CN113696415A - Buckle water gap slitting system and using method thereof - Google Patents

Abstract

The invention discloses a snap-fit water gap slitting system and a using method thereof, and the snap-fit water gap slitting system comprises a central controller, an injection molding system, a feeding system and a material cutting system, wherein the injection molding system comprises an injection molding machine and a pressure sensor; a lifting moving module is installed at the transmission end of the transverse moving mechanism, a steering module is installed at the transmission end of the lifting moving module, and a pneumatic clamping jaw is installed at the transmission end of the steering module; the invention relates to the technical field of injection molding piece buckle injection molding, and discloses a material cutting system which comprises a movable cutting platform and a hydraulic cutting action module, wherein a first infrared induction module is installed on the movable cutting platform, a second infrared induction module is installed on the hydraulic cutting action module, and a discharging module is installed on the hydraulic cutting action module. The invention solves the problem that after injection molding of the plastic part buckle, workers manually take down the formed parts, and then accumulate a batch of formed parts, the workers break off the water gap on the injection part buckle, so that the processing efficiency of the injection part buckle is greatly influenced.

Description

Buckle water gap slitting system and using method thereof

Technical Field

The invention relates to the technical field of injection molding part buckles, in particular to a buckle water gap slitting system and a using method thereof.

Background

In the prior art, after injection molding of an injection molding part buckle, a worker manually takes down a formed part, and then after accumulating a batch of formed parts, the worker breaks off a water gap on the injection molding part buckle, so that the processing efficiency of the injection molding part buckle is greatly influenced, and therefore the buckle water gap cutting system and the using method thereof are provided.

Disclosure of Invention

The invention aims to solve the problem that after a plastic part buckle is subjected to injection molding, a worker manually takes down a formed part, and then after a batch of formed parts are accumulated, the worker breaks off a water gap on the plastic part buckle, so that the processing efficiency of the plastic part buckle is greatly influenced.

In order to achieve the purpose, the invention adopts the following technical scheme: a buckle water gap slitting system comprises a central controller, an injection molding system, a feeding system and a material cutting system, wherein the injection molding system comprises an injection molding machine and a pressure sensor;

the feeding system comprises a longitudinal moving module, a transverse moving module is installed at the transmission end of the longitudinal moving mechanism, a lifting moving module is installed at the transmission end of the transverse moving mechanism, a steering module is installed at the transmission end of the lifting moving module, and a pneumatic clamping jaw is installed at the transmission end of the steering module;

the blank system is including the activity cut the platform and the action module is cut to hydraulic pressure, the activity is cut and is installed first infrared induction module on the platform for whether the response has buckle formed part, hydraulic pressure is cut and is installed the infrared induction module of second on the action module, is used for responding to hydraulic pressure and cuts whether send into the buckle formed part in the action module to and install the module of unloading.

Preferably, a forming die for forming the buckle is mounted on the injection molding machine, and the pressure sensor is mounted on the forming die and used for sensing the pressure during die assembly.

Preferably, the transmission of the longitudinal moving module is realized by any one of a linear motor, a telescopic cylinder and a hydraulic cylinder so as to drive the longitudinal movement of the transverse moving module.

Preferably, the transmission of the transverse moving mechanism is realized by any one of a linear motor, a telescopic cylinder and a hydraulic cylinder so as to drive the lifting module to move up and down.

Preferably, the transmission of the lifting module is realized by any one of a linear motor, a telescopic cylinder and a hydraulic cylinder. So as to drive the clamping jaw to rotate on the vertical surface.

Preferably, the movable slitting platform is driven by any one of a linear motor, a telescopic cylinder and a hydraulic cylinder to realize the horizontal movement of the movable slitting platform.

Preferably, the movable slitting platform is provided with a lower die for cutting the buckle water gap, the transmission end of the hydraulic slitting action module is provided with an upper die for cutting the buckle water gap, and the upper die is driven by the transmission end to perform a cutting action in a downward direction.

Preferably, the discharging module is realized by any one of an electric push rod and a telescopic cylinder, and the transmission end vertically acts on the buckle water gap downwards for discharging the water gap.

Preferably, the central controller is respectively connected with the injection molding machine, the pressure sensor, the longitudinal moving mechanism, the transverse moving module, the lifting moving module, the steering module, the pneumatic clamping jaw, the movable cutting platform, the hydraulic cutting action module, the first infrared induction module and the second infrared induction module, and is used for comprehensively processing data so as to realize the control of the injection molding machine, the pressure sensor, the longitudinal moving mechanism, the transverse moving module, the lifting moving module, the steering module, the pneumatic clamping jaw, the movable cutting platform, the hydraulic cutting action module, the first infrared induction module and the second infrared induction module.

A use method of a snap-fit nozzle slitting system comprises the following steps:

the method comprises the following steps: after a buckle forming mold on the injection molding system is opened, the pressure sensor senses that the pressure is zero and transmits the data of the zero pressure to the central controller;

step two: the central controller controls the feeding system to operate, and unloads the buckle forming piece on the buckle forming die and feeds the material to the blanking system under the matching action of the longitudinal moving mechanism, the transverse moving module, the lifting moving module, the steering module and the pneumatic clamping jaw;

step three: the feeding system component places the buckle formed part in a buckle water gap cutting lower die on the movable slitting platform, and the first infrared sensing module senses the buckle formed part and transmits a sensing signal to the central controller;

step four: the central controller controls the movable slitting platform to move towards the hydraulic slitting action module, and the second infrared sensing module sends a fastener forming piece and transmits a sensing signal to the central controller;

step five: the central controller controls the transmission end of the hydraulic slitting action module to move downwards so as to drive the buckle water gap cutting upper die to move downwards and perform material cutting in cooperation with the buckle water gap cutting lower die;

step six: after cutting, the central controller controls the movable cutting platform to be separated from the hydraulic cutting action module, and controls the transmission end of the discharging module to push away the buckle water gap.

Compared with the prior art, the invention has the following beneficial effects: after a buckle forming mold on the injection molding system is opened, the pressure sensor senses that the pressure is zero and transmits the data of the zero pressure to the central controller; the central controller controls the feeding system to operate, and unloads the buckle forming piece on the buckle forming die and feeds the material to the blanking system under the matching action of the longitudinal moving mechanism, the transverse moving module, the lifting moving module, the steering module and the pneumatic clamping jaw; the feeding system component places the buckle formed part in a buckle water gap cutting lower die on the movable slitting platform, and the first infrared sensing module senses the buckle formed part and transmits a sensing signal to the central controller; the central controller controls the movable slitting platform to move towards the hydraulic slitting action module, and the second infrared sensing module sends a fastener forming piece and transmits a sensing signal to the central controller; the central controller controls the transmission end of the hydraulic slitting action module to move downwards so as to drive the buckle water gap cutting upper die to move downwards and perform material cutting in cooperation with the buckle water gap cutting lower die; after cutting, the central controller controls the movable cutting platform to be separated from the hydraulic cutting action module, and controls the transmission end of the discharging module to push away the buckle water gap.

Drawings

The invention is described in further detail below with reference to the following figures and detailed description:

FIG. 1 is a schematic diagram of a system of the present invention;

FIG. 2 is a schematic diagram of a process flow of the method of use of the present invention.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure.

Please refer to fig. 1 to N. It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for matching with the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions under which the present invention can be implemented, so that the present invention has no technical significance, and any structural modification, ratio relationship change, or size adjustment should still fall within the scope of the present invention without affecting the efficacy and the achievable purpose of the present invention. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

The invention provides a technical scheme that: a buckle water gap slitting system comprises a central controller, an injection molding system, a feeding system and a material cutting system, wherein the injection molding system comprises an injection molding machine and a pressure sensor;

the feeding system comprises a longitudinal moving module, a transverse moving module is installed at the transmission end of the longitudinal moving mechanism, a lifting moving module is installed at the transmission end of the transverse moving mechanism, a steering module is installed at the transmission end of the lifting moving module, and a pneumatic clamping jaw is installed at the transmission end of the steering module;

the blank system is including the activity cut the platform and the action module is cut to hydraulic pressure, the activity is cut and is installed first infrared induction module on the platform for whether the response has buckle formed part, hydraulic pressure is cut and is installed the infrared induction module of second on the action module, is used for responding to hydraulic pressure and cuts whether send into the buckle formed part in the action module to and install the module of unloading.

The injection molding machine is provided with a forming die for forming the buckle, and the pressure sensor is arranged on the forming die and used for sensing the pressure during die assembly.

The transmission of the longitudinal moving module is realized by any one of a linear motor, a telescopic cylinder and a hydraulic cylinder so as to drive the longitudinal moving of the transverse moving module.

The transmission of the transverse moving mechanism is realized by any one of a linear motor, a telescopic cylinder and a hydraulic cylinder so as to drive the lifting module to move up and down.

The transmission of the lifting module is realized by any one of a linear motor, a telescopic cylinder and a hydraulic cylinder. So as to drive the clamping jaw to rotate on the vertical surface.

The movable slitting platform is driven by any one of a linear motor, a telescopic cylinder and a hydraulic cylinder to realize the horizontal movement of the movable slitting platform.

The movable slitting platform is provided with a buckle water gap cutting lower die, the transmission end of the hydraulic slitting action module is provided with a buckle water gap cutting upper die, and the transmission end drives the upper die to move downwards to perform cutting action.

The discharging module is realized by any one of an electric push rod and a telescopic cylinder, and the transmission end vertically acts on the buckle water gap downwards for discharging the water gap.

The central controller is respectively connected with the injection molding machine, the pressure sensor, the longitudinal moving mechanism, the transverse moving module, the lifting moving module, the steering module, the pneumatic clamping jaw, the movable cutting platform, the hydraulic cutting action module, the first infrared induction module and the second infrared induction module, and is used for comprehensively processing data so as to realize the control of the injection molding machine, the pressure sensor, the longitudinal moving mechanism, the transverse moving module, the lifting moving module, the steering module, the pneumatic clamping jaw, the movable cutting platform, the hydraulic cutting action module, the first infrared induction module and the second infrared induction module.

A use method of a snap-fit nozzle slitting system comprises the following steps:

the method comprises the following steps: after a buckle forming mold on the injection molding system is opened, the pressure sensor senses that the pressure is zero and transmits the data of the zero pressure to the central controller;

step two: the central controller controls the feeding system to operate, and unloads the buckle forming piece on the buckle forming die and feeds the material to the blanking system under the matching action of the longitudinal moving mechanism, the transverse moving module, the lifting moving module, the steering module and the pneumatic clamping jaw;

step three: the feeding system component places the buckle formed part in a buckle water gap cutting lower die on the movable slitting platform, and the first infrared sensing module senses the buckle formed part and transmits a sensing signal to the central controller;

step four: the central controller controls the movable slitting platform to move towards the hydraulic slitting action module, and the second infrared sensing module sends a fastener forming piece and transmits a sensing signal to the central controller;

step five: the central controller controls the transmission end of the hydraulic slitting action module to move downwards so as to drive the buckle water gap cutting upper die to move downwards and perform material cutting in cooperation with the buckle water gap cutting lower die;

step six: after cutting, the central controller controls the movable cutting platform to be separated from the hydraulic cutting action module, and controls the transmission end of the discharging module to push away the buckle water gap.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. The utility model provides a system is cut at buckle mouth of a river, includes central controller, the system of moulding plastics, feeding system and blank system, its characterized in that: the injection molding system comprises an injection molding machine and a pressure sensor;

the feeding system comprises a longitudinal moving module, a transverse moving module is installed at the transmission end of the longitudinal moving mechanism, a lifting moving module is installed at the transmission end of the transverse moving mechanism, a steering module is installed at the transmission end of the lifting moving module, and a pneumatic clamping jaw is installed at the transmission end of the steering module;

the blank system is including the activity cut the platform and the action module is cut to hydraulic pressure, the activity is cut and is installed first infrared induction module on the platform for whether the response has buckle formed part, hydraulic pressure is cut and is installed the infrared induction module of second on the action module, is used for responding to hydraulic pressure and cuts whether send into the buckle formed part in the action module to and install the module of unloading.

2. The snap nozzle slitting system according to claim 1, wherein: the injection molding machine is provided with a forming die for forming the buckle, and the pressure sensor is arranged on the forming die and used for sensing the pressure during die assembly.

3. The snap nozzle slitting system according to claim 1, wherein: the transmission of the longitudinal moving module is realized by any one of a linear motor, a telescopic cylinder and a hydraulic cylinder so as to drive the longitudinal moving of the transverse moving module.

4. The snap nozzle slitting system according to claim 1, wherein: the transmission of the transverse moving mechanism is realized by any one of a linear motor, a telescopic cylinder and a hydraulic cylinder so as to drive the lifting module to move up and down.

5. The snap nozzle slitting system according to claim 1, wherein: the transmission of the lifting module is realized by any one of a linear motor, a telescopic cylinder and a hydraulic cylinder. So as to drive the clamping jaw to rotate on the vertical surface.

6. The snap nozzle slitting system according to claim 1, wherein: the movable slitting platform is driven by any one of a linear motor, a telescopic cylinder and a hydraulic cylinder to realize the horizontal movement of the movable slitting platform.

7. The snap nozzle slitting system according to claim 1, wherein: the movable slitting platform is provided with a buckle water gap cutting lower die, the transmission end of the hydraulic slitting action module is provided with a buckle water gap cutting upper die, and the transmission end drives the upper die to move downwards to perform cutting action.

8. The snap nozzle slitting system according to claim 1, wherein: the discharging module is realized by any one of an electric push rod and a telescopic cylinder, and the transmission end vertically acts on the buckle water gap downwards for discharging the water gap.

9. The snap nozzle slitting system according to claim 1, wherein: the central controller is respectively connected with the injection molding machine, the pressure sensor, the longitudinal moving mechanism, the transverse moving module, the lifting moving module, the steering module, the pneumatic clamping jaw, the movable cutting platform, the hydraulic cutting action module, the first infrared induction module and the second infrared induction module, and is used for comprehensively processing data so as to realize the control of the injection molding machine, the pressure sensor, the longitudinal moving mechanism, the transverse moving module, the lifting moving module, the steering module, the pneumatic clamping jaw, the movable cutting platform, the hydraulic cutting action module, the first infrared induction module and the second infrared induction module.

10. The use method of the snap nozzle slitting system is characterized by comprising the following steps:

the method comprises the following steps: after a buckle forming mold on the injection molding system is opened, the pressure sensor senses that the pressure is zero and transmits the data of the zero pressure to the central controller;

step two: the central controller controls the feeding system to operate, and unloads the buckle forming piece on the buckle forming die and feeds the material to the blanking system under the matching action of the longitudinal moving mechanism, the transverse moving module, the lifting moving module, the steering module and the pneumatic clamping jaw;

step three: the feeding system component places the buckle formed part in a buckle water gap cutting lower die on the movable slitting platform, and the first infrared sensing module senses the buckle formed part and transmits a sensing signal to the central controller;

step four: the central controller controls the movable slitting platform to move towards the hydraulic slitting action module, and the second infrared sensing module sends a fastener forming piece and transmits a sensing signal to the central controller;

step five: the central controller controls the transmission end of the hydraulic slitting action module to move downwards so as to drive the buckle water gap cutting upper die to move downwards and perform material cutting in cooperation with the buckle water gap cutting lower die;

step six: after cutting, the central controller controls the movable cutting platform to be separated from the hydraulic cutting action module, and controls the transmission end of the discharging module to push away the buckle water gap.

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