CN210175924U - Lane dividing energy-saving device for high-capacity injection production line - Google Patents

Abstract

The utility model discloses a be used for large capacity injection production line lane economizer belongs to assembly line technical field. The problem of among the prior art when adopting automatic case packer assembly injection, need two assembly lines to supply with the injection and just can satisfy the mould clamping requirement of automatic case packer, but if just adopt two assembly lines before the injection vanning process can lead to the production inconvenience of former process again is solved. Including first material way conveyer belt, second material way conveyer belt, third material way conveyer belt and the excessive subassembly of swing, the second material way conveyer belt sets up and aligns with the input of third material way conveyer belt at third material way conveyer belt upper strata and the input of second material way conveyer belt, first conveyer belt and second conveyer belt are in same horizontal position, the excessive subassembly of swing is installed at the output of first conveyer belt and is used for transmitting the injection on the first material way conveyer belt to second material way conveyer belt or third material way conveyer belt.

Description

Lane dividing energy-saving device for high-capacity injection production line

Technical Field

The utility model relates to an assembly line technical field, more specifically the say so and relate to a be used for large capacity injection production line lane economizer.

Background

The existing injection can adopt an automatic box filling machine in the process of boxing, when the injection is assembled by adopting the automatic box filling machine, two assembly lines are needed to supply the injection so as to meet the requirement of clamping a mold of the automatic box filling machine, but before the process of boxing the injection, if two assembly lines are adopted, the production of the former process is inconvenient.

SUMMERY OF THE UTILITY MODEL

In order to solve among the prior art when adopting automatic case packer assembly injection, need two assembly lines to supply with the injection and just can satisfy automatic case packer's mould clamping requirement, but if just adopt two assembly lines before injection vanning process can lead to the inconvenient problem of production of preceding process again, the utility model provides a be used for large capacity injection production line lane economizer.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a lane economizer for large capacity injection production line, includes that first material says conveyer belt, second material and says conveyer belt, third material and say the conveyer belt and swing excessive subassembly, the input that the second material was said the conveyer belt and is set up on third material is said the conveyer belt upper strata and second material is said the conveyer belt and is aligned with the input of third material and say the conveyer belt, first material is said the conveyer belt and is in same horizontal position with second material, the excessive subassembly of swing is installed at the output of first material and is used for transmitting the injection on the conveyer belt of first material to second material is said conveyer belt or third material and is said the conveyer belt.

The utility model discloses two assembly lines that will supply with for automatic case packer are second material way conveyer belt and third material way conveyer belt setting and are upper and lower double-layer equation, then through swing excessive subassembly with the assembly line of transmission usefulness behind the completion of previous process on the assembly line of transmission is first material way conveyer belt and the injection of transmission excessively transmits respectively to second material way conveyer belt and third material way conveyer belt for neither influence the production of previous process, can satisfy automatic case packer's mould clamping requirement again.

Furthermore, the swing transition assembly comprises a transition plate which is rotatably connected with the side end part of the first material channel conveyor belt, and a swing air cylinder assembly which is connected to the bottom of the first material channel conveyor belt and is used for driving the transition plate to swing up and down.

Furthermore, the swing air cylinder assembly comprises a fixed rod vertically arranged below the end part of the first material channel conveying belt and a swing rod air cylinder body which is connected with the bottom shaft of the fixed rod and is obliquely arranged, and the top of the swing rod air cylinder body is connected with the bottom of the transition plate through a connecting block.

Furthermore, a layer of rubber pad is arranged on the transition plate.

Furthermore, the input end of the third material channel conveyor belt is provided with a guide plate which is obliquely arranged, the guide plate is installed on the frame body of the third material channel conveyor belt, the high end of the guide plate is parallel to the limit position of the transition plate moving downwards, and the low end of the guide plate is arranged above the third material channel conveyor belt.

Furthermore, a layer of rubber pad is arranged on the guide plate.

Compared with the prior art, the utility model beneficial effect who has is:

the utility model discloses two assembly lines that will supply with for automatic case packer are second material way conveyer belt and third material way conveyer belt setting and are upper and lower double-layer equation, then through swing excessive subassembly with the assembly line of transmission usefulness behind the completion of previous process on the assembly line of transmission is first material way conveyer belt and the injection of transmission excessively transmits respectively to second material way conveyer belt and third material way conveyer belt for neither influence the production of previous process, can satisfy automatic case packer's mould clamping requirement again. Meanwhile, the cost is saved.

Drawings

FIG. 1 is a schematic structural view of the swinging cylinder body of the lane energy-saving device for a large-capacity injection production line of the present invention, which moves to the extreme position in a retracting manner;

fig. 2 and fig. 1 are schematic structural views of a swinging cylinder body of the lane energy-saving device for a large-capacity injection production line of the present invention, which is used for extending to a limit position.

The labels in the figure are: 1-a first material channel conveyor belt, 2-a second material channel conveyor belt, 3-a third material channel conveyor belt, 4-a transition plate, 5-a fixed rod, 6-a swing rod cylinder body, 7-a connecting block and 8-a guide plate.

Detailed Description

The present invention will be further described with reference to the following examples, which are only some, but not all, of the examples of the present invention. Based on the embodiments in the present invention, other embodiments used by those skilled in the art without creative work belong to the protection scope of the present invention.

Example 1:

as shown in fig. 1, a lane dividing energy-saving device for a large-capacity injection production line comprises a first lane conveyor belt 1, a second lane conveyor belt 2, a third lane conveyor belt 3 and a swing transition assembly, wherein the second lane conveyor belt 2 is arranged on the upper layer of the third lane conveyor belt 3, the input end of the second lane conveyor belt 2 is aligned with the input end of the third lane conveyor belt 3, the first lane conveyor belt 1 and the second lane conveyor belt 2 are at the same horizontal position, and the swing transition assembly is arranged at the output end of the first lane conveyor belt 1 and is used for transmitting an injection on the first lane conveyor belt 1 to the second lane conveyor belt 2 or the third lane conveyor belt 3.

The swing transition assembly comprises a transition plate 4 rotationally connected with the side end part of the first material channel conveyor belt 1 and a swing air cylinder assembly connected to the bottom of the first material channel conveyor belt 1 and used for driving the transition plate 4 to swing up and down. The support is installed to the both sides of the work or material rest of first material way conveyer belt 1, installs the pivot between the both sides, crosses cab apron 4 one side cover and establishes in the pivot and rotate with the pivot and be connected.

The swing air cylinder assembly comprises a fixing rod 5 vertically arranged below the end part of the first material channel conveying belt 1 and a swing rod air cylinder body 6 which is connected with the bottom shaft of the fixing rod 5 and is obliquely arranged, and the top of the swing rod air cylinder body 6 is connected with the bottom of the transition plate 4 through a connecting block 7.

The utility model discloses two assembly lines that will supply with for automatic case packer are second material way conveyer belt 2 and third material way conveyer belt 3 setting and are upper and lower double-layer equation, then through the excessive subassembly of swing on with the assembly line of transmission usefulness behind the completion of previous process on first material way conveyer belt 1 the injection agent of transmission excessively transmits respectively to second material way conveyer belt 2 and third material way conveyer belt 3 for neither influence the production of previous process, can satisfy automatic case packer's mould clamping requirement again.

The method specifically comprises the following steps: as shown in fig. 2, when the swing cylinder body does an extending motion, the top of the swing cylinder body pushes the connecting block 7 to drive the transition plate 4 to rotate upwards along the rotating shaft, when the swing cylinder body does an extending motion to a limit position, the transition plate 4 rotates to a horizontal position, and the injection transmitted on the first material channel conveyor belt 1 is transmitted to the second material channel conveyor belt 2 through the transition plate 4.

As shown in fig. 1, when the top of the oscillating cylinder body retracts, the top of the oscillating cylinder body drives the connecting block 7 to make the transition plate 4 rotate downwards along the rotating shaft, when the oscillating cylinder body retracts to a limit position, the transition plate 4 rotates to a position above the input end of the third material channel conveyor belt 3, and the injection transmitted on the first material channel conveyor belt 1 is transmitted to the third material channel conveyor belt 3 through the transition plate 4.

Preferably, a layer of rubber pad is arranged on the transition plate 4. It is possible to prevent the injection agent from being damaged when the injection agent is transferred on the transition plate 4.

Example 2:

as shown in fig. 1, this embodiment is further optimized based on embodiment 1, and this embodiment focuses on explaining the improvement compared with embodiment 1, and the same parts are not repeated, in this embodiment, an input end of the third material channel conveyor belt 3 is provided with a guide plate 8 which is obliquely arranged, the guide plate 8 is installed on a frame body of the third material channel conveyor belt 3, a high end of the guide plate 8 is parallel to a limit position of the downward movement of the transition plate 4, and a low end of the guide plate 8 is arranged above the third material channel conveyor belt 3. Through setting up deflector 8, can be so that when the swing cylinder body is the retraction movement to extreme position, cross cab apron 4 and rotate the input top of third material way conveyer belt 3, the injection that transmits on the first material way conveyer belt 1 passes through cab apron 4 and transmits 8 deflectors, reduces the risk that the injection dropped.

Preferably, a layer of rubber pad is arranged on the guide plate 8. It is possible to prevent the injection from being damaged when the injection is transferred on the guide plate 8.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a be used for high capacity injection production line lane economizer which characterized in that: including first material way conveyer belt (1), second material way conveyer belt (2), third material way conveyer belt (3) and the excessive subassembly of swing, second material way conveyer belt (2) set up and are in alignment at the input of third material way conveyer belt (3) upper strata and second material way conveyer belt (2) and the input of third material way conveyer belt (3), first material way conveyer belt (1) is in same horizontal position with second material way conveyer belt (2), the excessive subassembly of swing is installed at the output of first material way conveyer belt (1) and is used for transmitting the injection on first material way conveyer belt (1) to second material way conveyer belt (2) or third material way conveyer belt (3).

2. A lane-dividing energy-saving device for large-capacity injection production line according to claim 1, characterized in that: the swing transition assembly comprises a transition plate (4) rotatably connected with the side end part of the first material channel conveying belt (1) and a swing air cylinder assembly connected to the bottom of the first material channel conveying belt (1) and used for driving the transition plate (4) to swing up and down.

3. A lane-dividing energy-saving device for large-capacity injection production line according to claim 2, characterized in that: the swing air cylinder assembly comprises a fixing rod (5) vertically arranged below the end part of the first material channel conveying belt (1) and a swing rod air cylinder body (6) which is connected with the bottom shaft of the fixing rod (5) and is obliquely arranged, and the top of the swing rod air cylinder body (6) is connected with the bottom of the transition plate (4) through a connecting block (7).

4. A lane-dividing energy-saving device for large-capacity injection production line according to claim 2, characterized in that: the transition plate (4) is provided with a layer of rubber pad.

5. A lane-dividing energy-saving device for large-capacity injection production line according to claim 1, characterized in that: the input end of the third material channel conveying belt (3) is provided with a guide plate (8) which is obliquely arranged, the guide plate (8) is installed on a frame body of the third material channel conveying belt (3), the high end of the guide plate (8) is parallel to the limit position of the transition plate (4) moving downwards, and the low end of the guide plate (8) is arranged above the third material channel conveying belt (3).

6. A lane-dividing energy-saving device for a large-capacity injection production line according to claim 5, characterized in that: and a layer of rubber pad is arranged on the guide plate (8).

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