KR101085691B1 - Frost sticking sensing device and mothod - Google Patents

Abstract

A frost frost detection device is provided. A sensing sensor installed on the other side of the coil or a predetermined support part spaced apart from the coil to detect color change of one side of the coil in which frost is generated; A support bracket for fixing the detection sensor to a predetermined support part spaced from the other side of the coil or the coil; A control unit for transmitting a signal to the defrost circuit to drive a signal transmission unit for transmitting an electrical signal according to the color change detected by the detection sensor and a defrost circuit for removing the frost according to the signal transmitted from the signal transmission unit. The frost frost detection apparatus including a, it is possible to determine whether the frost completely using the detection sensor, it is possible to perform the defrost cycle more accurately and faster than the defrost method through time defrosting method or temperature or pressure measurement.

Defrost, infrared, contrast, color discrimination, outdoor unit

Description

Frost sticking sensing device and mothod

The present invention relates to an apparatus and method for detecting frost frost, and more particularly, to an apparatus and method for detecting frost that can easily detect frost generated in a coil.

When the heat pump is operated for cooling purposes in the summer, the indoor unit is used as an evaporator to supply cool air to the indoor space for cooling. If the heating pump is operated for the winter heating purpose, the indoor unit becomes a condenser and supplies hot air to the indoor space. Heating However, if one of the biggest drawbacks of the heat pump is frost on the surface of the outdoor unit during winter heating operation, the outdoor unit can no longer function as an evaporator and thus lose the heating capacity of the heat pump. Therefore, when frost is formed on the surface of the outdoor unit, defrost cycle is started to remove frost. Common methods of defrosting heat pumps include defrosting to dissolve frost by sending a high-temperature refrigerant to the outdoor unit by operating in a reverse cycle, that is, in a cooling cycle, or by defrosting a portion of the high-temperature and high-pressure refrigerant from the compressor to the outdoor unit. The lower the number of defrost cycle operations, the better. Therefore, it is necessary to detect the idea quickly and accurately without malfunction to prevent the loss of unnecessary heating capacity.

As an example of the prior art for detecting the concept of the implantation, the concept of the detection method mentioned in Korean Utility Model Publication No. 1997-0044457, US Pat. No. 4,637,77, US Pat. No. 5,560,560 uses a temperature sensor to determine the temperature of the outdoor unit coil fin. It is a method of detecting the presence of frost by measuring the change. Another commonly used method is to determine whether frost is formed by measuring the change in the pressure drop before and after the outdoor unit because the air pressure changes because the flow of air passing through the outdoor unit decreases when frost is formed on the surface of the outdoor unit. to be.

However, the conventional technique of measuring the temperature or pressure as described above is not a direct method because it relates to a means for measuring the change of the surrounding environment due to the frost implantation. Therefore, comparison and analysis are required, and the manufacturer's accumulated technology is required to accurately determine the conception because setting values for determining the conception change according to the system specification and operating conditions.

In addition, a drop detection device (Patent Application No. 10-1996-0037514) known in the prior art is shown in FIG. The drop detection device is installed to face the light emitting unit for emitting light and the light receiving unit for detecting light to face each other with a heat exchanger therebetween to determine whether or not the light signal passing through the heat exchanger is reduced according to the idea of frost. Is technology.

However, in this method, the light emitting part and the light receiving part should be arranged in a straight line to face each other, and it is not easy to accurately arrange the position (within the position deviation of 1mm), and the higher the efficiency of the heat exchanger, the denser the pin pitch (gap between the pins) and the foreign matter. The probability of pinching between these pins increases, which is likely to cause errors that are considered to be implanted even though the implantation did not occur. In addition, the greater the length of the heat exchanger in the air flow direction, the poorer the transmission of the optical signal, and thus the weaker the signal, and in this case, it is more likely to be determined that frost is formed.

The present invention has been made to solve the above problems, an object of the present invention is to provide a frost frost detection device for heat pump that can quickly and accurately determine whether frost is implanted.

Another object of the present invention is to provide an implantation detecting device for a heat pump which can be manufactured at a very low cost.

In order to achieve the above object, the frost frost detection apparatus according to the present invention is installed on the other side of the coil or a predetermined support part spaced from the coil so as to detect color change of one side of the coil where frost frost is generated. A detection sensor capable of discriminating a color; A support bracket for fixing the detection sensor to a predetermined support part spaced from the other side of the coil or the coil; A control unit for transmitting a signal to the defrost circuit to drive a signal transmission unit for transmitting an electrical signal according to the color change detected by the detection sensor and a defrost circuit for removing the frost according to the signal transmitted from the signal transmission unit. It includes.

In this case, the coil may be an outdoor unit coil of a heat pump.

At this time, it is preferable that one side of the coil in which the frost is generated is painted in black so that the contrast is clear when frost is implanted.

In this case, the detection sensor may be an infrared sensor.

At this time, it is preferable that one side of the coil is the portion where the first concept occurs when the temperature of the coil surrounding environment becomes low.

In this case, the sensing sensor includes a light emitting unit and a light receiving unit, and when the light is irradiated to one side of the coil from the light emitting unit is preferably formed so that the light reflected from one side of the coil returns to the light receiving unit.

According to another aspect of the invention, providing a detection sensor that can determine the color of the object on the other side of the coil or a predetermined support spaced from the outdoor unit to detect the color change of one side of the coil in which the frost is generated ; When the frost is formed on one side of the coil, the sensing sensor detects a color change of the one side of the coil: frost frost detection including transmitting an electrical signal according to the color change sensed by the sensing sensor to a defrost circuit A method is provided.

In this case, the method may further include painting one side of the coil in black after providing the sensing sensor.

At this time, the detection sensor is preferably an infrared sensor.

As described above, the frost frost detection device according to an embodiment of the present invention can determine whether the frost is completely frosted using a sensor that can be easily manufactured or purchased, time defrosting method or temperature or pressure measurement Defrost cycle can be performed more accurately and faster than through defrost method.

Therefore, when the frost frost detection device according to an embodiment of the present invention is mounted on the outdoor unit coil of the heat pump, unnecessary defrost cycle operation can be completely eliminated during the operation of the winter heat pump in which frosting is frequently performed. Overall heating seasonal performance factor (HSPF) can be improved.

In addition, the frost frost detection apparatus according to an embodiment of the present invention can easily find out the optimum defrost cycle time without complicated circuits or empirical data for determining the frost.

Hereinafter, a method and apparatus for detecting a frost frost for a heat pump according to an embodiment of the present invention will be described.

2 is a configuration diagram of a frost frost detection apparatus according to an embodiment of the present invention, Figure 3 is a configuration diagram showing a state in which the frosting occurred in the outdoor unit coil.

2, the frost frost detection device 10 according to the present invention includes a detection sensor 140, a support bracket 130, a signal transmission unit 190, and a control unit 200.

The detection sensor 140 is a component for detecting a color change of one side of the coil 100 in which frost is generated. To this end, the detection sensor 140 is installed on a predetermined support part spaced apart from the other side of the coil or the outdoor unit. In this case, the predetermined support may be a wall or support adjacent to a component other than the component including the coil, for example, a location where the outdoor unit coil is installed. In this case, the detection sensor 140 may be, for example, an infrared sensor, and may be configured as a sensor capable of distinguishing a color of a target location to be detected by the sensor.

The sensor 140, such as the infrared sensor, may be easily manufactured by purchasing a component, and a finished product having the same function may be easily purchased on the market.

Infrared sensor may have a slightly different manufacturing cost depending on the performance of the part. However, if the infrared sensor is manufactured with a part that can determine whether or not the outdoor unit coil is implanted, very little cost is required. The cost performance is superior to that of the method.

At this time, it is preferable that the color detected by the sensor 140 in the present embodiment is black and white, that is, white when frost is formed and black which is an outer color of the coil. That is, according to the present embodiment, the detection sensor 140 capable of detecting the color detects white and black having a clear contrast, and thus it is possible to easily and clearly check whether frost is formed in the coil.

Since the operation principle of the sensing sensor can be fully understood by those skilled in the art, a detailed description of the specific operation principle thereof will be omitted herein. The idea of the present invention is that by distinguishing the color of the surface of the object through the use of a color sensor, for example, a sensor, it is very easy to distinguish the concept of the outdoor unit coil, the type and circuit configuration of the sensor It is not intended to limit the spirit of the invention.

On the other hand, the support bracket 130 is installed on the other side or the support of the coil in order to be fixed to the other side of the coil or a predetermined support spaced apart from the coil. In this embodiment, the support bracket 130 is installed on the outdoor unit case 120.

If the support bracket is configured so that the sensor does not shake, it may be made of any configuration for installing the sensor.

When the frost is formed on one side of the coil, the signal transmission unit 190 detects a color change of one side of the coil 100 and transmits an electrical signal according to the color change. In the present embodiment, the signal transmission unit 190 is implemented as a signal line connected to the defrost circuit 220 to be described later from the detection sensor 140.

The controller 200 is configured to transmit a signal to the defrost circuit for removing frost from the sensor 140 by the signal transmission unit 190.

The defrost circuit 220 is connected to the coil 100 to remove frost formed on the coil 100 based on the signal transmitted by the control unit 200 through the signal transmission unit 190. At this time, the defrost circuit for removing the frost of the coil may be a circuit configured to transfer heat for heating the surface of the coil. Those skilled in the art to which the present invention pertains will be able to clearly understand such a defrost circuit, and thus a detailed description of the defrost circuit will be omitted.

On the other hand, referring to Figures 2 and 3, in one embodiment of the present invention, the outdoor unit coil is composed of a coil 100 through which the refrigerant flows and a fin 110 that serves as an expansion surface for promoting heat transfer.

At this time, since the position of the sensing sensor installed on the other side of the outdoor unit coil to detect one side of the outdoor unit coil may vary depending on the design of the outdoor unit coil, it is desirable to determine the actual low temperature heating experiment.

At this time, in this embodiment, the position for detecting the implantation is preferably the position where the implantation first occurs when the temperature around the coil is lowered. In this way, by detecting whether the implantation is detected at the position where the implantation is first generated, it is possible to check whether the implantation is made more efficiently than to allow the implantation to be detected at another position.

A method of detecting an implantation using the frost implantation detection device having the above configuration will be described.

The detection sensor 140 includes a light emitting unit 150 and a light receiving unit 160. When the light emitting unit 150 irradiates light to an object (outdoor air coil), the light reflected from the target object is detected through the light receiving unit 160. It is formed to return to the sensor 140.

In the case of the surface of the black coating 170 that absorbs light well, the amount of light reflection is low, resulting in a low output voltage of the detection sensor. Typically the output voltage magnitude, which determines the presence or absence of implantation, can be adjusted by known Schmitt-triggers.

As shown in FIG. 2, when frost is not formed between the fins 110 of the outdoor unit coil, light is irradiated onto the surface of the black coating 170, so that the detection sensor 140 outputs a low output voltage to the signal line 190. Transfer to the control unit 200 through.

In this case, it is determined that no idea is formed and the controller 200 does not send a signal for driving the defrost circuit 220.

3 is a case where frost is implanted between the fin 110 of the outdoor unit coil. In this case, the light emitted from the light emitting unit 150 is irradiated onto the white surface of the frost 180.

Since the white surface does not absorb light and reflects the light, the output voltage of the detection sensor 140 has a large value because a large amount of light is absorbed by the light receiver 160.

Therefore, the output voltage is transmitted to the control unit 200 through the signal line 190 and determines that the idea is formed, the control unit 200 sends a signal to drive the defrost circuit 220 to operate the defrost circuit 220 to frost Remove it.

In the exemplary embodiment of the present invention, an infrared sensor installed in a case of the outdoor unit coil to remove frost formed on the outdoor unit coil of the heat pump is exemplified, but the frost detection apparatus according to the present embodiment is limited thereto. Or, it can be installed in any configuration for detecting that the frost is implanted, the installation position of such a sensing device does not limit the spirit of the present invention.

In addition, although one embodiment of the present invention has been described, the spirit of the present invention is not limited to the embodiments presented herein, those skilled in the art to understand the spirit of the present invention within the scope of the same idea, the addition of components Other embodiments may be easily proposed by changing, deleting, adding, and the like, but this will also fall within the spirit of the present invention.

1 is a schematic diagram showing a frost implantation method of a frost frost detection device according to the prior art

2 is a schematic diagram of a frost frost detection device according to an embodiment of the present invention

FIG. 3 is a schematic diagram illustrating a method of detecting an implantation of an outdoor unit coil using a frost implantation detecting apparatus according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

100: tube 110: 휜

120: outdoor unit case 130: support bracket

140: detection sensor 150: light emitting unit

160: light receiver 170: black coating

180: Frost 190: Signal Transmitter

200: control unit 220: defrost circuit

Claims (9)

     A coil on which one side of the body is formed a frost coating coated in black so that contrast is clear when frost is formed;     A sensing sensor installed on the other side of the coil or a predetermined support part spaced apart from the coil so as to sense a color change of one side of the coil, and detecting a color of an object;       A support bracket for fixing the detection sensor to a predetermined support part spaced apart from the coil or the other side of the coil;       A signal transmission unit for transmitting an electrical signal according to the color change detected by the detection sensor;       And a control unit which transmits a signal to the defrost circuit to drive a defrost circuit for removing the frost according to the signal transmitted from the signal transfer unit.       The frost frost detection device according to claim 1, wherein the coil is an outdoor unit coil of a heat pump. delete       The frost implantation detecting apparatus according to claim 1, wherein the sensing sensor is an infrared sensor.       The apparatus of claim 1, wherein one side of the coil is a portion where the first implantation occurs when the temperature of the coil surrounding environment decreases.       The sensor of claim 1, wherein the detection sensor comprises a light emitting part and a light receiving part, and when the light is irradiated to one side of the coil from the light emitting part, the light reflected from one side of the coil is returned to the light receiving part. Frost implantation detection device.       Providing a detection sensor that can determine the color of the object on the other side of the coil or a predetermined support spaced apart from the outdoor unit to detect the color change of one side of the coil that the frost is generated;       Coating one side of the coil in black after providing the sensing sensor;       When the frost is formed on one side of the coil, the sensing sensor detecting a color change of one side of the coil;      And transferring the electrical signal according to the color change detected by the detection sensor to a defrost circuit. delete       The method of claim 7, wherein the detection sensor is an infrared sensor.

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