KR102431972B1 - Disconnection Detection Device of Heat Treatment Furnace - Google Patents

Abstract

The present invention relates to a heater part disconnection detection device of a heat treatment furnace.
The present invention generates heat to a predetermined temperature and includes a heater unit provided inside a heat treatment furnace for a secondary battery; a current sensing unit provided to sense the current of the heater unit; a transducer converting the AC current value measured by the current sensing unit into an analog DC current value; an input module unit receiving an analog current value from the transducer; a control unit receiving the analog current value signal from the input module unit through communication and determining whether the heater unit is disconnected;
The heater unit includes a SiC heater, the heater unit includes a unit heater unit connected in series to a plurality of SiC heaters, and the unit heater unit includes a plurality of first to third unit heater units arranged in parallel, and the current A sensing unit is provided to detect a current for each unit heater unit to determine a location of a disconnection, and the current sensing unit includes a first current sensing unit connected to the first unit heater unit, and a first current sensing unit connected to the second unit heater unit. and a third current sensing unit connected to the second current sensing unit and the third unit heater unit, and when a disconnection occurs in any one of the unit heater units of the heater unit, the combined resistance value of the entire heater unit is initially set resistance value, and when the output of the heater unit is greater than a predetermined amount, if a predetermined amount of current is not measured by the current sensing unit, the control unit determines that a disconnection has occurred, and the unit heater unit in which the disconnection occurs in the unit heater unit When the current value is 10A or less when a disconnection occurs among a plurality of unit heater units and the output of the heater unit is 10% or more, the control unit operates an alarm indicating the disconnection state and cuts off the power to the heater of the heat treatment furnace A negative disconnection detection device may be provided.

Description

Disconnection Detection Device of Heat Treatment Furnace

The present invention relates to a device for detecting disconnection of a heater part of a heat treatment furnace for processing a cathode material/anode material for a secondary battery.

A heater unit for realizing a predetermined temperature is installed inside the heat treatment furnace for heat-treating a cathode material/anode material for a secondary battery.

Since such a heater has to be maintained at, for example, 1000° C. or higher, a SiC heater may be used without using a general heater.

A plurality of SiC heaters are provided by connecting them in series and in parallel.

Since the resistance of a general heater is constant, it is easy to determine whether there is a disconnection when a change occurs by measuring the current.

However, unlike general heaters, SiC heaters do not have constant resistance and vary depending on surface temperature and use time, and thus voltage and current may also vary.

Therefore, when the SiC heater is actually disconnected and the current is changed, it cannot be determined whether the current is changed because the SiC heater has deteriorated with the elapse of the usage period of the SiC heater, or whether the current is changed because of the disconnection.

For example, if two SiC heaters are connected in series and a total of six SiC heaters are provided by connecting these series-connected structures in three parallels, even if two SiC heaters are disconnected, it is impossible to determine whether there is a disconnection in a timely manner. , the remaining four SiC heaters are operated, and as time elapses, the four SiC heaters are overloaded and malfunctions such as disconnection may occur.

In addition, when four SiC heaters are connected in series two by two, and these series structures are connected in parallel, if two SiC heaters are disconnected, the presence or absence of disconnection cannot be detected. Since it is heated, a predetermined heat treatment temperature may not be reached, and a large problem may occur in the heat treatment process of the cathode material/negative electrode material for secondary batteries.

Accordingly, the present invention was invented to solve the above problems, and the problem to be solved by the present invention is to detect in real time whether there is a disconnection in the heater part made of a SiC heater installed inside the heat treatment furnace and take action immediately. It is to provide an apparatus for detecting the presence or absence of disconnection of a heater part of a heat treatment furnace.

The solution means of the present invention is a heater unit that generates heat to a predetermined temperature and is equipped inside the secondary battery heat treatment furnace; a current sensing unit provided to sense the current of the heater unit; a transducer converting the AC current value measured by the current sensing unit into an analog DC current value; an input module unit receiving an analog current value from the transducer; a control unit receiving the analog current value signal from the input module unit through communication and determining whether the heater unit is disconnected;
The heater unit includes a SiC heater, the heater unit includes a unit heater unit connected in series to a plurality of SiC heaters, and the unit heater unit includes a plurality of first to third unit heater units arranged in parallel, and the current A sensing unit is provided to detect a current for each unit heater unit to determine a location of a disconnection, and the current sensing unit includes a first current sensing unit connected to the first unit heater unit, and a first current sensing unit connected to the second unit heater unit. and a third current sensing unit connected to the second current sensing unit and the third unit heater unit, and when a disconnection occurs in any one of the unit heater units of the heater unit, the combined resistance value of the entire heater unit is initially set resistance value, and when the output of the heater unit is greater than a predetermined amount, if a predetermined amount of current is not measured by the current sensing unit, the control unit determines that a disconnection has occurred, and the unit heater unit in which the disconnection occurs in the unit heater unit When the current value is 10A or less when a disconnection occurs among a plurality of unit heater units and the output of the heater unit is 10% or more, the control unit operates an alarm indicating the disconnection state and cuts off the power to the heater of the heat treatment furnace A negative disconnection detection device may be provided.

delete

As described above, in the present invention, a current sensing unit is provided in the heater unit made of a SiC heater having a variable resistance, and the control unit detects the current to determine whether there is a disconnection in the controller in real time. have.

According to the present invention, if the output of the heater unit is greater than a predetermined amount and the current value of the predetermined amount is not measured by the current sensing unit, the control unit may determine that the circuit is disconnected.

The present invention constitutes a unit heater unit in which two SiC heaters are connected in series, a plurality of unit heater units are connected in parallel, and a current sensing unit is provided for each unit heater unit so that the output of the heater unit is lower than or equal to a predetermined amount of current in a state in which the output of the heater unit is output by a certain amount or more. Upon detection, the controller may determine the unit heater unit where the disconnection has occurred.

Therefore, according to the present invention, when installed and used inside a heat treatment furnace for processing anode material/negative electrode material for secondary batteries, it is possible to determine in real time whether or not the heater is disconnected, so that countermeasures such as replacement can be taken immediately, and the heater's It is possible to prevent problems that may occur when performing the heat treatment furnace process in a state where disconnection is not identified.

1 is a schematic diagram showing the configuration of a heater disconnection detection apparatus according to a first embodiment of the present invention.
2 is a schematic diagram showing the configuration of a heater disconnection detection apparatus according to a second embodiment of the present invention.

Hereinafter, specific contents for carrying out the present invention will be described in detail based on the accompanying exemplary drawings.

1 is a schematic diagram showing the configuration of a heater disconnection detection apparatus according to a first embodiment of the present invention.

Referring to FIG. 1 , the heater disconnection detection apparatus 10 according to the first embodiment of the present invention includes a power controller 100 , a heater unit 200 , a current sensing unit 300 , a transducer 400 , and an input It may be configured to include a module unit 500 and a control unit 600 .

The heater unit 200 is installed inside a heat treatment furnace for heat-treating a cathode material/anode material for a secondary battery, and the remaining power controller 100, a current sensing unit 300, a transducer 400, an input module unit ( 500) and the control unit 600 may be electrically connected to the outside of the heat treatment furnace to be provided in a terminal box or the like.

The power controller 100 (Silicon Controlled Rectifier; SCR) applies a constant power mode, is used to control current and voltage in the power system, and when the constant power mode of the power controller 100 is applied, the voltage according to the increase in resistance value may rise, and the current may fall.

The heater unit 200 may be configured as a SiC heater. The SiC heater is a non-metallic heating element, has a low coefficient of expansion, and hardly undergoes deformation. It has chemical stability, has a long service life, is easy to install and maintain, and has a normal operating temperature of 600 ~ 1600℃.

The actual design capacity compared to the total capacity of the SiC heater is designed based on the surface load density and used limitedly.

The SiC heater may have a characteristic that the heater resistance varies depending on the surface temperature and the period of use. That is, the voltage and current may not be constant according to the heater output amount due to the change in resistance.

Therefore, since the SiC heater changes voltage and current due to a change in resistance, it is difficult to accurately identify whether the current value is changed by the SiC heater disconnection or the current value is changed according to the resistance change.

Therefore, it may be difficult to accurately detect the presence or absence of a disconnection in a method of detecting a disconnection by checking a maximum current value in a constant state without a variable resistance as in a general heater.

In the first embodiment of the present invention, the heater unit 200 may be formed of a two-series or three-parallel connection structure. However, it is not limited to the connection structure of the heater unit 200 , and the number and connection structure of SiC heaters constituting the heater unit may be changed so that the heating capacity of the heater unit 200 is changed.

Accordingly, the heater unit 200 constitutes one unit heater unit in which a plurality of heaters are connected in series, and the unit heater unit includes, for example, the first heater unit 210 , the second heater unit 220 , and the third heater unit ( 230) may be configured in a structure connected in parallel.

The current sensing unit 300 may be formed of a current transformer (CT), which is a device for measuring a current flowing in a conducting wire. That is, the current sensing unit 300 may perform a role of sensing the current in real time.

When the CT, which is the current sensing unit 300, is operated by supplying power to the heater unit 200, a current may flow through the line passing the CT, and an induced current is generated in the CT due to this current, and this 600) can be output in a recognizable state.

The current sensing unit 300 may install, for example, one SiC heater of the heater unit 200 per two series. That is, the first current sensing unit 310 , the second current sensing unit 320 , and the third current connected to each of the first heater unit 210 , the second heater unit 220 , and the third heater unit 230 , respectively. It may be composed of a sensing unit 330 .

Accordingly, in the first embodiment of the present invention, the current sensing unit 300 may include three current sensing units 300 since the heater unit 200 is configured in two series and three parallel units. However, the present invention is not limited thereto, and the heater unit 200 may be configured in various ways, such as 3 in series or 4 in parallel.

Transducer 400, for example, when the current value sensed by the current sensing unit 300 is output as AC (alternating current) 1 ~ 5A, the control unit 600 to receive DC (direct current) 4 ~ 20mA to receive can In other words, it can be called an AC/DC converter.

The transducer 400 may be loaded on a separately provided mounting panel (not shown).

When the current passing through the current sensing unit 300 is converted to DC 4 to 20 mA by the transducer 400 , the input module unit 500 receives it as an analog signal, and each current value is displayed through the screen unit 310 . can do it

The input module unit 500 may convert an analog signal into a digital signal through communication with the control unit 600 and provide it. That is, the input module unit 500 may be referred to as an A/D converter.

Here, in the present invention, when the output MV of the heater unit 200 exceeds a predetermined amount, if a predetermined amount of current is not measured, it may be determined that the disconnection of the heater unit 200 has occurred.

In other words, in the SiC heater constituting the heater unit 200 , the resistance of the heater increases from the initially set resistance value according to the surface temperature and the period of use, and accordingly, the circuit current value may decrease. In addition, when the heater unit 200 is formed of a plurality of unit heater units, when a disconnection occurs in any one of the plurality of unit heater units, the combined resistance value of the entire heater unit 200 increases from the initially set resistance value, and the circuit decreases It is not possible to determine whether the heater is disconnected by simply comparing the current value with the calculated reference value (current value in normal state).

For example, in the case of the heater unit 200 configured in two series and three parallel units, even if the heater unit is disconnected at any position, the capacity and heater resistance required for the target temperature may be maintained in the same state.

Even if it operates as four connected heater units in two series and two parallels due to disconnection, the target temperature in the corresponding region inside the heat treatment furnace (calcination furnace) in which the heater unit 200 is installed may be maintained. Accordingly, it may be impossible to determine whether the heater is disconnected only by the measured value of the current.

The heat treatment furnace may be a furnace for heat-treating a cathode material/anode material for a secondary battery to a predetermined temperature, for example, a roller hearth type kiln.

Accordingly, in the present invention, when the output MV of the heater unit 200 exceeds a predetermined amount, if a predetermined amount of current is not measured, it can be determined that the disconnection of the heater unit 200 has occurred.

When the current sensing unit 300 is provided for each unit heater unit, the disconnection may mean that no current flows, so if the current is 0 (zero) in the current sensing unit 300, the unit heater unit is disconnected. It can be determined, but even when power is not supplied to the unit heater unit, the current does not flow and it may come out as 0.

Therefore, when the output from the heater unit 200 is output by a certain amount or more, the power is not in an OFF state but is in an operating state, and in this state, when the output current value is measured by a certain amount or more, it may be in a normal state.

Of course, due to the characteristics of the SiC heater, if the resistance increases due to aging due to the elapse of the period of use, a change occurs in which the current decreases. The current value output from the heater unit 200 does not come out below a certain amount.

Therefore, if the current value is measured to be less than a certain amount in a state in which the output of the heater unit 200 is output by a certain amount or more, it may be determined that the wire is disconnected.

The control unit 600 may be configured as a PLC control circuit, and when the output of the heater unit 200 is greater than a certain amount, it is determined that the heater unit 200 is disconnected through a signal provided through communication from the input module unit 500 . Then, an alarm indicating that the disconnection state is activated, and the power of the heater unit 200 may be cut off (OFF).

For example, when the output of the heater unit 200 is 10% or more, when the current value is 10A or less, an alarm indicating the disconnection state of the heater unit 200 may be generated and the power of the heater unit 200 may be cut off.

Since the present invention has a structure in which the current sensing unit 300 is provided for each unit heater unit, when a disconnection occurs among a plurality of unit heater units, the unit heater unit can be easily found.

2 is a schematic diagram showing the configuration of a heater disconnection detection apparatus according to a second embodiment of the present invention. Referring to FIG. 2 , in the first embodiment shown in FIG. 1 , the transducer 400 may be removed and a single CT input module unit 700 may be provided instead of the input module unit 500 receiving an analog signal. have.

The CT input module unit 700 may directly receive a signal from a current transformer (CT) that is the current sensing unit 300 , and accordingly, the first heater unit 210 of the heater unit 200 , the second heater unit ( 220 ) and the third heater unit 230 , when any one of the heater units is disconnected, the first current connected to the first heater unit 210 , the second heater unit 220 , and the third heater unit 230 , respectively. Since the current value sensed by any one of the sensing unit 310, the second current sensing unit 320, and the third current sensing unit 330 is different from a predetermined value, this state is set by the CT input module unit ( 700) and displayed through the screen unit 350, it is possible to check whether each heater unit is disconnected.

Compared to the first embodiment, the second embodiment of the present invention does not require the transducer 400 and a panel for installing the transducer 400, so that the manufacturing cost can be reduced.

In the second embodiment, when the output of the heater unit 200 is greater than a certain amount, the control unit 600 detects this and determines that the heater unit 200 is disconnected, operates an alarm indicating that the disconnection state, and the heater The power of the unit 200 may be cut off.

For example, when disconnection of the heater unit 200 is detected, when the output of the heater unit 200 is 10% or more, when the current value is 10A or less, an alarm is generated to inform the disconnection state of the heater unit 200 and the heater unit ( 200) can be turned off.

10... Heater disconnection detection device
100... Power regulator 200... Heater part
210... First heater unit 220... Second heater unit
230... Third heater unit 300... Current sensing unit
310... first current sensing unit 320... second current sensing unit
330... Third current sensing unit 350... Screen unit
400... Transducer 500... Input module part
600... Control unit 700... CT input module unit

Claims (4)

a heater unit which generates heat at a predetermined temperature and is provided in the heat treatment furnace for secondary batteries;
a current sensing unit provided to sense the current of the heater unit;
a transducer converting the AC current value measured by the current sensing unit into an analog DC current value;
an input module unit receiving an analog current value from the transducer;
a control unit receiving the analog current value signal from the input module unit through communication and determining whether the heater unit is disconnected;
including,
The heater unit includes a SiC heater,
The heater part consists of a unit heater part connected in series to a plurality of SiC heaters,
The unit heater unit includes a plurality of first to third unit heater units arranged in parallel,
The current sensing unit is provided so as to detect a current for each unit heater unit to determine the location of the disconnection,
The current sensing unit includes a first current sensing unit connected to the first unit heater unit, a second current sensing unit connected to the second unit heater unit, and a third current sensing unit connected to the third unit heater unit. do,
When a disconnection occurs in any one of the unit heater units of the heater unit, the combined resistance value of the entire heater unit rises above the initially set resistance value,
When the output of the heater unit is more than a certain amount, if the current value of a certain amount is not measured by the current sensing unit, the control unit determines that a disconnection has occurred, and the unit heater unit in which the disconnection occurs among the unit heater units can be identified,
The control unit detects the presence or absence of disconnection of the heater unit of the heat treatment furnace by operating an alarm informing of the disconnection state and shutting off the power to the heater unit when a disconnection occurs among a plurality of unit heater units and the current value is 10A or less when the output of the heater unit is 10% or more Device.
delete delete a heater unit which generates heat at a predetermined temperature and is provided in the heat treatment furnace for secondary batteries;
a current sensing unit provided to sense the current of the heater unit;
a CT input module unit receiving the current measured by the current sensing unit;
a control unit receiving a digital current signal from the CT input module unit and determining whether the heater unit is disconnected;
including,
The heater part is made of a SiC heater whose resistance varies depending on the surface temperature or period of use,
The heater unit is composed of two series-connected unit heater units composed of at least two SiC heaters,
The unit heater unit includes a plurality of first to third unit heater units arranged in parallel,
The current sensing unit is provided for each unit heater unit to sense the current of the unit heater unit and provide it to the CT input module unit,
The current sensing unit is provided so as to detect a current for each unit heater unit to determine the location of the disconnection,
The current sensing unit includes a first current sensing unit connected to the first unit heater unit, a second current sensing unit connected to the second unit heater unit, and a third current sensing unit connected to the third unit heater unit. do,
When a disconnection occurs in any one of the unit heater units of the heater unit, the combined resistance value of the entire heater unit rises above the initially set resistance value,
When the output of the heater unit is more than a certain amount, if the current value of a certain amount is not measured by the current sensing unit, the control unit determines that a disconnection has occurred, and the unit heater unit in which the disconnection occurs among the unit heater units can be identified,
The control unit detects the presence or absence of disconnection of the heater unit of the heat treatment furnace by operating an alarm informing of the disconnection state and shutting off the power to the heater unit when a disconnection occurs among a plurality of unit heater units and the current value is 10A or less when the output of the heater unit is 10% or more Device.

Images