CN221697858U - Semi-automatic extrusion hollow blow molding process manufacturing device - Google Patents

Abstract

The utility model belongs to the technical field of blow molding equipment, and discloses a semi-automatic extrusion hollow blow molding process manufacturing device which comprises a blow molding equipment main body, wherein a blow molding box body is movably connected in the blow molding equipment main body, an injection molding assembly is arranged on the top wall of the blow molding equipment main body, an extension assembly is movably connected on the top wall of the blow molding equipment main body, and the semi-automatic extrusion hollow blow molding process manufacturing device further comprises an inner clamping assembly which is arranged under the extension assembly; the inner clamping assembly comprises a linkage disc, and at least two clamping pieces are symmetrically arranged on the bottom wall of the linkage disc; the clamping piece comprises a first driving motor; the top of interior clamp subassembly is equipped with and stretches the subassembly of sinking, can realize carrying out the automation through stretching the subassembly of sinking and take out the finished product in the blowing box, after the blowing box is accomplished the finished product preparation, accessible stretches the subassembly of sinking, interior clamp subassembly with the finished product centre gripping, take out, remove the exit to the blowing equipment main part to take out the finished product from the blowing box in, and take off by the staff and place in the holding area.

Description

Semi-automatic extrusion hollow blow molding process manufacturing device

Technical Field

The utility model belongs to the technical field of blow molding equipment, and particularly relates to a semi-automatic extrusion hollow blow molding process manufacturing device.

Background

The blow molding equipment is equipment which melts plastic materials and then puts the melted plastic materials into corresponding moulds to give off air so that the plastic bodies are in the shape of the moulds, the plastic barrels are tools commonly used in daily life of people and are also blow molded by the processing equipment, and along with the continuous progress of technology, the equipment is also in continuous improvement.

The existing blow molding equipment is safe, the blow molding process is usually located at the center of the equipment, and protection components are arranged on two sides of the blow molding process, but a worker is often required to enter the equipment in a half body mode, after the blow molding equipment is pulled up, the manufactured blow molding product can be taken out, the process is still full of dangers due to the fact that the worker enters the equipment, and when the blow molding product is taken, the worker is difficult to find a stress point due to the fact that the worker needs to go deep into the equipment, the blow molding product is difficult to remove from the equipment, and the labor is wasted, so that the semi-automatic extrusion hollow blow molding process manufacturing device is provided.

Disclosure of utility model

The utility model aims to provide a semi-automatic extrusion hollow blow molding process manufacturing device which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the semi-automatic extrusion hollow blow molding process manufacturing device comprises a blow molding equipment main body, wherein a blow molding box body is movably connected in the blow molding equipment main body, an injection molding assembly is arranged on the top wall of the blow molding equipment main body, an extension assembly is movably connected on the top wall of the blow molding equipment main body, and the semi-automatic extrusion hollow blow molding process manufacturing device further comprises an inner clamping assembly which is arranged under the extension assembly;

The inner clamping assembly comprises a linkage disc, and at least two clamping pieces are symmetrically arranged on the bottom wall of the linkage disc;

The clamping piece comprises a first driving motor, an inner clamping plate is arranged at the bottom of the first driving motor, and a plurality of arc-shaped connecting blocks are arranged on the surface of the inner clamping plate.

Preferably, the top of interior splint is equipped with two connecting blocks, and the middle part of two connecting blocks rotates and is connected with the second axis of rotation, and the lateral wall of one of them connecting block is connected with second driving motor.

Preferably, the output shaft of the second driving motor is connected with the second rotating shaft, and the output shaft and the second rotating shaft are arranged in the same circle center.

Preferably, the side wall of the second rotating shaft is connected with the connecting vertical plate through the fixed transverse plate, a first rotating shaft is arranged at the top of the connecting vertical plate, and a first driving motor is arranged on one side of the first rotating shaft.

Preferably, the top structure of the inner clamping plate and the top structure of the connecting vertical plate are of the same structure.

Preferably, the surface of the arc-shaped connecting block is made of rubber.

Preferably, the movable screw is arranged in the blow molding equipment main body, the movable assembly is arranged right below the blow molding box body outside the movable screw, the injection molding pipe is arranged at the bottom of the injection molding assembly, and the injection molding pipe is matched with the blow molding box body.

Compared with the prior art, the utility model has the beneficial effects that:

The top of interior clamp assembly is equipped with and stretches the subassembly of sinking, can realize carrying out the automation through stretching the subassembly of sinking and take out the finished product in the blowing box, after the blowing box is accomplished the finished product preparation, the accessible stretches the subassembly of sinking, interior clamp assembly with the finished product centre gripping, take out, remove the exit to blowing equipment main part to take out the finished product from the blowing box in, and take off by the staff and place in the holding area, make take out the finished product work relatively simple, convenient, and reduced corresponding potential safety hazard.

The angle that interior clamp assembly was by, two rotation motors of second driving motor, arc connecting block, interior splint can be effectually adjusted for interior splint, arc connecting block can laminate the inner wall of finished product more, make interior splint, arc connecting block when fixed finished product, neither can cause the damage to the finished product, simultaneously laminate very much, fixed very firm to the finished product again, interior clamp assembly can stretch into in the finished product completely, and fix from the finished product is inside through interior mode that presss from both sides, then remove the finished product.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the inner clip assembly of the present utility model when received;

FIG. 3 is a schematic view of the inner clip assembly of the present utility model in use;

FIG. 4 is an exploded view of the inner clip assembly of the present utility model;

In the figure: 1. a blow molding apparatus body; 2. an inner clip assembly; 21. a linkage disc; 22. a first driving motor; 23. connecting the vertical plates; 24. a second driving motor; 241. a second rotation shaft; 242. a connecting block; 243. fixing the transverse plate; 25. an inner clamping plate; 26. an arc-shaped connecting block; 27. a first rotation shaft; 3. a sink assembly; 4. an injection molding assembly; 41. injection molding a tube; 5. blow molding the box body; 6. a moving assembly; 61. the screw is moved.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 4, the present utility model provides a technical solution: the semi-automatic extrusion hollow blow molding process manufacturing device comprises a blow molding equipment main body (1), wherein a blow molding box body (5) is movably connected in the blow molding equipment main body (1), an injection molding assembly (4) is arranged on the top wall of the blow molding equipment main body (1), an extension assembly (3) is movably connected on the top wall of the blow molding equipment main body (1), and the semi-automatic extrusion hollow blow molding process manufacturing device further comprises an inner clamping assembly (2) which is arranged under the extension assembly (3);

the inner clamp assembly (2) comprises a linkage disc (21), and at least two clamping pieces are symmetrically arranged on the bottom wall of the linkage disc (21);

The clamping piece comprises a first driving motor (22), an inner clamping plate (25) is arranged at the bottom of the first driving motor (22), and a plurality of arc-shaped connecting blocks (26) are arranged on the surface of the inner clamping plate (25).

The top of interior clamp assembly (2) is equipped with and stretches to sink subassembly (3), can realize carrying out the automation through stretching to sink subassembly (3) and take out to the interior finished product of blowing box (5), after blowing box (5) accomplish the finished product preparation, accessible stretches to sink subassembly (3), interior clamp assembly (2) with the finished product centre gripping, take out, remove to the exit of blowing equipment main part (1) to take out the finished product in blowing box (5) to take off by the staff and place in the holding area, make take out the finished product work relatively simple, convenient, and reduced corresponding potential safety hazard.

The clamping pieces are of the same structure and symmetrically distributed at the bottom of the linkage disc (21), are positioned inside a blow molding finished product, after the round barrel is manufactured, the clamping pieces enter the barrel, then are adjusted to be in an open state of fig. 3 as shown in the storage state of fig. 1, the blow molding barrel is fixed by the clamping pieces, then the blow molding barrel can move along with the inner clamping component (2) and the stretching component (3), and then workers do not stretch into the equipment to take out the finished product.

In this embodiment, preferably, as shown in fig. 2, 3 and 4, two connection blocks (242) are disposed at the top of the inner clamping plate (25), the middle parts of the two connection blocks (242) are rotatably connected with a second rotation shaft (241), and the side wall of one of the connection blocks (242) is connected with a second driving motor (24).

When the second driving motor (24) runs, the second driving motor (24) drives the second rotating shaft (241) to rotate together, and at the moment, the inner clamping plate (25) positioned at the bottom of the second rotating shaft (241) can rotate together with one of the second rotating shaft, so that the effects of adjusting the inner clamping plate (25) and the arc-shaped connecting block (26) can be achieved, and the arc-shaped connecting block (26) is attached to the inner wall of the blow molding barrel more.

In this embodiment, as shown in fig. 2, 3 and 4, preferably, the output shaft of the second driving motor (24) is connected to the second rotating shaft (241), and both are disposed at the same center of a circle.

When the second driving motor (24) runs, the second rotating shaft (241) can be driven to rotate together, and the rotation process of the second rotating shaft and the second rotating shaft is more stable when the second rotating shaft and the second rotating shaft are arranged at the same circle center.

In this embodiment, preferably, as shown in fig. 3 and 4, the side wall of the second rotating shaft (241) is connected with the connecting vertical plate (23) through the fixed transverse plate (243), a first rotating shaft (27) is arranged at the top of the connecting vertical plate (23), and a first driving motor (22) is arranged at one side of the first rotating shaft (27).

When the first driving motor (22) operates, the output shaft of the first driving motor (22) rotates, and then the output shaft of the first driving motor (22) drives the first rotating shaft (27) to rotate together.

In this embodiment, as shown in fig. 2, 3 and 4, the top structure of the inner clamping plate (25) and the top structure of the connecting vertical plate (23) are preferably the same structure.

The second axis of rotation (241) at interior splint (25) top, second driving motor (24) and first axis of rotation (27) at connection riser (23) top, first driving motor (22) are the same structure, all can play the rotation effect, after first driving motor (22), first axis of rotation (27) rotate, can drive connection riser (23), second driving motor (24), interior splint (25), arc connecting block (26) rotate in the lump, after second driving motor (24), second axis of rotation (241) rotate, can drive interior splint (25), arc connecting block (26) rotate in the lump. The first driving motor (22) and the second driving motor (24) are arranged, so that the inner clamping plate (25) can be in a vertical state no matter how the clamping piece rotates, and the inner clamping plate (25) and the arc-shaped connecting block (26) can be in a state of being attached to the inner wall of the blow molding barrel, so that fixation is enhanced.

In this embodiment, preferably, as shown in fig. 2, 3 and 4, the surface of the arc-shaped connecting block (26) is made of rubber.

The arc-shaped connecting block (26) has larger friction force with the inner wall of the blow molding barrel when the blow molding barrel is fixed, and the connection is more stable.

In this embodiment, preferably, as shown in fig. 1, a moving screw (61) is disposed in the blowing device main body (1), a moving assembly (6) is disposed right below the blowing box (5) outside the moving screw (61), an injection molding pipe (41) is disposed at the bottom of the injection molding assembly (4), and the injection molding pipe (41) is used in cooperation with the blowing box (5).

Working principle and using flow: after the preparation of blowing bucket in blowing box (5) is accomplished, remove blowing box (5) through moving screw (61), remove subassembly (6), at this moment, will stretch down subassembly (3), interior clamp subassembly (2) remove the top of blowing bucket in blowing box (5) through the moving member, the moving member is prior art, only play the effect of removing stretching down subassembly (3), after interior clamp subassembly (2) remove the top of blowing bucket, operation stretches down subassembly (3), make stretch down subassembly (3) drive interior clamp subassembly (2) and remove to the bottom, make interior clamp subassembly (2) stretch into in the blowing bucket completely by the fig. 2 storage state, then respectively move first driving motor (22), second driving motor (24), after first driving motor (22), first rotation axis (27) rotate, can drive and connect riser (23), second driving motor (24), interior clamp plate (25), arc connecting block (26) rotate in one lump, after second driving motor (24), second rotation axis (241) rotate, can drive interior clamp plate (25) arc connecting block (26) in lump. And setting up of first driving motor (22), second driving motor (24) for no matter how the holder rotates, interior splint (25) all can be in vertical state, interior splint (25), arc connecting block (26) all can play the state of laminating mutually with the blowing bucket inner wall, the blowing bucket is fixed through interior clamp assembly (2) promptly, then it removes interior clamp assembly (2), blowing bucket to the exit of blowing equipment main part (1) to reach subassembly (3), thereby take out the finished product from blowing box (5), and take off by the staff and place in the holding area can.

The foregoing is merely illustrative of the present utility model and not restrictive, and other modifications and equivalents thereof may occur to those skilled in the art without departing from the spirit and scope of the present utility model.

Claims (7)

1. The utility model provides a semi-automatic cavity blowing technology manufacturing installation that extrudes, includes blowing equipment main part (1), swing joint has blowing box (5) in blowing equipment main part (1), the roof of blowing equipment main part (1) is equipped with injection molding subassembly (4), the roof swing joint of blowing equipment main part (1) has assembly (3) of taking over, its characterized in that: the inner clamp assembly (2) is arranged right below the extension assembly (3);

the inner clamp assembly (2) comprises a linkage disc (21), and at least two clamping pieces are symmetrically arranged on the bottom wall of the linkage disc (21);

The clamping piece comprises a first driving motor (22), an inner clamping plate (25) is arranged at the bottom of the first driving motor (22), and a plurality of arc-shaped connecting blocks (26) are arranged on the surface of the inner clamping plate (25).

2. A semiautomatic extrusion hollow blow molding process making apparatus as claimed in claim 1, wherein: the top of interior splint (25) is equipped with two connecting blocks (242), and the middle part of two connecting blocks (242) rotates and is connected with second axis of rotation (241), and the lateral wall of one of them connecting block (242) is connected with second driving motor (24).

3. A semiautomatic extrusion hollow blow molding process making apparatus as claimed in claim 2, wherein: an output shaft of the second driving motor (24) is connected with a second rotating shaft (241), and the output shaft and the second rotating shaft are arranged in the same circle center.

4. A semiautomatic extrusion hollow blow molding process making apparatus as claimed in claim 2, wherein: the side wall of the second rotating shaft (241) is connected with the connecting vertical plate (23) through the fixed transverse plate (243), a first rotating shaft (27) is arranged at the top of the connecting vertical plate (23), and a first driving motor (22) is arranged on one side of the first rotating shaft (27).

5. The semi-automatic extrusion hollow blow molding process manufacturing device according to claim 4, wherein: the top structure of the inner clamping plate (25) and the top structure of the connecting vertical plate (23) are of the same structure.

6. A semiautomatic extrusion hollow blow molding process making apparatus as claimed in claim 1, wherein: the surface of the arc-shaped connecting block (26) is made of rubber.

7. A semiautomatic extrusion hollow blow molding process making apparatus as claimed in claim 1, wherein: be equipped with in blowing equipment main part (1) and remove screw rod (61), the outside of removing screw rod (61) is located and is equipped with moving assembly (6) under blowing box (5), the bottom of moulding plastics subassembly (4) is equipped with injection molding pipe (41), just injection molding pipe (41) and blowing box (5) cooperation use.