KR20180095654A - Two-stage electronic expansion valve - Google Patents

Abstract

Stage electronic expansion valve in which the bellows 11 is covered on the outer surface of the valve rod 15 and the bellows is extended or contracted by the reciprocating motion of the valve rod. The valve core 12 is cylindrical and has a first cavity 123 and a second cavity 124 at both ends thereof and a second valve hole 125 communicating with the first cavity 123 and the second cavity 124, A valve hole is formed between the first cavity and the second cavity and a valve hole is formed in the valve core so as to communicate the first cavity and the outer space of the valve core, A first noise member 1231 is installed in the first cavity to maintain a constant flow rate between the first cavity and the second cavity and cover the normally open type device.

Description

Two-stage electronic expansion valve

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerating device field, and more particularly, to a two-stage electronic expansion valve used in an inverter air conditioner.

The electronic expansion valve is mainly used in the inverter air conditioning system. It drives the decelerator directly by driving and rotating the motor by the high pulse frequency current, and also the screw thread pair. It is transmitted by the valve rod to lift the valve gears, The flow rate of the refrigerant is automatically adjusted so that the refrigerant circuit system always maintains the highest state.

1 is a view showing a structure of a conventional electronic expansion valve.

As shown in Fig. 1, a conventional electronic expansion valve mainly comprises a valve body portion for regulating a flow rate and a coil portion used for driving. Here, the coil portion includes a screw coupling structure 5 'for converting the rotational motion of the motor 1', the speed reducer 2 ', and the motor 1' into the vertical motion of the screw rod 3 ' , And a motor case 6 ', and the motor case 6' is riveted to the outside of the gear box 9 'outside the reducer 2'. The valve body portion includes key components such as a valve seat 14 ', a valve rod 15', and a bellows 11 'for controlling the elevation of the valve gears 12'. The principle of operation of the expansion valve is that the rotor of the motor 1 'rotates to rotate the reducer 2' and is transmitted by the threaded structure 5 'so that the screw rod 3' moves downward and the valve gears 12 'push down the force transmitting component bush 16' and the valve rod 15 '. At this time, the bellows 11 'continues to extend. Applying a reverse pulse will cause the screw rod 3 'to move upward and the valve teeth 12' will continue to move upward under the action of restoring resilience and system pressure of the bellows 11 ' To change the passage area, to control the flow rate, and to adjust the system.

In the structure of such an electronic expansion valve, in a period from the fully closed state to the adjustment of the initial proprietary amount, that is, the valve gears 12 'gradually contact the valve hole 13' ', The degree of opening of the valve hole 13' is small so that the flow rate can be definitely limited, the speed of the fluid passing through the valve hole portion is greatly increased, and the abnormal noise due to the vortex of a specific frequency is generated Which ultimately affects the feeling of the user. In addition, according to the electronic expansion valve having such a structure, the valve hole 13 'is large, so that the control range in the amount of ownership is narrow and it is disadvantageous in adjustment of higher precision.

Therefore, designing an electronic expansion valve that can reduce noise in the initial proprietary control range and improve the proprietary width and accuracy remains a challenge for those skilled in the art.

SUMMARY OF THE INVENTION The present invention provides a two-stage electronic expansion valve for an inverter air conditioner which can improve the accuracy of adjustment of the amount of oil in the control of the oil amount while suppressing noise in the oil amount control range.

According to one aspect of the present invention, there is provided a two-stage electronic expansion valve for an inverter air conditioner, comprising a motor and a speed reducer connected to an output end of the motor, wherein a bellows is covered on an outer surface of the valve rod, And a valve core in which a proprietary adjustment mechanism composed of a lower portion of the valve rod and a second valve hole provided inside the valve core is opened or closed according to the valve rod Including,

The valve core is cylindrical and has a first cavity and a second cavity at both ends thereof, a second valve hole is opened between the first cavity and the second cavity, a flow port is formed in the valve core, The first cavity communicates with the outer space of the valve core.

A normally open type device is provided between the first cavity and the second cavity to maintain a constant flow rate between the first cavity and the second cavity at all times and a first noise member is further provided in the first cavity to cover the normally open type device .

The first silencing member is annular and is installed in the end face of the normally open type device.

The normally open type device is a normally open type hole provided inside the valve core.

A second noise member is installed in the first cavity so that the fluid introduced from the flow passage is muffled by the second noise member and then discharged from the second valve hole.

And a third noise member is installed in the second cavity.

And a bottom portion of the valve core fixes the third noise insulating member in the second cavity in a compressed deformed state.

According to the two-stage electronic expansion valve of the present invention, the bottom end of the valve core and the first valve hole are always in contact with each other at the time of controlling the ownership amount, most of the fluid is introduced from the flow passage, Through the hole. In addition, some other fluid may be introduced into the first cavity from the gap between the valve rod and the obstruction, and then re-extinguished again by the third noise member, and when the fluid passes through the noise member, The noise is reduced by eliminating the vortex that is dispersed sufficiently. At the same time, the volume control is performed mainly by the second valve hole provided inside the valve core, so that the flow control range is wider and the precision is higher under the condition of the same pulse quantity.

The drawings constituting part of this disclosure are intended to facilitate understanding of the present invention, and the exemplary embodiments and explanations of the present invention are for interpretation of the present invention and are not intended to limit the present invention.
1 is a view showing the structure of an electronic expansion valve according to the prior art.
2 is a view showing a structure of a specific embodiment of a two-stage electronic expansion valve according to an exemplary embodiment of the present invention.
3 is a cross-sectional view showing a partial structure of a specific embodiment of the present invention.
4 is a view showing a structure of a washer according to a specific embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS In order that those skilled in the art may better understand the teachings of the present invention, the present invention will be described in more detail by combining the following figures and specific embodiments.

FIG. 2 is a view showing a structure of a specific embodiment of a two-stage electronic expansion valve according to an embodiment of the present invention, and FIG. 3 is a diagram showing the structure of a valve core according to a specific embodiment of the present invention.

As shown in FIG. 2, the two-stage electronic expansion valve provided in the present invention mainly comprises a valve body portion for controlling the flow rate and a coil portion for driving the valve body portion. Here, the coil portion includes a motor 1, a speed reducer 2 connected to the output end of the motor 1, and a screw coupling structure 5, and is connected to the lower end of the speed reducer 2 via a screw- The rod 3 is connected and the threaded engagement structure 5 converts the rotational motion of the motor 1 into the reciprocating motion of the screw rod 3. [ The nut 4 is connected between the screw rod 3 and the gear box 9 and the gear box 9 is covered on the outer surface of the reducer 2. The motor case 6 of the motor 1 is connected to the gear box 9 As shown in Fig.

The valve body portion includes a valve seat (14) and a valve rod (15), and the outer surface of the valve rod (15) is covered with a bellows (11). The bellows 11 is extended or contracted in accordance with the reciprocating motion of the valve rod 15 and the valve core 15 and the valve rod 15 are mutually movably connected to each other, 12 can be achieved, so that the first valve hole 13 provided in the valve seat 14 can be opened or closed.

As used herein, "interchangeably connected" means that the valve core and the valve rod are relatively free to move but can not be released during operation.

The outer surface of the valve core 12 is formed in a generally cylindrical shape and has a large-diameter section 121 and a small-diameter section 122. The first cavity 123 is formed at one end near the large diameter section 121 and the second cavity 124 is formed at one end near the small diameter section 122. The first cavity 123 and the second cavity The second valve hole 125 is opened. Here, the first cavity is located above the second cavity. An annular flange is provided on the inner wall of the valve core and an inner hole of the annular flange forms a second valve hole, and the normally open type device is installed on the annular flange.

3, in the present embodiment, the flow-in portion 1211 is formed so as to allow fluid to flow from the outer circumferential wall 121 of the large-diameter section 121 to the outer circumferential wall of the large- It is a multiplicity of processed planes. However, a person skilled in the art can design the shape of the circulation part 1211 in the form of a groove, a hole or the like, within the scope of the technical idea of the present invention, and the fluid can pass through between the upper end and the lower end of the large- It should be.

The lower end 152 of the valve rod 15 extends to the inside of the first cavity 123 and cooperates with the second valve hole 125 and is in contact with or separated from the second valve hole 125, 125) is opened or closed to adjust the flow rate. An obstruction 126 is further provided in the first cavity 123 so that the valve rod 15 and the valve core 12 are connected to each other and the obstacle 126 is fixedly connected to the inner wall of the large diameter section 121. The two may be welded, crimped or otherwise secured.

An annular groove 151 is formed near the end of the valve rod 15 and a position limiting member is provided in the annular groove 151. The valve rod 15 and the interference portion 126 can be maintained in a connected state in which the valve rod 15 and the interference portion 126 can move relatively. In the present embodiment, the position restricting member is specifically a washer 127. Specifically, the washer 127 is held in the annular groove 151 and the valve rod 15 can not be released from the restriction of the obstruction 126. [ Specifically, after the valve rod 15 is inserted into the interference portion 126, the washer 127 is disposed in the annular groove 151, and then the interference portion 126 is inserted into the large-diameter section 121 And restricting the maximum position at which the valve rod 15 moves upward by the interference portion 126 and the washer 127.

4 is a view showing a structure of a washer according to a specific embodiment of the present invention. The washer 127 is generally "C" shaped and has an opening 1272 for insertion into the annular groove 151 of the valve rod 15. In the inside of the washer 127, three contact portions 1271 are provided. After the assembly, the notches are formed in close contact with the circumferential wall of the annular groove 151 and between the adjacent contact portions 1271. Here, FIG. 4 is a specific embodiment, and a person skilled in the art will be able to obtain other variations upon such technical suggestions. For example, it is possible to realize the object of the present invention by removing the notch portion and connecting the contact portions 1271 integrally. The shape of the annular groove 151 is not limited to the shape using the washer or the holding or fixing degree. For example, the annular groove 151 may be formed by forming a through hole in the annular groove 151 and using the positioning pin, The limiting connection between the disturbing portion 126 can be realized. The above positioning method is also included in the protection scope of the present invention.

The flow port 1221 is formed in the outer circumferential surface wall of the small diameter section 122 of the valve core 12 and the number of flow ports 1221 may be one or a plurality. The flow port 1221 allows the first cavity 123 to communicate with the outer space of the valve core 12 and the fluid can flow from the flow port 1221 into the first cavity 123. The second noise member 128 is provided in the first cavity 123 between the flow port 1221 and the second valve hole 125 and the fluid introduced from the flow port 1221 is supplied to the second noise member 128 And then discharged from the second valve hole 125. [ As shown in FIG. 3, the second noise absorbing member 128 may be designed in an annular shape to fill the first cavity 123.

The second cavity 124 is provided at the lower end of the small diameter section 122 and the third noise member 129 is installed at the second cavity 124. The lower end portion of the small-diameter section 122 may be deformed in such a manner that the third noise member 129 may be fixed within the second cavity 124 when the operator assemble it.

The second noise absorbing member 128 and the third noise absorbing member 129 may be formed of a porous filter net, a wire winding, powder sintering or the like. The third noise member preferably comprises a plurality of stacked noise blocks. In the present invention, the material or the shape of the noise member is not limited.

A constant flow rate must be secured even after the first valve hole 13 is closed by the valve core 12 so that the two-stage electronic expansion valve has a dehumidifying function. In order to realize the above object, a normally open type device is provided between the first cavity 123 and the second cavity 124 in the present embodiment. In the present embodiment, the normally open type device is a normally open type hole 130, whereby a part of the flow rate can always flow between the two connection pipes of the two-stage electronic expansion valve. However, it is not limited to providing the normal open hole 130 as a means for securing a constant flow rate after the first valve hole 13 is closed, and it can be replaced by various technical means. For example, an inclined hole may be formed in the small-diameter section 122 to directly communicate the second cavity 124 to the outside of the valve core 12 or to form a groove, Even when a large number of flow grooves are formed in the wall, a constant flow rate can be ensured after the valve body is closed. Those skilled in the art will appreciate that the use of a number of alternative means within the contemplation of the invention is also within the scope of protection of the present invention.

A proprietary control mechanism is formed between the lower end 152 of the valve rod 15 and the second valve hole 125 in the valve core 12. [

The two-stage electronic expansion valve is operated so that some fluid still flows through the valve rod 15 and the disturbance portion 126 due to the presence of a certain clearance between the valve rod 15 and the obstruction 126, To the first cavity (123). At this time, such a fluid flows directly into the normally open-type hole 130, so that there is still a constant noise.

In the present embodiment, the first noise absorbing member 1231 is provided in the end face of the normally open type hole 130 in the first cavity 123, and the first noise absorbing member 1231 is formed of a porous member having an annular structure . However, the first noise absorbing member 1231 is not limited to the annular shape but may be any other member that can cover the normally open type hole 130. When the normally open type device has other structures, the function of the normally open type device can be realized by providing the first noise member at the entrance or inside of the normally open type device.

Thus, even if the fluid is introduced from the clearance between the valve rod 15 and the obstruction 126 and the filtering noise treatment of the second noise-deadening member 128 is not performed, the first noise- The noise can be partially realized by passing through the first noise-absorbing member 1231 and flowing into the normally open-type hole 130.

When the valve rod 15 moves from the top to the bottom, the bellows 11 is in the extended state and the valve core 12 is in the state in which the lower end face of the obstacle 126 is always in contact with the upper face Respectively. The valve rod 15 continues to move downward after the valve core 12 has moved down to the maximum position and contacted the first valve hole 13. At this time, The second valve hole 125 of the valve rod 15 comes into contact with the second valve hole 125. At this time, the two-stage electronic expansion valve Is closed.

The bellows 11 is contracted and the valve rod 15 is moved from below to above and the valve core 12 is subjected to the action of the differential pressure so that the valve core 12 The bottom surface still maintains contact with the first valve hole 13. The valve rod 15 continues to move upward and eventually the upper end surface of the washer 127 comes into contact with the lower end surface of the obstruction portion 126. In the process of continuously moving the valve rod 15 upward, the disturbance portion 126 is also moved upward, and at this time, the entire valve core starts to move upward. When the motor 1 is opened with a fully open pulse, the entirety of the two-stage electronic expansion valve is brought into a fully opened state.

In the above-described process, in the adjustment distance before the upper end surface of the washer 127 contacts the lower end surface of the obstacle 126, the flow rate is mainly controlled by the lower end 152 of the valve rod 15 and the second end Is controlled by the degree of opening between the valve holes 125, that is, the volume control period. By reducing the number of valve holes, the range of the flow rate can be further widened under the same pulse quantity condition. When the entire valve core 12 is moved upward by the valve rod 15, the flow rate is mainly controlled by the degree of opening between the valve core 12 and the first valve hole 13, that is, the large flow control period.

As described above, the lower end portion of the valve core 12 and the first valve hole 13 are always in contact with each other in the proprietary control section. At this time, most of the fluid flows from the flow port 1221, is subjected to the noise by the second noise member 128, and then passes through the second valve hole 125. Some other fluid is introduced into the first cavity 123 from the gap between the valve rod 15 and the obstruction 126 and then is again subjected to the noise treatment by the third noise member 129 and the fluid passes through the noise member It is possible to remove the vortices that are dispersed sufficiently by the action of the multi-layer mesh and to reduce the noise.

That is, according to the two-stage electronic expansion valve provided in the present invention, since the fluid passes through the noise-like noise member and the vortices and the like inside thereof are largely removed and dispersed, The noise problem can be solved. At the same time, since the second valve hole 125 is formed in the valve core 12, the flow rate can be adjusted and the accuracy of the flow rate can be further improved under the same pulse quantity condition.

However, the terms of the upper, lower, left, and right positions described in the present invention are based on the structure shown in the drawings for the specification, and do not limit the scope of protection of the present invention.

The electronic expansion valve for the inverter air conditioner provided in the present invention has been described in detail above. Although the principles and embodiments of the present invention have been described in detail in the present application, the description of the embodiments is intended to understand the method and the spirit of the present invention. Those skilled in the art will be able to make various improvements or modifications of the invention without departing from the principles of the invention, and such improvements or modifications are within the scope of protection of the present invention.

1: Motor 2: Reducer
3: screw rod 4: nut
5: Screw connection structure 6: Motor case
9: gear box 11: bellows
12: valve core 13: first valve hole
14: valve seat 15: valve rod
121: Large diameter section 1211: Distribution section
122: small diameter section 1221:
123: first cavity 1231: first noise member
124: second cavity 125: second valve hole
126: interference part 127: washer
1271: contact portion 1272: opening
128: second noise member 129: third noise member
130: normal open hole 151: annular groove
152:

Claims (10)

A two-stage electronic expansion valve comprising a motor, a speed reducer connected to an output end of the motor, and a bellows covered by the valve rod and extending or contracted by reciprocating movement of the valve rod,
Further comprising a valve core in which a volume adjusting mechanism is provided, the volume adjusting mechanism including a valve stem having a first valve hole opened or closed according to the valve rod and a second valve hole provided in a lower end of the valve rod,
Wherein the valve core is cylindrical and has a first cavity and a second cavity at both ends thereof, and the second valve hole is opened between the first cavity and the second cavity, The first cavity communicates with the outer space of the valve core,
A normal open type device installed between the first cavity and the second cavity to maintain a constant flow rate between the first cavity and the second cavity; and a second noise type device installed in the first cavity to cover the normally open type device, And the second expansion valve.
The method according to claim 1,
Wherein the first silencing member is annular and is installed in a cross section of the normally open type device.
The method according to claim 1,
Wherein the normally open type device is a normally open type hole provided inside the valve core.
The method according to claim 1,
Further comprising a second noise member installed in the first cavity and configured to cancel noise of a fluid flowing into the flow passage and discharge the fluid to the second valve hole.
The method according to claim 1,
And a third noise member installed in the second cavity.
The method of claim 5,
Wherein the third noise insulating member is fixed in the second cavity in such a manner that a bottom portion of the valve core is crimped and deformed.
The method according to claim 1,
An annular groove is formed near the end of the valve rod, a position restricting member is disposed in the annular groove,
Wherein the valve rod and the obstruction portion are maintained in a connected state in which the valve rod and the obstruction portion are relatively movable by the position limiting member.
The method according to claim 1,
Wherein the first cavity is located on top of the second cavity.
The method according to claim 1,
Wherein an annular flange is provided on an inner wall of the valve core, the second valve hole is formed by an inner hole of the annular flange,
Wherein the normally open type device is installed in the annular flange.
The method of claim 6,
Wherein the third noise member comprises a plurality of stacked noise blocks.

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