CN218111745U - Automatic film laminating equipment for processing injection molding parts - Google Patents

Abstract

The utility model discloses an injection molding processing is with automatic laminating equipment, including mounting structure, mounting structure includes the shell, one side fixedly connected with heat conduction stick at shell top, the inside conveyer belt mechanism that is provided with of shell, the shell inner wall rotates and is connected with first lead screw, presss from both sides tight structure, press from both sides tight structure and set up in the outside of first lead screw, tectorial membrane structure includes electric telescopic handle and blowing axle. The utility model discloses a tectorial membrane structure, it drives the rebound to press from both sides tight structure after the injection molding moves under the tectorial membrane structure, then electric telescopic handle drives the surface laminating of film and injection molding, electric telescopic handle continues to drive the film downstream simultaneously, the blowing axle that makes the film drive one side rotates, the blowing axle drives the flat spiral spring simultaneously and stretches, make the flat spiral spring apply reverse direction effort, can make the film tighten, then can be complete with the film attached to the surface of injection molding.

Description

Automatic laminating equipment for processing injection molding parts

Technical Field

The utility model relates to an injection molding processing field, concretely relates to injection molding processing is with automatic laminating equipment.

Background

The injection molding part is a general name of various injection molding products produced by an injection molding machine, comprises various packages, parts and the like, and is mainly prepared from materials such as polyethylene or polypropylene and the like after a plurality of organic solvents are added;

after the injection molding part is processed, a transparent film is required to cover the surface of the injection molding part through film covering equipment, and film covering, also called plastic coating, glue pasting, film pasting and the like, means that the transparent plastic film is covered and pasted on the surface of the injection molding part through hot pressing, so that the effects of protecting and increasing the gloss are achieved.

However, when the device is actually used, the surface of the injection molding part can be in a radian or other shapes, so that when the automatic film laminating device is used for laminating the surface of the injection molding part, the film cannot be attached to the surface of the injection molding part, and the film is not folded when being heated and shrunk.

Therefore, it is necessary to provide an automatic film coating device for processing injection molding parts to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic laminating equipment is used in injection molding processing, through the tectorial membrane structure, it drives the rebound to be pressed from both sides tight structure after moving under the tectorial membrane structure when the injection molding, then electric telescopic handle drives the surface laminating of film and injection molding, electric telescopic handle continues to drive the film rebound simultaneously, the blowing axle that makes the film drive one side rotates, the blowing axle drives the flat spiral spring simultaneously and stretches, make the flat spiral spring apply opposite direction effort, can make the film tighten, then can be complete with the film attached to the surface of injection molding, with the above-mentioned weak point in the solution technique.

In order to achieve the above object, the present invention provides the following technical solutions: an automatic film laminating device for processing injection molding parts comprises an installation structure, wherein the installation structure comprises a shell, a heat conducting rod is fixedly connected to one side of the top of the shell, a conveying belt mechanism is arranged in the shell, and a first screw rod is rotatably connected to the inner wall of the shell;

the clamping structure is arranged outside the first screw rod;

tectorial membrane structure, tectorial membrane structure includes electric telescopic handle and blowing axle, electric telescopic handle one end fixedly connected with mounting panel, the inner wall fixedly connected with snap ring of mounting panel bottom, the both sides of the mounting panel inner wall of electric telescopic handle bottom both sides are rotated and are connected with the location axle, location axle inner wall is provided with the connecting strip, the outer wall fixedly connected with flat spiral spring of the location axle of one side of electric telescopic handle bottom, blowing axle snap ring is connected in the inboard of snap ring, the constant head tank has been seted up at the both ends of blowing axle, the constant head tank sets up in the inner wall of location axle, the outer wall fixedly connected with servo motor of the location axle of the opposite side of electric telescopic handle bottom.

Preferably, the number of the heat conducting rods is set to be a plurality, the heat conducting rods are distributed on the top of one side of the shell at equal intervals, and the middle of each heat conducting rod is set to be in an arc shape.

Preferably, the number of the first screw rods is two, and the two first screw rods are symmetrically distributed on two sides of the vertical center line of the shell.

Preferably, press from both sides tight structure and include lifter plate, spout, second lead screw, elevator, rotor plate and binding plate, the lifter plate sets up in the outer wall of first lead screw, the spout has been seted up to the lifter plate bottom, the spout inner wall rotates and is connected with the second lead screw, second lead screw outer wall is provided with the elevator, elevator one end is rotated and is connected with the rotor plate, rotor plate one end is rotated and is connected with the binding plate.

Preferably, the screw threads at the two ends of the second screw rod are opposite in rotating direction, and the screw threads at the two ends of the second screw rod are respectively matched with the threaded holes of the lifting block.

Preferably, the number of the clamping rings is four, the four clamping rings are symmetrically distributed on two sides of the horizontal center line of the electric telescopic rod, and the clamping rings are arc-shaped.

In the technical scheme, the utility model provides a technological effect and advantage:

1. through the tectorial membrane structure, it drives the rebound to press from both sides tight structure after the injection molding moves under the tectorial membrane structure, then electric telescopic handle drives the surface laminating of film and injection molding, electric telescopic handle continues to drive the film and moves down simultaneously, make the film drive the blowing axle rotation of one side, the blowing axle drives the flat spiral spring simultaneously and stretches, make the flat spiral spring apply reverse direction effort, can make the film tighten, then can be complete with the film attached to the surface of injection molding.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a perspective view of the present invention;

FIG. 2 is a perspective sectional view of the present invention;

FIG. 3 is a development view of the film coating structure of the present invention;

fig. 4 is a perspective view of the clamping structure of the present invention.

Description of the reference numerals:

1. a mounting structure; 101. a housing; 102. a heat conducting rod; 103. a conveyor belt mechanism; 104. a first lead screw; 2. a clamping structure; 201. a lifting plate; 202. a chute; 203. a second lead screw; 204. a lifting block; 205. a rotating plate; 206. attaching a plate; 3. a film covering structure; 301. an electric telescopic rod; 302. mounting a plate; 303. clamping a ring; 304. positioning the shaft; 305. a connecting strip; 306. a flat spiral spring; 307. a discharging shaft; 308. positioning a groove; 309. a servo motor.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

The utility model provides an automatic film coating device for processing injection molding parts, as shown in figures 1-4, which comprises a mounting structure 1, wherein the mounting structure 1 comprises a shell 101, a heat conducting rod 102 is fixedly connected to one side of the top of the shell 101, a conveyor belt mechanism 103 is arranged inside the shell 101, and the inner wall of the shell 101 is rotatably connected with a first screw rod 104;

the clamping structure 2 is arranged outside the first screw 104;

tectorial membrane structure 3, tectorial membrane structure 3 includes electric telescopic handle 301 and blowing axle 307, electric telescopic handle 301 one end fixedly connected with mounting panel 302, the inner wall fixedly connected with snap ring 303 of mounting panel 302 bottom, the both sides of the mounting panel 302 inner wall of electric telescopic handle 301 bottom both sides are rotated and are connected with location axle 304, location axle 304 inner wall is provided with connecting strip 305, the outer wall fixedly connected with flat spiral spring 306 of the location axle 304 of one side of electric telescopic handle 301 bottom, blowing axle 307 block is connected in the inboard of snap ring 303, constant head tank 308 has been seted up at the both ends of blowing axle 307, constant head tank 308 sets up in the inner wall of location axle 304, the outer wall fixedly connected with servo motor 309 of the location axle 304 of the opposite side of electric telescopic handle 301 bottom.

Further, in the above technical solution, the number of the heat conducting rods 102 is set to be a plurality, the plurality of heat conducting rods 102 are equidistantly distributed at the top of one side of the housing 101, the middle of the heat conducting rod 102 is set to be an arc shape, the number of the first lead screws 104 is set to be two, the two first lead screws 104 are symmetrically distributed at two sides of a vertical center line of the housing 101, and the two first lead screws 104 are connected through a transmission belt structure, so that the two first lead screws 104 can synchronously rotate and drive the clamping structure 2 to move upwards.

Further, in the above technical scheme, the clamping structure 2 includes a lifting plate 201, a chute 202, a second lead screw 203, a lifting block 204, a rotating plate 205 and an attaching plate 206, the lifting plate 201 is disposed on the outer wall of the first lead screw 104, the chute 202 is disposed at the bottom of the lifting plate 201, the inner wall of the chute 202 is rotatably connected with the second lead screw 203, the outer wall of the second lead screw 203 is provided with the lifting block 204, one end of the lifting block 204 is rotatably connected with the rotating plate 205, one end of the rotating plate 205 is rotatably connected with the attaching plate 206, the screw threads at two ends of the second lead screw 203 are opposite in rotation direction, the screw threads at two ends of the second lead screw 203 are respectively matched with the screw holes of the lifting block 204, the motor drives the second lead screw 203 to rotate, the second lead screw 203 drives the lifting block 204 to rotate, then the lifting block 204 drives the rotating plate 205 to rotate, so that the attaching plate 206 at the front end of the rotating plate 205 can clamp the injection molding piece, and the injection molding piece is prevented from being deviated in the process of laminating.

Further, in the above technical solution, the number of the locking rings 303 is four, the four locking rings 303 are symmetrically distributed on two sides of a horizontal center line of the electric telescopic rod 301, the locking rings 303 are arranged in an arc shape, the discharge shaft 307 provided with a thin film can be installed through the arranged locking rings 303, and the flat spiral spring 306 arranged on one side of the bottom of the electric telescopic rod 301 can adjust the rotation of the discharge shaft 307, so that the discharge shaft 307 can still keep a tight state after being stretched.

This practical theory of operation:

referring to the attached drawings 1-4 of the specification, firstly, when the surface of an injection molding piece needs to be coated, positioning grooves 308 at two ends of a discharging shaft 307 with a film and a discharging shaft 307 without the film are respectively inserted into positioning shafts 304 at two sides of an electric telescopic rod 301, then a flat spiral spring 306 pulls the discharging shaft 307 with the film to rotate, so that the film is tightened, the film is divided into two layers, the film needing to be attached to the surface of the injection molding piece is adhered to a bottom layer, when the film is adhered to the injection molding piece, the film is separated from the bottom layer through stretching, the injection molding piece is placed on the surface of a conveyor belt mechanism 103, and the conveyor belt mechanism 103 drives the injection molding piece to move between two adhering plates 206;

referring to the attached drawings 1-4 of the specification, a motor is started to drive a second lead screw 203 to rotate, due to the fact that the thread directions of two ends of the second lead screw 203 are opposite, the second lead screw 203 can drive a lifting block 204 to move in opposite directions, then the lifting block 204 moves inwards at the same time to push a rotating plate 205 to rotate, the rotating plate 205 pushes an attaching plate 206 to attach to the surface of an injection molding piece, then a first lead screw 104 drives a clamping structure 2 to move upwards, the clamping structure 2 drives the injection molding piece after clamping to move upwards, then an electric telescopic rod 301 drives an installing plate 302 to move downwards, the installing plate 302 drives a film to attach to the surface of the injection molding piece, and continues to move downwards, after the surface of the film is completely attached to the injection molding piece, the surface of the film is bent, a discharging shaft 307 provided with a plane volute spiral spring 306 is pulled to rotate, meanwhile, the plane volute spiral spring 306 applies a pulling force to the discharging shaft 307 to pull the film to be tight, gaps are avoided, when the film is separated from the bottom layer and attached to the surface of the injection molding piece, the injection molding piece is driven by the clamping structure 2 to descend, the injection molding piece to release the injection molding piece, so that a conveyor belt 103 drives the injection molding piece to drive the heat conducting rod to shrink on the surface of the injection molding piece through a heat conducting rod 102, and heat stick to heat.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (6)

1. The utility model provides an injection molding processing is with automatic laminating equipment which characterized in that: comprises that

The mounting structure (1) comprises a shell (101), a heat conducting rod (102) is fixedly connected to one side of the top of the shell (101), a conveying belt mechanism (103) is arranged inside the shell (101), and a first screw rod (104) is rotatably connected to the inner wall of the shell (101);

a clamping structure (2), wherein the clamping structure (2) is arranged outside the first screw rod (104);

tectorial membrane structure (3), tectorial membrane structure (3) include electric telescopic handle (301) and blowing axle (307), electric telescopic handle (301) one end fixedly connected with mounting panel (302), inner wall fixedly connected with snap ring (303) of mounting panel (302) bottom, the both sides of mounting panel (302) inner wall of electric telescopic handle (301) bottom both sides are rotated and are connected with location axle (304), location axle (304) inner wall is provided with connecting strip (305), outer wall fixedly connected with flat spiral spring (306) of location axle (304) of one side of electric telescopic handle (301) bottom, blowing axle (307) snap-in is connected in the inboard of snap ring (303), constant head tank (308) have been seted up at the both ends of blowing axle (307), constant head tank (308) set up in the inner wall of location axle (304), the outer wall fixedly connected with servo motor (309) of the location axle (304) of the opposite side of electric telescopic handle (301) bottom.

2. The automatic laminating device for processing the injection-molded parts, according to claim 1, is characterized in that: the number of the heat conduction rods (102) is multiple, the heat conduction rods (102) are distributed on the top of one side of the shell (101) at equal intervals, and the middle of each heat conduction rod (102) is in an arc shape.

3. The automatic laminating device for processing the injection-molded parts, according to claim 1, is characterized in that: the number of the first screw rods (104) is two, and the two first screw rods (104) are symmetrically distributed on two sides of the vertical center line of the shell (101).

4. The automatic laminating device for processing the injection-molded parts, according to claim 1, is characterized in that: the clamping structure (2) comprises a lifting plate (201), a sliding groove (202), a second lead screw (203), a lifting block (204), a rotating plate (205) and a binding plate (206), wherein the lifting plate (201) is arranged on the outer wall of the first lead screw (104), the sliding groove (202) is formed in the bottom of the lifting plate (201), the inner wall of the sliding groove (202) is connected with the second lead screw (203) in a rotating mode, the outer wall of the second lead screw (203) is provided with the lifting block (204), one end of the lifting block (204) is connected with the rotating plate (205) in a rotating mode, and one end of the rotating plate (205) is connected with the binding plate (206) in a rotating mode.

5. The automatic laminating device for processing the injection-molded parts, according to claim 4, is characterized in that: the thread turning directions of the two ends of the second screw rod (203) are opposite, and the threads of the two ends of the second screw rod (203) are respectively matched with the threaded holes of the lifting block (204).

6. The automatic laminating device for processing the injection-molded parts, according to claim 1, is characterized in that: the number of the clamping rings (303) is four, the four clamping rings (303) are symmetrically distributed on two sides of the horizontal center line of the electric telescopic rod (301), and the clamping rings (303) are arranged in a circular arc shape.

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