KR200206337Y1 - structure of radiant and endothermic coil for saving energy of air conditioner - Google Patents

Abstract

The present invention relates to a heat dissipation and endothermic coil structure for an air conditioner to increase energy saving, and more specifically, to select and manufacture an endothermic and heat dissipation coil of an air conditioner, a heat pitch requiring a pitch of 1.8 to 3.8 mm. The present invention relates to an endothermic and a heat dissipation coil that selects and manufactures an optimal shock pitch to prevent unnecessary heat increase of the coil and reduces the static pressure loss of the coil, thereby reducing the efficiency and power consumption of the blower. .

Inserting the copper tube (1) into close contact with the groove plate (2) having a plurality of holes formed therein and penetrating the hole formed in the contact plate (2);

The water plate 2 is supported by the reinforcement side plate 4 at the left and right sides, and the water flowing into the copper tube 1 protruding through the reinforcement side plate 4 is connected to the plug 12 which is a U-shaped contact tube. The copper pipe (1) can flow along, and the upper and lower portions of the copper pipe (1) fitted and coupled to the ear plate (2) are supported by the upper frame (6) and the lower frame (7), respectively, and reinforcement frames (at regular intervals) 5) is coupled to the upper frame 6 and the lower frame (7) to support and to prevent bending of the left and right to attach a bending support frame (9) in the middle, the upper frame (6) and the lower frame (7) Fixing the anti-bending triangular support (8) to the square corners that abut,

The hedge (3) is connected to the copper tube (1) so that water can be introduced into and discharged from the heat absorbing coil to one side of the heat absorbing coil in which the fan plate (2) and the copper pipe (1) are coupled. Heat vent and endothermic coil structure for air conditioner to increase energy savings, characterized in that the air vent plug 10 for discharging the air vent plug 10, the lower portion is provided with a drain plug 11 to discharge the water to the outside to be.

Description

Structure of radiant and endothermic coil for saving energy of air conditioner to increase energy saving

The present invention relates to a heat dissipation and endothermic coil structure for an air conditioner to increase energy saving, and more specifically, to select and manufacture an endothermic and heat dissipation coil of an air conditioner, a heat pitch requiring a pitch of 1.8 to 3.8 mm. The present invention relates to an endothermic and a heat dissipation coil that selects and manufactures an optimal shock pitch to prevent unnecessary heat increase of the coil and reduces the static pressure loss of the coil, thereby reducing the efficiency and power consumption of the blower. .

In general, the air conditioner casing is a cold air to heat exchange the blower and the motor and the air for driving it. Heating coil and humidifier are installed.

These components are the core components of the air conditioner and the cold air is forced into the air in the air conditioner in the air conditioner. Through heating coil and humidifier, it creates temperature, humidity condition and comfortable air condition that requires air condition and supplies it back to the room.

The endothermic and heat dissipation coils of the air conditioner serve to cool or heat the air to match the temperature and humidity of the indoor air condition. Therefore, the heat radiation and endothermic coils used in the prior art use the pitch uniformly to increase the number of heat regardless of the load to produce the heat quantity, so that the number of coils unnecessarily increases and the static pressure loss increases. There are disadvantages such as increased power consumption of the blower and inefficient coils, and unnecessarily large external dimensions of the air conditioner.

The present invention has been made to solve the above problems, and it is necessary to select and manufacture an optimum fin pitch corresponding to the heat amount required by the heat pitch of 1.8 ~ 3.8mm in selecting and producing an endothermic and heat-dissipating coil of the air conditioner. The purpose of the present invention is to prevent the increase of the thermal water of the coil as well as to reduce the static pressure loss of the coil so as to reduce the efficiency and the power consumption of the blower.

In order to achieve the above object, the copper plate having a plurality of holes formed in close contact with each other and inserting the copper tube to pass through the hole formed in the contact plate;

The plate is supported by the reinforcing side plate at the left and right sides, and the copper tube protruding through the reinforcing side plate is connected to the 'U'-shaped contact tube so that the incoming water flows along the copper tube, and the upper portion of the copper tube is fitted into the plate. The upper and lower frames are supported by the upper frame and the lower frame, respectively, and the reinforcement frame is joined to the upper frame and the lower frame at regular intervals, and the anti-bending support frame is attached in the middle to prevent the left and right bending. Fixing the anti-bending triangular support at the square corners that abut,

One side of the endothermic coil combined with the fan plate and the copper tube is connected to the heat sink to the endothermic coil so that water can be introduced and discharged by the copper tube, and the air vent plug for discharging air in the upper portion of the hedge, the water is discharged to the outside By providing the drain plug so as to enable this, it is possible to prevent unnecessary coil heat increase and to reduce coil static pressure loss, thereby providing the best efficiency and power consumption of the blower.

1 is a plan view of the air conditioner of the present invention applied

2 is a front view of the air conditioner of the present invention is applied

Figure 3 is an air conditioner side view of the present invention applied

4 is a detailed view of 'a' of FIG.

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

(1): copper tube (2): fan plate

(3): Hedda (4): reinforcement side plate

(5): reinforcement frame 6: upper frame

(7): lower frame (8): tripod support

(9): Bending prevention support frame (10): Air vent plug

(11): Drain plug 12: 'U' type plug

Referring to the configuration and operation of the present invention in detail based on the accompanying drawings as follows.

1 is a plan view of the air conditioner of the present invention applied,

2 is a front view of the air conditioner of the present invention applied,

Figure 3 is an air conditioner side view of the present invention is applied,

4 is a detailed view of 'A' of FIG. 2.

Inserting the copper tube (1) into close contact with the groove plate (2) having a plurality of holes formed therein and penetrating the hole formed in the contact plate (2);

The water plate 2 is supported by the reinforcement side plate 4 at the left and right sides, and the water flowing into the copper tube 1 protruding through the reinforcement side plate 4 is connected to the plug 12 which is a U-shaped contact tube. The copper pipe (1) can flow along, and the upper and lower portions of the copper pipe (1) fitted and coupled to the ear plate (2) are supported by the upper frame (6) and the lower frame (7), respectively, and reinforcement frames (at regular intervals) 5) is coupled to the upper frame 6 and the lower frame (7) to support and to prevent bending of the left and right to attach a bending support frame (9) in the middle, the upper frame (6) and the lower frame (7) Fixing the anti-bending triangular support (8) to the square corners that abut,

The hedge (3) is connected to the copper tube (1) so that water can be introduced into and discharged from the heat absorbing coil to one side of the heat absorbing coil in which the fan plate (2) and the copper pipe (1) are coupled. The air vent plug 10 for discharging the drain plug 11 is configured to allow the water to be discharged to the outside.

The operation of the present invention is as follows.

A copper tube is inserted continuously so that a plurality of holes in which a plurality of holes are formed in close contact with each other and penetrates the holes formed in the contact plate.

The reinforcing side plate is coupled to the left and right sides of the plate, which is in close contact with the myriad, to fix and protect the plate.

After close contact of the fin (2) to the copper tube (1) to be in close contact with the hydraulic mechanical expander to increase the thermal conductivity.

The copper pipe protruding through the shock plate 2 and the reinforcing side plate 4 may be connected to the U-shaped contact pipe plug 12 so that water flowing in may flow along the copper pipe.

Therefore, when water is introduced, it can continue to flow along the copper tube (1) to be a flow.

In addition, the upper and lower frames of the copper tube 1 coupled to the diaphragm 2 are supported by the upper frame 6 and the lower frame 7, respectively, and the reinforcement frame 5 is fixed to the upper frame 6 and the lower frame at regular intervals. Coupled to and supported by (7).

In addition, the anti-bending support frame 9 is attached to the middle to prevent the left and right bending, and the upper frame 6 is fixed by fixing the anti-bending triangular support 8 to the square corner where the upper frame 6 and the lower frame 7 contact each other. ) And the lower frame 7 can be prevented from bending left and right, up and down.

The copper tube 1 and the copper plate 1 constituting the heat absorbing coil on one side of the heat absorbing coil in which the fin plate 2 and the copper tube 1 are coupled to each other so as to allow the inlet and discharge of water to the copper tube 1. Connect with

Air vent plug 10 for discharging air in the upper portion of the hedda (3), drain plug 11 is installed in the lower portion to discharge the water to the outside to discharge the air introduced into the endothermic coil from time to time to the atmosphere It may also be possible to discharge the incoming water from time to time as needed.

(Variants, applications and legal interpretations)

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Therefore, the present invention selects and manufactures an optimum heat pitch that meets the heat demand of the endothermic and heat-dissipating coils of 1.8 ~ 3.8mm, as well as maximizing the air-conditioning efficiency of air conditioners and air conditioning. Unnecessary heat loss of the machine is suppressed, and the power consumption of the blower is to reduce the energy can be obtained.

Claims (1)

Inserting the copper tube (1) into close contact with the groove plate (2) having a plurality of holes formed therein and penetrating the hole formed in the contact plate (2); The water plate 2 is supported by the reinforcement side plate 4 at the left and right sides, and the water flowing into the copper tube 1 protruding through the reinforcement side plate 4 is connected to the plug 12 which is a U-shaped contact tube. The copper pipe (1) can flow along, and the upper and lower portions of the copper pipe (1) fitted and coupled to the ear plate (2) are supported by the upper frame (6) and the lower frame (7), respectively, and reinforcement frames (at regular intervals) 5) is coupled to the upper frame 6 and the lower frame (7) to support and to prevent bending of the left and right to attach a bending support frame (9) in the middle, the upper frame (6) and the lower frame (7) Fixing the anti-bending triangular support (8) to the square corners that abut, The hedge (3) is connected to the copper tube (1) so that water can be introduced into and discharged from the heat absorbing coil to one side of the heat absorbing coil in which the fan plate (2) and the copper pipe (1) are coupled. Heat vent and endothermic coil structure for air conditioner to increase energy savings, characterized in that the air vent plug 10 for discharging the air vent plug 10, the lower portion is provided with a drain plug 11 to discharge the water to the outside .