KR101236717B1 - Combination structure of water temp sensor forair conditioner - Google Patents

Abstract

The present invention relates to a water temperature sensor coupling structure of the air conditioner, the purpose of which is to wrap the heater core pipe exposed to the outer surface of the air conditioning case to improve the mountability of the water temperature sensor for measuring the water temperature of the heater core built in the air conditioning case It is to provide a water temperature sensor coupling structure of the air conditioner to form a sensor receiving portion in the heat shield cover, and to fix the water temperature sensor to the sensor receiving portion with a fixed club. In the air conditioning apparatus including an air conditioning case 10 including a heater core 30 and a heat shield cover 40 surrounding the heater core pipe 32 exposed to the outside surface of the air conditioning case 10, A sensor accommodating portion 41 is formed in the heat shield cover 40, and the water temperature sensor 50 and the fixing clip 60 are fixed to the sensor accommodating portion 41, and the contact portion of the water temperature sensor 50 is formed. 51 is formed in the same curved shape as the outer surface of the heater core pipe 32, it is to close the water temperature sensor 50 to the heater core pipe 32 by the fixing clip (60).

Air Conditioning Case, Heater Core, Thermal Cover, Water Temperature Sensor, Fixed Clip

Description

Combination structure of water temp sensor forair conditioner

1 is a side partial perspective view of an air conditioning case showing a state where a water temperature sensor according to the related art is mounted on an air conditioning case of an air conditioner;

Figure 2 is a partial cross-sectional view showing a state in which the water temperature sensor according to the prior art is fixed to the air conditioning case.

3 is a schematic perspective view of a vehicle air conditioner equipped with a water temperature sensor according to the present invention.

Figure 4 is an exploded perspective view showing the main portion of the coupling structure of the water temperature sensor according to the present invention in detail.

5 is a perspective view showing a state in which the water temperature sensor is coupled to the heater cover in FIG.

6 is a cross-sectional view showing a coupling structure of the water temperature sensor according to the present invention.

7 is a front view showing the cross-sectional shape of the water temperature sensor according to the present invention.

10: case 10a: air outlet

20: evaporator 30: heater core

31: tank portion 32: heater core pipe

40: heat shield cover 41: sensor housing

42: support 50: water temperature sensor

51: contact portion 52: stepped portion

60: fixed clip 61: main body

62: elastic piece 63: fastening portion

The present invention relates to a water temperature sensor coupling structure of the air conditioner, and more particularly to the heater core pipe exposed to the outer surface of the air conditioning case to improve the mountability of the water temperature sensor for measuring the water temperature of the heater core built in the air conditioning case. It relates to a water temperature sensor coupling structure of the air conditioner to form a sensor accommodating portion to cover the heat shield cover, and to fix the water temperature sensor to the sensor accommodating portion.

In general, the inside of the vehicle is provided with an air conditioner for heating or cooling the inside and outside air to enter or circulate the inside of the vehicle to maintain an indoor temperature at an appropriate state to give a passenger a comfortable ride.

The air conditioner selectively passes air introduced into the air conditioning case by a blower unit having a blower fan through an evaporator through which a refrigerant flows or a heater core through which coolant in a vehicle engine flows. After the heat exchange, through the vent (Vent) in communication with each air outlet in the vehicle compartment by distributing in various directions of the vehicle interior in the cold or warm state in the vehicle interior air-conditioning device.

In addition, the air conditioner as described above is provided with a thermostat (FATC) as a means for adjusting the vehicle indoor temperature to the optimum state in accordance with the temperature changes of the interior and exterior of the car.

The thermostat receives input signals such as various sensors and control switches for sensing the air temperature, the outside temperature, the evaporator, the water temperature of the heater core, etc., and performs various module motors (mode door motors) through logical operations at Micom. By controlling the temp door motor and internal and external door motor), the indoor temperature is maintained at the set temperature of the driver.

Here, the sensor for detecting the water temperature of the heater core is installed on the outer surface of the heater core to detect the coolant temperature in the heater core by sensing the outer surface temperature of the heater core.

1 is a side partial perspective view of an air conditioning case showing a state where a water temperature sensor according to the related art is mounted on an air conditioning case of an air conditioner, and FIG. 2 is a partial cross-sectional view showing a state where a water temperature sensor according to the related art is fixed to an air conditioning case.

As shown in the drawing, the conventional water temperature sensor 1 is cut out on the lower side of the air conditioning case 3 in which the heater core 2 is incorporated, and is disposed on the outer surface of the tank portion 2a of the heater core 2. The air conditioner case 3 and the heater core 2 of the air conditioning case 3 and the heater core 2 are disposed to contact the outer surface of the tank portion 2a of the heater core 2 through the sensor insertion space 3a protruding into a box shape on the opposite side. It is fixedly mounted by a separate clamp 4 inserted between the tank portions 2a.

The clamp 4 includes a substantially straight main body 4a, a fixed piece 4b formed at a longitudinal end of the main body 4a, and a tank portion of the heater core 2 from the main body 4a. It consists of several elastic piece 4c which protrudes inclined to the side (2a).

The clamp 4 is located between the housing of the water temperature sensor 1 located on the outer surface of the tank portion 2a of the heater core 2 embedded in the air conditioning case 3 and the lower surface of the air conditioning case 3. (4a) While the upper surface is in close contact with the lower surface of the air conditioning case 3, the housing of the water temperature sensor 1 is elastically supported by the plurality of elastic pieces 4c to the outer surface side of the tank portion 2a, and the sensor insertion space ( The housing of the water temperature sensor 1 is fixed by being narrowed to the lower surface of the air conditioner case 3a.

As described above, only one end of the water temperature sensor 1 is fixed by the clamp 4, and the other end of the water temperature sensor 1 is exposed to the outside from the sensor insertion space 3a. It is fixed by a clip (not shown).

However, the conventional water temperature sensor 1 requires not only an insulating tube for protecting the wire exposed to the outside of the epoxy resin and the air conditioning case 3 to fix the thermistor installed inside the housing, Since the number of parts to be formed also increased, there was a problem that the cost increases.

In addition, in installing the water temperature sensor 1 in the air conditioning case 3, since the housing is to be inserted into the sensor insertion space 3a formed in the lower part of the air conditioning case and then fixed separately by the clamp 4, The installation work is cumbersome, and also due to the increase in the number of work processes, there is a problem in that work efficiency and productivity are reduced.

In addition, by separately cutting the sensor insertion space (3a) for installing the water temperature sensor (1) in the lower air conditioning case (1), air leaks to the outside through the sensor insertion space (3a) to improve the air conditioning performance There was a problem of deterioration.

On the other hand, in order to prevent such air conditioning leakage phenomenon may be provided with a separate sealing member in the sensor insertion space (3a), in this case will lead to a cost increase.

An object of the present invention for solving the above problems is to improve the mountability of the water temperature sensor for measuring the water temperature of the heater core embedded in the air conditioning case, the heater core pipe exposed to the outside surface of the air conditioning case to increase the accuracy of the detected temperature Forming a sensor accommodating portion in the heat shield cover surrounding the, and provides a water temperature sensor coupling structure of the air conditioner to fix the water temperature sensor to the sensor accommodating portion.

The present invention for achieving the above object is an air conditioner comprising a heater core and a heat shield cover surrounding the heater core pipe exposed to the air conditioning case outer surface, in the heat shield cover, A sensor accommodating part is formed, and the water temperature sensor and the fixed clip are fixed to the sensor accommodating part, the cross-sectional shape of the water temperature sensor is formed in a T-shape, and the lower surface is formed in the same shape as the outer surface of the heater core pipe. The fixing clip is to improve the adhesion between the water temperature sensor and the heater core pipe is formed with an elastic piece.

In addition, the fastening portion is formed on the upper surface of the fixing clip, the fastening portion is coupled to the upper surface of the sensor receiving portion.

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

Prior to the description, the automotive air conditioner for applying the water temperature sensor according to the present invention is a semi-center mounting type air conditioner in which an evaporator and a heater core are integrally formed in one air-conditioning case. It is not limited to this type of air conditioner.

Figure 3 shows the air conditioning case of the air conditioner as seen from the rear side.

The air conditioning case 10 according to the present invention is formed at an air inlet (not shown) connected to a blower duct of a blower unit for introducing air into and out of a vehicle at an inlet end, and is formed at an outlet end to discharge air into a vehicle interior, respectively. It comprises a plurality of air discharge port (10a) for the purpose, and consists of a structure including an evaporator 20 and a heater core 30 which is a heat exchanger for selectively heat-exchanging the air introduced through the air inlet therein.

In addition, inside the air conditioning case 10, a temporal door (not shown) between the evaporator 20 and the heater core 30 to adjust a temperature of air selectively introduced from the air inlet and heat exchanged, and the temp A plurality of blowing mode doors (not shown) are provided for selectively changing the flow direction of the air discharged through the air discharge port 10a according to the opening angle of the door.

In addition, the heater core 30 has two heater core pipes 32 for inflow and outflow of cooling water, which is a working fluid, are connected to any one side or each of the upper and lower tank portions 31 of the heater core 30. The heater core pipe 32 is exposed to the outside of the air conditioning case 10 in a constant shape and length so as to be connected to an engine seated at a predetermined position of the vehicle engine room.

Since the heater core pipe 32 exposed to the outside of the air conditioning case 10 may be in contact with the driver's foot due to the high temperature of the coolant flow, the heater core pipe 32 may be disposed on the outside of the heater core pipe 32 to block this. The heat shield cover 40 is provided.

4 to 7 is a detailed view of the coupling structure of the water temperature sensor according to the present invention.

As illustrated, the water temperature sensor coupling structure of the present invention forms a sensor accommodating portion 41 in the heat shield cover 40, and fixes the water temperature sensor 50 and the fixed clip 60 to the sensor accommodating portion 41. By measuring the coolant temperature of the heater core (30).

The sensor accommodating portion 41 is formed in a box shape with an approximately front open, and the water temperature sensor 50 and the fixed clip 60 are coupled to the open front.

In addition, it is preferable that the support 42 is formed to support the stepped portion 52 of the water temperature sensor 50 to be described later on both inner bottom surfaces of the sensor accommodating portion 41.

When the water temperature sensor 50 has a T-shaped cross section and is in contact with the heater core pipe 32, that is, the contact portion 51 is formed in the same curved shape as the outer surface of the heater core pipe 32, The stepped portion 52 is formed on both sides of the outer surface to be coupled to the support portion 42 of the heat shield cover 40 to improve the coupling force and to increase the accuracy of temperature sensing of the water temperature sensor.

That is, the water temperature sensor 50 is to make the cross-section of the housing in which the thermistor (not shown) is formed in a T-shape, thereby increasing the outer area of the housing made of aluminum affecting heat transfer, and the inside of the housing The amount of epoxy filled can be reduced to reduce the cost, and the contact portion 51 is formed to have the same curved shape as the outer surface of the heater core pipe 32 to improve the heat transfer efficiency.

The fixing clip 60 is formed of an elastic piece 62 on the lower side of the main body 61 of the flat plate shape is inserted into the sensor receiving portion 41 of the heat shield cover 40 and the heater core The adhesion of the pipe 32 is to be improved.

In addition, the fastening portion 63 is formed at one end of the main body 61 of the fixed clip 60 so that the fastening portion 63 is coupled to the upper surface of the sensor accommodating portion 41, thereby fixing the fastening clip 60. When the combined cooling water temperature sensor is attached to the transport or air conditioning case 10, it is possible to prevent the detachment of the fixing clip (60).

The water temperature sensor fixing structure of the air conditioner of the present invention configured as described above is a tank of the heater core 30 as in the prior art in measuring the coolant temperature of the heater core 30 which is built in the air conditioner and heat exchanges the coolant of the engine. Instead of measuring the temperature of the unit 31, the temperature of the heater core pipe 32 protruding outward of the air conditioner is measured and controlled.

Here, the heat shield cover 40 surrounding the outside of the heater core pipe 32 is fixed, and the water temperature sensor 50 is fixed to the sensor accommodating portion 41 formed in the heat shield cover 40. Will be fixed together.

The water temperature sensor 50 is formed in a T-shaped housing, the contact portion 51 which is in contact with the heater core pipe 32 is made of the same curved shape as the outer surface of the heater core pipe 32, heat transfer In addition to improving the efficiency, it is possible to reduce the cost by reducing the amount of epoxy injected into the housing of the water temperature sensor 50.

In addition, the fixing clip 60 is to support the housing of the water temperature sensor 50 with the elastic piece 62 to improve the adhesion between the water temperature sensor 50 and the heater core pipe 32, the fixed clip 60 Fastening portion 63 formed on the upper surface of the coupling is coupled to the upper surface of the sensor accommodating portion 41 formed in the heat shield cover 40, it is possible to prevent departure or the like during movement.

The water temperature sensor coupling structure of the air conditioner according to the present invention is to form a sensor receiving portion in the heat shield cover surrounding the heater core pipe exposed to the air conditioning case outer surface, to fix the water temperature sensor to the sensor receiving portion with a fixed club By doing so, the mountability of the water temperature sensor for measuring the water temperature of the heater core embedded in the air conditioning case can be improved.

In addition, the water temperature sensor according to the present invention is formed of a T-shaped housing to increase the heat transfer area transferred from the heater core pipe, it is possible to reduce the cost by reducing the amount of epoxy injected into the inner surface of the housing.

In addition, by forming a fastening portion at an upper end of the fixing clip so that the fastening portion is coupled to the upper surface of the sensor accommodating portion, it is possible to prevent the separation of the fixing clip when the heater cover combined with the fixing clip is attached to the transport or air conditioning case. It is.

Claims (3)

In the air conditioning apparatus including an air conditioning case 10 including a heater core 30, and a heat shield cover 40 surrounding the heater core pipe 32 exposed to the outer surface of the air conditioning case 10, The heat shield cover 40 is formed with a sensor accommodating portion 41, and fixed to the water temperature sensor 50 and the fixing clip 60 in the sensor accommodating portion 41, The contact portion 51 of the water temperature sensor 50 is formed in the same curved shape as the outer surface of the heater core pipe 32, and the water temperature sensor 50 by the fixing clip 60 to the heater core pipe 32 Close to the The sensor accommodating portion 41 is a water temperature sensor coupling structure of the air conditioner, characterized in that formed integrally with the heat shield cover (40). The air conditioner of claim 1, wherein the water temperature sensor 50 forms a step portion 52 on both sides of an outer surface thereof to be supported and coupled by the support portion 42 of the heat shield cover 40. Combined structure of water temperature sensor. According to claim 1, The fixing clip 60, the elastic piece 62 for supporting the upper surface to the water temperature sensor 50 is formed on the lower side of the main body 61 of the flat plate form, Water fastening sensor coupling structure of the air conditioner, characterized in that the fastening portion 63 is formed on one side end is coupled to the upper surface of the sensor receiving portion (41).

Images