CN213860326U - Automatic broken device after epoxy plastic envelope material calendering cooling - Google Patents

Abstract

The utility model relates to an automatic broken device after epoxy plastic envelope material calendering cooling, include: the fixed guide mechanism comprises two vertically arranged support plates, and one side, opposite to the two support plates, of each support plate is provided with a one-way annular guide groove; the reciprocating mechanism comprises a movable block, two ends of the movable block are provided with slide posts in a matching way with the one-way annular guide groove, and the bottom of the movable block is provided with a cutter for pressing and cutting the plastic packaging material plate; the movable block driving mechanism comprises a vertical guide block, and a vertical guide groove is formed in the bottom of the vertical guide block. The plastic package material plate can move in the same direction as the plastic package material plate when being pressed and cut, thereby reducing or even eliminating the speed difference between the plastic package material plate and the plastic package material plate, and avoiding the condition that a cutter bears larger shearing force and is easy to damage; the mode not only reduces the labor intensity of operators, but also ensures the consistency of product quality because the shapes and sizes of the plates which are pressed and cut by the constant-speed reciprocating motion are uniform.

Description

Automatic broken device after epoxy plastic envelope material calendering cooling

Technical Field

The utility model relates to an epoxy plastic packaging material production facility technical field especially relates to an automatic broken device after epoxy plastic packaging material calendering cooling.

Background

In the existing production process of epoxy plastic packaging materials, the sealing materials need to be crushed after being extruded, the shape and volume of the materials before crushing have great influence on the size of the crushed particle diameter, the thickness of the materials can be kept relatively uniform after being subjected to delay, and the material plates are difficult to control. The existing method is to hammer the flitch by means of manual and mechanical properties, so that the flitch is divided into the size convenient for crushing, the mode is large in labor amount of operators, and the divided shapes and sizes completely depend on experience and working state of the operators, so that the consistency of products is poor.

Disclosure of Invention

The utility model aims at solving the defects of the prior art and providing an automatic crushing device after the epoxy plastic package material is rolled and cooled.

The utility model discloses a realize above-mentioned purpose, adopt following technical scheme:

the utility model provides an automatic broken device after epoxy plastic envelope material calendering cooling, includes:

the fixed guide mechanism comprises two vertically arranged support plates, the two support plates are respectively positioned on two sides of the discharge end of the calender, and one opposite side of the two support plates is correspondingly provided with a one-way annular guide groove;

the reciprocating mechanism comprises a movable block, the movable block is positioned between the two supporting plates, two ends of the movable block are provided with sliding columns in a matching way with the one-way annular guide groove, the sliding columns can slide along the one-way annular guide groove in a one-way, and the bottom of the movable block is provided with a cutter for pressing and cutting the plastic package material plate;

the movable block driving mechanism is used for driving the movable block to slide along the one-way annular guide groove and comprises a vertical guide block, the bottom of the vertical guide block is provided with a vertical guide groove, the movable block is connected with the vertical guide groove in a sliding mode, and the movable block is driven to transversely reciprocate by the translation driving mechanism.

Furthermore, the shape of the one-way annular guide groove is an inverted triangle.

Furthermore, a guide plate is arranged at the top of one end, away from the calender, of the one-way annular guide groove, and the guide plate is hinged with the inner side of a folding angle of the one-way annular guide groove.

Furthermore, the translation driving mechanism is a telescopic driving device, a fixed part of the telescopic driving device is fixedly connected with the supporting plate, and a movable part of the telescopic driving device is fixedly connected with the guide block.

Furthermore, the telescopic driving device is one of an air cylinder, an electric cylinder and a hydraulic cylinder.

Further, translation actuating mechanism includes the lead screw, and the lead screw runs through the guide block setting and the two screw-thread fit, and the lead screw both ends are rotated and are even had the end plate, end plate and backup pad fixed connection, and the lead screw is rotated by motor drive.

The utility model has the advantages that: the plastic package material plate can move in the same direction as the plastic package material plate when being pressed and cut, thereby reducing or even eliminating the speed difference between the plastic package material plate and the plastic package material plate, and avoiding the condition that a cutter bears larger shearing force and is easy to damage; the mode not only reduces the labor intensity of operators, but also ensures the consistency of product quality because the shapes and sizes of the plates which are pressed and cut by the constant-speed reciprocating motion are uniform.

Drawings

FIG. 1 is a schematic structural diagram according to a first embodiment;

FIG. 2 is a schematic structural diagram of the second embodiment;

in the figure: 1-fixing a guide mechanism; 11-a support plate; 12-one-way annular guide groove; 13-a guide plate; 2-reciprocating moving mechanism; 21-a movable block; 22-a strut; 23-a cutter; 3-a movable block driving mechanism; 31-vertical guide block; 32-vertical guide groove; 33-a translation drive mechanism; 331-a lead screw; 332-an end plate; 333-motor; 4-plastic packaging material plate;

the following detailed description will be made in conjunction with embodiments of the present invention with reference to the accompanying drawings.

Detailed Description

The invention will be further explained with reference to the following figures and examples:

as shown in the figure, an epoxy plastic packaging material calendering cooling back automatic crushing's device includes:

the fixed guide mechanism 1 comprises two vertically arranged support plates 11, the two support plates 11 are respectively positioned at two sides of the discharge end of the calender, and one opposite side of the two support plates 11 is correspondingly provided with a one-way annular guide groove 12;

the reciprocating mechanism 2, the reciprocating mechanism 2 includes the movable block 21, the movable block 21 locates between two backup pads 11, both ends of the movable block 21 cooperate with unidirectional annular guide slot 12 to have slide posts 22, the slide post 22 can be slipped unidirectionally along unidirectional annular guide slot 12, there are cutters 23 used for pressing and cutting the plastic package flitch 4 at the bottom of the movable block 21;

the movable block driving mechanism 3 is used for driving the movable block 21 to slide along the one-way annular guide groove 12, the movable block driving mechanism 3 comprises a vertical guide block 31, a vertical guide groove 32 is formed in the bottom of the vertical guide block 31, the movable block 21 is connected with the vertical guide groove 32 in a sliding mode, and the movable block 21 is driven to transversely reciprocate by a translation driving mechanism 33.

Further, the one-way annular guide groove 12 is shaped like an inverted triangle.

Furthermore, a guide plate 13 is arranged at the top of one end, away from the calender, of the one-way annular guide groove 12, and the guide plate 13 is hinged with the inner side of a folding angle of the one-way annular guide groove 12.

Further, in the first embodiment, the translation driving mechanism 33 is a telescopic driving device, a fixed portion of the telescopic driving device is fixedly connected with the supporting plate 11, and a movable portion of the telescopic driving device is fixedly connected with the guide block 31; the telescopic driving device is one of an air cylinder, an electric cylinder and a hydraulic cylinder;

in the second embodiment, the translational driving mechanism 33 includes a lead screw 331, the lead screw 331 penetrates through the guide block 31 and is in threaded fit with the guide block 31, end plates 332 are rotatably connected to two ends of the lead screw 331, the end plates 332 are fixedly connected to the support plate 11, and the lead screw 331 is driven by a motor 333 to rotate.

When the utility model is used, the telescopic driving device or the motor 333 moves to drive the vertical guide block 31 to reciprocate along the horizontal direction, when the vertical guide block moves along the discharging direction of the calender (i.e. the direction far away from the calender), the movable block 21 is firstly pressed down and then lifted up under the action of the sliding column 22 and the one-way annular guide groove 12, and the cutter 23 performs press cutting on the plastic package plate 4 to break the plastic package plate when pressing down; when the vertical guide block 31 moves reversely, under the action of the guide plate 13, the sliding column 22 does not return along the original path, but slides to the initial position along the horizontal slideway at the top of the unidirectional annular guide groove 12, completes a working cycle, and so on. The plastic package material plate 4 can move in the same direction as the plastic package material plate when being pressed and cut, so that the speed difference between the plastic package material plate and the plastic package material plate is reduced or even eliminated, and the condition that the cutter 23 is damaged due to bearing larger shearing force is avoided; the mode not only reduces the labor intensity of operators, but also ensures the consistency of product quality because the shapes and sizes of the plates which are pressed and cut by the constant-speed reciprocating motion are uniform.

The present invention has been described above with reference to the accompanying drawings, and it is obvious that the present invention is not limited by the above embodiments, and various improvements made by the method concept and technical solution of the present invention or directly applied to other occasions without improvement are all within the protection scope of the present invention.

Claims (6)

1. The utility model provides an automatic broken device after epoxy plastic envelope material calendering cooling which characterized in that includes:

the device comprises a fixed guide mechanism (1), wherein the fixed guide mechanism (1) comprises two vertically arranged support plates (11), the two support plates (11) are respectively positioned at two sides of the discharge end of the calender, and one opposite side of each support plate (11) is correspondingly provided with a one-way annular guide groove (12);

the reciprocating mechanism (2), the reciprocating mechanism (2) includes the movable block (21), the movable block (21) locates between two backup pads (11), both ends of the movable block (21) cooperate with unidirectional cyclic guide slot (12) to have slide columns (22), the slide column (22) can be slipped unidirectionally along the unidirectional cyclic guide slot (12), there are cutters (23) used for pressing and cutting the plastic envelope flitch (4) at the bottom of the movable block (21);

the movable block driving mechanism (3) is used for driving the movable block (21) to slide along the one-way annular guide groove (12), the movable block driving mechanism (3) comprises a vertical guide block (31), the bottom of the vertical guide block (31) is provided with a vertical guide groove (32), the movable block (21) is in sliding connection with the vertical guide groove (32), and the movable block (21) is driven to transversely reciprocate by a translation driving mechanism (33).

2. The epoxy molding compound calendering and cooling automatic crushing device as set forth in claim 1, characterized in that the one-way annular guide groove (12) is shaped as an inverted triangle.

3. The device for automatically crushing the epoxy plastic package material after being calendered and cooled according to claim 2, wherein a guide plate (13) is arranged at the top of one end of the unidirectional annular guide groove (12) far away from the calender, and the guide plate (13) is hinged with the inner side of a folding angle of the unidirectional annular guide groove (12).

4. The apparatus for automatically breaking epoxy molding compound after calendering and cooling according to any one of claims 1 to 3, wherein the translational driving mechanism (33) is a telescopic driving device, a fixed part of the telescopic driving device is fixedly connected with the supporting plate (11), and a movable part of the telescopic driving device is fixedly connected with the guide block (31).

5. The apparatus for automatically breaking after rolling and cooling epoxy molding compound according to claim 4, wherein the telescopic driving device is one of a pneumatic cylinder, an electric cylinder and a hydraulic cylinder.

6. The device for automatically crushing the epoxy plastic package material after calendering and cooling according to any one of claims 1 to 3, wherein the translation driving mechanism (33) comprises a lead screw (331), the lead screw (331) is arranged through the guide block (31) and is in threaded fit with the guide block, end plates (332) are rotatably connected to two ends of the lead screw (331), the end plates (332) are fixedly connected with the support plate (11), and the lead screw (331) is driven to rotate by a motor (333).

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