JP3231991U - Battery curing room visualization monitoring system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a visualization monitoring system for a battery curing chamber, which makes it easy for an operator to monitor the internal environment of the curing chamber and improves the quality of a product. A visualization monitoring system for a battery curing chamber includes a main case 1, a sub case 2, and a control system. The main case 1 is provided with a plate mounting shelf 4 inside, a man-machine interactive touch screen 5 is attached to the door, and the plate mounting shelf 4 has a spray pipe 6 arranged in each layer and stores water below. Both ends of the spray pipe provided with the tank 7 and the humidifier 8 communicate with the water storage tank. The sub-case 2 is provided with a circulation fan 22, an intake port 21, a moisture absorption fan 23, and an exhaust port 24 inside. The control system includes a PLC control module 3, a floor drain valve 10, and a plurality of temperature and humidity sensors 9. The heat exchanger and the humidifier 8 are used to switch between low temperature curing and high temperature curing, and the data is displayed on the man-machine interactive touch screen 5. [Selection diagram] Fig. 1

Description

The present invention belongs to the technical field of battery production equipment, and particularly relates to a visualization monitoring system for a battery curing chamber.

The curing chamber is for curing the lead acid battery electrode plate. After the paste is applied to the plate, the lead paste further contains 20-25% free lead and 8-10% water. When the water content in the lead paste is 8%, free lead is catalyzed by water to reach its maximum oxidation rate. When the free lead content is 5% or less, the drying process can be gradually started, and finally the water content is controlled to about 1%. The curing chamber is the device used to complete the process. The first stage of curing is a constant temperature and high humidity stage. At this stage, the temperature is generally controlled to 50 ° C. and the relative humidity to 95%. The step is mainly used to oxidize free lead in lead paste. The curing chamber must be constantly replenished with heat and moisture. After the first stage of 24-36h is completed, the humidity in the curing chamber is gradually lowered and the temperature is raised to accelerate the drying of the electrode plate until the water content in the lead paste of the raw electrode plate becomes 1%. The raw electrode plate can be taken out of the oven after three free falls with a height of 1 m and a paste drop of 3 squares or less.

Currently, the curing chamber requires continuous monitoring by the operator, which is time-consuming and labor-intensive, and it is not possible to grasp the curing status of the battery plate well. If the drying speed is too slow, the surface of the battery plate will be oxidized, which will seriously affect the production efficiency. If the drying speed is too fast, cracks will appear on the battery plate, which will greatly affect the quality of the product.

In the present invention, spray pipes are attached to each layer on the mounting shelf in the main case of the curing chamber, and low-temperature curing and high-temperature curing are switched using a heat exchanger and a humidifier, and data is displayed on a man-machine interactive touch screen. It is an object of the present invention to provide a visualization and monitoring system for a battery curing chamber, which can solve the problem that it is difficult to grasp the state of the conventional curing chamber and easily cause deterioration of product quality by displaying the display.

The present invention is realized by the following technical proposals in order to solve the above technical problems.

The present invention includes a main case, a sub case, and a control system.
A plate mounting shelf is provided inside the main case, a man-machine interactive touch screen is attached to the door of the main case, and the plate mounting shelf has spray pipes arranged in each layer and water is stored below. Both ends of the spray pipe provided with a tank and a humidifier communicate with each other to a water storage tank.
The sub-case is provided above the main case, and a circulation fan, an intake port, a moisture absorption fan, and an exhaust port are installed inside the sub-case.
The control system includes a PLC control module, a floor drain valve, and a plurality of temperature and humidity sensors. The temperature and humidity sensors are provided on a plate on a plate mounting shelf, and the PLC control module is provided. , Man-machine interactive touch screen, circulation fan, intake port, moisture absorption fan, exhaust port, floor drain valve, and visualization monitoring system of battery curing room connected to multiple temperature and humidity sensors, respectively. ..

Preferably, the humidifier is an atomizing humidifier, and the pipeline between the atomizing humidifier and the water tank is equipped with a heat exchanger, both of the humidifier and the heat exchanger. Is connected to the PLC control module.

Preferably, the visualization monitoring system further comprises a water tank, a temperature and humidity sensor, a floor drain valve, an intake port, a circulation fan, a moisture absorption fan, and an alarm module connected to the exhaust port, respectively. ..

Preferably, the outer surface of the main case and the sub case is a colored steel plate, and the intermediate portion is a polyurethane heat insulating layer.

Preferably, the top of the case body of the main case is further provided with a dangerous gas detection module connected to an alarm module to detect the concentration of dangerous gas generated in the curing chamber, and the concentration of dangerous gas is used as a reference. If it exceeds, an alarm will be issued.

Preferably, the spray pipe is uniformly provided with a plurality of atomization nozzles, and the electrode plates are all placed below the atomization nozzles.

The present invention has the following beneficial effects.
(1) In the present invention, a spray pipe is attached to each layer on the electrode plate mounting shelf in the main case of the curing chamber, and a heat exchanger and a humidifier are used to switch between low temperature curing and high temperature curing, and moreover, man-machine interactive. Displaying data on the touch screen makes it easier for the operator to monitor the internal environment of the curing chamber, and spray pipes attached to each layer provide uniform heat and moisture during the plate curing process. The quality of the product can be improved.
(2) In the present invention, a sub case is provided above the main case of the curing chamber, and a variable frequency drive of the fan is realized by using the circulation fan, the intake port, the moisture absorption fan, and the exhaust port in the sub case, and the man machine. The air volume is set steplessly on the interactive touch screen, and a cyclone type air volume that is strong and does not affect the electrode plate can be generated, and different circulating air volumes are selected and used in the curing and drying stages. This allows, in addition to not stratifying the moisture during curing, it accelerates the drying rate and improves the curing efficiency of the plates.

Of course, any product that implements the present invention does not necessarily have to achieve all of the above advantages at the same time.

In order to more clearly explain the technical proposal according to the embodiment of the present invention, the drawings necessary for describing the embodiment will be briefly described below. Obviously, the drawings described below are merely some embodiments of the present invention. Other drawings can also be obtained from these drawings for those skilled in the art without creative labor.

It is a structural schematic diagram which shows the visualization monitoring system of the battery curing chamber which concerns on this invention.

Hereinafter, the technical proposal according to the embodiment of the present invention will be clearly and completely described with reference to the drawings of the embodiment of the present invention. Obviously, the examples described are not all examples, but only some of the examples of the present invention. All other examples obtained by those skilled in the art based on the embodiments of the present invention without creative labor are all included in the scope of protection of the present invention.

As shown in FIG. 1, the present invention is a visualization monitoring system for a battery curing chamber including a main case 1, a sub case 2, and a control system.

The main case 1 is provided with a plate mounting shelf 4 inside, and a man-machine interactive touch screen 5 is attached to the door. The man-machine interactive touch screen 5 is for setting the device parameters of the curing chamber and visualizing and displaying the collected data and the analysis result. A spray pipe 6 is arranged in each layer of the electrode plate mounting shelf 4, and a water storage tank 7 is provided below. Both ends of the spray pipe 6 provided with the humidifier 8 communicate with the water tank 7.

The sub-case 2 is provided above the main case 1, and is provided with a circulation fan 22, an intake port 21, a moisture absorption fan 23, and an exhaust port 24 inside.

The control system includes a PLC control module 3, a floor drain valve 10, and a plurality of temperature and humidity sensors 9. The temperature and humidity sensors 9 are placed on the plate on the plate mounting shelf 4. The PLC control module 3 is connected to a man-machine interactive touch screen 5, a circulation fan 22, an intake port 21, a moisture absorption fan 23, an exhaust port 24, a floor drain valve 10, and a plurality of temperature and humidity sensors 9, respectively. Has been done.

Among them, the humidifier 8 is an atomizing humidifier. A heat exchanger 81 is installed in the pipeline between the atomizing humidifier and the water storage tank 7. Both the humidifier 8 and the heat exchanger are connected to the PLC control module 3. The spray pipe 6 attached to each layer can uniformly supply heat and moisture during the plate curing process to improve the quality of the product.

Among them, the monitoring system includes a water storage tank 7, a temperature and humidity sensor 9, a floor drain valve 10, an intake port 21, a circulation fan 22, a moisture absorption fan 23, and an alarm module connected to the exhaust port 24, respectively. Further prepare. One water level monitoring device is attached to the water storage tank 7. When the water level in the water tank 7 is insufficient, an immediate warning can be given to replenish the water. The floor drain valve 10 functions to prevent excessive water from collecting on the ground of the curing chamber and affecting the humidity monitoring of the curing chamber. Therefore, when it is monitored that a large amount of accumulated water is present on the ground of the curing chamber, the detection device sends a signal of the detected accumulated water to the PLC control module, and the alarm module immediately gives an alarm. The PLC control module 3 controls the opening of the floor drain valve 10 to discharge the moisture on the ground in the curing chamber. The intake port 21, the circulation fan 22, the moisture absorption fan 23, and the exhaust port 24 are for ensuring that the moisture in the curing chamber is discharged. Regarding the variable frequency drive of the fan, the air volume is set steplessly on the man-machine interactive touch screen, and a cyclone type air volume that has high strength and does not affect the electrode plate can be generated. In the curing and drying stages, different circulating air volumes can be selected and used, thereby accelerating the drying rate and improving the curing efficiency of the plates, in addition to not stratifying the moisture during curing.

Among them, the main case 1 and the sub case 2 have a colored steel plate on the outer surface, a polyurethane heat insulating layer in the middle portion, and all the wetted parts inside are made of stainless steel.

Among them, a dangerous gas detection module connected to an alarm module and for detecting the concentration of dangerous gas generated in the curing chamber is further provided at the top of the case body of the main case 1. When the concentration of dangerous gas exceeds the standard, an alarm is issued. A dangerous gas detector may be used as the dangerous gas detection module. Those skilled in the art can obtain it by purchasing a dangerous gas detector.

Among them, the spray pipe 6 is uniformly provided with a plurality of atomizing nozzles 61. Plates are all placed below the atomization nozzle 61. The spray pipe attached to each layer can uniformly supply heat and moisture during the plate curing process to improve the quality of the product.

In the embodiment of the above system, each included unit is divided only according to the functional logic, but is not limited to the above division as long as the corresponding function can be realized. Further, the specific names of the functional units are merely to distinguish them from each other, and are not intended to limit the protection range of the present invention.

In addition, those skilled in the art can complete all or part of the steps in each of the above embodiments by programmatically instructing the relevant hardware, and the corresponding program is a computer-readable storage medium. Can be understood to be remembered in.

The preferred embodiments of the present invention disclosed above are merely to assist the description of the present invention. Preferred embodiments do not detail all the details, and the invention is not limited to the specific embodiments described above. Obviously, many amendments and changes are possible based on the content of this specification. The present specification will select and specifically describe these examples in order to better illustrate the principles and practical applications of the present invention, and as a result, those skilled in the art will better understand and use the present invention. .. The present invention is limited by the scope of claims for utility model registration and the entire scope thereof, and only equivalents.

The list of parts indicated by each reference numeral in the drawing is as follows.
1-Main case 2-Sub case 3-PLC control module 4-Pole plate mounting shelf 5-Man machine interactive touch screen 6-Spray pipe 7-Water tank 8-Humidifier 9-Temperature and humidity sensor 10-Floor drain valve 21-Intake port 22-Circulation fan 23-Humidification fan 24-Exhaust port 61-Atomization nozzle 81-Heat exchanger

Claims (6)

A visualization monitoring system for a battery curing chamber including a main case (1), a sub case (2), and a control system.
The main case (1) is provided with a plate mounting shelf (4) inside, and a man-machine interactive touch screen (5) is attached to the door. The electrode plate mounting shelf (4) has each layer. A spray pipe (6) is arranged in each of the spray pipes (6), a water storage tank (7) is provided below, and both ends of the spray pipe (6) provided with a humidifier (8) are respectively the water storage tank (7). Is in communication with
The sub-case (2) is provided above the main case (1), and has a circulation fan (22), an intake port (21), a moisture absorption fan (23), and an exhaust port (24) inside. It is installed and
The control system includes a PLC control module (3), a floor drain valve (10), and a plurality of temperature and humidity sensors (9), and the temperature and humidity sensors (9) are mounted on the electrode plate. (4) The PLC control module (3) provided on the upper electrode plate includes the man-machine interactive touch screen (5), the circulation fan (22), the intake port (21), and the above. A battery curing chamber characterized in that the moisture absorption fan (23), the exhaust port (24), the floor drain valve (10), and the plurality of temperature and humidity sensors (9) are connected to each other. Visualization monitoring system. The humidifier (8) is an atomizing humidifier, and a heat exchanger (81) is installed in the pipeline between the atomizing humidifier and the water storage tank (7). The visualization monitoring system for a battery curing chamber according to claim 1, wherein both the humidifier (8) and the heat exchanger are connected to the PLC control module (3). The visualization monitoring system includes the water tank (7), the temperature and humidity sensor (9), the floor drain valve (10), the intake port (21), the circulation fan (22), and the above. The visualization monitoring system for a battery curing chamber according to claim 1, further comprising an alarm module connected to a moisture absorption fan (23) and an exhaust port (24), respectively. The visualization monitoring system for a battery curing chamber according to claim 1, wherein the main case (1) and the sub-case (2) have a colored steel plate on the outer surface and a polyurethane heat insulating layer in the middle portion. A dangerous gas detection module connected to the alarm module and for detecting the concentration of the dangerous gas generated in the battery curing chamber is further provided at the top of the case body of the main case (1). The visualization monitoring system for the battery curing chamber according to claim 3. The first aspect of the present invention is that the spray pipe (6) is uniformly provided with a plurality of atomization nozzles (61), and all the plates are provided below the atomization nozzles (61). Visualization monitoring system for the described battery curing chamber.

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