KR20090113113A - Cold air blower using compressed air - Google Patents

Abstract

The present invention improves the production capacity by improving the operator's efficiency by supplying cool air in summer and supplying warm air in winter by easily connecting and using in industrial sites using refrigeration compressors as well as shipyards by improving these problems. It maximizes and raises the body temperature of the worker so that it can work stably in a comfortable state.

The present invention installs the air inlet (2) and the air outlet (3), the body (1) coupled to the control device (4) on the side, the air inlet (2) inside the temperature sensor (95) is installed, It is integrated with the air supply pipe (7) supplied to both sides, the temperature sensor 96 and the pressure sensor 97 is installed inside the air outlet (3) side, the air supply pipe (7) is the air inlet One side of (2) is provided with a heater control valve (8) for supplying and controlling the air supply to the heater unit 10, the other side of the cooling control valve (9) for supplying and controlling the air supply to the cooling unit (20) ), The control device 4 on the side of the body (1) is installed the ON / OFF switch 90 to be switched to one side to the heater unit 10 and the cooling unit 20, one side of the air An inlet temperature measuring thermometer (91) indicating the temperature of the air flowing into the inlet (2) and a temperature of the air discharged to the air outlet (3) By installing the discharge temperature measuring thermometer 92, and a pressure gauge 93 for measuring the pressure of the discharged air, the heater unit 10 to make the hot air while passing through the air supplied from the outside, and the air supplied from the outside It is characterized by integrally configuring the cooling unit 20 to make the cool air while passing through.

Description

The coldness and warmth public morals which uses a compressed air}

The present invention in the shipyard or general industrial sites in the summer or winter to receive the compressed air of the compressor used in the field to the worker in the worker's body temperature rises or falls in accordance with the temperature change in the worker feels uncomfortable It provides cool air and cold and hot air using compressed air developed for the purpose of supplying warm air in winter.

Conventionally, the workers who work in shipyards are doing welding work or internal wiring and design work on the blocked hull, but in summer, the ship block body is warmed by the external hot heat from the sealed interior, so the worker working inside the block body is hot inside air. This reduces the concentration of work and poses a high risk of safety accidents.

In addition, there is a problem that the efficiency of the work falls by the cold internal air in winter.

In general, instead of cooling or warming the temperature of the atmospheric state, air under pressure (approximately 7KG / m²) from the air compressor is cooled by using a refrigeration compressor to cool the air compressed by the refrigerant to provide on-site worker work clothes (or Short, grinding, welding hood, etc.) to increase the work efficiency of the operator.

The present invention is different from the dehumidifiers and air dryers generally used in terms of use and methodology.

Conventional dehumidifiers use a refrigeration compressor to capture moisture in the atmosphere and release dry air to the atmosphere (average 3KG / ㎡) to control the humidity in the atmosphere.

The purpose is that the compressed air refrigeration dryer is intended to capture moisture, and the principle is that the air is finally heated by the air flowing into the refrigeration dryer inlet, and the temperature is sent to the field line.

The cold air blower using the compressed air of the present invention refers to a method of directly cooling the compressed air by using a refrigeration compressor to directly connect the compressed air (about 7KG / m 2) to the field worker's work clothes and hood.

In addition, by using heated electric heater, compressed air (approximately 7KG / ㎡) is forcibly heated to make warm air and supply it to winter workers, and also to allow the user to adjust the cooled and heated air to the appropriate temperature. will be.

The present invention improves the production capacity by improving the operator's efficiency by supplying cool air in summer and supplying warm air in winter by easily connecting and using in industrial sites using refrigeration compressors as well as shipyards by improving these problems. It maximizes and raises the body temperature of the worker so that it can work stably in a comfortable state.

The present invention installs the air inlet and the air outlet, the inside of the body combined with the control device on the side, the heater portion to make the hot air while the air supplied from the outside, and the air supplied from the outside as cold air Its purpose is to make the inlet heat exchanger and the outlet heat exchanger in series so that it can be used in combination with cold air and hot air stably.

The present invention as described above can change the air flowing in a quick time by installing a heat exchanger of the cooling unit in a series of times can be used immediately when needed without a break time, it can be used immediately if necessary, saving electricity costs, hot By freely adjusting according to the weather or cold weather, the worker can maintain the proper temperature to make the activity more comfortable, thereby increasing the concentration of work, thereby improving the work efficiency, and thus reducing the safety accidents of the industry. It is.

The present invention installs the air inlet (2) and the air outlet (3), the inside of the body (1) combined the control device (4) on the side,

Heater unit 10 to make the hot air while passing through the air supplied from the outside,

As the air supplied from the outside passes through, the cooling unit 20 is made of cold air.

The air inlet (2) is integrally connected to the outer pipe connecting flange (5), the temperature sensor 95 is installed on the inside, integral with the air supply pipe (7) supplied to both sides and the air outlet (3) The flange 6 is coupled to the upper end of the temperature sensor 96 and the pressure sensor 97 is installed therein.

The air supply pipe 7 is provided with a heater control valve 8 for supplying and controlling air to the heater unit 10 on one side of the air inlet 2, the air to the cooling unit 20 on the other side Install a control valve (9) for cooling the supply.

The control device 4 on the side of the body 1 is provided with an ON / OFF switch 90 to be switched to the heater unit 10 and the cooling unit 20 in one direction, and at one side thereof as the air inlet 2. An inlet temperature measuring thermometer 91 for indicating the temperature of the inlet air, an outlet temperature measuring thermometer 92 for indicating the temperature of the air discharged to the air outlet 3, and a pressure gauge for measuring the pressure of the outlet air ( 93).

The heater unit 10 has a first air inlet pipe 70 and a first air discharge pipe 71 in the heater body 11 having the heater rod 12 installed therein and a drain valve 98 installed on the bottom thereof. The first air inlet pipe 70 is integrally coupled to the heater control valve 8 side of the air inlet 2, and the first air outlet pipe 70 is an air outlet port of the heater body 11. To 3).

The cooling unit 20 installed on the other side of the air supply pipe 7 includes an inlet heat exchanger 30 arranged in series, an outlet heat exchanger 31, a cooling device 40, and a first refrigerant filter 50. ), The second refrigerant filter 51, the compressor 60, the first expansion valve 80, the second expansion valve 81, the first feedback device 85, the second feedback device ( 86), the first refrigerant control valve 82 and the second refrigerant control valve (83) composed of air introduced into the second air inlet pipe (75) connected to the air supply pipe (7) inlet heat exchanger (30) Pass through the second air discharge pipe 76 through the outlet heat exchanger 31 through a plurality of stages to be discharged to the air outlet (3).

The cooling unit 20 connects an independent inlet heat exchanger 30 for introducing air supplied to the second air inlet pipe 75 and an independent outlet heat exchanger 31 for discharging the cooled air. Serialized by interconnecting

A first feedback device 85 for controlling the refrigerant of the inlet heat exchanger 30, a second feedback device 86 for controlling the refrigerant of the outlet heat exchanger 31, a first pipe 60 connecting the same; The second pipe 61 is coupled to the first refrigerant filter 50, and the air of the compressor 69 connected to the first refrigerant filter 50 and the third pipe 62 is supplied through the condenser 40. The fourth pipe 63, the fifth pipe 64 connecting the condenser 40 and the second refrigerant filter 51,

Seventh connecting the first refrigerant control valve 82 and the inlet heat exchanger 30 connected through the sixth pipe 65 connected to the fourth pipe 63 connecting the compressor 69 and the condenser 40. The outlet heat exchanger is divided into a pipe 66 and a second refrigerant control valve 83 connected through a sixth pipe 65 connected to a fourth pipe 63 connecting the compressor 69 and the condenser 40. An inlet heat exchanger 30 and an outlet heat exchanger 31 are serialized by connecting an eighth pipe 67 connected to the 31.

The present invention as described above is integrally coupled to the outer pipe connection flange (5) of the present invention, the air supply pipe of the compressor (not shown) to be used in the field outside, the air outlet (3) The flange 6 on the) side is connected to a pipe connecting the work wear (or shot, grinding, welding hood, etc.) of the field worker.

In this state, the control valve 9 for cooling of the air supply pipe 7 coupled with the air inlet 2 is opened and the control valve 8 for the heater is left closed.

In this state, when the ON / OFF switch 90 installed on the side of the body 1 is switched to the cooling side, the cooling unit 20 starts to operate.

When the cooling unit operates as described above, the temperature sensor 95 installed at the inner inlet of the temperature of the air supplied through the air inlet 2 detects this and at the same time the inlet temperature measuring thermometer 91 of the controller 4 is provided. At the same time as displayed in the set temperature is detected above the compressor 69 is to operate.

As air flows through the second air inlet pipe 75 while the compressor 69 operates as described above, air flows into the inlet heat exchanger 30 and the outlet heat exchanger 31.

At this time, the air flowing into the outlet heat exchanger 31 is introduced in a small amount through the connection pipe 32 connecting the inlet heat exchanger 30 and the outlet heat exchanger 31.

The air passing through the inlet heat exchanger 30 and the air passing through the outlet heat exchanger 31 of the air introduced as described above are connected to the first feedback device 85 and the second feedback device 86 together. The pipe 60 and the second pipe 61 are introduced into the compressor 69 through the third pipe 62 through the first refrigerant filter 50.

Air passing through the compressor (69) passes through the condenser (40) through the fourth pipe (63) and is cooled, passes through the fifth pipe (64), enters the second refrigerant filter (51), and is first expanded. Passing through the valve 80 and the second expansion valve 81 flows into the inlet heat exchanger 30 and the outlet heat exchanger 31, respectively.

At this time, the air flowing into the inlet heat exchanger 30 is circulated again as the first time, and the cold air introduced into the outlet heat exchanger 31 is supplied to the user through the air outlet 3 through the second air outlet 76. Will be.

In the cold air circulating as described above, the inlet heat exchanger 30 and the outlet heat exchanger 31 allow air to be exchanged with each other through the connecting pipe 32 to cool the air within the maximum time.

As the air circulates in this manner, the air introduced into the fourth pipe 64 through the compressor 69 does not flow into the condenser 40, but instead of the first refrigerant control valve 82 and the first refrigerant through the sixth pipe 65. 2 is introduced into the inlet heat exchanger (30) and the outlet heat exchanger (31) through the refrigerant control valve (83).

The first refrigerant control valve 82 and the second refrigerant control valve 83 is used to control the amount of refrigerant by manually opening and closing according to the temperature change according to the season.

As described above, when the cool air passing through the cooling unit 20 passes through the air outlet 3, the temperature is detected by the temperature sensor 96 and the cooling unit 20 operates and falls below the set temperature when the temperature is higher than the set temperature. If it went, the operation of the cooling unit 20 is to be stopped.

In addition, the pressure sensor 97 of the air outlet (3) is to sense the amount of pressure discharged to adjust the pressure of the cooling unit.

In the use as described above, if you want to use in winter, first close the cooling control valve (9) and then open the control valve for the heater (8).

In this state, the external compressor is operated by switching the ON / OFF switch 90 to the hot air display side to introduce external air through the air inlet 2.

As described above, when the outside air flows into the air inlet 2, the temperature sensor 95 inside the air inlet 2 senses this and when the temperature falls below the set temperature, the power is supplied to the heater rod 12 to provide a heater. Starts working.

As the heater rod 12 is warmed as described above, the air introduced into the air inlet 2 is introduced into the heater body 11 through the first air inlet pipe 7 through the control valve 8 for the heater. The air introduced from the heater body 11 is heated.

The air warmed from the heater body 11 is discharged to the air outlet outlet 3 through the first air discharge pipe 71 to supply hot air to the user connected to the air outlet 3.

The drain valves 98 and 99 provided at the bottom of the heater unit 10 and the cooling unit 20 are used to remove impurities from the heater body 11, the inlet heat exchanger 30, and the outlet heat exchanger 31. It is used to remove.

1 is an external perspective view of the present invention

2 is a schematic diagram of the present invention

Explanation of Signs of Major Parts of Drawings

7: Air supply pipe 8: Control valve for heater

9: Cooling control valve 10: Heater part

11: heater body 12: heater rod

20: cooling part 30: inlet heat exchanger

31: outlet heat exchanger 32: connector

40: condenser 50: first refrigerant filter

51: second refrigerant filter 69: compressor

70: first air inlet pipe 71: first air outlet pipe

75: second air inlet pipe 82: first refrigerant control valve

83: second refrigerant control valve 85: first feedback device

86: second feedback device 96: temperature sensor

97: pressure sensor

Claims (3)

It installs the air inlet (2) and the air outlet (3), on the body (1) combined the control device (4) on the side, A temperature sensor 95 is installed inside the air inlet 2, and is integrated with the air supply pipe 7 supplied to both sides, and a temperature sensor 96 and a pressure sensor inside the air outlet 3. Installs 97, The air supply pipe 7 is provided with a heater control valve 8 for supplying and controlling air to the heater unit 10 on one side of the air inlet 2, the air to the cooling unit 20 on the other side Cooling control valve (9) was installed to control the supply, The control device 4 on the side of the body 1 is provided with an ON / OFF switch 90 to be switched to the heater unit 10 and the cooling unit 20 in one direction, and at one side thereof as the air inlet 2. An inlet temperature measuring thermometer 91 for indicating the temperature of the inlet air, an outlet temperature measuring thermometer 92 for indicating the temperature of the air discharged to the air outlet 3, and a pressure gauge for measuring the pressure of the outlet air ( 93 is installed, the heater unit 10 to make the hot air while passing through the air supplied from the outside, Cool and hot air device using the compressed air, characterized in that the cooling unit 20 is formed integrally with the air supplied from the outside to make the cool air. The method of claim 1, The heater unit 10 is provided with a plurality of heater rods 12 therein, the first air inlet pipe 70 and the first air discharge pipe (70) in the heater body 11 having a drain valve 98 installed on the bottom surface ( The first air inlet pipe 70 is integrally coupled to the heater control valve 8 side of the air inlet 2, and the first air outlet pipe 70 is an air outlet port of the heater body 11. Cold and hot air device using the compressed air, characterized in that coupled to (3). The method of claim 1, The cooling unit 20 is an independent inlet heat exchanger (30) for introducing the air supplied to the second air inlet pipe (75), Independent outlet heat exchangers (31) for discharging the cooled air were serialized by interconnecting (32). A first feedback device 85 for regulating the refrigerant in the inlet heat exchanger 30, A second feedback device 86 for controlling the refrigerant of the outlet heat exchanger 31; The first pipe 60 and the second pipe 61 connecting the first pipe 60 and the second pipe 61 are coupled to the first refrigerant filter 50 and the compressor 69 connected to the first refrigerant filter 50 and the third pipe 62. A fourth pipe 63 supplied with air through the condenser 40, A fifth pipe 64 connecting the condenser 40 and the second refrigerant filter 51, The first refrigerant control valve 82 and the inlet heat exchanger 30 are connected to each other through a sixth pipe 65 connected to a fourth pipe 63 connecting the compressor 69 and the condenser 40. 7 pipes (66), The second refrigerant control valve (83) connected through the sixth pipe (65) connected to the fourth pipe (63) connecting the compressor (69) and the condenser (40) is connected to the outlet heat exchanger (31). A cold and hot air device using compressed air, characterized in that the inlet heat exchanger (30) and the outlet heat exchanger (31) are serialized by connecting an eighth pipe (67).

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