KR100624981B1 - Outdoor device of air conditioning systemm - Google Patents

Abstract

The present invention relates to an outdoor unit of a cooling and heating system. The outdoor unit according to the present invention, in the upper part of the outdoor unit of the air-conditioning system installed outside the building, the heat exchanger is provided on both sides of the upper portion of the outdoor unit, respectively installed so as to be detachable on both sides without the heat exchanger, predetermined in the horizontal direction A pair of main panels positioned to be spaced apart from each other, an auxiliary panel detachably installed between each pair of main panels, and a coolant installed inside the upper part of the outdoor unit so as to be adjacent to the auxiliary panel on one side, and cooling water for cooling the driving source. And an oil tank installed inside the upper part of the outdoor unit so as to be adjacent to the other auxiliary panel, and having an oil inlet and / or an oil gauge formed thereon to supply oil to the gas engine. . According to the outdoor unit of the cooling and heating system, it is possible to easily replenish the coolant or the engine oil, and to manufacture the outdoor unit more easily by reducing the number of parts of the outdoor unit.

GHP, outdoor unit, panel, coolant, oil tank

Description

Outdoor Unit of Air Conditioning System {Outdoor Device of Air Conditioning Systemm}

1 is a schematic view showing a case in which the cooling and heating system using the GHP is in the cooling state,

2 is a schematic view showing a case in which the heating and cooling system using the GHP is in a heating state,

3 is a view showing the structure of a conventional outdoor unit of the GHP,

Figure 4 is a perspective view showing the inside of the upper portion of the GHP outdoor unit according to a preferred embodiment of the present invention,

5 is a view showing a main panel and an auxiliary panel,

6 is a view illustrating a state in which a main panel and an auxiliary panel are assembled;

7 and 8 are views illustrating a state in which auxiliary panels on both sides of the upper part of the outdoor unit are separated.

<Explanation of symbols for the main parts of the drawings>

10 ... top of outdoor unit 20 ... bottom of outdoor unit

30 ... heat exchanger 32 ... refrigerant heat exchanger

34 ... Coolant heat exchanger 40 ... Coolant inlet

50 oil tank 52 oil inlet

54 Oil gauge 60, 70 main panel

80 ... secondary panel

The present invention relates to an outdoor unit of a cooling and heating system, and more particularly, to an outdoor unit of a cooling and heating system that can be easily maintained and repaired while a driving source is operating.

In recent years, gas-cooled heating and cooling systems have widely used a gas engine driven heat pump using a gas engine as a driving source instead of a conventional electric motor. GHP has the advantages of low energy loss, operation with less electricity, and easier control than the conventional method using an electric motor.

1 and 2 schematically show a cooling and heating system using such a GHP. 1 shows a case of cooling in summer, Figure 2 shows a case of heating in winter. Referring to FIG. 1, an outdoor unit 110 is installed outside the building 100, and an engine 120, a compressor 130, and the like are installed below the outdoor unit 110. In addition, the upper portion of the outdoor unit 110, an oil tank (not shown) for supplying oil to the engine 120, a coolant inlet for injecting engine coolant (not shown), and a heat exchanger 150 for exchanging refrigerant with the coolant. Etc. are installed. The refrigerant line 140 extends into the building 10 through the compressor 130 and the heat exchanger 150, and has a circulation structure that returns to the compressor 130.

Therefore, in the summer, the coolant liquid absorbs heat in the building 100 and cools the inside of the building 100 and vaporizes itself into the refrigerant gas and is discharged along the coolant line 140 to the outside of the building 100. The discharged refrigerant gas releases heat through the heat exchanger 150 to be liquefied back into the refrigerant liquid. The liquefied refrigerant liquid enters the building 100 again by the compressor 130 to circulate continuously and cool. On the other hand, when heating in winter, as shown in Figure 2, the absorption and release of heat is reversed. That is, in winter, heat is released by heating the inside of the building 100, and the liquefied refrigerant liquid absorbs heat from the outdoor unit 110 outside the building 100 again to become a refrigerant gas and back into the building 100. It has a circulating structure.

In general, the outdoor unit in the air-conditioning system using the GHP is installed outside the building or on the roof of the building. The oil tank serves to supply oil to the gas engine by filling oil therein, and the coolant inlet is connected to the coolant line to replenish engine coolant through the coolant inlet. The coolant line connects between the engine and the coolant heat exchanger, thereby cooling the engine by the coolant and dissipating the heat of the coolant by the heat exchanger.

The upper structure of such a conventional outdoor unit is shown in FIG. Referring to Figure 3, the heat exchanger 210 is installed on both sides of the outdoor unit 200 facing each other, the cooling water injection hole 220 is formed on the upper surface of the outdoor unit 200. On the open side of the outdoor unit 200, a pair of panels 230 and 240 are installed, and the reinforcement 250 is installed in the vertical direction in the outdoor unit 200 between the panels 230 and 240. One of the pair of panels 230 and 240 is provided with a filling hole 260 to refill the engine oil.

However, in the conventional outdoor unit structure, since both the coolant injection hole 220 and the engine oil filling hole 260 are formed outside the outdoor unit 200, the number of parts increases, which makes the structure complicated and difficult to manufacture. In addition, since the coolant inlet 220 is formed on the upper surface of the outdoor unit 200, it is not easy for the operator to replenish the coolant, and in order to accurately measure the flow rate of the engine oil, the engine is stopped and all the panels 230 and 240 are stopped. There is a problem to remove and check the inside of the outdoor unit (200).

The present invention was devised to solve the above-mentioned problems, and provides a superstructure of a GHP outdoor unit that can simplify replenishment and easily replenish coolant and engine oil while the driving source is operating. There is a purpose.

The object of the present invention as described above, in the outdoor unit of the air-conditioning system installed outside the building, the heat exchanger is installed on both sides of the upper side of the outdoor unit, and are installed so as to be detachable on both sides without the heat exchanger, respectively, in the horizontal direction A pair of main panels positioned to be spaced a predetermined distance apart, an auxiliary panel detachably installed between the pair of main panels, and installed inside the upper part of the outdoor unit so as to be adjacent to the one side auxiliary panel, Cooling and heating including a cooling water inlet for injecting cooling water and an oil tank installed inside the upper part of the outdoor unit so as to be adjacent to the other auxiliary panel, and an oil inlet and an oil gauge formed thereon to supply oil to a driving source. Achieved by the outdoor unit of the system.

The main panels may include a wall portion forming the upper wall of the outdoor unit, a guide portion formed at one end of the wall portion and guiding movement of the adjacent auxiliary panel, and perpendicular to the other end portion of the wall portion. An extension part is formed to extend, and the auxiliary panel includes a wall part forming an upper wall of the outdoor unit, and a protrusion part formed at both ends of the wall part and in contact with a guide part of each adjacent main panel. Therefore, the main panel is installed on both sides of the outdoor unit at predetermined intervals, and the auxiliary panel is installed in a space between the guide parts facing the main panel.

Here, the auxiliary panel may have a width of about 55% to 65% of the width of the main panel, the main panel and the auxiliary panel may be coupled by a bolt.

In the outdoor unit according to the present invention, the heat exchanger is connected to a refrigerant heat exchanger that performs heat exchange while the refrigerant flows along the inside, and a cooling water heat exchanger that performs heat exchange while cooling water flows along the inside thereof, and the refrigerant heat exchanger includes the outdoor unit. Is installed at the upper side of both sides of the, the cooling water heat exchanger may be installed in the lower portion of the refrigerant heat exchanger. As such, since the cooling water heat exchanger is installed under the outdoor unit, the cooling water inlet may be located below the eye level of the operator. In the present invention, the cooling water inlet is located at a height of 110 to 130 cm from the ground.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

The terms or words used in the present specification and claims are not limited to the ordinary or dictionary meanings, and are properly defined to explain the present invention in the best manner. Therefore, these terms or words should be interpreted as meanings and concepts corresponding to the technical spirit of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

4 is a view showing the internal structure of the upper portion 10 of the outdoor unit of the air conditioning and heating system.

Referring to FIG. 4, the outdoor unit may be divided into an upper part 10 of the outdoor unit and a lower part 20 of the outdoor unit. Although not shown in the figure, a gas engine, a compressor, and the like are installed inside the lower portion 20 of the outdoor unit. On the upper surface of the upper portion 10 of the outdoor unit is provided a pair of fans 12 to improve the heat exchange in the heat exchanger 30 to be described later. Inside the upper portion 10 of the outdoor unit, a coolant inlet 40 connected to the coolant line 42 to inject coolant, an oil tank 50 to supply oil to a gas engine (not shown), and a heat exchanger 30 ) Is installed.

The heat exchanger 30 is installed on both sides of the upper portion 10 of the outdoor unit facing each other. Specifically, the heat exchanger 30 is connected to the refrigerant line 36 and connected to the refrigerant heat exchanger 32 and the coolant line 42 to exchange heat along the inside thereof, so that the coolant performs heat exchange along the inside thereof. It comprises a cooling water heat exchanger (34). In the upper portion 10 of the outdoor unit according to the present invention, the refrigerant heat exchanger 32 is positioned at the upper sides of both sides of the upper portion 10 of the outdoor unit, and the cooling water heat exchanger 34 is positioned at the lower portion.

The coolant heat exchanger 34 is connected to the coolant line 42, and the coolant line 42 extends to a gas engine (not shown) located in the lower part 20 of the outdoor unit, thereby cooling the gas engine (not shown). To cool. On the other hand, the cooling water inlet 40 is installed in the cooling water line 42 of the upper portion 10 of the outdoor unit. The user injects the coolant through the coolant inlet 40 into the coolant line 42 to replenish the insufficient coolant. On the other hand, the coolant inlet 40 should be located above the ground than the coolant heat exchanger (34). This is because when the coolant inlet 40 is positioned below the coolant heat exchanger 34, a separate driving source for raising the coolant along the coolant line 42 is required. Thus, like the upper portion 10 of the outdoor unit according to the present invention, if the cooling water heat exchanger 34 is installed below the refrigerant heat exchanger 32, that is, adjacent to the bottom of the upper portion 10 of the outdoor unit, the cooling water inlet The height of 40 can be lowered. In a preferred embodiment of the present invention, the cooling water inlet 40 is located at a height of 110 cm to 130 cm from the ground. Since the height of the cooling water inlet 40 is located below the eye level of the general user, the operator can easily replenish the cooling water.

The cooling water inlet 40 is installed to be adjacent to one side surface where the heat exchanger 30 of the upper portion 10 of the outdoor unit is not installed. Specifically, a pair of main panels (see Fig. 5) (60, 70) and the auxiliary panel (see Fig. 5) 80 on both sides where the heat exchanger 30 of the upper part 10 of the outdoor unit is not installed. These are respectively provided, and the cooling water inlet 40 is provided adjacent to the auxiliary panel 80. The auxiliary panel 80 will be described in detail later.

On the other hand, the oil tank 50 is installed to be adjacent to the other side of the heat exchanger 30 of the upper portion 10 of the outdoor unit is not installed. The oil tank 50 is connected by a gas engine (not shown) and a piping line (not shown) installed in the lower part 20 of the outdoor unit to serve to supply oil. The upper portion of the oil tank 50 is formed with an oil inlet 52 for injecting oil therein and an oil gauge 54 for checking the amount of oil inside the oil tank 50. Therefore, the user replenishes the oil through the oil inlet 52 and visually checks the oil gauge 54 to confirm the amount of oil. Like the cooling water inlet 40, the oil tank 50 is installed to be adjacent to the auxiliary panel 80 on the other side where the heat exchanger 30 of the upper part 10 of the outdoor unit is not installed.

FIG. 5 is a diagram illustrating the main panels 60 and 70 and the auxiliary panel 80 installed on the upper portion 10 of the outdoor unit.

Referring to FIG. 5, the main panels 60 and 70 are wall parts 62 and 72 which form walls of the upper part 10 of the outdoor unit, and auxiliary parts formed at one end of the wall parts 62 and 72 and adjacent to each other. Guide parts 64 and 74 for guiding the movement of the panel 80 and extension parts 66 and 76 extending perpendicularly to the other ends of the wall parts 62 and 72 are included.

The wall parts 62 and 72 of the main panels 60 and 70 form the wall of the upper part 10 of the outdoor unit. A plurality of through holes 63 and 73 are formed at the upper and lower portions of the wall parts 62 and 72 and are detachably coupled to the upper part 10 of the outdoor unit by bolts. At one end of the wall parts 62 and 72, guide parts 64 and 74 for guiding the movement of the adjacent auxiliary panel 80 are formed. The guide parts 64 and 74 are formed perpendicular to the wall parts 62 and 72, and have a structure that is bent vertically back toward the opposite side of the wall parts 62 and 72 and doubled. When the main panels 60 and 70 having such a structure are installed to be spaced a predetermined distance from one side of the upper portion 10 of the outdoor unit, the guide portions 64 and 74 of the main panels 60 and 70 face each other. Therefore, the auxiliary panel 80 is installed on the upper portion 10 of the outdoor unit along the space between the guide portions 64 and 74. The other ends of the main panels 60 and 70 are formed with extensions 66 and 76 vertically formed. Like the wall parts 62 and 72, the extension parts 66 and 76 have through holes 67 and 77 formed at upper and lower parts thereof, and are fastened to the upper part 10 of the outdoor unit by bolts.

On the other hand, the auxiliary panel 80 is formed on the wall portion 82 that forms the wall of the upper portion 10 of the outdoor unit, and the guide portion 64 of the main panel 60, 70 formed adjacent to both ends of the wall portion 82; And a protrusion 84 in contact with 74. The wall portion 82 of the auxiliary panel 80 forms a wall of the upper portion 10 of the outdoor unit, and through-holes 85 are formed in the upper portion and the lower portion. The wall portion 82 of the auxiliary panel 80 has a width of about 55% to 65% compared to the width of the wall portions 62 and 72 of the main panels 60 and 70. As described above, the width of the wall portion 82 of the auxiliary panel 80 is significantly smaller than that of the main panels 60 and 70. Therefore, even when the auxiliary panel 80 is separated, the upper part 10 of the outdoor unit may be connected to the main panel 60,. 70) there is no influence on the driving of the gas engine (not shown). On the other hand, protrusions 84 are formed at both ends of the wall portion 82. The protruding portion 84 extends vertically at both ends of the wall portion 82, and has a structure that is double-folded vertically back toward the wall portion 82. When the auxiliary panel 80 is installed between the main panels 60 and 70, the protrusions 84 of the auxiliary panel 80 move while contacting the guide portions 64 and 74 of the main panels 60 and 70. In addition, the auxiliary panel 80 is not separated between the main panels 60 and 70.

6 is a view showing a state in which the above-described main panel 60, 70 and the auxiliary panel 80 is assembled to the upper portion 10 of the outdoor unit.

A process of installing the main panels 60 and 70 and the auxiliary panel 80 will be described in detail with reference to FIGS. 5 and 6. First, a pair of main panels 60 and 70 are respectively provided on both sides of the outdoor unit 10 in which the heat exchanger 30 is not provided. In the case of installing the main panels 60 and 70, the operator first places the upper part of the wall parts 62 and 72 and the extension parts 66 and 76 of the main panel 60 and 70 in the upper part of the upper part 10 of the outdoor unit. Pushed into the frame 14, the lower portion of the wall portion (62, 72) and the extension portion (66, 76) is disposed so as to be located outside the lower frame (16). Next, the upper and lower parts of the wall parts 62 and 72 and the extension parts 66 and 76 are fixed to the upper and lower frames 14 and 16 of the upper part 10 of the outdoor unit by bolts 65 and 75. In this case, the pair of main panels 60 and 70 are installed to be spaced apart by a predetermined interval in the horizontal direction, and the auxiliary panel 80 is installed in the space between the main panels 60 and 70.

When a pair of main panels 60 and 70 are installed, the guide portions 64 and 74 of the main panels 60 and 70 face each other, and a space is formed therebetween. The operator pushes the auxiliary panel 80 into the space between the guide portions 64 and 74, while the protrusions 84 of the auxiliary panel 80 are in contact with the guide portions 64 and 74 facing each other. In this case, the upper part of the auxiliary panel 80 is pushed into the upper frame 14 of the upper part 10 of the outdoor unit, and the lower part of the auxiliary panel 80 is located outside the lower frame 16. Subsequently, the auxiliary panel 80 is installed on the upper portion 10 of the outdoor unit by the bolts 86.

As such, when the main panels 60 and 70 and the auxiliary panel 80 are installed, in the case of refilling the coolant or refilling the engine oil, there is no need to disassemble all the panels. ), It becomes easy to add coolant or oil. In addition, even when the auxiliary panel 80 is removed, the frames 14 and 16 of the upper part 10 of the outdoor unit are supported by the main panels 60 and 70, so that the structural stability of the upper part 10 of the outdoor unit may be improved. There is no need to install separate components such as stiffeners.

7 and 8 are views illustrating a case where the auxiliary panels 80 provided on both sides of the upper portion 10 of the outdoor unit are separated as described above.

Referring to FIG. 7, when the coolant needs to be replenished, the worker separates the auxiliary panel 80 installed on one side of the upper portion 10 of the outdoor unit. Since the coolant inlet 40 is installed to be adjacent to one side of the upper part 10 of the outdoor unit, when the auxiliary panel 80 is removed from the upper part 10 of the outdoor unit, the coolant inlet 40 is positioned adjacent to the front of the opening. do. In addition, as described above, the height of the cooling water inlet 40 corresponds to 110 cm to 130 cm from the ground, so that the operator can easily inject the cooling water. Therefore, when the worker replenishes the coolant, the operator does not need to stop driving the engine (not shown) or remove the main panel 60 or 70 entirely, and only the auxiliary panel 80 is removed to easily replenish the coolant. can do.

Referring to FIG. 8, when it is necessary to refill the engine oil, the auxiliary panel 80 ′ installed on the opposite side of the auxiliary panel 80 of FIG. 7 is separated. Since the oil tank 50 is installed to be adjacent to the other side of the upper portion 10 of the outdoor unit, when the auxiliary panel 80 'is removed from the upper portion 10 of the outdoor unit, the oil tank 50 is adjacent to the front of the opening. Will be located. Since the oil inlet 52 and the oil gauge 54 are formed on the upper portion of the oil tank 50, the operator checks the amount of oil through the oil gauge 54, and facilitates the oil through the oil inlet 52. You can supplement. Therefore, when replenishing oil as in the case of replenishing the coolant, it is not necessary to stop the driving of the engine (not shown) or to separate only the auxiliary panel 80 without removing the main panels 60 and 70. You can easily refill or check the amount of engine oil.

In the above preferred embodiments, the outdoor unit according to the present invention has been described as being used in a cooling and heating system using a gas engine driven heat pump, the application example of the present invention is not limited to this, other than the gas engine It can also be applied to air-conditioning system using the driving source of.

As described above, according to the outdoor unit of the air conditioning and heating system according to the present invention, by removing the components protruding to the outside in the prior art, it is possible to enhance the aesthetics and facilitate assembly.

In addition, according to the present invention, by separating only the auxiliary panel without removing the entire panel, it is possible to easily replenish cooling water or oil without stopping the driving source.

Further, according to the present invention, by installing the cooling water inlet at 110 cm to 130 cm from the ground, the operator can easily inject the cooling water.

Claims (6)

In the outdoor unit of the air conditioning system installed outside the building, A heat exchanger installed on both side surfaces of the upper part of the outdoor unit, A pair of main panels each installed to be detachable on both sides of the heat exchanger not installed and positioned to be spaced apart by a predetermined interval in a horizontal direction; An auxiliary panel detachably installed between the pair of main panels; A cooling water injection hole installed inside the upper part of the outdoor unit so as to be adjacent to the one side auxiliary panel and injecting cooling water to cool a driving source; The outdoor unit of the heating and cooling system, characterized in that it is installed inside the upper portion of the outdoor unit adjacent to the other auxiliary panel, the oil inlet and the oil gauge is formed on the upper portion to supply oil to the drive source. The method of claim 1, Each main panel, A wall portion forming an upper wall of the outdoor unit; A guide part formed at one end of the wall part to guide movement of the adjacent auxiliary panel; An extension part extending perpendicular to the other end of the wall part, The auxiliary panel, A wall portion forming an upper wall of the outdoor unit; An outdoor unit of a heating / cooling system, which is formed at both ends of the wall portion and includes protrusions contacting the guide portions of the adjacent main panels. The method according to claim 1 or 2, And the auxiliary panel has a width of about 55% to about 65% of the width of the main panel. The method of claim 3, The main panel and the auxiliary panel of the outdoor unit of the heating and cooling system, characterized in that coupled by the bolt. The method of claim 1, The heat exchanger includes a refrigerant heat exchanger that exchanges heat as the refrigerant flows along the inside, and a cooling water heat exchanger that is connected to the cooling water inlet and performs heat exchange while cooling water flows along the inside thereof. The refrigerant heat exchanger is installed on both sides of the upper portion of the outdoor unit, the cooling water heat exchanger is installed in the lower portion of the refrigerant heat exchanger. The method of claim 5, The coolant inlet is an outdoor unit of a cooling and heating system, characterized in that located at a height of 110 to 130 cm from the ground.

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