KR200346954Y1 - Drying circuit from cooling device of an airtight box - Google Patents

Abstract

The present invention relates to a cooler dehumidification circuit in a closed space, the cooler dehumidification circuit in a space provided with a cooler and a cooler fan, the temperature sensing unit for generating an electrical detection signal if the temperature of the space is above the reference; A power supply switch unit recognizing a detection signal of the temperature sensing unit and supplying power to the cooler fan; And a cooler fan speed control unit for controlling the speed of the cooler fan to be less than the rated speed for a predetermined time when power is supplied through the power supply switch unit, and controlling the speed of the cooler fan to be the rated speed after a predetermined time.

According to the present invention, the rotation speed and the driving cycle of the cooler fan are controlled when the cooler is driven in an enclosed space to prevent moisture condensation from being transferred to the circuit elements, thereby preventing malfunction of the detection radar circuit due to moisture.

Description

Drying circuit from cooling device of an airtight box

The present invention relates to a radar device, and more particularly to a sealed space cooler dehumidification circuit for removing the moisture generated by the operation of the cooler when removing the heat generation of the transmission and reception of the radar device.

In general, the detection radar, which is responsible for the transmission and reception of the radar system, has a dense structure of numerous semiconductor chips and is installed in an enclosed cabinet because it is installed in an external space for the efficiency of signal transmission and reception. Because of this, equipment malfunctions may occur due to heat generation and solar radiation of the semiconductor chip itself. Therefore, the cooler and the cooling fan are placed inside a sealed space equipped with a detection radar to cool the heat.

1 is a configuration diagram of a cooler driving circuit in a conventional detection radar device, wherein the cooler driving circuit includes a temperature sensor 100, a relay 110, a resistor 120, a cooler 130, and a cooler fan 140. It is composed. The temperature sensor 100 detects whether the internal temperature of the sealed detection radar space enclosed by the dotted line is higher than or equal to a predetermined level, and outputs a predetermined electric signal if it is higher than or equal to a predetermined level. The relay 110 operates by outputting a predetermined electrical signal from the temperature sensor 100 to apply the power supply V2 to the resistor 120. When a temperature above a predetermined level is not detected from the temperature sensor 100, the relay 110 is not driven and the power supply V2 is not applied to the resistor 120. When the power supply V2 is applied to the resistor 120, the motor 141 of the cooling fan 140 is driven to rotate the blade 142 of the cooling fan. When the cooling fan 140 operates, the coolant of the cooler 130 is spread out to a closed space to lower the temperature.

When the cooler is initially operated, moisture condensation occurs in the air inside the sealed space due to the temperature difference inside the sealed space of the detection radar, and due to the wind pressure of the cooling fan, the condensed water is transmitted to various circuit elements, causing circuit failure. .

An object of the present invention is to provide an enclosed space cooler dehumidification circuit that prevents moisture condensation from being transferred to circuit elements by adjusting a rotation speed and a driving cycle of a cooler fan when driving the cooler in an enclosed space.

1 is a block diagram of a conventional closed space cooler driving circuit.

2 is a block diagram of a sealed space cooler dehumidification circuit of the present invention.

3 is a detailed block diagram of the cooler fan speed control unit of FIG. 2.

In order to solve the above problems, a cooler dehumidification circuit in a space provided with a cooler and a cooler fan, the temperature sensing unit for generating an electrical detection signal when the temperature of the space is above the reference; A power supply switch unit recognizing a detection signal of the temperature sensing unit to supply power to the cooler fan; And a cooler fan speed control unit for controlling a speed of the cooler fan to be a rated speed after a predetermined time, when the power is supplied through the power supply switch unit to lower the driving speed of the cooler fan for a predetermined time. Equipped.

The cooler fan speed control unit may include: a resistance circuit unit in which two or more resistors are arranged in parallel between the power supply and the cooler fan; And a current value for driving the cooler fan is reduced by maintaining the resistance value of the resistor circuit unit for a predetermined time or more for a predetermined time immediately after power is supplied through the power supply switch unit, and after the predetermined time passes, the resistance value of the resistor circuit unit is reduced. It is preferable to have a fan current control unit for reducing the current for driving the cooler fan.

The fan current controller may include: a relay connected to a parallel connection of resistors of the resistance circuit unit; And controlling the relay for a predetermined time when the power is supplied from the power supply switch unit to prevent a part of the resistors of the resistance circuit from being connected in parallel, thereby increasing the overall resistance value, and controlling the relay after the predetermined time passes. It is preferable to have a timer in which the resistors in the circuit section are connected in parallel so that the overall resistance value is lowered.

Located below the cooler, it is preferable to further include a sump to receive the condensate generated during the initial operation of the cooler fan to flow to the outside.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of the enclosed space cooler dehumidification circuit of the present invention, the cooler dehumidification circuit in a predetermined space having a cooler 200 and a cooler fan 210, the temperature sensing unit 220, the power supply switch unit ( 230 and a cooler fan speed control unit 240. The temperature sensor 220 is a temperature sensor that detects a case in which the temperature of the space is greater than or equal to a predetermined value in an enclosed space represented by a dotted line in the drawing. The temperature detector 220 generates a predetermined electrical detection signal when the detected temperature is higher than or equal to a predetermined reference. The power supply switch unit 230 is connected to the temperature sensing unit 220 and the power supply, and when a predetermined detection signal is output from the temperature sensing unit 220, the power supply switching unit 230 is turned on to supply power to the cooler fan speed control unit 240. To feed. The cooler fan speed control unit 240 drops the driving speed of the cooler fan slower than the rated speed for a predetermined time when power is supplied through the power supply switch unit 230, and after the predetermined time passes, the speed of the cooler fan is rated. Control the speed. This is because the cold air air in the sealed space collides at the initial stage when the cooler fan 210 rotates to generate moisture or water, because the wind pressure due to the rotation of the cooler fan 210 may transfer water or moisture to another semiconductor chip. It is intended to reduce the rotational speed of the cooler fan 210 for the first predetermined time, that is, until the temperature in the space is constantly lowered so that there is no fear of moisture generation due to a large temperature difference. In the present invention, by installing the sump 201 under the cooler, the condensed water generated during the initial operation of the cooler fan 210 can be received and flowed to the outside to be discarded.

3 is a detailed configuration diagram of the cooler fan speed controller 240 of FIG. 2, wherein the cooler fan speed controller 240 includes a resistor circuit 300 in which two or more resistors are arranged in parallel between a power source and a cooler fan 210. And a current value for driving the cooler fan 210 is reduced by maintaining the resistance value of the resistance circuit unit 300 at a predetermined size or more for a predetermined time immediately after power is supplied through the power supply switch unit 230, and when a predetermined time passes. The fan current control unit 310 is configured to reduce the resistance of the resistance circuit unit 300 so that a large amount of current flows for driving the cooler fan 210. The fan current controller 242 may control the relay 311 for a predetermined time when power is supplied from the relay 311 and the power supply switch 230 connected to the parallel connection of the resistors of the resistor circuit unit 300. Timer to increase the overall resistance value by preventing some of the resistors of 300 to be connected in parallel, and to control the relay 311 after a predetermined time so that the resistances of the resistance circuit unit 300 are connected in parallel to lower the overall resistance value ( 312) is preferred.

According to the present invention, the rotation speed and the driving cycle of the cooler fan are controlled when the cooler is driven in an enclosed space to prevent moisture condensation from being transferred to the circuit elements, thereby preventing malfunction of the detection radar circuit due to moisture.

Claims (3)

In a cooler dehumidification circuit in a space provided with a cooler and a cooler fan, A temperature sensor configured to generate an electrical detection signal when the temperature of the space is greater than or equal to a reference determined by a user; A power supply switch unit recognizing a detection signal of the temperature sensing unit to supply power to the cooler fan; A resistor circuit unit in which at least two resistors are arranged in parallel between a power supply and the cooler fan; After the power is supplied through the power supply switch unit, the resistance value of the resistance circuit unit is maintained for a predetermined time or more for a predetermined time to reduce the current for driving the cooler fan, and after the predetermined time, the resistance value of the resistance circuit unit is reduced. And a fan current controller for increasing a current for driving the cooler fan. The method of claim 1, wherein the fan current control unit, A relay connected to a parallel connection of the resistors of the resistance circuit unit; And When power is supplied from the power supply switch unit, the relay is controlled for a predetermined time so that some of the resistors of the resistance circuit unit cannot be connected in parallel to increase the total resistance value, and after the predetermined time, the resistance circuit unit is controlled by controlling the relay. The airtight space cooler dehumidification circuit of claim 1, further comprising a timer for connecting the resistors in parallel to lower the overall resistance value. The method of claim 1, Located below the cooler, the condensed water receiving the condensed water generated during the initial operation of the cooler fan flows to the outside, characterized in that the closed space cooler dehumidification circuit further comprising.