KR100375608B1 - Temperature sensing system of heat exchanger - Google Patents

Abstract

The present invention relates to a thermostat tube of a heat exchanger, and is provided with a compressor, a condenser and an evaporator, and an expansion valve is installed between the condenser and the evaporator, and a thermostat tube (2) is installed in the suction pipe (1) of the expansion valve. In the heat exchanger is formed, the thermostat tube (2) is formed in a band shape is wound around the outer periphery of the suction tube (1) is installed in a spiral shape, the outside of the thermostat tube (2) and the suction tube (1) is a cold paper (3) By being wrapped together by), the strip-shaped thermostat (2) is characterized in that the surface contact with the suction pipe (1) to adjust the degree of superheat.

Description

Thermostat of heat exchanger {TEMPERATURE SENSING SYSTEM OF HEAT EXCHANGER}

The present invention comprises an expansion valve constituting a refrigeration cycle such as a heat exchanger and automatically adjusts the degree of superheat in the refrigeration cycle, and detects the intake gas temperature in the expansion valve in a thermostat and By adjusting the superheat degree, which is a temperature difference between the evaporation temperature and the suction gas, by installing a temperature-sensitive tube for sensing the temperature in the form of a band around the suction pipe of the expansion valve and wrapping the outside of it in a cold paper to install the thermostat. The present invention relates to a heat exchanger of a heat exchanger, which makes it possible to firmly control the temperature and to more reliably control the superheat of the heat exchanger.

In general, a refrigeration cycle of a heat exchanger includes a compressor for compressing a refrigerant and a condenser for receiving and condensing the compressed refrigerant, and the condenser is configured by connecting an evaporator for exchanging the condensed refrigerant and exchanging heat with low temperature. An orifice, a capillary tube, an expansion valve, and the like are installed between the condenser and the evaporator to reduce isoenthal pressure reduction. The orifice is mainly used in a large refrigerator, and the capillary tube is mainly used in a small cooling cycle. They are fixed type without self-regulation in response to changes in the state of the cycle.

When the orifice and the capillary tube as described above are frequently expected to be dedesigned, the expansion cycle should be provided with a separate supplementary device. Mainly applied to the refrigeration cycle, the gas temperature at the compressor inlet (evaporator outlet) is measured and the refrigeration cycle can be stably maintained by controlling the opening degree of the valve according to the change of the cycle state according to the measured temperature.

In addition, in the expansion valve as described above, the superheat degree is controlled by sensing the temperature of the intake gas. If the superheat degree is too large, the temperature of the discharge gas is excessively increased to decrease the heat exchange efficiency, thereby reducing the refrigerating system. The operation of the valve becomes unstable, and if the degree of superheat is too small, the refrigerant that is not vaporized into the compressor is introduced to cause damage to the compressor. Thus, the expansion valve may measure the temperature of the suction gas as shown in FIGS. 1 and 2. Equipped with a thermostat.

On the other hand, in the conventional provided with an expansion valve in which the thermostat is installed, as shown in FIGS. 1 and 2, the thermostat 102 is installed on one side of one suction pipe 101 of the expansion valve for a long time. The outer side of the thermostat 102 is configured to install the cold storage 103 in a state surrounding the suction tube 101, bar as described above, the thermostat 102 has a straight cross-sectional shape having a circular cross section. It consists of a cylindrical tube structure of the suction tube 101 is installed in the line contact state because the temperature reduction area of the thermostat 102 is small and accordingly the accurate gas temperature measurement can not be made to close the superheat can not be smoothly controlled Although the outside of the thermostat 102 is wrapped with a cold paper 103, but the thermostat 102 is made of a cylindrical tube structure, as shown in Figure 2 the thermostat 102 and the suction pipe ( 101) Since a large space portion is formed in the condensate is generated here, the condensate can not be discharged to cause the corrosion or damage of the thermostat, and the accurate temperature is not sensed due to poor control of the heat exchanger There was a problem such as lowering the performance of.

The present invention has been made in view of the above-mentioned conventional problems, and the present invention comprises an expansion valve configured to configure a refrigeration cycle such as a heat exchanger and automatically adjust the superheat degree in the refrigeration cycle, the expansion valve In detecting the temperature of the suction gas in the thermostat and adjusting the degree of superheat which is the difference between the evaporation temperature and the suction gas by the detected temperature, the thermostat sensing the temperature is wound around the suction tube of the expansion valve. It is intended to provide a thermostat of a heat exchanger that allows the thermostat to be firmly installed and the thermostat is more reliably installed so as to wrap the outside of the thermostat in a cold place to smoothly control the superheat of the heat exchanger. This will be described below in detail with reference to the accompanying drawings.

1 is a configuration diagram showing an installation state of a conventional thermostat

2 is a cross-sectional view of FIG.

3 is a configuration diagram showing an installation state of the embodiment of the present invention

4 is a cross-sectional view of FIG.

Explanation of symbols on the main parts of the drawing

1: suction pipe

2: Thermostat

3: cold storage

An embodiment of the present invention is provided with a compressor, a condenser and an evaporator, and installs an expansion valve between the condenser and the evaporator, and in installing the thermostat tube 2 in the suction pipe 1 of the expansion valve, the thermostat tube 2 It is formed in the form of a band and wound around the outer circumference of the suction pipe (1) is installed in a spiral shape and the cold storage paper (3) to be installed to wrap with the suction pipe (1) on the outside of the thermostat (2), the strip The thermostat tube 2 on the upper surface is configured to be in surface contact with the suction pipe 1.

The present invention configured as described above has the compressor, the condenser and the evaporator, and in installing an expansion valve between the condenser and the evaporator, the suction pipe 1 of the expansion valve as shown in FIG. The spirally wound thermostat tube 2 is installed in a spiral shape, but since the thermostat tube 2 is formed in a band shape, it is made in surface contact with the suction tube 1 when the coil is installed on the suction tube 1. The thermostat tube 2 is installed in close contact with the suction tube 1 by installing a cold storage paper 3 so as to surround the suction tube 1 on the outside thereof in a spirally installed state.

When the thermostat tube 2 is in close contact with the suction tube 1 while being in surface contact with the strip, the thermostat tube 2 senses the refrigerant flowing through the suction tube 1 from the entire outer circumference of the suction tube 1 and the temperature. The temperature can be measured accurately since the detected temperature can measure substantially the entire cross section of the refrigerant flowing along the suction pipe (1).

In addition, when the outer periphery of the band-shaped thermostat tube 2 is wrapped with the cold paper 3, the cross section of the thermostat tube 2 is generally flat, so that a space is almost formed between the suction tube 1 and the thermostat tube 2. Since it is not possible, the condensate will not accumulate around this thermostat 2.

In the present invention as described above, in installing the thermostat tube 2 in the suction tube 1 of the expansion valve as described above, the thermostat tube 2 is formed in a band shape to surround the entire outer circumference of the suction tube 1 in a spiral shape. It is possible to accurately detect the temperature of the refrigerant gas in the entire diameter cross section of the suction pipe (1), and to control the superheat degree accurately and smoothly according to the detection of the accurate temperature, thereby greatly improving the performance of the heat exchanger. When the cold storage paper 3 is installed in the thermostat tube 2 installed in the form of a band, almost no space is formed between the suction pipe 1 and condensate condensation occurs due to the generation of condensate. And it is characterized by having such a point that can facilitate the temperature-sensitive action of the thermostat (2).

Claims (1)

(Correction) In a heat exchanger having a compressor, a condenser and an evaporator, an expansion valve is provided between the condenser and the evaporator, and a suction tube 1 of the expansion valve is provided with a thermostat tube 2, The thermostat tube (2) is formed in a band shape is wound around the outer periphery of the suction tube (1) is installed in a spiral, the outside of the thermostat tube (2) and the suction tube (1) wrapped together by the cold paper (3) The temperature-sensitive tube of the heat exchanger, characterized in that the belt-shaped thermostat (2) is in surface contact with the suction pipe (1) to adjust the degree of superheat.