KR20210107527A - Capacitor automation production control system and production method - Google Patents

Abstract

An embodiment of the present invention discloses a capacitor automated production control system and production method. The system includes: a grooming control module, applied to a capacitor production machine, for acquiring the grooming parameter, receiving the grooming state data sent by the grooming device, and displaying the grooming parameter and the grooming state data; an impregnation control module for acquiring the impregnation parameter, receiving the impregnation state data sent by the impregnation device, and displaying the impregnation parameter and the impregnation state data; a packaging control module for acquiring packaging parameters, receiving packaging status data sent by the packaging device, and displaying the packaging parameters and packaging status data; Determines production control commands based on grooming parameters, impregnation parameters and packaging parameters, and controls the grooming devices, impregnation devices and packaging devices to perform automated grooming, impregnation, packaging and step-by-step quality tests based on the production control commands. It includes a main control module for Therefore, the present invention realizes fully automated production of the overall production process to improve production efficiency and reduce production costs.

Description

Capacitor automation production control system and production method

The present invention relates to the technical field of an automated control system, and more particularly, to a capacitor automated production control system and production method.

Capacitors have to go through methods such as grooming, impregnation, and packaging with casing during the manufacturing process.

However, in the conventional capacitor processing, the overall production process was far from fully automated production, and since all of the methods such as grooving, impregnation, casing and packaging require artificial participation, it had a great impact on production efficiency. Therefore, it was particularly important to present an automated capacitor automation production control system.

Based on this, it is necessary to solve the technical problem that the overall production process is far from automated production in the prior art by raising the capacitor automated production control system and production method for the above task.

In a first aspect, the present invention proposes a capacitor automated production control system, a grooming device for installing micelles in a core package, and an impregnation for receiving the core package in which micelles are installed in the grooming device and proceeding with the impregnation operation In the capacitor automatic production control system applied to the capacitor production device including a device, a packaging device for receiving the core package after the impregnation device is impregnated and packaged together with a casing,

a grooming control module for acquiring the grooming parameter, receiving the grooming state data sent by the grooming device, and displaying the grooming parameter and the grooming state data;

an impregnation control module for acquiring an impregnation parameter, receiving the impregnation state data sent by the impregnation device, and displaying the impregnation parameter and the impregnation state data;

a packaging control module for acquiring packaging parameters, receiving packaging state data sent by the packaging device, and displaying the packaging parameters and the packaging state data;

A production control command is determined based on the grooming parameter, the impregnation parameter, and the packaging parameter, and based on the production control command, the grooming device, the impregnation device, and the packaging device automatically perform grooming, impregnation, packaging and It includes a main control module for controlling the step-by-step quality test.

In a second aspect, the present invention further provides a method for automated production of capacitors, a grooming device for installing micelles into a core package, and an impregnation for receiving the core package in which micelles are installed in the grooming device and performing an impregnation operation An automated capacitor production method applied to a capacitor production machine comprising an apparatus, a packaging apparatus for receiving a core package after impregnation by the impregnation apparatus and being packaged together with a casing, wherein the capacitor production apparatus includes any one of the first aspect A protest automated production control system is installed;

The method is

obtaining grooming parameters, impregnation parameters, and packaging parameters;

determining a production control command including a grooming production control command, an impregnation production control command, and a packaging production control command based on the grooming parameter, the impregnation parameter, and the packaging parameter;

Controlling the grooming device to sequentially perform guide pin grooming and quality tests on the waiting-to-grooming gelatinous particles and the waiting-for-growing core package according to the grooming production control command to pass and fail the grooming core package obtaining a tested grooming core package including an inking core package and transmitting the accepted grooming core package to the impregnation device;

Based on the impregnation production control command, the impregnating device is controlled to sequentially perform impregnation and quality tests on the pass-grooming core package, and tested including a pass-impregnated grooming core package and a failing impregnated grooming core package. obtaining an impregnated grooving core package and transmitting the pass impregnated growing core package to the packaging device;

Based on the packaging production control command, controlling the packaging device to sequentially perform standing assembly and quality tests on the pass impregnated grooming core package and the pass aluminum cell to obtain a tested capacitor including a pass capacitor and a fail capacitor. comprising the steps of obtaining

In one embodiment, the grooming device is controlled to sequentially perform guide pin grooming and quality testing on the waiting-to-grooming micelles and the waiting-for-growing core package according to the grooming production control command. The step of obtaining the core package,

controlling the grooming device according to the grooming production control command so that the guide pin of the waiting-for-growing core package penetrates the waiting-for-growing micellar particles, thereby obtaining the waiting-to-grooming core package;

controlling the grooming device to perform a core package pull-out for the grooming core package waiting to be processed according to the grooming production control command to obtain a grooming core package waiting to be tested;

Controlling the grooming device to perform a quality test on the grooming core package waiting to be tested according to the grooming production control command to obtain a tested grooming core package,

The step of controlling the impregnation device to sequentially perform impregnation and quality testing on the passed grooming core package based on the impregnation production control command to obtain a tested impregnation grooming core package,

controlling the impregnation device to vacuum impregnate the approved grooming core package according to the impregnation production control command to obtain a liquid removal atmosphere impregnated grooming core package;

obtaining a test standby impregnated grooming core package by controlling the impregnation device to proceed with liquid removal of the core package with respect to the liquid removal standby impregnation grooming core package according to the impregnation production control command;

Controlling the impregnation device to perform a quality test on the impregnated grooming core package waiting to be tested according to the impregnation production control command to obtain a tested impregnation grooming core package,

The step of obtaining a tested capacitor by controlling the packaging device to sequentially perform standing assembly and quality test on the pass impregnated grooming core package and pass aluminum cell based on the packaging production control command,

obtaining a processing standby capacitor by controlling the packaging device to assemble the pass-impregnated grooming core package on the pass aluminum cell based on the packaging production control command;

obtaining a test standby capacitor by controlling the packaging device to sequentially perform sealing and girdle on the processing standby capacitor according to the packaging production control command;

and obtaining a tested capacitor by controlling the packaging apparatus to perform a quality test on the test standby capacitor according to the packaging production control command.

In one embodiment, before the step of controlling the grooming device to sequentially perform guide pin grooming and quality testing on the waiting-to-grooming micelles and the waiting-for-growing core package based on the grooming production control command in one embodiment ,

placing the micelles on the grooming device;

controlling the grooming device to sequentially select holes and adjust angles for the micelles according to the grooming production control command to obtain the micelles waiting for grooming;

seating the core package on the grooming device;

Controlling the grooming device to perform guide pin molding on the core package according to the grooming production control command to obtain the waiting core package for grooming,

Prior to the step of controlling the packaging device to sequentially perform standing assembly and quality tests for the pass impregnated grooming core package and the pass aluminum cell based on the packaging production control command,

mounting an aluminum cell to the packaging device;

Controlling the packaging apparatus to perform a quality test on the aluminum cell according to the packaging production control command to obtain the pass aluminum cell.

Summarizing the foregoing, the capacitor automation production control system of the present invention is applied to capacitor production equipment, obtains grooming parameters through the grooming control module, obtains the impregnation parameters through the impregnation control module, and obtains the packaging parameters through the packaging control module. The main control module determines the production control command based on the grooming parameter, the impregnation parameter, and the packaging parameter, and makes the grooming device, the impregnating device and the packaging device automated grooming, impregnation, packaging and Controlling step-by-step quality testing, and cutting, impregnating, casing and packaging, etc. do not require any artificial intervention, so the overall production process can realize fully automated production, improving production efficiency and reducing production costs. Therefore, the present invention realizes fully automated production of the overall production process to improve production efficiency and reduce production costs.

In order to more clearly explain the technical solutions in the embodiments of the present invention or the prior art, the following will briefly introduce the drawings to be used in the description of the embodiments or the prior art. In the description below, the drawings are only some embodiments of the present invention It is obvious that other drawings can be obtained based on these drawings under the premise that no progressive effort is made to those of ordinary skill in the art to which the present invention pertains.
here,
1 is a structural block diagram of a capacitor automated production control system in one embodiment;
2 is a structural schematic diagram of a capacitor production device in one embodiment;
3 is a flowchart of an automated method for producing a capacitor in one embodiment;
Fig. 4 is a detailed flowchart of the automated production method of the capacitor of Fig. 3;
5 is a flowchart of an automated method for producing a capacitor in another embodiment.

Hereinafter, in conjunction with the drawings of the embodiments of the present invention, to clearly and completely describe the technical solutions of the embodiments of the present invention, it is obvious that the described embodiments are merely some embodiments of the present invention and not all embodiments. Based on the embodiments of the present invention, those of ordinary skill in the art to which the present invention pertains, all other embodiments obtained under the premise that no progressive effort is made fall within the protection scope of the present invention.

As shown in Figures 1 to 2, in one embodiment, a capacitor automation production control system is proposed, a grooming device 21 for installing micelles in a core package, and micelles in the grooming device 21 Capacitor production comprising an impregnation device 22 for receiving the installed core package and performing an impregnation operation, and a packaging device 23 for receiving the core package after the impregnation device 22 is impregnated and packaged together with the casing In the capacitor automation production control system applied to the device,

a grooming control module 11 for acquiring the grooming parameter, receiving the grooming state data sent by the grooming device 21, and displaying the grooming parameter and the grooming state data;

an impregnation control module 12 for acquiring the impregnation parameter, receiving the impregnation state data sent by the impregnation device 22, and displaying the impregnation parameter and the impregnation state data;

a packaging control module 13 for acquiring packaging parameters, receiving packaging status data sent by the packaging device 23, and displaying the packaging parameters and the packaging status data;

A production control command is determined based on the grooming parameter, the impregnating parameter, and the packaging parameter, and the grooming device 21, the impregnating device 22 and the packaging device 23 are used according to the production control command. and a main control module 10 for controlling the automatic grooming, impregnation, packaging, and step-by-step quality testing.

The capacitor automation production control system of this embodiment is applied to capacitor production equipment, obtains grooming parameters through the grooming control module 11 , obtains the impregnation parameters through the impregnation control module 12 , and controls the packaging control module 13 . The packaging parameters are acquired through the main control module 10, and the main control module 10 determines a production control command based on the grooming parameter, the impregnation parameter, and the packaging parameter, and based on the production control command, the grooming device 21, the impregnating device 22 and Controls the packaging device 23 to perform automated grooming, impregnation, packaging, and step-by-step quality testing, and the manufacturing method such as grooming, impregnation, and casing and packaging does not require artificial interference, so the overall production process can realize fully automated production. Therefore, the production efficiency is improved and the production cost is reduced.

The grooming device 21 includes a grooming controller, which is connected in communication with the capacitor automated production control system, receives the production control command through the grooming controller, and controls the operation of the grooming device 21 . Control and send grooming status data. For example, the grooming controller controls the main motor of the grooming device 21 to operate, and allows the mechanical parts of the grooming device 21 to interlock through the operation of the main motor. The grooming controller may select a PLC in the prior art, which is not specifically limited herein.

The impregnation device 22 includes an impregnation controller, which communicates with the capacitor automation production control system, receives the production control command through the impregnation controller, controls the operation of the impregnation device 22, and impregnates state data to send For example, the impregnation controller controls a solenoid valve of the impregnation device 22 and controls the operation of a cylinder and/or a logic valve of the impregnation device 22 through the solenoid valve. The impregnated controller may select a PLC (Programmable Logic Controller) in the prior art, which is not specifically limited here any further.

The packaging device 23 includes a packaging controller, which is communicatively connected with the capacitor automation production control system, receives the production control command through the packaging controller, controls the operation of the packaging device 23, and provides packaging state data to send For example, the packaging controller sequentially passes through the relay, the fiber amplifier, and the electromagnet of the packaging device 23 to control the movement of the aluminum cell feeding motor and the standing assembly motor, and through the movement of the feeding motor and the movement of the standing assembly motor. The packaging device 23 assembles the pass-impregnated grooved core package on the pass aluminum cell to obtain a processing standby capacitor. The packaging controller may select a PLC in the prior art, which is not specifically limited herein.

In one embodiment, the capacitor automation production control system is installed in the main controller. Here, the main controller may be a PLC, a PC (personal computer), a server, or an industrial control computer, which is not specifically limited here.

obtaining the grooming parameter may be a user input or a grooming parameter stored in the system; obtaining the impregnation parameter may be a user input or an impregnation parameter stored in the system; Obtaining the packaging parameter may be a user input or a packaging parameter stored in the system.

The grooming parameters include a hole selection control parameter, an angle adjustment control parameter, a guide pin forming control parameter, a guide pin grooming control parameter, a core package full foot control parameter, and a grooming quality test control parameter, but are not specifically limited herein. . The hole selection control parameter is for the grooming device 21 to select the micellar of a suitable diameter based on the size of the capacitor, and the angle adjustment control parameter is for the grooming device 21 to adjust the angle of the micelles. The pin forming control parameter is for the grooming device 21 to shape the guide pin of the core package, and the guide pin grooming control parameter is for the grooming device 21 to make the guide pin of the core package wait for grooming. The core package pull foot control parameter is for the grooming device 21 to advance the core package full foot to the grooming core package waiting to be processed, and the grooming quality test control parameter is for the grooming device 21 to pass through the particles. To test the quality of the grooming core package waiting to be tested.

The impregnation parameters include an impregnation control parameter and an impregnation quality test control parameter, wherein the impregnation control parameter is for the impregnator 22 to perform vacuum impregnation on the passed grooming core package, and the impregnation quality test control parameter is an impregnation apparatus ( 22) is to conduct a quality test on the impregnated grooming core package to be tested. The impregnation control parameters include the number of impregnations, liquid recovery time, vacuum time, and pressurization time, but are not specifically limited thereto.

The packaging parameters include a standing assembly control parameter, a sealing control parameter, a girdle control parameter, a packaging quality test parameter, and an aluminum cell quality test control parameter. is for assembling in an acceptable aluminum cell, the sealing control parameters are for the packaging device 23 to seal the capacitor waiting to be processed, and the girdle control parameters are for the packaging device 23 to girdle the capacitor waiting to be processed and the packaging quality The test parameters are for the packaging device 23 to perform a quality test on the capacitor to be tested, and the aluminum cell quality test control parameters are for the packaging device 23 to perform a quality test for the capacitor to be tested. The standing assembly control parameters include start-stop angle setting parameters and assembly preset parameters, which are not specifically limited here.

Start and stop angle setting parameters are rubber cover detection photoelectric start and stop angle, blocking element cylinder start and stop angle, first guide pin test start and stop angle, full foot cylinder operation start and stop angle, rubber cover removal cylinder operation start and stop angle, second guide pin Test start-stop angle, blocking aluminum cell electromagnet start-stop angle, aluminum cell test start-stop angle, assembly faulty test start-stop angle, stop position start-stop angle, waist servo operation start-stop angle, rubber cover test girdle start-stop angle, and at least one of a bare product defective return start-stop angle, a feed motor angle start-stop angle, a reverse aluminum cell test angle, a start-stop angle, and a return element cylinder angle start-stop angle, which is not specifically limited herein. The start/stop angle includes two values: a start angle and a stop angle. In the packaging control module 13 , operations such as angle reading, starting angle correction, and angle storage for packaging parameters may be performed.

The assembly preset parameters include a preset quantity of turns, a preset quantity of sealing needles, a preset quantity of defective products, a high speed main motor, a low speed main motor, and the number of sealing motor cycles. The high speed of the main motor indicates an interlocking speed of the main motor of the packaging device 23 . The main motor low speed refers to a preset inching motion speed of the main motor of the packaging device 23 .

The packaging state data includes the current start and stop angle, the rotation count, the sealing needle count, the defective product count, the current speed of the main motor, and the current speed of the sealing motor.

The preset quantity of the cycle is the production quantity required for this preset cycle, and when the cycle count is equal to the value of the preset quantity of the cycle, the main control module 10 sends a production control command to the grooming device 21, the impregnating device ( 22) and the packaging device 23 to simultaneously stop the operation and send an alarm signal, wherein the alarm signal is such that the main control module 10 controls the capacitor producing device to send a sound signal and/or an optical signal alarm. or the main control module 10 sends an alarm cell phone text message, makes an alarm call, and sends at least one of alarm alarm information in the capacitor automation production control system.

The preset quantity of sealing needles is the production quantity required for this preset sealing needle, and when the sealing needle count is equal to the value of the preset quantity of sealing needles, the main control module 10 sends a production control command to the grooming device 21, Controls the impregnation device 22 and the packaging device 23 to stop their operation at the same time and send an alarm signal, where the alarm signal is a sound signal and/or an optical signal alarm by the main control module 10 controlling the capacitor production device may be sent, or the main control module 10 may send an alarm cell phone text message, make an alarm call, and send at least one of the alarm alarm information in the capacitor automation production control system.

The preset quantity of defective products is the quantity of rejected capacitors when the preset quantity of defective products overflows. Controls the impregnation device 22 and the packaging device 23 to stop their operation at the same time and send an alarm signal, where the alarm signal is a sound signal and/or an optical signal alarm by the main control module 10 controlling the capacitor production device may be sent, or the main control module 10 may send an alarm cell phone text message, make an alarm call, and send at least one of the alarm alarm information in the capacitor automation production control system.

In one embodiment, the main control module 10 is further used to obtain an operation flow request, based on the operation flow request, by operating the capacitor automation production control system to send the production control command to the grooming device 21 ), control the impregnation device 22 and the packaging device 23 to obtain a stop flow request by performing automated grooming, impregnation, packaging and step-by-step quality testing, and based on the stop flow request, the production control command to control the grooming device 21, the impregnating device 22, and the packaging device 23 to stop operating at the same time. A one-touch type operation or stop flow simplifies user operation and improves the user experience of the capacitor automation production control system.

In one embodiment the capacitor automated production control system further comprises an I/O module (14);

The I/O module 14 is for receiving the input/output signal of the controller of the capacitor production device, obtaining an I/O display request, and displaying the input/output signal according to the I/O display request. By displaying the input/output signal, it is possible to know the operating state of the controller of the capacitor production device, which is advantageous for control and maintenance of the device.

The controller of the capacitor production device may include a grooming controller, an impregnation controller, and a packaging controller, and may further include a status monitoring controller for monitoring the operating state of the capacitor production device, but is not specifically limited thereto. The controller of the capacitor production machine may select a PLC in the prior art, which is not specifically limited herein.

The input/output signal is A phase, B phase, Z phase, optical fiber test of front guide pin, optical fiber test of after guide pin, flat feeding anti-aluminum cell test, optical fiber test of flat feeding device, photoelectricity test of rubber cover, assembly It includes at least one of a failure test, a rubber cover protrusion test, and a test before or without an upper aluminum cell, but is not specifically limited thereto.

In one embodiment, the capacitor automation production control system further comprises a production schedule display module 15;

The production schedule display module 15 is for displaying the packaging parameters and the impregnation state data, and the displayed packaging parameters include a current angle, a production speed, a good product count, and a defective product count, and the displayed impregnation state data is Pressure Release Current State Data, Liquid Recovery Current State Data, Liquid Add Current State Data, Vacuum Pumping Present State Data, Rise and Buckle-In Present State Data, Vacuum Hold Present State Data, Negative Pressure Release Present State Data, Pressurization Present State Data, Pressurization holding current status data, static pressure release current status data, tripping current status data, falling current status data, impregnation completion current status data, cylinder opening current status data;

The production schedule display module 15 also obtains a good product settlement data request, resets the good product count according to the good product settlement data request, obtains a defective product settlement data request, and calculates the defective product count based on the defective product settlement data request It is for reset. Through the production schedule display module 15, the user can visually understand the packaging parameters and the impregnation state data, which is advantageous for the user to arrange production, thereby improving the user experience.

In one embodiment, the capacitor automated production control system further comprises an alarm module (16);

The alarm module 16 obtains an alarm display request, displays the current alarm information based on the alarm display request, and at the same time displays the alarm location corresponding to the current alarm information by using an error in the plan view of the capacitor production device, Acquire a past search alert request, display past alert information based on the past search alert request, and display an alert location corresponding to the past alert information by using an error in a plan view of a capacitor production device. Through the alarm module 16, it is possible to visually determine the current alarm information and the alarm position corresponding to the current alarm information, the past alarm information and the alarm position corresponding to the past alarm information, which is advantageous for the problem of prompt positioning by the user and the user The user experience can be further improved by improving the efficiency of maintenance and debugging.

The error indication may be a red light, which is not specifically limited herein.

In one embodiment, the capacitor automated production control system further comprises a manual control module (17);

The manual control module 17 is for obtaining a manual control request and controlling the capacitor production machine to operate based on the manual control request. The manual control request includes a manual vacuum pumping request, a manual pressurization request, and a manual liquid storage tank. Liquid pumping request, manual pressure release request, manual pressurization rocker request, manual inner cylinder liquid replenishment request, manual cylinder opening request, manual inner cylinder liquid recovery request, manual origin access request, manual inner cylinder raising request, manual inner cylinder lowering request includes,

Here, when the pressure rocker does not return to the seat, the user cannot input any requests in the manual cylinder opening request, the manual origin entry/exit request, and the manual pressure request; When the position of the impregnation feeding motor is abnormal or the position of the impregnation discharge motor is abnormal and the pressure rocker returns to its seat, the user may input the manual origin access request; If the impregnated cylinder is not turned off or the vacuum in the impregnated cylinder has not reached the preset vacuum value, the user cannot input the manual inner cylinder liquid replenishment request. The manual control module 17 is for manually operating the impregnation device 22, and allows the user to conveniently perform debugging and maintenance, thereby improving the maintenance and debugging efficiency of the user and further improving the user experience. make it

the manual vacuum pumping request is for manually vacuum pumping the impregnated cylinder; the manual pressurization request is for manually pressurizing the impregnating cylinder; the manual liquid storage tank liquid pumping request is for manually pumping liquid to the impregnated cylinder; the manual pressure release request is for manually releasing the positive and negative pressure of the impregnated cylinder; the manual pressurization rocker request is for manually adding a buckle to the impregnated cylinder to prepare for pressurization; the manual inner cylinder liquid replenishment request is for manually refilling the impregnated cylinder to make debugging convenient and not to stop even if the test probe is exceeded; the manual cylinder opening request is for manually proceeding cylinder opening to the impregnated cylinder; the manual inner cylinder liquid recovery request is for manually performing inner cylinder liquid recovery for the impregnated cylinder; the manual origin entry/exit request is for resetting the impregnated material entry/exit stepping motor; The manual inner cylinder raising request is for manually raising the height of the inner cylinder with respect to the impregnated cylinder and displaying it in real time; The manual lowering of the inner cylinder request is for lowering the height of the inner cylinder, which has been manually performed with respect to the impregnated cylinder, and simultaneously displaying the lowering of the inner cylinder in real time.

In one embodiment, the grooming control module 11 includes a guide pin grooming control submodule, a core package full foot control submodule, and a grooming quality test control submodule;

the impregnation control module 12 includes an impregnation control submodule and an impregnation quality test control submodule;

the packaging control module 13 includes a standing assembly control submodule, a ceiling control submodule, a girdle control submodule, and a packaging quality test control submodule;

Here, the guide pin grooming control submodule acquires the guide pin grooming control parameter and receives the guide pin grooming state data sent by the grooming device 21, and the core package full foot control submodule is configured to: obtains the control parameters, receives the core package full foot status data sent by the grooming device 21; the grooming quality test control submodule acquires the grooming quality test control parameters, and the grooming device 21 sends receive one grooming quality test status data;

The impregnation control submodule acquires the impregnation control parameter, receives the impregnation state data sent by the impregnation device 22, the impregnation quality test control submodule obtains the impregnation quality test control parameter, and the impregnation device 22 receiving the sent impregnation quality test status data;

The standing assembly control submodule acquires the standing assembly control parameters, receives the standing assembly state data sent by the packaging device 23, and the ceiling control submodule acquires the ceiling control parameters, and the packaging device 23 sends Receive the sealing state data, the girdle control submodule acquires the girdle control parameters, receives the girdle state data sent by the packaging device 23, and the packaging quality test control submodule sets the packaging quality test parameters. and receive the packaging quality test status data sent by the packaging device 23 .

In one embodiment, the grooming control module 11 further includes a hole selection control submodule, an angle adjustment submodule, and a guide pin shaping control submodule;

the packaging control module 13 further includes an aluminum cell quality test sub-module;

Here, the hole selection control submodule acquires the hole selection control parameter, receives the hole selection state data sent by the grooming device 21, and the angle adjustment submodule acquires the angle adjustment control parameter, and the grooming device 21 (21) receives the angle adjustment state data sent, the guide pin forming control submodule acquires guide pin forming control parameters, and receives the guide pin forming state data sent by the grooming device (21);

The aluminum cell quality test submodule acquires aluminum cell quality test control parameters and receives the aluminum cell quality test status data sent by the packaging device 23 . Through automation, hole selection and angle adjustment for micellar particles, guide pin molding for the core package, and quality testing for aluminum cells are performed. It improves the acceptance rate, reduces production cost, and further improves the automation of the capacitor automation production control system.

In one embodiment, the capacitor automatic production control system further comprises a micellar particle automatic feeding control module, a core package automatic feeding control module, an aluminum cell automatic feeding control module, an automatic unloading control module;

the micellar automatic feeding control module acquires the micellar automatic feeding control parameters and receives the micellar automatic feeding state data sent by the grooming device 21;

the core package automatic feeding control module acquires the core package automatic feeding control parameters and receives the core package automatic feeding status data sent by the grooming device 21;

the aluminum cell automatic feeding control module acquires aluminum cell automatic feeding control parameters and receives the aluminum cell automatic feeding state data sent by the impregnation device 22;

the automatic unloading control module acquires automatic unloading control parameters and receives automatic unloading control status data sent by the packaging device 23;

The main control module 10 also automatically feeds the capacitor production machine based on the micellar automatic feeding control parameter, the core package automatic feeding control parameter, the aluminum cell automatic feeding control parameter, and the automatic unloading control parameter. and control to realize automatic unloading, further improving the automation of the capacitor automation production control system.

In one embodiment, the automatic capacitor production control system further includes a template management module, wherein the template management module obtains the capacitor production parameter template and, upon receiving the template search request, displays the capacitor production parameter template according to the template search request. . By reducing the frequency of user installation through the template management module, the capacitor production efficiency is improved and the production cost is reduced. The capacitor production parameter template includes a capacitor indication, a grooming parameter, an impregnation parameter, and a packaging parameter, which are not specifically limited herein. The capacitor indication is for uniquely indicating a capacitor, and may be a capacitor name or a capacitor number. However, it is not specifically limited here.

As shown in FIG. 3 , in one embodiment, an automated capacitor production method applied to a capacitor production device is proposed, wherein the capacitor production device is a grooming device for installing micelles in a core package, and in the grooming device An impregnation device for receiving the core package installed with micelles and performing an impregnation operation, and a packaging device for receiving the core package after the impregnation by the impregnation device is impregnated and packaged together with a casing, wherein the capacitor production device includes any of the above An automated production control system is installed, and the method includes the following steps.

S302, obtaining a grooming parameter, an impregnation parameter, and a packaging parameter;

Specifically, the grooming parameters, impregnation parameters, and packaging parameters may be input by a user or may be stored in an automated production control system.

S304, determining a production control command including a grooming production control command, an impregnation production control command, and a packaging production control command based on the grooming parameter, the impregnation parameter, and the packaging parameter;

Specifically, the main control module determines the production control command according to the grooming parameter, the impregnation parameter, and the packaging parameter.

S306, controlling the grooming device to sequentially perform guide pin grooming and quality testing on the waiting-to-grooming micelles and the waiting-for-growing core package according to the grooming production control command to pass the grooming core package; obtaining a tested grooming core package including a failed grooming core package and transmitting the passed grooming core package to the impregnating device;

Specifically, the main control module sends the grooming production control command to the grooming controller of the grooming device, and the grooming controller causes the grooming device to wait for grooming according to the grooming production control command. , control to sequentially perform guide pin grooming and quality testing on the waiting core package to obtain a tested grooming core package including a passing grooming core package and a failing grooming core package, and the grooming controller is configured to: control the grooming device to transmit the accepted grooming core package to the impregnating device.

S308, according to the impregnation production control command, controlling the impregnation device to sequentially perform impregnation and quality tests on the pass-grooming core package to include a pass-impregnated grooved core package and a failed impregnated grooved core package. obtaining a tested impregnated grooved core package and transmitting the acceptable impregnated grooved core package to the packaging device;

Specifically, the main control module sends the impregnation production control command to the impregnation controller of the impregnation device, and the impregnation controller causes the impregnation device to sequentially impregnate the acceptable grooming core package according to the impregnation production control command. and controlling the quality test to be carried out to obtain a tested impregnated grooved core package including a pass impregnated grooved core package and a failed impregnated grooved core package, and the impregnation controller causes the impregnation device to cause the pass impregnated grooved core package is controlled to be transmitted to the packaging device.

S310, based on the packaging production control command, by controlling the packaging device to sequentially perform standing assembly and quality tests on the pass impregnated grooming core package and pass aluminum cells, including pass capacitors and fail capacitors. obtaining a capacitor.

Specifically, the main control module sends the packaging production control command to the packaging controller of the packaging device, and the packaging controller makes the packaging device according to the packaging production control command make the packaging device pass the impregnated grooming core package, pass aluminum cell To obtain a tested capacitor including a passing capacitor and a failing capacitor by controlling to proceed with the standing assembly and quality test sequentially.

The capacitor automation production method of this embodiment is applied to a capacitor production device, and obtains grooming parameters through the grooming control module, obtains the impregnation parameters through the impregnation control module, obtains the packaging parameters through the packaging control module, and the main control module includes: Determines production control commands based on grooming parameters, impregnation parameters and packaging parameters, and controls the grooming devices, impregnation devices and packaging devices to perform automated grooming, impregnation, packaging and step-by-step quality tests based on the production control commands. In addition, there is no need for artificial intervention in construction methods such as grooming, impregnation, casing and packaging, so that the overall production process can realize fully automated production, thereby improving production efficiency and reducing production costs.

As shown in Fig. 4, an embodiment proposes a method for producing an automated capacitor, the method comprising the following steps.

S402, obtaining a grooming parameter, an impregnation parameter, and a packaging parameter;

S404, determining a production control command including a grooming production control command, an impregnation production control command, and a packaging production control command based on the grooming parameter, the impregnation parameter, and the packaging parameter;

S406, controlling the grooming device according to the grooming production control command so that the guide pin of the waiting-for-growing core package penetrates the waiting-to-grooming colloid particle to obtain a waiting-to-grooming core package;

Specifically, the grooming controller controls the grooming device according to the grooming production control command so that the guide pin of the waiting-to-grooming core package passes through the gelling core package waiting for processing, to acquire

S408, according to the grooming production control command, controlling the grooming device to perform a core package pull-out for the processing standby grooming core package to obtain a grooming core package waiting to be tested;

Specifically, according to the grooming production control command, the grooming controller controls the grooming apparatus to advance the core package pull-out to the waiting-to-process grooming core package to obtain the grooming core package waiting to be tested.

S410, according to the grooming production control command, controlling the grooming device to perform a quality test on the waiting-to-test grooming core package, including a passing grooming core package and a non-passing grooming core package. obtaining an inking core package and transmitting the accepted grooming core package to the impregnation device;

Specifically, the grooming controller controls the grooming device to perform a quality test on the grooming core package waiting to be tested according to the grooming production control command, so as to pass the grooming core package and fail the grooming core package. to obtain a tested grooming core package comprising

Optionally, if the guide pins of the grooming core package waiting to be tested are bent, it is a failing core package, and if the guide pins of the grooming core package waiting to be tested are not bent, it is a passing grooming core package.

S412, according to the impregnation production control command, controlling the impregnation device to vacuum impregnate the passed grooming core package to obtain a liquid removal atmosphere impregnated grooming core package;

Specifically, the impregnation controller controls the impregnation device to perform vacuum impregnation on the approved grooming core package according to the impregnation production control command to obtain the liquid removal atmosphere impregnated grooming core package.

S414, according to the impregnation production control command, controlling the impregnation device to proceed with the liquid removal of the core package with respect to the liquid removal standby impregnation grooming core package to obtain a test standby impregnation grooming core package;

Specifically, the impregnation controller controls the impregnation device to proceed with liquid removal of the core package for the liquid removal standby impregnation grooming core package according to the impregnation production control command to obtain a test standby impregnation grooming core package.

S416, according to the impregnation production control command, control the impregnation device to perform a quality test on the test standby impregnated grooming core package, including a pass impregnated grooming core package and a failed impregnated grooved core package. obtaining an impregnated grooving core package and transmitting the pass impregnated growing core package to the packaging device;

Specifically, the impregnation controller controls the impregnation device to perform a quality test on the impregnated grooving core package waiting to be tested according to the impregnation production control command to pass the impregnated growing core package and fail the impregnated growing core package. Obtaining a tested impregnated grooming core package comprising a, and the impregnation controller controls the impregnating device to transmit the acceptable impregnated grooming core package to the packaging device.

Optionally, if the guide pins of the impregnated grooming core package under test are bent, it is a failing core package, and if the guide pins of the grooming core package waiting to be tested are not bent, it is a passing grooming core package.

S418, according to the packaging production control command, controlling the packaging device to assemble the pass-impregnated grooved core package on the pass aluminum cell to obtain a processing standby capacitor;

Specifically, the packaging controller controls the packaging device to assemble the pass-impregnated grooming core package on the pass aluminum cell based on the packaging production control command to obtain the processing standby capacitor.

S420, controlling the packaging apparatus to sequentially perform sealing and girdle on the processing standby capacitor according to the packaging production control command to obtain a test standby capacitor;

Specifically, the packaging controller controls the packaging apparatus to sequentially perform sealing and girdle on the processing standby capacitor to obtain the test standby capacitor according to the packaging production control command.

S422, controlling the packaging apparatus to perform a quality test on the test standby capacitor to obtain a tested capacitor including a passing capacitor and a failing capacitor according to the packaging production control command.

Specifically, according to the packaging production control command, the packaging apparatus controls the packaging device to perform a quality test on the test standby capacitor to obtain a tested capacitor including a passing capacitor and a failing capacitor.

This embodiment fully automatically penetrates the guide pin of the waiting-to-grooming core package through the micelles in the waiting for grooming, realizing the core package full foot, performing the quality test on the waiting-to-grooming core package, and impregnating the pass-growing core package. Grooming, impregnating and testing by vacuum impregnation, core package deliquefaction, test standby impregnation, grooming core package, standing assembly, sealing, girdle, and quality test on test standby capacitors The manufacturing method, such as casing and packaging, does not require any artificial interference, so the overall production process can realize fully automated production, thereby improving production efficiency and reducing production costs.

As shown in Figure 5, another embodiment proposes a method for producing an automated capacitor, the method comprising the following steps.

S502, obtaining a grooming parameter, an impregnation parameter, and a packaging parameter;

S504, determining a production control command including a grooming production control command, an impregnation production control command, and a packaging production control command based on the grooming parameter, the impregnation parameter, and the packaging parameter;

S506, the step of seating the micelles on the grooming device;

Optionally, the micelles are sequentially seated on the grooming device manually.

Optionally, a micellar hopper 211, a micellar vibration mechanism, and a micellar transmission rail are installed in the grooming device to seat a plurality of micelles on the micellar particle hopper 211, and the grooming controller causes the micellar vibration mechanism to vibrate control so that the micelles sequentially enter the micelles transmission rail. This realizes automatic feeding and improves the production efficiency by further improving the automation process of the capacitor automation production control system.

S508, controlling the grooming device to sequentially select holes and adjust angles for the micelles according to the grooming production control command to obtain the micelles waiting for grooming;

Specifically, the grooming controller controls the grooming device to sequentially select holes and adjust angles for the micelles according to the grooming production control command to obtain the micelles waiting for grooming.

S510, the step of seating the core package on the grooming device;

Optionally, the core packages are sequentially seated on the grooming device manually.

Optionally, a core package hopper 212, a core package vibrator, and a core package transmission rail 214 are installed in the grooming device to seat a plurality of core packages on the core package hopper 212, and the grooming controller is a core package vibrator The sphere is controlled to vibrate so that the core package sequentially enters the core package transmission rail 214 . This realizes automatic feeding and improves the production efficiency by further improving the automation process of the capacitor automation production control system.

S512, controlling the grooming device to perform guide pin molding on the core package according to the grooming production control command to obtain the waiting core package for grooming;

Specifically, the grooming controller controls the grooming device to perform guide pin forming on the core package according to the grooming production control command to obtain the waiting core package for grooming.

S514, according to the grooming production control command, control the grooming device to sequentially perform guide pin grooming and quality testing on the waiting-to-grooming micelles and the waiting-for-growing core package to pass the grooming core package; obtaining a tested grooming core package including a failed grooming core package and transmitting the passed grooming core package to the impregnating device;

S516, according to the impregnation production control command, controlling the impregnation device to sequentially perform impregnation and quality tests on the pass-grooming core package to include a pass-impregnated grooming core package and a failing impregnated grooved core package. obtaining a tested impregnated grooming core package and transmitting the acceptable impregnated grooming core package to the packaging device;

S518, seating the aluminum cell in the packaging device;

Optionally, the aluminum cells are sequentially seated on the packaging device manually.

Optionally, an aluminum cell hopper 213, an aluminum cell vibrating mechanism, and an aluminum cell transmission rail are installed in the packaging device to seat a plurality of aluminum cells in the aluminum cell hopper 213, and the packaging controller controls the aluminum cell vibrating mechanism to vibrate so that the aluminum cells sequentially enter the aluminum cell transmission rail. This realizes automatic feeding and improves the production efficiency by further improving the automation process of the capacitor automation production control system.

S520, controlling the packaging apparatus to perform a quality test on the aluminum cell based on the packaging production control command to obtain the pass aluminum cell;

Specifically, the packaging controller controls the packaging apparatus to perform a quality test on the aluminum cell according to the packaging production control command to obtain the passed aluminum cell.

S522, based on the packaging production control command, by controlling the packaging device to sequentially perform standing assembly and quality tests for the pass impregnated grooming core package and the pass aluminum cell, tested including a pass capacitor and a fail capacitor obtaining a capacitor.

In this embodiment, hole selection and angle adjustment for the micelles are performed through automation, guide pin molding is performed on the core package, and quality tests are performed on aluminum cells, so that the capacitor automation production control system controls the capacitor production equipment. It improves the acceptance rate of the produced capacitor, reduces the production cost, and further improves the automation of the capacitor automation production control system.

It should be explained that the capacitor automated production control system and the capacitor automated production method are one overall invention concept, and the contents of the capacitor automated production control system and the capacitor automated production method embodiment can be applied to each other.

Since the content raised above is only a preferred embodiment of the present invention and is not limited by the claims of the present invention, equivalent changes made according to the claims of the present invention still fall within the scope of the present invention.

Claims (10)

A grooming device for installing the micelles into the core package, an impregnation device for receiving the core package in which the micelles are installed in the grooming device and performing an impregnation operation, and a casing for receiving the core package after the impregnation device is impregnated In the capacitor automation production control system applied to the capacitor production equipment including a packaging device for packaging together with
a grooming control module for acquiring a grooming parameter, receiving the grooming state data sent by the grooming device, and displaying the grooming parameter and the grooming state data;
an impregnation control module for obtaining an impregnation parameter, receiving the impregnation state data sent by the impregnation device, and displaying the impregnation parameter and the impregnation state data;
a packaging control module for acquiring packaging parameters, receiving packaging state data sent by the packaging device, and displaying the packaging parameters and the packaging state data;
A production control command is determined based on the grooming parameter, the impregnation parameter, and the packaging parameter, and the grooming device, the impregnating device and the packaging device automatically perform grooming, impregnation, and packaging according to the production control command. and a main control module for controlling the step-by-step quality test to proceed. According to claim 1,
The capacitor automation production control system further includes an I/O module;
The I/O module receives the input/output signal of the controller of the capacitor production device, obtains an I/O display request, and displays the input/output signal based on the I/O display request. production control system. According to claim 1,
The capacitor automation production control system further comprises a production schedule display module;
The production schedule display module is for displaying the packaging parameters and the impregnation state data, and the displayed packaging parameters include a current angle, a production rate, a good product count, and a defective product count, and the displayed impregnation state data is pressure release. Current status data, liquid recovery current status data, liquid addition current status data, vacuum pumping current status data, rising and buckle-in current status data, vacuum holding current status data, negative pressure release current status data, pressurization current status data, pressurization holding current contains current state data, static pressure release current state data, tripping current state data, falling current state data, impregnation complete current state data, cylinder opening current state data;
The production schedule display module is further configured to obtain a good product settlement data request, reset the good product count according to the good product settlement data request, obtain a defective product settlement data request, and display the defective product count according to the defective product settlement data request Capacitor automation production control system, characterized in that for resetting. According to claim 1,
The capacitor automation production control system further includes an alarm module;
The alarm module obtains an alarm display request, displays current alarm information based on the alarm display request, and displays an alarm location corresponding to the current alarm information by using an error in the plan view of the capacitor production device, Acquire a search alert request, display past alert information based on the past search alert request, and display an alert location corresponding to the past alert information by using an error in a plan view of a capacitor production device Capacitor automation production control system. According to claim 1,
The capacitor automation production control system further comprises a manual control module;
The manual control module is configured to obtain a manual control request and control the capacitor production device to operate based on the manual control request, wherein the manual control request includes a manual vacuum pumping request, a manual pressurization request, and a manual liquid storage tank liquid Includes pumping request, manual pressure release request, manual pressurized rocker request, manual inner cylinder liquid replenishment request, manual cylinder opening request, manual inner cylinder liquid return request, manual origin access request, manual inner cylinder raising request, manual inner cylinder lowering request do;
Here, when the pressure rocker does not return to the seat, the user cannot input any requests in the manual cylinder opening request, the manual origin entry/exit request, and the manual pressure request; If the position of the impregnation feeding motor is abnormal or the position of the impregnation discharge motor is abnormal, and the pressure rocker returns to its seat, the user may input the manual origin access request; A capacitor automated production control system, characterized in that the user cannot input the manual inner cylinder liquid replenishment request when the impregnated cylinder is not turned off or the vacuum in the impregnated cylinder does not reach a preset vacuum value. 6. The method according to any one of claims 1 to 5,
the grooming control module includes a guide pin grooming control submodule, a core package full foot control submodule, and a grooming quality test control submodule;
the impregnation control module includes an impregnation control submodule and an impregnation quality test control submodule;
the packaging control module includes a standing assembly control submodule, a ceiling control submodule, a girdle control submodule, and a packaging quality test control submodule;
Here, the guide pin grooming control submodule obtains the guide pin grooming control parameter and receives the guide pin grooming state data sent by the grooming device, and the core package full foot control submodule is configured to: and receive the core package pull-foot status data sent by the grooming device, the grooming quality test control submodule acquires the grooming quality test control parameters, and the grooming quality test status data sent by the grooming device receive;
the impregnation control submodule acquires the impregnation control parameter and receives the impregnation state data sent by the impregnation device, the impregnation quality test control submodule acquires the impregnation quality test control parameter, and the impregnation quality test sent by the impregnation device receive status data;
The standing assembly control submodule obtains the standing assembly control parameter and receives the standing assembly state data sent by the packaging device, and the ceiling control submodule acquires the ceiling control parameter and receives the sealing state data sent by the packaging device. receiving, the girdle control submodule obtains the girdle control parameters and receives the girdle status data sent by the packaging device, the packaging quality test control submodule obtains the packaging quality test parameters, and the packaging device Capacitor automation production control system, characterized in that receiving the sent packaging quality test status data. 7. The method of claim 6,
the grooming control module further includes a hole selection control submodule, an angle adjustment submodule, and a guide pin shaping control submodule;
the packaging control module further includes an aluminum cell quality test submodule;
Here, the hole selection control submodule obtains the hole selection control parameter and receives the hole selection status data sent by the grooming device, the angle adjustment submodule acquires the angle adjustment control parameter, and the grooming device sends receiving one angle adjustment state data, the guide pin forming control submodule acquires guide pin forming control parameters, and receives the guide pin forming state data sent by the grooming device;
The aluminum cell quality test submodule acquires aluminum cell quality test control parameters and receives the aluminum cell quality test status data sent by the packaging device. A grooming device for installing the micelles into the core package, an impregnation device for receiving the core package in which the micelles are installed in the grooming device and performing an impregnation operation, and a casing for receiving the core package after the impregnation device is impregnated In the automatic capacitor production method applied to the capacitor production device including a packaging device for packaging together with
The automatic production control system of any one of claims 1 to 7 is installed in the capacitor production device,
The method is
obtaining grooming parameters, impregnation parameters, and packaging parameters;
determining a production control command including a grooming production control command, an impregnation production control command, and a packaging production control command based on the grooming parameter, the impregnation parameter, and the packaging parameter;
Controlling the grooming device to sequentially perform guide pin grooming and quality testing on the waiting-to-grooming gelatinous particles and the waiting-for-growing core package according to the grooming production control command to pass the grooming core package and the failing tree obtaining a tested grooming core package including an inking core package, and transmitting the accepted grooming core package to the impregnating device;
Based on the impregnation production control command, the impregnating device is controlled to sequentially perform impregnation and quality tests on the pass-grooming core package, and tested including a pass-impregnated grooming core package and a failing impregnated grooming core package. obtaining an impregnated growing core package and transmitting the pass impregnated growing core package to the packaging device;
Based on the packaging production control command, controlling the packaging device to sequentially perform standing assembly and quality tests on the pass impregnated grooming core package and the pass aluminum cell to obtain a tested capacitor including a pass capacitor and a fail capacitor. Capacitor automated production method comprising the; acquiring. 9. The method of claim 8,
Controlling the grooming device to sequentially perform guide pin grooming and quality testing on the waiting-to-grooming micelles and the waiting-for-growing core package according to the grooming production control command, so that the tested grooming core package The step of obtaining
controlling the grooming device according to the grooming production control command so that the guide pin of the waiting-for-growing core package penetrates the gelling-to-be-growing colloid particle, thereby obtaining a waiting-to-grooming core package;
controlling the grooming device to perform a core package pull-out for the grooming core package waiting to be processed according to the grooming production control command to obtain a grooming core package waiting to be tested;
Controlling the grooming device to perform a quality test on the grooming core package waiting to be tested according to the grooming production control command to obtain a tested grooming core package;
The step of controlling the impregnation device to sequentially perform impregnation and quality testing on the passed grooming core package based on the impregnation production control command to obtain a tested impregnation grooming core package,
controlling the impregnation device to vacuum impregnate the approved grooming core package according to the impregnation production control command to obtain a liquid removal atmosphere impregnated grooming core package;
controlling the impregnation device to proceed with the liquid removal of the core package with respect to the liquid removal standby impregnated grooming core package according to the impregnation production control command to obtain a test standby impregnation grooming core package;
Controlling the impregnation device to perform a quality test on the impregnated grooming core package waiting to be tested according to the impregnation production control command to obtain a tested impregnated grooming core package;
The step of obtaining a tested capacitor by controlling the packaging device to sequentially perform standing assembly and quality tests on the pass impregnated grooming core package and the pass aluminum cell according to the packaging production control command,
controlling the packaging device to assemble the pass-impregnated grooming core package into the pass aluminum cell based on the packaging production control command to obtain a processing standby capacitor;
controlling the packaging apparatus to sequentially perform sealing and girdle on the processing standby capacitor according to the packaging production control command to obtain a test standby capacitor;
and obtaining a tested capacitor by controlling the packaging apparatus to perform a quality test on the capacitor to be tested based on the packaging production control command. 10. The method according to claim 8 or 9,
Prior to the step of controlling the grooming device to sequentially perform guide pin grooming and quality testing on the waiting-to-grooming micellar particles and the waiting-for-growing core package based on the grooming production control command,
placing the micelles on the grooming device;
controlling the grooming device to sequentially select holes and adjust angles for the micelles according to the grooming production control command to obtain the micelles waiting for grooming;
seating the core package on the grooming device;
Controlling the grooming device to perform guide pin molding on the core package based on the grooming production control command to obtain the waiting core package for grooming, further comprising:
Prior to the step of controlling the packaging device to sequentially perform standing assembly and quality tests for the pass impregnated grooming core package and the pass aluminum cell based on the packaging production control command,
mounting an aluminum cell to the packaging device;
Controlling the packaging apparatus to perform a quality test on the aluminum cell based on the packaging production control command to obtain the passed aluminum cell;

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