JP3131988U - Forced cooling system - Google Patents

Abstract

An object of the present invention is to provide a low-cost forced cooling system that incorporates a DC fan and can drive and control the DC fan by following changes in temperature or humidity.
A box for storing electrical equipment, a fan for forcibly adjusting the amount of air entering and exiting the box, and controlling the temperature or humidity of the box within a predetermined range by controlling the driving of the fan. In the forced cooling system to be controlled, the fan is a DC drive type fan, receives a supply of the predetermined DC voltage from the switching power supply, a switching power supply that converts power from an external AC power supply to a predetermined DC voltage, and Fan control means for controlling the power supply of the fan and detection means for detecting the temperature or humidity in the box, the fan control means is connected to the fan in conjunction with the detection output from the detection means. The power supplied is controlled.
[Selection] Figure 2

Description

  The present invention relates to a forced cooling system, and in particular, a box that houses electrical equipment, a fan that forcibly adjusts the amount of air that enters and exits the box, and a temperature in the box that is controlled by driving the fan. Alternatively, the present invention relates to a forced cooling system that controls humidity within a predetermined range.

  Conventionally, in order to maintain the inside of a box containing electrical equipment and precision equipment at a predetermined temperature and humidity, a ventilation fan is installed in the box and the fan is driven and controlled. In particular, an AC-type ventilation fan is usually installed in a cabinet that houses a VDSL (Very High-bit-rate Digital Subscriber Line) unit.

  However, the AC fan generally consumes less power and has a larger maximum air volume than the AC fan compared to the DC fan of the same size. For this reason, it is preferable to use a DC fan from the viewpoint of energy saving.

  On the other hand, power supply to boxes such as cabinets is normally 100 VAC, so a power conditioner such as a converter device or a switching power supply is required to operate a DC fan. Moreover, although a panel incorporating a power supply regulator and a DC type fan is commercially available, when the DC type fan is used for controlling the temperature and humidity in the box, a control circuit such as a temperature setting / determination circuit is separately provided. It was necessary to incorporate it, leading to an increase in the cost of the entire device and a complicated manufacturing.

  The problem to be solved by the present invention is to reduce the cost of a forced cooling system that incorporates a DC type fan and can drive and control the DC type fan in accordance with changes in temperature or humidity in order to solve the above-mentioned problems. It is possible to provide.

  The device according to claim 1 is a box for storing electrical equipment, a fan for forcibly adjusting the amount of air entering and exiting the box, and controlling the temperature or humidity in the box by driving and controlling the fan. In the forced cooling system controlled to a predetermined range, the fan is a DC drive type fan, a switching power source that converts electric power from an external AC power source into a predetermined DC voltage, and supply of the predetermined DC voltage from the switching power source And a fan control means for controlling the power supply of the fan and a detection means for detecting the temperature or humidity in the box. The fan control means is interlocked with the detection output from the detection means. The power supplied to the fan is controlled.

  The invention according to claim 2 is the forced cooling system according to claim 1, wherein the fan control means compares a detection output from the detection means with a reference value, and supplies power to the fan based on the comparison result. It is characterized by controlling.

  According to a third aspect of the present invention, in the forced cooling system according to the second aspect of the present invention, there is provided an operation condition setting means for enabling setting and changing of the reference value.

  According to a fourth aspect of the present invention, in the forced cooling system according to any one of the first to third aspects, the electrical device is a VDSL unit.

  According to the invention according to claim 1, the forced cooling system uses a DC drive type fan, and has fan control means for controlling power supplied to the fan in conjunction with a detection output from the detection means for detecting temperature or humidity. Therefore, it is possible to provide a forced cooling system at an extremely low cost while contributing to energy saving.

  According to the invention according to claim 2, the fan control means compares the detection output from the temperature or humidity detection means with a reference value, and controls the power supplied to the fan based on the comparison result. The fan can be driven and controlled so as to always maintain a constant temperature or humidity.

  According to the third aspect of the present invention, since the operation condition setting means that enables the setting and change of the reference value is provided, it becomes possible to control the driving of the fan in an arbitrary temperature or humidity range. .

  According to the fourth aspect of the present invention, since the electrical device housed in the box incorporating the forced cooling system is a VDSL unit, an inexpensive forced cooling system can be provided for a VDSL unit that requires temperature and humidity management. It becomes possible.

The forced cooling system of the present invention will be described in detail below.
FIG. 1 is a schematic diagram of a box incorporating a forced cooling system. In the following description, the VDSL unit will be mainly described as the electric device housed in the box, but it goes without saying that the electric device to which the present invention is provided is not limited to the VDSL unit.

  A DC type fan such as an intake fan or an exhaust fan is installed in the box. Each fan is provided with a fan filter and a fan cover as necessary. Further, the number of fans is not limited to two, and it is sufficient that one or more fans are provided. Each fan has a forced cooling system labeled as an energy saving forced air cooling system in FIG.

  Further, in the box, there are provided a hanging metal fitting for attaching the VDSL unit, an OA tap for supplying power to the VDSL unit, an ONU (Optical Network Unit) and its installation base.

Next, the electric circuit of the forced cooling system of the present invention will be described.
As shown in FIG. 2, the fan is a direct current drive type fan, and for example, a fan with a maximum rated current of 180 mA can be suitably used.
An AC 100V (50/60 Hz) external AC power source is input to the forced cooling system, and the AC power source has a switching power source that converts the AC power source into a predetermined DC voltage, for example, DC 12V. An example of the specifications of the switching power supply is shown in Table 1.

  A predetermined DC voltage supplied from the switching power supply is input to a three-terminal regulator and converted to DC5V, 100 mA. The output of the three-terminal regulator is supplied to the temperature determination circuit. A thermistor that is a detecting means for detecting the temperature in the box is connected to the temperature determination circuit, and is set so that the temperature of the atmosphere in the box can be detected by a change in the resistance value of the thermistor. It is also possible to arrange a sensor for detecting humidity instead of the thermistor.

  As an example of the thermistor used in the present invention, an NTC (negative temperature coefficient) thermistor having a negative temperature characteristic (resistance decreases as the temperature rises) is used. As main specifications, the nominal zero load resistance value is 10 KΩ ± 1% (at 25 ° C.), the B constant is 3435 K ± 1%, and the resistance-temperature characteristics shown in Table 2 are available.

As an example of a temperature control method using a thermistor, DC5V is divided by the resistance value input by the thermistor and the resistance on the substrate, and input to the temperature comparison circuit. The other input of the temperature comparison circuit is the circuit configuration that inputs the temperature (reference voltage by resistance voltage division) that drives the fan, compares both inputs, and drives the fan if the voltage is lower than the reference It has become.
In addition, it is more preferable to provide a circuit that provides hysteresis at the time of ON and OFF to prevent the fluctuation of the operation at the time of delicate temperature determination.

  As the operation set temperature, for example, it can be set to be ON at about 35.5 ° C. and OFF at about 34.5 ° C. In addition, it is possible to prevent the fan from being frequently switched between operation and stop by providing a range for the ON / OFF set temperature.

  Further, as shown in FIG. 3, it is possible to detect the ambient temperature with a temperature / humidity sensor and introduce an input signal of the sensor into the microcomputer. When this microcomputer is used, the reference voltage for driving the fan can be set to any temperature or humidity by using a temperature adjustment (rotary) switch or humidity adjustment (rotary) switch. It can be set. The various setting switches and a circuit that changes the operating condition of the fan in response to the operation of the switch are referred to as operating condition setting means.

  Further, a display device can be provided to display the temperature and humidity in the box and to display the set temperature and humidity. In addition, in order to switch a display between temperature and humidity, a display switch can be provided as needed.

  Actually, even when DC5V is input to the temperature sensor and used as a reference voltage as a reference temperature, little current consumption is applied. In addition, when DC12V is used for the temperature comparison circuit and the fan drive circuit, the power consumption of the entire unit during standby and when the fan is driven (in the case of two outputs) is about 3 W during standby, and even when the fan is driven. It is about 8.5W.

  Further, if necessary, a forced ON switch can be connected to the temperature determination circuit of FIG. 2 or the microcomputer of FIG. 3 to forcibly drive the fan.

  According to the present invention, a DC fan can be incorporated, and a forced cooling system that can drive and control the DC fan can be provided at low cost by following changes in temperature or humidity.

It is the schematic of the box incorporating the forced cooling system of this invention. It is a figure which shows an example of the electric circuit of the forced cooling system of this invention. It is a figure which shows the other example of the electric circuit of the forced cooling system of this invention.

Claims (4)

A box for storing electrical equipment, a fan for forcibly adjusting the amount of air entering and exiting the box, and forced cooling for controlling the temperature or humidity in the box within a predetermined range by controlling the drive of the fan In the system,
The fan is a DC drive type fan,
A switching power supply that converts power from an external AC power source into a predetermined DC voltage;
Fan control means for receiving the supply of the predetermined DC voltage from the switching power supply and controlling the power supply of the fan;
Detecting means for detecting temperature or humidity in the box;
The forced cooling system, wherein the fan control means controls power supplied to the fan in conjunction with a detection output from the detection means.   2. The forced cooling system according to claim 1, wherein the fan control unit compares a detection output from the detection unit with a reference value, and controls electric power supplied to the fan based on the comparison result. Forced cooling system.   3. The forced cooling system according to claim 2, further comprising operating condition setting means that enables setting and changing of the reference value.   The forced cooling system according to any one of claims 1 to 3, wherein the electrical device is a VDSL unit.

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