, the transfer is suspended, and after the temperature of the heating plate rises, the upper cover plate moves downwards to be attached to the material, so that the nanocrystalline coiled material and the hot melt adhesive material can be attached in a hot-pressing mode. And after the hot pressing is finished, the upper cover plate moves upwards to return to the original position, the materials are continuously transferred, and the subsequent treatment is carried out. Temperature-sensing ware is connected with the hot plate, can the temperature of real-time detection hot plate, and convenient adjustment guarantees that hot pressing temperature is suitable, avoids leading to the laminating not firm or the product deformation that leads to because of the high temperature excessively because of the temperature is low.

The working principle of the hot-pressing module is that the heating plate is a whole copper block, four holes are respectively formed in the front and the back of the heating plate, heating rods are inserted into the holes, and when heating is needed, the whole heating plate is heated through the eight heating rods. The temperature sensor is a thermocouple, the working end of the thermocouple measures the temperature of the heating plate, the cold end of the thermocouple is connected with a display instrument, and the temperature is displayed through the display instrument.

In some embodiments, the conveying channel is further configured with a displacement compensation module, and the displacement compensation module can adjust the position of the material according to the detection result of the CCD detection module. The CCD detection module has the beneficial effects that the position of the material can be adjusted according to the detection result of the CCD detection module, so that the material is suitable in position and convenient to be attached in a hot pressing mode.

The working principle of the displacement compensation module is that the CCD detection module detects that a certain proportional relation exists between an output electric signal and a detected parameter, and when the proportional relation is deviated due to excessive detection times, a calculation method is adopted to carry out nonlinear compensation on the measurement data of the automatic system. Formula programming of output signals and measured parameters is well done in software, the measured parameters directly enter a computer program for operation after sampling, filtering and signal conversion, and calculated data are output data processed by a compensation method.

Drawings

Fig. 1 is a perspective view of an automatic thermal pressing and bonding machine for nano-crystalline according to an embodiment of the present invention;

FIG. 2 is a top view of the automated hot-pressing nano-crystalline laminator shown in FIG. 1;

fig. 3 is a schematic view of a hot pressing module of the automatic nanocrystalline hot pressing and bonding machine shown in fig. 1.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 to 3 schematically show an automatic thermal pressing laminator device for nanocrystals according to an embodiment of the present invention. As shown in the figure, the device comprises a table top, and a conveying channel 1 for conveying the nanocrystalline coiled material is arranged on the table top. Two hot melt adhesive feeding modules 2 are further arranged at the upstream of the conveying channel 1, and the two hot melt adhesive feeding modules 2 are respectively located on two sides of the conveying channel 1. A hot pressing module 3 is arranged at the downstream of the conveying channel 1. Along transfer passage 1, still be equipped with CCD and detect the module between hot melt adhesive material loading module 2 and hot pressing module 3.

The nanocrystalline web is conveyed through a conveying channel 1. The starting end of the transmission channel 1 is provided with a pressing module. The nanocrystalline material passes through the pressing module before entering the conveying channel 1, and the nanocrystalline coiled material and the PI film are mutually attached in the pressing process, and the PI film has good high temperature resistance and cannot be damaged in the subsequent hot pressing process, so that the attaching tightness of the nanocrystalline material and the hot melt adhesive material can be improved.

The hot melt adhesive feeding modules 2 on the two sides of the conveying channel 1 can feed materials through a manipulator, and the hot melt adhesive materials are transferred to the conveying channel 1. Set up two hot melt adhesive material loading modules 2, can carry out the material loading from transfer passage 1's both sides simultaneously, improve the packaging efficiency.

The CCD detection module comprises a first detection module 41 and a second detection module 42, and the material can be positioned by an influence identification induction technology. The first detecting module 41 is opposite to the nanocrystal material, and can detect the position deviation of the nanocrystal coil. The two second detection modules 42 are respectively corresponding to the two hot melt adhesive feeding modules 2, and can detect the position deviation condition of the hot melt adhesive material.

The CCD detection module is also connected with the displacement compensation module 5. After the displacement compensation module 5 receives the influence information of the CCD detection module, the displacement compensation can be carried out on the nanocrystalline material or the hot melt adhesive material which is deviated, the position of the material is corrected or adjusted, the accuracy of the attaching position point is ensured, and the product quality is improved.

The hot press module 3 includes an upper cover plate 31 and a lower cover plate 32 which are vertically opposed to each other, and the upper cover plate 31 is vertically movable and the upper cover plate 31 is provided with a heating plate 34 to be heated. The heating plate 34 is also connected with a temperature sensor 33, and the temperature sensor 33 can monitor the temperature of the heating plate 34 in real time, so that the heating plate 34 can be conveniently controlled to prevent overhigh or overlow temperature and ensure the hot-pressing effect.

The nanocrystalline web and the hot melt adhesive material thereon may pass between the upper and lower cover plates 31, 32. After the material reaches the hot-pressing module 3, the material is suspended to be conveyed, and after the heating plate 34 is heated to a proper temperature, the upper cover plate 31 connected with the heating plate moves downwards until the material is attached to the nanocrystalline coiled material and the hot-melt adhesive material on the nanocrystalline coiled material. Under the high temperature action of the heating plate 34, the hot melt adhesive material and the nanocrystalline material are closely adhered together. After the hot pressing is completed, the upper cover plate 31 moves upwards, returns to the initial position, and the materials are conveyed continuously. After the hot-pressed material is completely separated from the lower cover plate 32, the material stops being conveyed again, the nanocrystalline coiled material which is not yet hot-pressed and the hot melt adhesive material on the nanocrystalline coiled material are arranged on the lower cover plate 32 at the moment, the upper cover plate 31 moves downwards again, and the material is hot-pressed. After the hot pressing is completed, the upper cover plate 31 moves upwards, and the materials are conveyed continuously. The continuous hot-pressing fit of the materials is realized through the circulation. The materials which are subjected to hot-pressing and laminating can be subjected to waste discharge, material collection and other treatments, such as hot melt adhesive base film discharge, material collection shaft material collection and the like.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (6)

1. The automatic nanocrystalline hot-pressing laminating machine is characterized by comprising a conveying channel (1) for conveying nanocrystalline materials, wherein a hot-melt adhesive feeding module (2) is arranged at the upstream of the conveying channel (1), a hot-pressing module (3) is arranged at the downstream of the conveying channel (1), a CCD (charge coupled device) detection module is further arranged on the conveying channel (1), and the CCD detection module is positioned between the hot-pressing module (3) and the hot-melt adhesive feeding module (2); the starting end of the conveying channel (1) is further provided with a pressing module, and the pressing module is located at the upstream of the hot melt adhesive feeding module (2).

2. The automated nanocrystalline hot-press laminator according to claim 1, wherein the CCD detection module comprises a first detection module (41) for detecting the nanoscopic material and a second detection module (42) for detecting the hot melt adhesive material.

3. The automated hot-pressing laminating machine for nano-crystalline according to claim 1 or 2, wherein there are two hot-melt adhesive loading modules (2), and the two hot-melt adhesive loading modules (2) are respectively located at two sides of the conveying channel (1).

4. The automated thermocompression bonding machine of claim 2, wherein there are two second detection modules (42).

5. The automatic nanocrystalline hot-pressing laminating machine according to claim 1, wherein the hot-pressing module (3) comprises an upper cover plate (31), a lower cover plate (32) and a temperature sensor (33), the upper cover plate (31) can move up and down, the upper cover plate (31) is provided with a heating plate (34), and the temperature sensor (33) is connected with the heating plate (34).

6. The automatic nanocrystalline hot-pressing laminating machine according to claim 1, characterized in that the conveying channel (1) is further provided with a displacement compensation module (5), and the displacement compensation module (5) can adjust the position of the material according to the detection result of the CCD detection module.

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