KR100973741B1 - Electronic expansion valve of air conditioner - Google Patents

Abstract

The present invention relates to an electronic expansion valve of a refrigeration cycle, and more particularly, to an electronic expansion valve of an air conditioner that can minimize the assembly space by making the structure simple and compact compared to the existing.

The electronic expansion valve of the air conditioner according to the present invention configured as described above is a lifting means for driving the opening and closing plate by using a pressure in the pressure chamber to form a pressure chamber on the lower side of the opening and closing plate responsible for opening and closing of the refrigerant outlet. By minimizing the load on the power supply, additional power supply is not required, and the overall structure is simplified and downsized, thereby reducing the assembly space of the product and reducing the manufacturing cost.

Refrigerant, valve body, opening and closing plate, lifting means, pressure chamber. Chamber plate.

Description

 Electronic expansion valve of air conditioner             

1 is a block diagram showing a cycle of a typical air conditioner,

Figure 2 is a cross-sectional view showing the configuration of the electromagnetic expansion valve of the air conditioner according to the prior art,

Figure 3 is a block diagram showing an embodiment of the electromagnetic expansion valve of the air conditioner according to the present invention.

<Explanation of symbols on main parts of the drawings>

59: refrigerant pipe 59a: refrigerant inlet

59b: refrigerant outlet 60: electromagnetic expansion valve

64: valve body 65: pressure chamber

66: lifting means 68: opening and closing plate

69: chamber plate 70: valve control unit

The present invention relates to an electronic expansion valve of a refrigeration cycle, and more particularly, to an electronic expansion valve of an air conditioner that can minimize the assembly space by making the structure simple and compact compared to the existing.

In general, the refrigeration cycle is carried out in the process of compression → condensation → expansion → evaporation using the refrigerant as a medium, it is applied to refrigerators, air conditioners and the like.

Here, the expansion means of the refrigeration cycle is to adiabatically expand the refrigerant condensed in the condenser to lower the temperature and pressure of the refrigerant and to send the amount of refrigerant suitable for the load to the evaporator. Electronic expansion valves that can actively control the amount of refrigerant discharged by reducing the opening degree are commonly used.

1 is a block diagram showing a cycle of a general air conditioner, Figure 2 is a cross-sectional view showing the configuration of the electromagnetic expansion valve of the air conditioner according to the prior art.

As shown in FIG. 1, when the air conditioner is operated, the refrigerant discharged from the compressor 8 is heat-exchanged through the condenser 2, and then, through the receiver 4, along the refrigerant pipe 9 to an outdoor unit (not shown). The refrigerant passing through the electronic expansion valve 10 is heat-exchanged in the evaporator 6, the heat-exchanged refrigerant is again entered into the compressor (8) of the outdoor unit.

By repeating this process, the room temperature condition is adjusted. In order to meet the room temperature condition, the load of the compressor 8 needs to be changed, and the opening degree of the electromagnetic expansion valve 10 must be adjusted according to the changed load of the compressor 8.                         

As shown in FIG. 2, an electromagnetic expansion valve of a conventional air conditioner includes a driving unit 20 provided in a cylindrical sealed case 12 and a lower portion of the case 12 and a refrigerant pipe 9. The valve body 14 which is in communication with each other, and the needle 16 which the tip part reciprocates up and down inside the valve body 14 to adjust the opening area of the said valve body 14 are comprised.

Here, the inlet (9a) is formed on the side of the valve body 14 is coupled to the refrigerant pipe (9) connected to the condenser 2 side, the refrigerant body connected to the evaporator 6 side on the bottom of the valve body (14) An outlet 9b to which the pipe 9 is coupled is formed.

In addition, an orifice 22 having an opening degree controlled by the needle 16 is formed at an upper portion of the outlet 9b connected in the axial direction of the needle 16.

On the other hand, the drive unit 20 is fixed to the upper end of the valve body 14, the electromagnet 26 is formed on the outer peripheral surface thereof, the cylindrical fixed body 22 having a threaded portion formed on the inner peripheral surface thereof, and the fixed body 22 ) Is inserted into the inner side and formed on the outer circumferential surface of the screw portion corresponding to the screw portion, and consists of a rotating body 24 which is moved up and down by a rotation operation.

The needle 16 formed at the lower end of the rotating body 24 is installed to open or close the orifice 22 of the valve body 14 when moving up and down.

In addition, a guide rod 32 having a thread formed on its outer circumferential surface protrudes downward in an upper surface of the case 12, and a movable member 34 having a support 34a in one side of the guide rod 32. Is fitted, the support 34a corresponds to the eccentric shaft 36 of the upper end of the rotating body 24.                         

Therefore, the eccentric shaft 36 rotates the support 34 when the rotary body 24 rotates and moves up and down, and thus the movable member 34 rotates along the thread of the guide rod 32. While moving up and down.

However, the conventional electronic expansion valve has a problem in that the structure is complicated and occupies a lot of volume, thus requiring a lot of assembly space and a high manufacturing cost.

The present invention has been made to solve the above-mentioned problems of the prior art, the structure is simple to minimize the assembly space to significantly reduce the manufacturing cost and at the same time to provide an electronic expansion valve of the air conditioner is the object have.

The electronic expansion valve of the air conditioner according to the present invention for solving the above problems is a valve body formed with a refrigerant inlet and a refrigerant outlet and a refrigerant passage therein, and the inside of the valve body to open and close the refrigerant outlet And an installed opening and closing plate, a lifting means for advancing the opening and closing plate, and a chamber plate for forming a pressure chamber for assisting the opening and closing of the opening and closing plate.

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

Figure 3 is a block diagram showing an embodiment of the electromagnetic expansion valve of the air conditioner according to the present invention.

As shown in FIG. 3, the electronic expansion valve 60 of the air conditioner according to the embodiment has a coolant pipe 59 connected to an outer surface thereof so that the coolant flows in and out of the coolant inlet 59a and outlet 59b. And a valve body 64 through which refrigerant is circulated therein; an opening / closing plate 68 installed inside the valve body 64 to selectively open the refrigerant outlet 59b; Lifting means 66 for driving the plate 68 and pressure chamber 65 for driving the opening and closing plate 68 at a constant pressure in the valve body 64 to minimize the load of the lifting means 66. It consists of a chamber plate 69 installed on the opening and closing plate 68 to form a).

Here, the opening and closing plate 68 operates up and down at the lower side of the refrigerant outlet 59b and is installed to open and close the refrigerant outlet 59b or adjust the opening degree of the refrigerant outlet 59b.

In addition, the elevating means 66 is made of a piezoelectric material (Piezoelectric material) that can exert a relatively large force of the other driving method for the continuous control of the refrigerant flow path inside the valve body 64, the elevating means 66 is electrically connected to the valve control unit 70 so that an electrical signal of the valve control unit 70 is transmitted.

The piezoelectric element is a device whose deformation is proportional to the inside of the material when the electric element is applied to the element, and its volume is changed, and is mainly used for pressure sensors.                     

That is, the opening and closing plate 68 is operated to supply a proper power to the piezoelectric element so that a flow path gap corresponding to the required pressure drop is formed.

On the other hand, the chamber plate 69 is provided on the circumferential surface of the opening and closing plate 68 to form a pressure chamber 65 on the lower side of the valve body 64 based on the opening and closing plate 68, The pressure chamber 65 is to reduce the power consumption of the elevating means 66, and guides the refrigerant introduced into the valve body 64 into the pressure chamber 65 to increase the elevating means 66. This is to minimize the load on the load.

That is, when driving the electromagnetic expansion valve 60 in the absence of the pressure chamber 65, the opening and closing plate 68 must operate against the high refrigerant pressure, so that the lifting means ( 66) a high voltage must be applied.

Therefore, in order to apply a high voltage to the elevating means 66, an additional power supply (not shown) for supplying power as well as high power consumption must be provided, and the size of the power supply increases as the capacity of the power supply increases. In addition, since the volume of the entire product is increased, the pressure chamber 65 is formed so that such a high power supply is unnecessary.

Here, the chamber plate 69 is formed to be bent downward so that the pressure chamber 65 is formed below the opening and closing plate 68 so that the volume of the pressure chamber 65 when the opening and closing plate 68 is advanced and retracted. It is formed of an elastic member whose shape is changed to correspond to this change.

Looking at the operation of the present invention configured as described above are as follows.

When the coolant is introduced into the valve body 64 through the coolant inlet 59a connected to the coolant pipe 59, a part of the coolant is moved upwardly on the boundary of the chamber plate 69, and the remaining Some are moved to the lower side of the chamber plate 69 and are led to the pressure chamber 65.

Here, the lifting means 66 is driven by the valve control unit 70 to open and close the refrigerant outlet 59b while the opening and closing plate 68 moves up and down, and the opening and closing plate 68 is lowered. When moved, the opening area of the coolant outlet 59b is increased to increase the amount of the coolant flowing into the evaporator of the indoor unit, thereby controlling the opening degree of the electromagnetic expansion valve 60.

Meanwhile, the refrigerant guided to the pressure chamber 65 exerts a pressure on the opening / closing plate 68 while halving the load necessary for the lifting means 66 to drive the opening / closing plate 68. do.

Therefore, it is not necessary to supply a large amount of power to the elevating means 66, and accordingly no additional installation of a large capacity power supply device is required, so that the total volume of the electronic expansion valve 60 can be miniaturized. do.

 The electronic expansion valve of the air conditioner according to the present invention configured as described above is a lifting means for driving the opening and closing plate by using a pressure in the pressure chamber to form a pressure chamber on the lower side of the opening and closing plate responsible for opening and closing of the refrigerant outlet. By minimizing the load on the power supply, additional power supply is not required, and the overall structure is simplified and downsized, thereby reducing the assembly space of the product and reducing the manufacturing cost.

Claims (5)

A valve body having a coolant inlet port and a coolant outlet port formed therein, and a coolant flow path formed therein; an open / close plate installed inside the valve body to open and close the coolant outlet port; elevating means for advancing the open / close plate; It comprises a chamber plate to form a pressure chamber into which the refrigerant flows, The pressure chamber is an electronic expansion valve of the air conditioner to assist the advancement of the opening and closing plate to form a predetermined pressure by the refrigerant introduced into the inside of the valve body when the lifting means is driven. The method of claim 1, The opening and closing plate of the electronic expansion valve of the air conditioner, characterized in that it operates up and down at the lower side of the refrigerant outlet and installed to open and close the refrigerant outlet. The method of claim 1, The elevating means is an electronic expansion valve of the air conditioner, characterized in that the volume is made of a piezoelectric element is variable when applied. The method of claim 1, The chamber plate is an electromagnetic expansion valve of the air conditioner, characterized in that the elastic member which is changed in shape when the opening and closing plate is advanced. The method of claim 1, And the refrigerant introduced into the pressure chamber applies pressure to the opening / closing plate when the lifting means drives the opening / closing plate.

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