KR100759424B1 - Airconditioner unit having two-layer air-flow system - Google Patents

Abstract

The present invention relates to an air conditioning unit having a two-layer air flow system that allows the door to guide the flow of air to serve as a partition wall, thereby simplifying the structure of the air conditioning unit.

The air conditioning unit having the disclosed two-layer air flow system includes a defrost vent 13, a face vent 14, and a floor communicating with a vehicle interior with an evaporator 1 and a heater core 2 installed at regular intervals therein. An air conditioner case 10 having a vent 15 and a center thereof are rotatably installed between the evaporator and the heater core inside the air conditioner case to partition the evaporator and the heater core up and down, and to front the heater core. A first butterfly door 30 for opening and closing, and a second butterfly fly rotatably installed at the rear of the heater core to partition the rear of the heater core up and down, and to open and close the rear and floor vents of the heater core. The door 40 is configured. As a result, the first and second butterfly doors 30 and 40 are rotated about the center to separate the inside of the case 10 into two layers, and the heater core 2 and the floor vent 15 are separated. Also serves as a function of opening and closing.

2nd floor, air conditioning, indoor / outdoor, partition, butterfly door

Description

Air-conditioning unit with two-layer air flow system {AIRCONDITIONER UNIT HAVING TWO-LAYER AIR-FLOW SYSTEM}

1 is a block diagram of an air conditioning unit according to the prior art.

2 to 4 respectively show the operating state for each mode of the air conditioning unit having a two-layer airflow air conditioning system according to the present invention,

2 shows a mix mode,

3 shows the vent mode,

4 shows the defrost mode.

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

1: evaporator, 2: heater core

10: air conditioner case, 11: outdoor air inlet

12: Inlet for bet, 30,40: First and second butterfly door

31,41: pivot, 50,60: 3, 4 door

The present invention relates to an air conditioning unit having a two-layer air flow system, and more particularly, to an air conditioning unit having a two-layer air flow system that can reduce the number of parts by allowing the temperature control door to function as a separating wall. It is about.

In general, a vehicle air conditioner is composed of a cooling device and a heating device.

In the cooling apparatus, the refrigerant compressed by the compressor flows into the condenser, is heat-exchanged with the air passing through the condenser by the forced blowing of the cooling fan, condenses, and then passes through the receiver dryer, the expansion valve, and the evaporator, and then flows back into the compressor. The air blown by the blower fan of the blower unit heats up the refrigerant passing through the evaporator and enters the room in a cold state to cool the vehicle interior. The heating device is a process in which the cooling water of the engine returns to the engine through the heater core. The air blown by the blower fan in the heat exchange with the cooling water passing through the heater core is introduced into the room in a warm state to heat the interior of the vehicle.

The air conditioner described above is connected to an air inlet and an interior of the vehicle, and includes an air conditioner case provided with various vents opened and closed by respective doors, a blower unit installed at an air inlet side of the air conditioner case, and an air inlet inside the air conditioner case. It is comprised including the evaporator and a heater core installed one by one from the side.

Vents that communicate with the room include defrost vents that allow air to be directed towards the windows to eliminate frost on the windows, face vents that allow air to be discharged to the upper half of the occupant, and floor vents that direct air to the floor. .

On the other hand, when only the outside air is supplied to the room through the outside air inlet when the air conditioner is operated, the compressor load increases, causing a lot of fuel loss. In addition, if the defroster mode using the bet with high winter humidity is selected, the frost generated in the glass cannot be effectively removed due to the humidity of the bet, and the heating performance is deteriorated when low temperature outdoor air is introduced to effectively remove the frost.

In order to solve the above disadvantages, an air conditioner unit having a two-layer air flow structure has been proposed to solve the problem of eliminating defrosting as well as improving heating performance by allowing air to be discharged to the defrost vent and floor vent to the floor vent.

1 is a configuration diagram of an air conditioning unit having a two-layer airflow air conditioning system according to the prior art.

As shown therein, the air conditioning unit having the conventional two-layer airflow air conditioning system is installed inside the air conditioner case 10, the evaporator 1, the heater core 2 and the air conditioner case 10 to guide the flow of air. Has a door.

On one side of the air conditioner case 10, inlets 11 and 12 are formed up and down, and on the other side, the defrost vent 13 and the face vent 14 which are opened toward the upper side are provided. A floor vent 15 is formed which opens toward the rear.

The evaporator 1 and the heater core 2 are placed in sequence at intervals from the inlet end of the air conditioner case 10.

Inside the air conditioner case 10, a partition wall 16 is formed to divide the air conditioner case 10 into upper and lower first and second flow paths P1 and P2. The separating wall 16 has a horizontal portion 16a extending from immediately after the evaporator 1 to the rear of the heater core 2 via the heater core 2, and an air conditioner at the rear end of the horizontal portion 16a. It is composed of a vertical portion 16b which is bent upward along the shape of the case 10 and forms a third flow path P3 communicating with the first and second flow paths P1 and P2 at the rear thereof.

The doors for guiding the flow of air include first and second doors 20 and 21 installed at upper and lower portions of the horizontal portion 16a of the separation wall 16 between the evaporator 1 and the heater core 2, and a heater. It consists of the 3rd door 22 which opens and closes below the dividing wall horizontal part 16a of the core 2 back.

The first door 20 is rotatably installed at the front upper end of the heater core 2, and the air passing through the evaporator 1 by the free end thereof in contact with the baffle 10a immediately above the evaporator 1 is heated by the heater. It guides through the core 2 or blocks the front of the heater core 2 above the separation wall 16.

The second door 21 is rotatably coupled to the front lower end of the heater core 2, and the air passing through the evaporator 1 by the free end thereof is in contact with the baffle 10b behind the evaporator 1. ) Or to block the front of the heater core (2) below the separation wall (16).

In the drawings, reference numerals 13a, 14a, and 15a denote defrost vent doors, face vent doors, and floor vent doors, respectively.

The operation of the air conditioning unit having the two-layer air flow system according to the prior art configured as described above is as follows.

In the mixed mode, the outside air is supplied to the defrost vent 13 and the bet is supplied to the floor vent 15. When the mix mode is selected during heating, the first and second doors 20 and 21 open the front of the heater core 2, the third door 22 opens the rear of the heater core 2, and the floor The vent door 15a opens the floor vent 15 while blocking the third flow path P3 behind the separation wall vertical part 16b, and the defrost vent door 13a opens the defrost vent 13. do.

As described above, the outside air in the air introduced by the blower fan B while the air flow path for the mixed mode is prepared by the doors passes through the upper side of the separating wall horizontal portion 16a and passes through the heater core 2. Then, it turns along the inside of the partition wall vertical part 16b and is supplied to the defrost vent 13. Then, the bet passes through the heater core 2 via the lower portion of the separating wall horizontal portion 16a and is then supplied to the floor vent 15 under the guidance of the third door 22 and the floor vent door 15a.

However, the air conditioning unit having the two-layer air flow system according to the prior art has the following problems.

The separating wall 16 of the air conditioning unit divides the inside of the air conditioner case 10 up and down, and the first, second and third doors 20, 21 and 22 open and close the front of the heater core 2 while the air is opened. By guiding the direction of the separation wall 16 and each door (20, 21, 22) is equipped with an essential component for the two-layer air flow has a disadvantage of a complicated structure of the air conditioning unit.

Accordingly, an object of the present invention is to provide an air conditioning unit having a two-layer air flow system to simplify the structure as described above.

In the air conditioning unit having a two-layer air flow system according to the present invention for achieving the above object, the air inlet is divided up and down at the inlet end of one side, the outlet end of the other side is in communication with the room and opened and closed by the door, respectively An air conditioner case having a defrost vent, a face vent, and a floor vent; An evaporator installed at an air inlet side of the air conditioner case; It comprises a heater core installed between the rear of the evaporator and the floor vent. Between the evaporator and the heater core is divided up and down therebetween and a first butterfly door for opening and closing the front of the heater core is installed, the rear end is rotatably installed on the front upper end of the heater core A plate-shaped third door is installed to guide air passing through the evaporator to the flow path above the heater core or through the heater core, and a door for opening and closing the floor vent is provided between the rear of the heater core and the floor vent. It is characterized in that the center is rotatably installed at the center height of the second butterfly door that opens and closes the floor vent and partitions the rear of the heater core up and down in the two-laminar flow mode.

In addition, a partition wall is formed inside the interior space of the air conditioner case and partitions the space above the heater core forward and backward, and has a lower end disposed at a rotation radius of the second butterfly door. It is preferable that a plate-shaped fourth door for opening and closing the floor vent is installed along with the second butterfly door.

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

Figures 2 to 4 show a flow chart of each mode of the air conditioning unit having a two-layer air flow system according to the present invention, Figure 2 is a mix mode, Figure 3 is a face vent mode, Figure 4 is a defrost mode to be. The same reference numerals as used in FIG. 1 indicate the same components.

As shown in FIG. 2, the air conditioning unit having the two-layer airflow system according to the present invention has an air conditioner case 10, an evaporator 1, a heater core 2 and doors for guiding the flow of air.

On one side of the air conditioner case 10, air inlets 11 and 12 are divided into two upper and lower layers, and on the other side, the defrost vent 13 and the face vent 14 which are opened toward the upper side are formed and the lower side of the other side. The floor vent 15 is provided with a rear side. When the air inlets 11 and 12 are simultaneously introduced into the inside / outside air, the outside air flows into the upper inlet 11 and the inside air flows into the lower inlet 12.

The evaporator 1 and the heater core 2 are provided one by one at regular intervals from the inlet end of the air conditioner case 10.

Between the rear of the heater core 2 and the floor vent 15, a second butterfly door 40 for partitioning therebetween up and down or blocking the floor vent 15 is provided.

The second butterfly door 40 is disposed at the center height between the heater core 2 and the floor vent 15, and the center of the first butterfly door is pivotally connected to the first butter door with its tip rotated approximately horizontally. The fourth door 60, which is operated to coincide with the extension line of the rear end of the heater core 2 side (to be described later), divides the heater core 2 into upper and lower layers, or is arranged substantially vertically, to be described later. Together with the floor vent 15.

The first butterfly door 30 and the third door 50 are installed between the evaporator 1 and the heater core 2.

The first butterfly door 30 is installed at the center height between the evaporator 1 and the heater core 2 so as to be rotatable by a pivot 31 to open and close the front of the heater core 2. In addition, the space between the evaporator 1 and the heater core 2 is divided into first and second flow paths P1 and P2 in the upper and lower parts, and the length thereof is approximately the evaporator so that air flowing along the upper and lower parts does not leak to other air layers. It consists of the distance from 1) to the heater core 2.

Inside the air conditioner case 10, a partition wall 17 is formed so as to partition the third flow path P3 behind the first flow path P1 above the heater core 2. The partition wall 17 is arranged up and down so that its lower end is located at the rotation radius of the second butterfly door 40.

The third door 50 is installed above the heater core 2 so that the air passing through the evaporator 1 by the free end thereof contacting the upper end or the partition wall 17 behind the evaporator 1 is heated by the heater core 2. ) Is guided to flow through the first passage (P1) with or without passing through. That is, the third door 50 guides the flow of air in cooperation with the first butterfly door 30.

A fourth door 60 is installed at the upper end of the third passage P3 to open and close the third passage P3 together with the second butterfly door 40.

In the drawings, reference numerals 13a and 14a denote defrost vent doors and face vent doors, respectively.                     

Hereinafter, the operation state of the air conditioning unit having the two-layer air flow system according to the present invention.

2 to 4 is a configuration diagram of the air conditioning unit for showing the operation state of the door for each mode, will be described separately for each mode.

2 shows a mix mode in which the bet is supplied to the floor vent 15 and the outside air is supplied to the defrost vent 13.

As shown in the drawing, in the mixed mode, the first butterfly door 30 is rotated about the center pivot 31 to be horizontally arranged, and both ends thereof have a central portion of the evaporator 1 and the heater core 2. The upper and lower parts are partitioned between the evaporator 10 and the heater core 2 up and down, and the second butterfly door 40 is rotated around the center pivot 41 so that one free end of the heater core 2 is rotated. The rear end of the heater core 2 is divided up and down while being substantially aligned with the extension line of the first butterfly door 30 while the free end of the other side is in contact with the upper end of the inlet side of the floor vent 15. The air passing through the lower side of (2) is supplied to the floor vent 15, and at the same time, the third door 50 allows the air passing through the evaporator 1 to pass through the heater core 2 to the first passage. The inlet of P1 is blocked, and the fourth door 60 opens the third passage P3 behind the partition wall 17.

When the mix mode is selected during heating, as described above, each door 13a, 30, 40, 50, 60 is operated so that the outside air introduced through the upper inlet 11 turns off the evaporator 1. After passing, it passes through the heater core 2 between the first butterfly door 30 and the third door 50, and some of this air flows through the front of the partition wall 17 to the first flow path. Flows to P1, and the remaining outside air passes through the rear of the partition wall 17 under the guidance of the second butterfly door 40, and then passes through the front side of the partition wall 17 in the first flow path P1. It is supplied to the defrost vent 14 together with air.

Meanwhile, the bet introduced through the lower inlet 12 passes through the evaporator 1 and passes through the lower portion of the heater core 2 via the second flow path P below the first butterfly door 30. The second butterfly door 40 is supplied to the floor vent 15.

3 shows a face mode, in which the air is supplied only to the face vent 14.

When the face vent mode is selected during cooling, the first butterfly door 30 closes the front of the heater core 2, and the third door 50 is disposed between the evaporator 1 and the heater core 2 and the first one. The flow path P1 communicates with each other, and the fourth door 60 closes the upper portion of the third flow path P3.

Air introduced through the upper and lower inlets 11 and 12 is supplied to the face vent 14 without passing through the heater core 2 by the first butterfly door 30 and the third door 50.

4 shows the flow of air in the defrost vent mode. When the defrost mode is selected, the first butterfly door 30 divides the upper and lower portions between the evaporator 1 and the heater core 2 to function as a separation wall. The third door 50 blocks the first flow path P1 between the evaporator 1 and the heater core 2 and the second butterfly door 40 has a partition wall 17 at an upper end thereof. The fourth door 60 closes the third passage P3 while corresponding to the lower end of the floor vent 15.

The air passes through the evaporator 1 and is guided by the first butterfly door 30 and the third door 50 via the heater core 2, and then defrost vents along the front of the partition wall 17. 13) is supplied.

Accordingly, the first and second butterfly doors 30 and 40 open and close the front and rear of the heater core 2, and partition the inside of the case 10 up and down, thus eliminating the need for a conventional separating wall.

As described above, according to the air conditioning unit having the two-layer air flow system according to the present invention, the door for guiding the flow of air also serves as a partition wall, thereby simplifying the structure of the air conditioning unit.

Claims (2)

An air inlet is partitioned up and down at an inlet end of one side, and an air conditioner case having a defrost vent, a face vent, and a floor vent, which are in communication with the interior and are opened and closed by a door, respectively; An evaporator installed at an air inlet side of the air conditioner case; And, In the air conditioning unit comprising a heater core installed between the rear of the evaporator and the floor vent, Between the evaporator and the heater core is partitioned therebetween up and down, a first butterfly door for opening and closing the front of the heater core is installed, A rear third end of the heater core is rotatably installed, and a plate-shaped third door is installed to guide air passing through the evaporator to flow through the heater core or through the heater core. The door that opens and closes the floor vent is rotatably installed at an approximately center height between the rear of the heater core and the floor vent to open and close the floor vent and up and down the rear of the heater core in the two-laminar flow mode. An air conditioning unit having a two-layer air flow system, characterized in that the second butterfly fly door to partition. The method of claim 1, In the interior of the air conditioner case, a partition wall is formed in which the upper portion of the heater core is divided into the front and rear, and a lower end is disposed at a rotation radius of the second butterfly door, and the third flow path behind the partition wall is formed in the third passage. An air conditioning unit having a two-layer air flow system, characterized in that a fourth plate-shaped door for opening and closing the floor vent is installed together with two butterfly doors.

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