CN210026168U - Improved generation stripper mechanism - Google Patents

Abstract

The utility model discloses an improved generation stripper mechanism aims at providing one kind and enables that the power that injection moulding product received is more stable, makes injection moulding product be difficult to impairedly to reduce the improved generation stripper mechanism of the rejection rate of product. The improved demoulding machine mechanism comprises a tool clamp mechanism and a jacking mechanism. The utility model discloses be applied to stripper mechanism's technical field.

Description

Improved generation stripper mechanism

Technical Field

The utility model relates to a stripper mechanism, in particular to improved generation stripper mechanism.

Background

The motor rotor needs to be subjected to injection molding and demolding processes in production, and the mold core is taken out after injection molding to obtain a shaped product (rotor); products (rotors) produced by the injection molding machine need to be manually held by hands and then forcibly pulled backwards to realize demolding, so that the labor intensity is high in the operation process, and the operation is unsafe and low in efficiency; therefore, an improved demolding mechanism with high demolding efficiency and strong applicability is increasingly important.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art not enough, provide one kind and enabled the power that injection moulding product received more stable, make injection moulding product be difficult to impairedly to reduce the improved generation stripper mechanism of the rejection rate of product.

The utility model adopts the technical proposal that: the utility model comprises a tool clamp mechanism and a jacking mechanism; the tool clamp mechanism comprises a cylinder 1, a cylinder mounting plate 2, a pressing block 3, a positioning block 4, an inductive sensor 5, a tool bottom plate 6, a panel 7, a sensor mounting plate 8 and a bracket 9, the panel 7 is arranged on the bracket 9, the cylinder mounting plate 2, the tooling bottom plate 6 and the sensor mounting plate 8 are all arranged on the panel 7, the cylinder 1 is arranged on the cylinder mounting plate 2, the inductive sensor 5 is arranged on the sensor mounting plate 8, the positioning block 4 is arranged at the output end of the cylinder 1, the pressing block 3 is positioned on the positioning block 4, the positioning block 4 and the inductive sensor 5 are both positioned at the periphery of the tool bottom plate 6, the middle of the tool bottom plate 6 is provided with a abdicating hole, the jacking mechanism is arranged on the back surface of the panel 7, and the jacking mechanism pushes out the mold core from the abdicating hole.

Further, the jacking mechanism comprises a tooling ring 10, a supporting block 11, a side plate 12, a jacking upper plate 13, a connecting block 14, a connecting shaft 15, a guide post 16, a jacking lower plate 17, a linear bearing 18, a fixed block 19 and an electric cylinder 20; the electric cylinder 20 is fixedly arranged below the jacking lower plate 17, the jacking upper plate 13 is positioned above the jacking lower plate 17, the lower end of the connecting shaft 15 is connected with an output shaft of the electric cylinder 20, the upper end of the connecting shaft 15 penetrates through the jacking lower plate 17 to be connected with the jacking upper plate 13, the connecting block 14 is also arranged between the connecting shaft 15 and the jacking upper plate 13, the tooling ring 10 is positioned above the jacking upper plate 13, the supporting block 11 is arranged between the tooling ring 10 and the jacking upper plate 13, the guide post 16 is arranged below the jacking upper plate 13, the guide post 16 is in sliding connection with the jacking lower plate 17, the linear bearing 18 is arranged between the guide post 16 and the jacking lower plate 17, the lower end of the guide post 16 is provided with the fixed block 19, and the side plates 12 are arranged on two sides of the jacking lower plate 17, the jacking lower plate 17 is connected with the panel 7 through the side plate 12, and the tooling ring 10 is matched with the abdicating hole arranged in the middle of the tooling bottom plate 6.

The utility model has the advantages that: because the utility model mainly comprises a tool clamp mechanism and a jacking mechanism, in the demoulding process, a product is firstly fixed on the tool clamp mechanism, and then the jacking mechanism vertically ejects the product under the driving of an electric cylinder; compared with manual demoulding, the demoulding device has the advantages that the demoulding efficiency is improved, and in the demoulding process, the force applied to the injection product is more stable, so that the injection product is not easy to damage, and the rejection rate of the product is reduced.

Drawings

FIG. 1 is a schematic structural view of the tooling fixture mechanism;

fig. 2 is a schematic structural diagram of the jacking mechanism.

Detailed Description

As shown in fig. 1 and fig. 2, in this embodiment, the utility model discloses an improved generation stripper mechanism adopts the design of bilateral symmetry duplex position, including two component parts of frock clamp mechanism and climbing mechanism.

Frock clamp mechanism includes cylinder 1, cylinder mounting panel 2, compact heap 3, locating piece 4, inductive transducer 5, frock bottom plate 6, panel 7, sensor mounting panel 8, support 9. The action flow is as follows: fix product (rotor) on the locating pin of frock bottom plate 6 through the robot, promote both sides cylinder 1, drive both sides compact heap 3 and compress tightly product (rotor), fix product (rotor) on frock clamp fine.

The jacking mechanism comprises a tooling ring 10, a supporting block 11, a side plate 12, a jacking upper plate 13, a connecting block 14, a connecting shaft 15, a guide pillar 16, a jacking lower plate 17, a linear bearing 18, a fixing block 19 and an electric cylinder 20, and forms a stable jacking mechanism. The action flow is as follows: the electric cylinder 20 rises to drive the whole jacking mechanism to rise to a specified position, and a product (rotor) is conveyed to the specified position through a robot to realize a demoulding function.

The utility model discloses improved generation stripper mechanism theory of operation: take off product (rotor) from the injection molding machine through the robot, fix product (rotor) on the locating pin on frock bottom plate 6 to promote both sides cylinder 1 and compress tightly product (rotor), treat through fixed drawing of patterns time, drive whole climbing mechanism by electric cylinder 20 and rise and separate product (rotor) and mold core, thereby reach drawing of patterns effect to the assigned position rotor and mold core centre gripping through the robot.

The utility model discloses be applied to stripper mechanism's technical field.

While the embodiments of the present invention have been described in terms of practical embodiments, they are not intended to limit the scope of the invention, and modifications of the embodiments and combinations with other embodiments will be apparent to those skilled in the art in light of the present description.

Claims (2)

1. An improved generation stripper mechanism which characterized in that: the improved demoulding machine mechanism comprises a tool clamp mechanism and a jacking mechanism; the fixture mechanism comprises a cylinder (1), a cylinder mounting plate (2), a pressing block (3), a positioning block (4), an induction sensor (5), a fixture bottom plate (6), a panel (7), a sensor mounting plate (8) and a support (9), wherein the panel (7) is arranged on the support (9), the cylinder mounting plate (2), the fixture bottom plate (6) and the sensor mounting plate (8) are all arranged on the panel (7), the cylinder (1) is arranged on the cylinder mounting plate (2), the induction sensor (5) is arranged on the sensor mounting plate (8), the positioning block (4) is arranged at the output end of the cylinder (1), the pressing block (3) is positioned on the positioning block (4), and the positioning block (4) and the induction sensor (5) are both positioned at the periphery of the fixture bottom plate (6), the middle of the tool bottom plate (6) is provided with a yielding hole, the jacking mechanism is arranged on the back face of the panel (7), and the jacking mechanism is used for ejecting the mold core out of the yielding hole.

2. An improved stripper mechanism as defined in claim 1 wherein: the jacking mechanism comprises a tooling ring (10), a supporting block (11), a side plate (12), a jacking upper plate (13), a connecting block (14), a connecting shaft (15), a guide post (16), a jacking lower plate (17), a linear bearing (18), a fixing block (19) and an electric cylinder (20); the electric cylinder (20) is fixedly arranged below the jacking lower plate (17), the jacking upper plate (13) is positioned above the jacking lower plate (17), the lower end of the connecting shaft (15) is connected with an output shaft of the electric cylinder (20), the upper end of the connecting shaft (15) penetrates through the jacking lower plate (17) to be connected with the jacking upper plate (13), the connecting block (14) is further arranged between the connecting shaft (15) and the jacking upper plate (13), the tooling ring (10) is positioned above the jacking upper plate (13), the supporting block (11) is arranged between the tooling ring (10) and the jacking upper plate (13), the guide pillar (16) is arranged below the jacking upper plate (13), the guide pillar (16) is connected with the jacking lower plate (17) in a sliding manner, the linear bearing (18) is arranged between the guide pillar (16) and the jacking lower plate (17), the lower end of the guide post (16) is provided with the fixed block (19), the two sides of the jacking lower plate (17) are provided with the side plates (12), the jacking lower plate (17) passes through the side plates (12) and the panel (7) are connected, and the tooling ring (10) is matched with the abdicating hole arranged in the middle of the tooling bottom plate (6).

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