CN107932846B

CN107932846B - Injection molding impeller gate removing mechanism

Info

Publication number: CN107932846B
Application number: CN201711434417.9A
Authority: CN
Inventors: 陆郭春; 万信飞; 开文忠
Original assignee: Zhangjiagang Zhongtian Precision Molding Co ltd
Current assignee: Zhangjiagang Zhongtian Precision Molding Co ltd
Priority date: 2017-12-26
Filing date: 2017-12-26
Publication date: 2023-07-18
Anticipated expiration: 2037-12-26
Also published as: CN107932846A

Abstract

The invention discloses an injection molding impeller gate removing mechanism which is used for separating gates in impellers, and comprises a workbench, wherein two baffles are arranged on the workbench, the two baffles are oppositely arranged on the surface of the workbench, the impellers are correspondingly arranged between the two baffles, the pushing cylinders are transversely and correspondingly arranged at one ends of the two baffles, the end parts of the pushing cylinders are provided with pushing blocks which are correspondingly arranged with the impellers, the positioning cylinders are longitudinally and correspondingly arranged at the other ends of the two baffles, the positioning cylinders are provided with positioning plates which are correspondingly arranged with the impellers, the ejection cylinders are arranged between the two baffles at one side of the positioning cylinders and are positioned below the workbench, and baffle rings which are correspondingly arranged at the positions of the ejection cylinders above the workbench are also arranged. The invention has simple structure, adopts full-automatic control, has low labor intensity and greatly improves the working efficiency.

Description

Injection molding impeller gate removing mechanism

Technical Field

The invention relates to a pouring gate removing mechanism of an injection molding impeller.

Background

According to the injection molding impeller production process, after the impeller is injection molded in an injection molding machine, a runner and a gate adhere to the impeller (shown in fig. 1) and need to be peeled off. However, in the prior art, manual operation is generally adopted, so that the time and the labor are consumed, and the working efficiency is low.

Disclosure of Invention

The invention aims to provide the injection molding impeller gate removing mechanism which is simple in structure, low in labor intensity and capable of greatly improving the working efficiency by adopting full-automatic control.

The injection molding impeller gate removing mechanism is used for separating gates in impellers and comprises a workbench, wherein two baffles are arranged on the workbench, the two baffles are oppositely arranged on the surface of the workbench, the impellers are correspondingly arranged between the two baffles, the pushing cylinders are transversely and correspondingly arranged at one ends of the two baffles, a pushing block is arranged at the end part of each pushing cylinder and corresponds to the impellers, a sliding rail corresponding to the pushing block is arranged on the workbench below the pushing cylinder, the positioning cylinder is longitudinally and correspondingly arranged at the other ends of the two baffles, a positioning plate corresponding to the impellers is arranged on the positioning cylinder, the ejection cylinder is arranged between the two baffles on one side of the positioning cylinder and is positioned below the workbench, the ejection cylinder is correspondingly arranged with the gates in the impellers, a baffle ring corresponding to the impellers is further arranged above the workbench at the ejection cylinder, and a finished product sliding rail is further correspondingly arranged at the edge of the workbench on one side of the positioning cylinder.

In a preferred embodiment of the invention, the positioning cylinder is fixed above one side edge of the workbench through a fixing frame.

In a preferred embodiment of the invention, two ends of the baffle ring are fixed on the workbench through brackets outside the two baffles.

In a preferred embodiment of the present invention, a clamping cylinder corresponding to the gate is further disposed above one of the brackets of the baffle ring.

In a preferred embodiment of the present invention, the clamping cylinders are correspondingly arranged on the rotary cylinders through the support plates.

In a preferred embodiment of the invention, a waste chute corresponding to the clamping cylinder is arranged on one side of the workbench.

In a preferred embodiment of the invention, the rotary cylinder rotates the clamping cylinder 180 degrees anticlockwise and then is arranged corresponding to the waste slideway.

The invention discloses a pouring gate removing mechanism of an injection molding impeller, which has a simple structure, adopts full-automatic control, has low labor intensity and greatly improves the working efficiency.

Drawings

FIG. 1 is a schematic view of a runner-carrying impeller construction;

FIG. 2 is a schematic view of a degating mechanism for an injection molded impeller according to a preferred embodiment of the present invention.

Detailed Description

The following detailed description of the preferred embodiments of the invention is provided to enable those skilled in the art to more readily understand the advantages and features of the invention and to make a clear and concise definition of the scope of the invention.

The invention relates to an injection molding impeller gate removing mechanism, as shown in figure 2, for separating a gate 2 in an impeller 1, comprising a workbench 3, wherein the workbench 3 comprises a pushing cylinder 4, a baffle 5, a positioning cylinder 6 and an ejection cylinder 7, the baffle 5 is provided with two baffle plates and is oppositely arranged on the surface of the workbench 3, the impeller 1 is correspondingly arranged between the two baffle plates 5, the pushing cylinder 4 is transversely and correspondingly arranged at one end of the two baffle plates 5, the end part of the pushing cylinder 4 is provided with a pushing block 8 which is correspondingly arranged with the impeller 1, a sliding rail 18 which is correspondingly arranged with the pushing block 8 is arranged on the workbench 3 below the pushing cylinder 4, the positioning cylinder 6 is longitudinally and correspondingly arranged at the other end of the two baffle plates 5 and is fixed above one side edge of the workbench 3 through a fixing frame 9, a positioning plate 10 corresponding to the impeller 1 is arranged below the positioning cylinder 6, an ejection cylinder 7 is arranged between two baffles 5 on one side of the positioning cylinder 6 and is positioned below the workbench 3, the ejection cylinder 7 is arranged corresponding to a pouring gate 2 in the impeller 1, a baffle ring 11 corresponding to the impeller 1 is also arranged above the workbench 3 at the ejection cylinder 7, two ends of the baffle ring 11 are fixed on the workbench 3 through brackets 12 outside the two baffles 5, a clamping cylinder 13 corresponding to the pouring gate 2 is also arranged above one bracket 12 of the baffle ring 11, the clamping cylinder 13 is correspondingly arranged on a rotary cylinder 15 through a supporting plate 14, a waste slideway 16 corresponding to the clamping cylinder 13 is arranged on one side of the workbench 3, the rotary cylinder 15 correspondingly rotates the clamping cylinder 13 by 180 degrees anticlockwise and then is arranged corresponding to the waste slideway 16, the edge of the workbench 3 on one side of the positioning cylinder 6 of the baffle 5 is correspondingly provided with a finished product slideway 17.

The pushing cylinder is in a left limit stroke, an impeller adhered with the pouring gate is placed in an area limited by the baffle plate and the pushing block, the pushing cylinder moves to a right limit stroke, the pushing block is driven to slide rightwards on the guide rail, the impeller is pushed to a right working station, the position limiting of the working station is formed by the positioning cylinder driving the positioning plate to move downwards, the positioning plate and the baffle plate form a limiting area, the rotating cylinder rotates clockwise by 180 degrees, the clamping cylinder is driven to rotate to a pouring gate position, the ejection cylinder is ejected upwards from the reverse side of the impeller, the pouring gate is stripped from the impeller due to the fact that the impeller is limited by the baffle ring, meanwhile, the clamping cylinder acts to clamp the pouring gate, the rotating cylinder rotates anticlockwise by 180 degrees, the clamping cylinder and the pouring gate are driven to the position of a waste slideway, the clamping cylinder is loosened, the pouring gate falls into the waste slideway, the positioning cylinder drives the positioning plate to move upwards, and a space for the impeller to slide rightwards into the finished slideway is reserved.

When the next cycle begins, the newly placed impeller will squeeze the degated product into the finished runner.

The foregoing is merely illustrative of the embodiments of the present invention, and the scope of the present invention is not limited thereto, and any changes or substitutions that may be made by those skilled in the art without departing from the inventive concept are intended to be included within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides an impeller removes runner mechanism of moulding plastics for separate the runner in the impeller, including the workstation, its characterized in that: the workbench comprises a pushing cylinder, two baffles, a positioning cylinder and an ejection cylinder, wherein the two baffles are oppositely arranged on the surface of the workbench, the impeller is correspondingly arranged between the two baffles, the pushing cylinder is transversely and correspondingly arranged at one end of the two baffles, the end part of the pushing cylinder is provided with a pushing block which is correspondingly arranged with the impeller, a sliding rail which is correspondingly arranged with the pushing block is arranged on the workbench below the pushing cylinder, the positioning cylinder is longitudinally and correspondingly arranged at the other end of the two baffles, a positioning plate which is correspondingly arranged with the impeller is arranged on the positioning cylinder, the ejection cylinder is arranged between the two baffles at one side of the positioning cylinder and is positioned below the workbench, the ejection cylinder is correspondingly arranged with a pouring gate in the impeller, a baffle ring which is correspondingly arranged with the impeller is also arranged at the ejection cylinder above the workbench, and a finished product sliding way is correspondingly arranged at the edge of the workbench at one side of the positioning cylinder;

the two ends of the baffle ring are fixed on the workbench through the supports outside the two baffles, a clamping cylinder corresponding to the pouring gate is further arranged above one of the supports of the baffle ring, the clamping cylinder is correspondingly arranged on the rotary cylinder through the supporting plate, and a waste slideway corresponding to the clamping cylinder is arranged on one side of the workbench.

2. The injection molded impeller degating mechanism of claim 1, wherein: the positioning cylinder is fixed above one side edge of the workbench through the fixing frame.

3. The injection molded impeller degating mechanism of claim 1, wherein: the rotary cylinder rotates the clamping cylinder anticlockwise by 180 degrees and then is arranged corresponding to the waste slideway.