KR100991003B1 - A conditioner for control-panel - Google Patents

Abstract

The present invention separates and installs an evaporator chamber on the upper side of the condenser chamber so that condensate generated in the evaporator chamber is dropped onto the condenser heat transfer pin of the condenser unit, and passes through the heat and the compressor chamber generated in the condenser unit, and then the condenser. The present invention relates to an air conditioner for a control panel for allowing evaporation of condensed water by air supplied to a chamber.

Description

Air conditioner for control panel {a conditioner for control-panel}

The present invention separates and installs an evaporator chamber on the upper side of the condenser chamber so that condensate generated in the evaporator chamber falls on the condenser unit of the condenser chamber, and the condensate is naturally evaporated by the heat of the condenser chamber and the air passing therethrough. It relates to an air conditioner for a control panel.

In general, industrial control panels are installed to control machine tools, robots, and automatic processing systems and to display operating conditions.

In addition, a plurality of electrical and electronic components are inherent in the control panel, and each of these components constitutes an electric circuit inside the control panel.

Such a control panel generates a heat generation phenomenon due to the electrical resistance of the inherent components. Higher heat is generated in the highly integrated control panel to meet the high performance.

In addition, the control panel is cascaded by a member such as steel to protect the internal parts from dust, fine dust, moisture, etc. due to being installed in an industrial place such as a factory, which is a secondary to increase the temperature inside the control panel. It becomes a factor.

As described above, if the temperature inside the control panel rises to a high temperature, it may cause damage or malfunction of each component and electronic circuit inside the control panel.

In addition, the malfunction of the control panel as described above will adversely affect the factory system, in order to overcome this, a separate cooling device, so-called control panel cooling device is installed in the control panel.

The cooling device has a compressor, a condenser, an expansion valve, and an evaporator, and the refrigerant is circulated to the parts through a refrigerant line, which is similar to a conventional air conditioner.

However, the control panel cooling device as described above has a filter in front of a fan for forced air to the condenser side, because the cooling device is installed where there is contaminated air such as a factory. Is caused.

That is, the filter blocks fine dust, dust, or oil particles floating in the air from entering the cooling apparatus.

However, in the conventional cooling apparatus as described above, the oil particles remaining on the surface of the filter aggregate and flow down to contaminate the surface of the cooling apparatus as well as the control panel or flow along the floor of the factory. There was a problem such as harming the cleanliness, furthermore causing a safety accident.

In order to improve these problems, a configuration of a control panel cooling apparatus is disclosed in Korean Patent No. 667671, which is configured as shown in FIG. 1, such as a compressor 10, a condenser 20, an expansion valve 30, and an evaporator 40. And a casing of the compressor 10, the condenser 20, the expansion valve 30, and the evaporator 40, and the condenser 20 and the evaporator 40 are installed in separate spaces. And a partition wall 55 for partitioning the housing 50 into which the outside air flows into the space in which the condenser 20 is installed, and the outside air inlet 57 and the outside air outlet 59 for discharging the introduced air, respectively. )and; A filter (75) installed to cover the front surface of the outside air outlet (59) of the housing (50) and filtering foreign matters from the inflowing air; A support frame (70) coupled to the wall of the housing (50) for fixing and supporting the filter (75) to the housing (50) and having a plurality of holes (71) formed on the bottom thereof; The magnetic tape 81 is provided at one side to be detachable from the wall surface of the lower housing 50 of the support frame 70, and collected by the filter 75 to collect the liquid foreign matter introduced into the hole 71. In order to have a certain space inside, the exterior is made of a transparent material so that the volume of the collected liquid foreign matter can be observed from the outside, and the bottom is a discharge pipe (85) and a valve ( Oil tank (80) consisting of 87); It is made of a configuration including a.

However, the cooling device as described above has a problem in that the condensate generated in the cooling device itself cannot be treated, so that the condensate drops to the control panel and corrodes the control panel.

In addition, the need for a separate device for draining the condensate, etc. generated in the cooling device, as well as the need to check the drain pipes from time to time has the disadvantage that the maintenance is difficult.

An object of the present invention for improving the conventional problems as described above, to prevent corrosion of the control panel due to overflow of condensate, and to easily remove the condensate in real time, to minimize the inflow of foreign matter To prevent contamination and damage of internal parts by foreign matters, to prevent safety accidents such as shorts caused by condensate, and to maximize the heat transfer area without external heat transfer to completely remove condensate. It is to provide an air conditioner for the control panel.

In order to achieve the above object, the present invention promotes spontaneous evaporation by heat generated from the condenser unit of the condenser chamber after the evaporator chamber is separated from the condenser chamber so as to be stacked on the condenser chamber. The condensing unit is provided with an air conditioner for the control panel to allow hot air passing through the compressor chamber to supply the condensate falling into the condensate chamber.

In addition, the compressor chamber of the present invention provides a control panel air conditioner further provided with a porous heat transfer plate to form a zigzag flow path on the upper side of the compressor.

In addition, the present invention is further provided with an expansion valve on one side of the condenser chamber and the evaporator chamber, the condenser chamber provides an air conditioner for the control panel provided with a condenser heat transfer fin having a porous and oblique direction on the outside of the condenser coil.

According to the present invention as described above, to prevent the contamination of the control panel by the overflow of the condensate, to easily remove the condensate in real time, to minimize the inflow of foreign matter to prevent contamination and damage of the internal parts by the foreign matter, It prevents safety accidents such as shorts due to shortening, and maximizes the heat transfer area without external heat transfer, thereby effectively removing condensate.

1 is a sectional view showing the main parts of a conventional control panel cooling apparatus.
2 is a cross-sectional view showing an air conditioner for a control panel according to the present invention.
3 is a cross-sectional view showing an air conditioner for a control panel according to another embodiment of the present invention.

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

2 is a cross-sectional view showing an air conditioner for a control panel according to the present invention, Figure 3 is a cross-sectional view showing an air conditioner for a control panel according to another embodiment of the present invention.

The present invention is an evaporator having an evaporator unit 555 on one side thereof while a space S is formed inside the housing 600 in which heat-sensitive heating parts 610 such as an electrical panel or an electronic device are provided inside. The air supply hole 630 and the exhaust hole 650 are formed such that the indoor air is circulated to the chamber 550.

In addition, after separating and installing the evaporator chamber 550 on the upper side of the condenser chamber 510 to one side of the space, the condensate induction to have a constant inclination to the lower portion of the evaporator chamber 550 separated from the condenser chamber 510. Install plate 520.

At this time, a plurality of outlet holes 521 are formed at one side of the condensate fluid flow plate 520, and a drain pipe 540 is installed to the condensate unit 515.

In addition, the condensed water collected through the condensate guide plate 520 is installed to fall in the condenser unit 515.

In addition, the condenser unit 515 is configured as a condenser coil 515a and a condenser heat transfer pin 515b to drive the compressor 575 while passing through the compressor chamber 570 while allowing the refrigerant coil supplied from the compressor to pass. Air heated by the heat generated during supply is supplied.

At this time, the condenser chamber 510 is provided with a condenser heat transfer fin having a porous and oblique direction on the outside of the condensation coil 515a.

In addition, the compressor chamber 570 is further provided with a porous heat transfer plate 577 while forming a zigzag flow path above the compressor 575.

In addition, an expansion valve 530 is further provided at one side of the condenser chamber 510 and the evaporator chamber 550.

In addition, one side of the condenser chamber and the compressor chamber, the filter member 540 is further provided with a blowing fan 560 driven by a drive motor is further provided.

On the other hand, the storage tank 565 is installed on the lower side of the heat transfer plate 577 is configured to be installed so that a portion of the coil from the compressor 575 to the condenser coil in contact with the outer and lower sides.

The operation of the present invention having the above configuration will be described.

As shown in FIG. 2 and FIG. 3, the present invention compresses the refrigerant of the compressor 575 to change the high temperature and high pressure, and then supplies the refrigerant to the condenser coil 515a of the condenser unit 515 provided in the condenser chamber 510. The condenser unit 515 will be heated.

In addition, the outside air flowing into the compressor chamber 570 is supplied to the condenser chamber 510 in a state where heat is transferred by heat generated when the compressor 575 is operated, and the condensed water falling into the condenser unit 515 is condenser unit. When evaporated by the heat generated in the air passing through the heat to increase the evaporation effect.

At this time, an outlet hole 521 is formed at one side of the condensate fluid flow plate 520 to discharge the condensed water collected in the evaporator chamber, and the drain pipe 540 is installed at the outlet hole toward the condenser unit 515. Water will fall into the condenser unit.

The refrigerant passing through the condensation coil 515a passes through the expansion valve 530 and is transferred to the evaporation coil of the evaporator chamber 550 as a low temperature and low pressure, thereby cooling the space S of the housing 600. The heat generated by the operation of the heat generating part 610 is absorbed.

At this time, the evaporator chamber 550 and the space S are cooled after the air flowing through the air supply hole 630 provided with the filter member 540 in the evaporator chamber is cooled and sprayed through the exhaust hole 650. do.

The condensate guide plate 520 has a predetermined inclination at the bottom of the evaporator chamber 550 in contact with the condenser chamber 510 while the evaporator chamber 550 is disposed to be stacked on the upper side of the condenser chamber 510. Is installed so that the condensate formed on the upper side of the condensate chamber 510 is dropped to the upper portion of the condenser unit 515.

In addition, when the condensate collected through the condensate guide plate 520 is dropped to the condensation unit 515, the condensate flows along a plurality of condenser heat transfer fins 515b which are installed to be inclined as porous.

At this time, the moisture contacting the condenser heat transfer fin 515b is expanded to have a large surface area and passes through the compressor chamber 570 to evaporate while contacting the hot air supplied from the compressor chamber 570.

In addition, the inclination of the condenser heat transfer fin 515b has a slope in which the incoming hot air is in direct contact with the surface of the water flow, thereby further increasing the water evaporation efficiency.

In addition, a storage tank 565 is installed below the heat transfer plate 577 to collect condensed water that has not evaporated while passing through the condenser unit or the heat transfer plate. A portion of the coil that is directed to the condenser coil at is wound up to evaporate the condensate inside the reservoir.

In addition, the moisture that cannot be evaporated by the condenser chamber 510 is completely evaporated while passing through the porous heat transfer plate 577 in a convex and convex formation while forming a zigzag flow path on the upper side of the compressor 575.

In addition, the porous structure formed on the heat transfer plate 577 or the condenser heat transfer fin 515b is to facilitate evaporation by collision with moisture while allowing the hot air to pass easily therethrough.

510 ... condenser chamber 520 ... condensation water guide plate
530 ... Expansion edge 540 ... Filter element
550 evaporator chamber 560 blower fan
570 Compressor Chamber 575 Compressor
577 ... heat transfer plate

Claims (6)

The space S is formed inside the housing 600 in which the heat generating part 610 is provided, and the air supply hole 630 and the exhaust hole 650 are formed to circulate air to the evaporator chamber 550 to one side thereof. Become,
After the condenser chamber 510 is separated and installed below the evaporator chamber 550, a condensed water induction plate 520 is installed below the evaporator chamber 550 connected to the condenser chamber 510.
A plurality of condenser heat transfer fins 515b which are porous and inclined are installed on the outer side of the condensing coil 515a while being naturally dried while the condensed water collected through the condensation water induction plate 520 falls inside the condenser chamber 510. Condenser unit 515 made of a configuration is installed,
An expansion valve 530 is further provided at one side of the condenser chamber 510 and the evaporator chamber 550,
When the condensate generated in the evaporator chamber 550 is collected through the condensate guide plate and inclined, the condensed water is inclined to contact the plurality of condenser heat transfer fins 515b that are in close contact with the condensing coil 515a and dried.
When the condensed water generated in the evaporator chamber 550 contacts the condenser heat transfer pin 515b, the air conditioner for the control panel is installed to dry naturally as air supplied while being heated while passing through the compressor chamber 570. delete The air conditioner of claim 1, wherein the compressor chamber 570 is further provided with a porous heat transfer plate 577 while forming a zigzag flow path above the compressor 575. The air conditioner of claim 1, wherein a blower fan 560 driven by a driving motor is further provided at one side of the condenser chamber and the compressor chamber. The air conditioner according to claim 1, wherein a plurality of outlet holes 521 are formed at one side of the condensate guide plate 520, and drain pipes 540 are provided to the condenser unit 515. The method of claim 3, wherein the storage tank 565 is provided on the lower side of the heat transfer plate (577) so that a portion of the coil from the compressor (575) to the condenser coil on the outer side and the lower side is installed to contact. Air Conditioning Device for Control Panel

Images