KR100493963B1 - A GHP Type Cleaner And Clean Air Supply System - Google Patents

Abstract

The present invention is to allow the indoor air to be sucked by the blower to convert to hot air by the reheater heater or to convert it into cold air by using a cooling coil using a gas heat pump (gas) to be supplied (blow) again to the room The present invention relates to a GHP wet cryer that allows anion to be blown by cold air, and a multi-type indoor air supply system using the same, and to a normal reheater and a gas heat pump inside the housing. By installing a cooling coil in which the refrigerant is supplied and circulated, the reheating heater is operated in the season or winter to supply warm air, and in summer, the gas heat pump is operated to cool the air (cool air) by the cooling coil. As it can be supplied, it can be used throughout the year regardless of the change of season, and the anion foot inside the housing constituting the GHP wet cryer By installing the device, it supplies anion to the inhaled air and supplies it to the room, and it is equipped with a charcoal mat to remove odors contained in the air and sterilize germs, so it is fresh, clean and aseptic clean anion air. In addition, it can provide health for people living indoors.

Description

Gas heat pump wet cryer and multi type indoor air supply system using same {A GHP Type Cleaner And Clean Air Supply System}

The present invention is to allow the indoor air to be sucked by the blower to convert to hot air by the reheater heater or to convert it into cold air by using a cooling coil using a gas heat pump (gas) to be supplied (blow) again to the room The present invention relates to a GHP wet cryer and a multi-type indoor air supply system using the same.

In more detail, the GHP wet cryer is provided with a cooling coil that converts indoor air sucked into the cold inside the suction port formed at the lower side of the housing to cold, and clean anion generating unit that generates negative ions on the upper side of the cooling coil. And a blower forcibly suctioning the indoor air and a reheater that changes the sucked indoor air to warmth, and a filter is installed on the upper side of the reheater. It is installed in each room and connected in parallel with the gas heat pump (GHP) outdoor unit installed outdoors to selectively operate the GHP wet cryers in each room.

Generally known air cleaning method using a high efficiency filter (High Efficiency Particulate Air Filter) as a known conventional clean air technology, but clean room (clean room) is simply installed to operate the air filter only to remove dust, etc. There was a problem in that it was installed and operated for the purpose of cleanliness, and there was a problem that it was installed and operated without considering the physiological characteristics and health of people living in the room at all. There was a problem that can not be utilized.

The present invention is to provide a GHP wet cryer and a multi-type indoor air supply system using the same, which can solve the above problems and problems.

The present invention provides a cooling coil for converting the indoor air sucked into the cold inside the suction port formed on the lower side of the housing, and forcibly suctioning the clean anion generating unit and the indoor air for generating negative ions on the upper side of the cooling coil. A reheat heater that changes the blower and the indoor air to be sucked into a warmer is provided, and a GHP wet cryer is provided by installing a filter on the upper side of the reheater heater. The purpose is to provide a multi-type indoor air supply system using GHP wet cryers that can be installed in every room and connected to the gas heat pump outdoor installed in parallel to selectively operate the GHP wet cryers in each room. have.

Another object of the present invention is to install a cooling coil in which the refrigerant is supplied and circulated by a normal reheat heater and a gas heat pump in the housing to operate the reheat heater in the season or winter to supply warmth (hot air). GHP wet cryers and multi-uses that can be used year round regardless of seasonal changes by supplying cool air (cold air) by cooling coil by operating gas heat pump in summer. It is to provide a type indoor air supply system.

Another object of the present invention is to install an anion generating device inside the housing constituting the GHP wet cryer to generate negative ions so that the negative air is contained in the sucked air to supply to the room, the charcoal mat GHP Wet Cryer is designed to remove the odors contained in the air and sterilize germs, and to provide indoor clean, fresh, clean and sterile anion air to promote the health of people living indoors. And to provide a multi-type indoor air supply system using the same.

Another object of the present invention is to spray ultra-fine water molecules in the anion generator installed inside the housing constituting the GHP wet cryer to inject dust, odor, gas, bacteria, etc. contained in the indoor air The present invention provides a GHP wet cryer and a multi-type indoor air supply system using the same, which are capable of supplying clean anion air of a clean and aseptic state by being collected and removed by surface tension of fine water molecules.

The above and other objects of the present invention,

The indoor air is sucked by the operation of the blower 80 to be filtered by the filter 110, and the heat is exchanged with the reheat heater 90 or the cooling coil 40 to be converted into cold or warm air to be supplied to the room. In that,

The outer suction opening 13 is formed at the lower end of the housing 11, the water tank 20 is built in the inside thereof, and the ordinary cooling coil 40 is installed inside the water tank 20,

Installing an anion generator that generates an anion on the upper side of the cooling coil 40 so that an anion can be contained in the inhaled air,

The normal blower 80 is installed above the anion generator, and the normal reheat heater 90 is installed at the upper end of the upper induction duct 70 of the blower 80,

In the upper upper part of the housing 11 is provided with a filter chamber 100 to install a conventional filter 110,

It is achieved by the GHP wet crusher 10, characterized in that the installation of the conventional blower duct 120 provided with the perforated plate 121 is provided in the discharge port formed on the upper end of the housing (11).

Another and other object of the present invention, the GHP wet crusher 10 configured as described above is installed in each room (1), the cooling of each GHP wet crusher (10) installed in each room (1) It is achieved by a multi-type indoor air supply system using a GHP wet cryer, characterized in that the coil 40 is connected in parallel with the GHP outdoor unit 6 installed outdoors.

The above and other objects and features of the present invention will be more clearly understood in the following detailed description based on the accompanying drawings.

1 to 4 show a specific implementation of the GHP wet cryer 10 and the multi-type indoor air supply system using the same according to the present invention, Figure 1 is a multi-use using the GHP wet cryer according to the present invention. Figure 2 is an exemplary view showing a type indoor air supply system, Figure 2 is a cross-sectional view of the installation state showing the structure of the GHP wet cryer of the present invention, Figure 3 is an enlarged view showing an extract of the clean anion generator in the GHP wet cryer, 4 shows an example in which the cooling coil of the GHP wet cryer is connected in parallel with the GHP outdoor unit in a multi-type.

In the multi-type indoor air supply system using the GHP wet crusher 10 according to the present invention, as shown in FIGS. 1 and 2, the GHP wet crusher 10 is installed in each room 1, and each GHP is installed. Exemplary diagram showing a state in which the wet crusher 10 is connected in parallel with the GHP outdoor unit 6 installed outdoors.

As the GHP wet crusher 10 is specifically illustrated in FIGS. 2 and 3, an outer suction opening 13 is formed at a lower end of the housing 11, and a water tank 20 is embedded therein. Inside the cooling coil 20, a conventional cooling coil 40 is installed, and an anion generator is installed on the upper side of the cooling coil 40 to generate negative ions and to contain negative ions in the intake air.

The negative ion generating device, the air inlet 21 is formed on the upper side of the water tank 20, a plurality of nozzles 50 are installed inside the air inlet 21, the intermediate partition between each nozzle (50) The wall 23 was installed and separated, and the anti-scattering barrier wall 22 was installed inside the air inlet 21, and each nozzle 50 was connected to the lower end of the water tank 20 using the cooling water circulation cylinder 31. Connected to the cooling water circulation cylinder 31 to install a conventional pump 30 to pump the cooling water collected in the water tank 20 to be supplied to each nozzle (50).

On the upper side of the negative ion generating device is installed a conventional blower 80 is provided with an upper induction duct 70, a normal reheat heater 90 is installed on the upper end of the upper induction duct 70, the housing 11 A conventional blower duct having a filter chamber 100 in an upper portion of the inside, and a conventional filter 110 installed in the filter chamber 100, and a perforated plate 121 provided at an outlet formed at an upper end of the housing 11. 120 was installed.

The operation relationship will be described below.

The GHP wet crusher 10 formed as described above is installed and used in the room 1 where the outside and the space are blocked by the outer wall 2 as illustrated in FIGS. 1 and 2, and the GHP wet crusher ( 10) is installed on the indoor floor (4), but the ventilation duct 120 is fixed to the lower side of the ceiling slab (3), the cooling coil (40) of the GHP wet crusher (10) installed in each room (1) ) Is connected in parallel using the refrigerant supply pipe 41 and the refrigerant recovery pipe 42 of the GHP outdoor unit 6 installed outdoors as illustrated in FIGS. 2 and 4.

In order to supply the warm air by sucking the indoor air 7 in this state, the air blower 80 is operated by operating a switch (not specifically shown) to operate the blower 80 and the reheat heater 90. Indoor air (7) sucked by the operation of the air) is sucked into the inside of the housing (11) through the outer suction opening (13), and is converted into warm air (hot air) by heat exchange while passing through the reheat heater (90). The air converted into warmth is filtered while passing through the filter 110, and then discharged into the room 1 through the perforated plate 120 of the air duct 120.

On the other hand, when the indoor air 7 is to be sucked and converted into cold air and the blower 80 and the GHP outdoor unit 6 are operated, the refrigerant of the GHP outdoor unit 6 is supplied through the refrigerant supply pipe 41. After supplying and circulating the cooling coils 40 of each GHP wet crusher 10, a circulation process of returning to the GHP outdoor unit 6 through the refrigerant recovery pipe 42 is performed. The cooling coil 40 maintains a cooling state, and the indoor air 7 sucked into the housing 11 through the outer suction opening 13 by the operation of the blower 80 maintains the cooling state. The heat exchange is carried out while passing through the coil 40 and converted into a cold air state. The cooled cold air passes through the upper duct duct 7 and is filtered while passing through the filter 110 to remove foreign matters and maintain a clean state. Clean, cold air is blown duct (12 While passing through 0), it is injected into the room 1 through the hole formed in the perforated plate 121.

The negative ions generated by operating the clean anion generator when the indoor air 7 is sucked into the hot air or the cold air and discharged to the room 1 through the perforated plate 121 of the air duct 120 as described above. It should be discharged by being contained in cold or warm air discharged to (1).

The pump 30 is operated at a predetermined pressure (0.5 to 2.0 m / cm 3) to pump water or water collected in the tank 20 from the outside to be supplied to each nozzle 50 via the cooling water circulation cylinder 31. When it is made, each nozzle 50 is rotated to spray the ultra-fine water molecules of 1 ~ 0.001㎛ size, the ultra-fine water molecules sprayed from each nozzle 50 to prevent the middle partition wall 23 and scattering The collision with the blocking wall 22 generates 100,000 anion / cm 3 of negative ions, the negative ions generated in this way is mixed with the indoor air (7) that is sucked, the warm or cold air containing the negative ions (110) While passing through the negative ions to maintain more than 3,000 ~ 5,000 / cm 3 and remove even fine (0.3㎛) foreign matter clean anion air is discharged into the room through the perforated plate 121 of the air blowing duct 120.

In particular, the water tank 20 in which the cooling coil 40 and the clean negative ion generator are installed maintains the internal temperature at 10 to 20 ° C. to optimize the warm or cold air supplied to the room 1, that is, the clean negative ion air. It was to be kept in the state of.

In addition, dust, odor, gas, and bacteria contained in the indoor air 7 which are sucked into the housing 11 by the operation of the blower 80 when the ultra fine molecules are sprayed from each nozzle 50. They are forged by the surface tension of the ultra-fine water molecules to fall down and settle down the tank 20, the ultra-fine water molecules sprayed from each nozzle 50 falls through the charcoal mat 45, such as bacteria Silver is sterilized and odors are removed and collected in a clean state.

As described above, the GHP wet cryer according to the present invention and a multi-type indoor air supply system using the same include a cooling coil in which a refrigerant is supplied and circulated by a normal reheater and a gas heat pump. By installing the reheating heater in the season or winter season to supply warmth (hot air) and in summer, the gas heat pump can be operated to supply cold air (cooling air) by the cooling coil regardless of the change of season. It can be used all year round, and an anion generator is installed inside the housing that constitutes the GHP wet cryer to contain anion in the inhaled air and supply it to the room, and a charcoal mat is provided to remove the odor contained in the air. And sterilize germs, which can provide fresh, clean and sterile clean anion air indoors We can plan health of person whom we do.

1 is an exemplary view showing a multi-type indoor air supply system using a GHP wet cryer according to the present invention.

Figure 2 is a sectional view of the installation state showing the structure of the GHP wet cryer according to the present invention.

Figure 3 is an enlarged view showing an extract of the clean anion generator in the GHP wet cryer according to the present invention.

4 is an exemplary view showing a state in which the cooling coil of the GHP wet cryer according to the present invention is connected in parallel with the GHP outdoor unit and multi-type.

              Explanation of symbols on main parts of drawing

1. Interior 2. Exterior Wall 8. Clean Anion Air

10. GHP Wet Cree 11. Housing 13. Outer Intake

20. Water tank 21. Air inlet 22. Shatterproof barrier

23. Middle partition wall 30. Pump 31. Coolant circulation

40. Cooling coil 41. Refrigerant supply pipe 42. Refrigerant recovery pipe

45. Charcoal mat 50. Nozzle 60. Ultra fine water molecule

70. Induction duct 80. Blower 90. Reheat heater

100. Filter chamber 110. Filter 120. Blowing duct

Claims (5)

The indoor air is sucked by the operation of the blower 80 to be filtered by the filter 110, and the heat is exchanged with the reheat heater 90 or the cooling coil 40 to be converted into cold or warm air to be supplied to the room. In that, The outer suction opening 13 is formed at the lower end of the housing 11, the water tank 20 is built in the inside thereof, and the ordinary cooling coil 40 is installed inside the water tank 20, Installing an anion generator that generates an anion on the upper side of the cooling coil 40 so that an anion can be contained in the inhaled air, The normal blower 80 is installed above the anion generator, and the normal reheat heater 90 is installed at the upper end of the upper induction duct 70 of the blower 80, In the upper upper part of the housing 11 is provided with a filter chamber 100 to install a conventional filter 110, GHP wet cryer, characterized in that it is provided with a conventional blowing duct 120 provided with a perforated plate 121 in the outlet formed in the upper end of the housing (11). By operating the blower 80, the indoor air 7 is sucked into the inside of the housing 11 and converted into warm air by the reheater 90, or a cooling coil 40 using a gas heat pump. After being converted into cold air by the filter and filtered by the filter 90, it is possible to supply it again to the room 1, but clean anion air containing negative ions in the air blown back to the room by generating negative ions by the negative ion generator. A GHP wet cryer 10 capable of blowing air (8) is installed in each room 1, and a cooling coil 40 of each GHP wet cryer 10 installed in each room 1 is outdoors. Multi-type indoor air supply system using a GHP wet cryer, characterized in that it is connected in parallel with the GHP outdoor unit (6) installed in the. The negative ion generating device according to claim 1, wherein the negative ion generating device installed above the cooling coil 40 and containing negative ions in the air sucked by generating negative ions, An air inlet 21 is formed in the upper portion of the water tank 20, and a plurality of nozzles 50 are provided at the inner side of the air inlet 21 at equal intervals; An intermediate partition wall 23 is provided between the nozzles 50, and a scattering prevention wall 22 is provided inside the air inlet 21; Each nozzle 50 is connected to the lower end of the water tank 20 by using the coolant circulation cylinder 31, but the normal water pump 30 is installed in the coolant circulation cylinder 31 to pump the coolant collected in the water tank 20. GHP wet cryer, characterized in that the water supply to each nozzle (50). The GHP wet cryer according to claim 3, wherein the water tank (20) in which the cooling coil (40) and the clean anion generator are installed is maintained at a temperature of 10 to 20 deg. The GHP wet cryer according to claim 3, wherein the ultrafine water molecules sprayed from the nozzles 50 have a size of 1 to 0.001 µm.