KR102563144B1 - System control device that measurement and manages the temperature of the storage battery in real time - Google Patents

Abstract

The present invention relates to a system controller for measuring and managing the temperature of a storage battery in real time.
At least one battery temperature measuring device 100 for measuring and managing the temperature of the battery in real time in a situation where the battery 101 is stored inside the battery storage box 105 for this purpose; It is connected to the battery temperature measuring device 100 through a network, checks storage of the battery 105, checks the temperature of the detection unit 110, manages the concentration module 130, and transmits and receives data to the server 300. at least one or more sensor gateways 200; and a server 300 connected to the sensor gateway 200 through a network and controlling and managing the sensor gateway 200 .
The present invention configured as described above enables the battery temperature to be easily measured and managed in a situation in which the battery is stored using the detection unit, and thereby greatly improves the quality and reliability of the system control device, providing users with various It is to satisfy the desire (need) and plant a good image.

Description

System control device that measures and manages the temperature of the storage battery in real time}

Embodiments of the present invention relate to a system control device for measuring and managing the temperature of a storage battery in real time, and more particularly, to easily measure and manage the temperature of a battery in a situation where the battery is stored using a detection unit, As a result, the quality and reliability of the system control device can be greatly improved, and a good image can be planted by satisfying various needs (needs) to users.

As is well known, rechargeable batteries are used throughout the industry and are recognized as a major medium for storing energy.

The battery is being developed and mass-produced in the direction of storing a lot of energy while decreasing in physical size, such as a lead-acid battery, a nickel-cadmium battery, and a lithium ion battery. In the case of a lithium ion battery, which is currently widely used, it is composed of a separator that separates an electrolyte and an anode/cathode. In general, the separator is rarely damaged, but when the separator is damaged due to impact or other problems, the lithium ion battery generates enormous heat and burns down. The problems caused by this make it difficult to manage the current battery and hinder its application.

In general, batteries in operation cause problems due to overcharging, shock, etc., and in unusual cases, that is, when they are shocked or have problems, problems have been reported even when they are stored without charging.

As described above, if the battery generates heat and burns down, it is difficult to extinguish the fire and it is costly. You can prevent further fires.

However, in the prior art, there has been a problem that the above technology is nonexistent.

On the other hand, generally, the temperature sensor is classified into a contact type and a non-contact type. In the case of the contact type, it is used by being attached to an object to be measured, and the non-contact type means a sensor that measures temperature without needing to be attached.

In the case of the contact sensor, despite having many advantages, there is a problem in that it must be contacted for measurement, so research on non-contact sensors is currently being conducted.

As a representative element of the non-contact sensor, a thermopile sensor can be exemplified. Due to the development of semiconductor technology, a large number of these thermopile sensors are being produced, precise products are being mass-produced, and the price is also becoming cheaper. This sensor measures the temperature through infrared energy radiated from the heating element, and when an optical system is added, it can measure the temperature several meters away.

However, in the case of the general thermopile sensor, it has a viewing angle of 35 degrees, 12 degrees, 5 degrees, etc., so there is a problem that the area that can be monitored is narrow.

In particular, the equipment currently under development is for a battery storage box, but the batteries stored in the battery storage box are frequently in/out. Therefore, in the case of managing the battery using the contact sensor, there is a problem in that the contact sensor must be attached to or removed from the battery each time the battery is shipped in/out.

In order to solve the above problems, the following prior art documents have been developed in the prior art, but there is still a big problem that the problems of the prior art cannot be solved at once.

Republic of Korea Patent Registration No. 0389890 (2003. 06. 20) has been registered. Republic of Korea Patent Registration No. 1717936 (2017. 03. 14) has been registered. Republic of Korea Patent Publication No. 2014-0097628 (2014. 08. 07) has been published. Republic of Korea Patent Publication No. 2019-0095047 (2019. 08. 14) has been published. Republic of Korea Patent Publication No. 2020-0049123 (2020. 05. 08) has been published.

The present invention has been made to solve all the problems of the prior art as described above, and that the battery temperature measuring device is provided with a battery, a battery storage box, a detection unit, a distance sensor, a concentration module, a sensor gateway, a visible/audible alarm device, and a server. It is for the first purpose, and the second object of the present invention according to the technical configuration described above is to easily measure and manage the temperature of the battery in a situation where the battery is stored using a detection unit, and the third object is to accordingly The fourth purpose is to make the storage and operation of the battery more safe, and the fourth purpose is that the battery temperature monitoring device monitors the battery storage part in a non-contact manner and detects in advance a battery in which an abnormal state is progressing above a certain temperature and gives a warning. It is to be reported to an audible and external server, and the fifth purpose is that the battery monitoring device gateway is installed in the country as a device that manages several battery monitoring devices, communicates with the server, and manages the user interface. By application, it is possible to monitor devices that can cause problems due to temperature changes in addition to batteries. The eighth object is to expand the monitoring area by adding a wide-angle lens of 90 degrees or more to the front end of the non-contact sensor and thereby reduce the number of sensors. The ninth object is to use a method of reducing the number of sensors. measures the distance in a non-contact way using a TOF (Time of Flight) element, and when measuring the distance, it is possible to check the wearing state of the battery, so that the device can be set to operate after wearing the battery. The installation of the sensor is attached to the upper part of the battery storage box (or shelf) and managed, and the input/output of the battery is checked and the temperature is monitored through the distance sensor. The 11th purpose is to improve the quality and reliability of the system control device. It provides a system control device that measures and manages the temperature of a storage battery in real time so that it can be significantly improved to satisfy various needs (needs) to give users a good image.

In order to achieve this object, the present invention relates to a system controller for measuring and managing the temperature of a storage battery in real time, and at least one battery temperature for measuring and managing the temperature of a battery in real time in a situation where the battery is stored inside a battery storage box. measuring device; at least one sensor gateway connected to the battery temperature measurement device through a network, checking the storage of the battery, checking the temperature of the detection unit, managing the concentration module, and transmitting and receiving data to and from the server; and a server connected to the sensor gateway through a network and controlling and managing the sensor gateway.

As described above, in the present invention, a battery temperature measuring device is provided with a battery, a battery storage box, a detection unit, a distance sensor, a concentration module, a sensor gateway, a visible/audible alarm device, and a server.

According to the present invention according to the technical configuration described above, the temperature of the battery can be easily measured and managed in a situation where the battery is stored using the detection unit.

In addition, according to the present invention, it is possible to have more safety in storage and operation of the battery.

In addition, the battery temperature monitoring device of the present invention monitors the battery storage unit in a non-contact manner, detects in advance a battery in which an abnormal state is progressing above a specific temperature, and reports a warning to a visible/audible and external server.

In addition, in the present invention, the battery monitoring device gateway is a device that manages several battery monitoring devices, communicates with a server, and manages a user interface, and is installed in a country.

In addition, the present invention applies this to enable monitoring of devices that may cause problems due to temperature changes in addition to batteries.

In addition, the present invention allows very convenient work by applying a non-contact sensor method in case of frequent input/output, such as a battery storage box.

In particular, the present invention uses a method of expanding the monitoring area by adding a wide-angle lens of 50 degrees or more to the front end of the non-contact sensor and reducing the number of sensors through this.

In addition, the distance sensor applied to the present invention measures the distance in a non-contact manner using a TOF (Time of Flight) element, and when measuring the distance, it is possible to check the wearing state of the battery, so that the device can be set to operate after wearing the battery will be.

In addition, in the present invention, the installation of the distance sensor is attached to the top of the battery storage box (or shelf) and managed, and the input/output of the battery is confirmed and the temperature is monitored through the distance sensor.

The present invention is a very useful invention that can greatly improve the quality and reliability of the system control device due to the above effects, thereby satisfying various needs (needs) to give users a good image.

Hereinafter, a preferred embodiment of the present invention for achieving these effects will be described in detail with reference to the accompanying drawings.

1 is a real-time measurement and management of the temperature of the storage battery applied to the present invention
Block diagram showing the system control device.
2 is a block diagram of a battery temperature measuring device applied to the present invention.
3 is a block diagram of a detection unit applied to the present invention;
4 is a block diagram of a sensor gateway applied to the present invention;

A system controller for measuring and managing the temperature of a storage battery applied in the present invention in real time is configured as shown in FIGS. 1 to 4 .

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

In addition, the terms to be described later are terms set in consideration of functions in the present invention, which may vary according to the intention or custom of the producer, so the definitions should be made based on the contents throughout this specification.

In addition, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to those shown in the drawings.

First, the present invention relates to a system controller for measuring and managing the temperature of a storage battery in real time, and is configured as follows.

That is, in the present invention, at least one battery temperature measuring device 100 for measuring and managing the temperature of the battery in real time in a situation where the battery 101 is stored inside the battery storage box 105 is provided.

In addition, the present invention is connected to the battery temperature measuring device 100 through a network, checks storage of the battery 101, checks the temperature of the detection unit 110, manages the concentration module 130, and server 300 ) is provided with at least one sensor gateway 200 for transmitting and receiving data.

In addition, the present invention provides a system control device for measuring and managing the temperature of a storage battery in real time, connected to the sensor gateway 200 through a network, and equipped with a server 300 that controls and manages the sensor gateway 200.

In particular, the battery temperature measuring device 100 applied to the present invention is configured as follows.

That is, the present invention is provided with a battery storage box (105).

And the inside of the battery storage box 105 is provided with a battery 101 installed on the bottom of the battery storage box.

In addition, it is installed on the upper part of the battery storage box 105, and at least one detection unit 110 for measuring the temperature of the battery is provided.

In addition, at least one distance sensor 120 is installed on the upper part of the battery storage box 105 and measures the distance in a non-contact manner and checks the wearing state of the battery.

In addition, a concentration module 130 installed in the battery storage box 105 collects data from a plurality of detection units 110 and transmits a signal to the sensor gateway 200 .

At this time, the detection unit 110 is made up of a non-contact temperature sensor 111 that measures the temperature by detecting infrared radiation emitted from the battery as well as preventing the battery 101 from being attached or removed each time when entering or leaving the battery storage box 105. desirable.

In addition, it is preferable that a wide-angle lens 112 is provided at the front end of the non-contact temperature sensor of the detection unit 110 so that the surveillance area can be expanded and monitored over 90 degrees and the number of detection units can be reduced. .

In addition, the sensor gateway 200 applied to the present invention is provided with the following technical configuration.

That is, the present invention serves to collect data from a plurality of concentration modules 130, manage temperature thresholds and database the current state, and process data to be transmitted to the user. A data collection unit 210 that transmits an alarm generation command is provided.

In addition, the present invention is connected to the data collection unit 210, and is provided with a data processing unit 220 for processing alarm management and server data from the collected data.

In addition, the present invention is connected to the data processing unit 220, generates and controls visible/audible alarms through control from the data processing unit 220, and detects where there is a problem in the process of generating the visible/audible alarms. An alarm control unit 230 is provided to deliver the alarm to the user and complete processing of the alarm when the user confirms it after the alarm has occurred.

In addition, the present invention is connected to the data processing unit 220, the data processing unit 220 and the server 300 is connected to the data transmitting and receiving unit 240 for transmitting data is provided.

At this time, it is preferable that the sensor gateway 200 is provided with a visible/audible alarm device 250 that detects in advance the battery 101 in which an abnormal state is progressing above a specific temperature and delivers a warning to the external server 300. .

In addition, the distance sensor 120 applied to the present invention measures the distance in a non-contact manner using a TOF (Time of Flight) element, and when measuring the distance, the wearing state of the battery 101 can be checked, and the battery 101 ) It is desirable to set it to operate after wearing it.

Finally, the concentration module 130 and the sensor gateway 200 applied to the present invention are connected by a serial bus, collect data once per second, transmit it to the server 300, and connect users through the server 300. It is preferable to adjust the temperature threshold according to the command and transmit it to the concentrating module 130 .

Meanwhile, the present invention may be variously modified and take various forms in applying the above components.

And it should be understood that the present invention is not limited to the particular forms mentioned in the above detailed description, but rather includes all modifications, equivalents and substitutes within the spirit and scope of the present invention as defined by the appended claims. should be understood as

The effect of the system control device for measuring and managing the temperature of the storage battery of the present invention configured as described above in real time will be described.

First of all, according to the present invention, the temperature of a battery can be easily measured and managed by using a detection unit in a situation where the battery is stored.

To this end, FIG. 1 applied to the present invention is a block configuration diagram showing a system control device for measuring and managing the temperature of a stored battery in real time, and a plurality of battery temperature measuring devices 100 communicate with the sensor gateway 200 through a network. .

2 shows a block configuration diagram of the battery temperature measuring device 100 applied to the present invention.

And Figure 3 shows a block configuration diagram of the detection unit 110 applied to the present invention.

4 shows a block configuration diagram of a sensor gateway 200 applied to the present invention.

Hereinafter, the operational effects of the present invention will be described in more detail.

First, in the present invention, the concentration module 130 provided in the battery temperature measuring device 100 checks the distance sensor 120 to check whether the battery 101 provided inside the battery storage box 105 is being stored.

At this time, if the battery 101 of the present invention is stored, the concentration module 130 periodically checks each detection unit 110 in real time to check the abnormal operation and temperature of the battery 101.

Subsequently, when the abnormal operation of the battery 101 is checked, an abnormal state is immediately transmitted to the sensor gateway 200 according to the present invention.

Then, when the sensor gateway 200 applied to the present invention receives an abnormal state while receiving data from the plurality of concentrating modules 130, it immediately reports it to the server 300 and performs alarm control.

The present invention measures and manages the temperature of the storage battery in real time while repeatedly performing the above process.

In particular, the present invention relates to a system for easily measuring and managing battery temperature in a situation where the battery 101 is stored using a non-contact temperature sensor 111, and through this, more safety is obtained in battery storage and operation, and application of this This makes it possible to monitor devices other than batteries that may cause problems due to temperature changes.

In addition, the battery temperature measuring device 100 of the present invention monitors the battery in a non-contact manner, detects in advance a battery whose abnormal state is progressing above a specific temperature, and reports a warning to a visible/audible and external server.

In addition, the sensor gateway 200 connected to the battery temperature measuring device 100 of the present invention manages several battery monitoring devices, communicates with the server 300, and manages the user interface, and is installed in the country.

In addition, the present invention uses a method of expanding the monitoring area by adding a wide-angle lens 112 of 90 degrees or more to the front end of the non-contact temperature sensor 111 and reducing the number of detection units through this.

In addition, during the operation process of the present invention as described above, each detection unit 110 is controlled through the concentration module 130, and the concentration module 130 and the detection unit 110 use a serial interface composed of start and end, ID and data. connected using, and the concentrating module 130 collects data from individual detection units 110 and transfers them to the sensor gateway 200. In addition, the concentration module 130 also communicates with an individual ID, and through this, when an abnormal state occurs, the location can be identified.

In addition, the concentration module 130 checks each detection unit 110 once per second, collects data, and transmits the collected data to the sensor gateway 200 once per second. The data to be collected confirms whether or not the temperature of the measured object rises past the critical point, and the initial temperature critical point is set at 60 degrees. If the temperature above the critical point continues and rises, an alarm is generated quickly, and in the case of a site, a visual and audible alarm is generated to respond to abnormal conditions.

On the other hand, the sensor gateway 200 of the present invention is a device in charge of the concentrating module 130 and manages a plurality of concentrating modules 130, and receives location information, current temperature information and input from the concentrating module 130. / Release information is processed in the sensor gateway 200.

And the data processing unit 220 serves to process data to be delivered to the user by managing temperature thresholds and converting the current state into a DB. At this time, when an abnormal condition occurs, the data processing unit 220 transmits an alarm generation command to the visual/audible alarm device 250, and the alarm device generates a visual/audible alarm to inform the user at which location there is a problem, and then If the user confirms after the occurrence of the singi alert, the processing of the alert is completed.

In addition, in the present invention, the concentration module 130 and the sensor gateway 200 are connected by a serial bus, and serve to collect data once per second and transmit it to the server 300 outside.

In addition, the present invention serves to adjust the temperature threshold according to a command of a user connected through the server 300 and transmit it to the concentration module 130 . At this time, the connection with the server 300 is connected through Ethernet, and through this, the server 300 controls/manages the plurality of sensor gateways 200.

The distance sensor 120 applied to the present invention measures the distance in a non-contact manner using a Time of Flight (TOF) element. can be set to

At this time, the installation of the distance sensor 120 is managed by being attached to the top of the battery storage box 105 (or shelf), and the input/output of the battery 101 is confirmed through the distance sensor 120 and the temperature is monitored.

As described above, the present invention is to easily measure and manage the temperature of the battery in the situation where the battery is stored using the detection unit, and also to have more safety in storage and operation of the battery. The temperature monitoring device monitors the battery storage unit in a non-contact manner, detects in advance a battery in which an abnormal condition is progressing above a certain temperature, and reports a warning to a visible/audible and external server. In addition, the battery monitoring device gateway monitors multiple batteries. It is a device that manages the device, communicates with the server, and manages the user interface. It is installed in the country, and by applying this, it is possible to monitor devices that can cause problems due to temperature changes in addition to batteries, and also battery storage box In the case of frequent arrival/departure, a non-contact sensor method is applied to provide an effect that enables very convenient work.

The technical concept of the system control device for measuring and managing the temperature of the storage battery of the present invention in real time is that the same result can be repeatedly implemented. Well worth it.

<Description of symbols for main parts of drawings>
100: battery temperature measuring device
101: battery
105: battery storage box
110: detection unit
120: distance sensor
130: concentration module
200: sensor gateway
250: visible / audible alarm device
300: server

Claims (5)

It relates to a system control device that measures and manages the temperature of a storage battery in real time,
At least one battery temperature measuring device 100 for measuring and managing the temperature of the battery in real time in a situation where the battery 101 is stored inside the battery storage box 105; It is connected to the battery temperature measuring device 100 through a network, checks the storage of the battery 101, checks the temperature of the detector 110, manages the concentration module 130, and transmits and receives data to the server 300. at least one or more sensor gateways 200; And a server 300 connected to the sensor gateway 200 through a network and controlling and managing the sensor gateway 200;
The detection unit 110 prevents the battery 101 from being attached or removed each time when entering or leaving the battery storage box 105, and also detects infrared rays emitted from the battery to measure the temperature. It consists of a non-contact temperature sensor 111, At the front end of the non-contact temperature sensor of the detection unit 110, a wide-angle lens 112 is provided so that the surveillance area can be expanded and monitored over 90 degrees and the number of detection units can be reduced through this.
The battery temperature measuring device 100 includes a battery storage box 105; Inside the battery storage box 105, a battery 101 installed on the bottom of the battery storage box; At least one detection unit 110 installed on the top of the battery storage box and measuring the temperature of the battery; At least one distance sensor 120 installed on the upper part of the battery storage box and measuring the distance in a non-contact manner and checking the wearing state of the battery; It is installed in the battery storage box, and a concentration module 130 that collects data from a plurality of detection units 110 and transmits a signal to the sensor gateway 200; is included,
The sensor gateway 200 collects data from a plurality of concentration modules 130, manages temperature thresholds and databases the current state, and processes data to be transmitted to the user. When an abnormal state occurs, the data processing unit a data collection unit 210 that transmits an alarm generation command to the alarm control unit; A data processing unit 220 that is connected to the data collection unit 210 and processes alarm management and server data from the collected data; It is connected to the data processing unit 220, generates and controls a visible/audible alarm through control from the data processing unit 220, and informs the user at what position there is a problem in the process of generating a visible/audible alarm, An alarm control unit 230 that completes the processing of the alarm when the user confirms it after the alarm occurs; and a data transmission/reception unit 240 that is connected to the data processing unit 220 and connects between the data processing unit 220 and the server 300 and transmits data.
Storage characterized in that the sensor gateway 200 is provided with a visible / audible alarm device 250 that detects in advance the battery 101 in which an abnormal state is progressing above a specific temperature and delivers a warning to the external server 300 A system controller that measures and manages battery temperature in real time.
delete delete The method of claim 1,
The distance sensor 120,
Storage characterized in that the distance is measured in a non-contact manner using a TOF (Time of Flight) element, and when the distance is measured, the wearing state of the battery 101 can be checked, and the battery 101 is set to operate after wearing it. A system controller that measures and manages battery temperature in real time.
The method of claim 1,
The concentration module 130 and the sensor gateway 200,
It is connected by a serial bus, collects data once per second, transmits it to the server 300, adjusts the temperature threshold according to the user's command connected through the server 300, and transmits it to the concentration module 130 A system controller that measures and manages the temperature of the stored battery in real time.