JP2001324043A - Electrically-operated valve - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electrically-operated valve capable of providing a large flow rate by two valve ports provided on a main body and driving a tentative refrigerating cycle by a manual opening and closing device to manually open and close the valve ports in the case when the electrically-operated valve does not work due to failure of the electrically-operated valve, failure of a microcomputer, etc. SOLUTION: This electrically-operated valve constitutes its characteristic feature of forming the second valve port 37 a little larger in diameter than the first valve port at the time of providing the first valve port 36 and the second valve port 37 on a bulkhead formed on a main body 1, making a valve body 5 furnished with a first valve part 5b and a second valve part 5c face parts of these valve ports 36, 37 changing a clearance between the respective valve parts provided on the two valve ports and the valve body 5 through a valve shaft 13 by electrification control to a motor and installing the manual opening and closing device 32 to manually open and close the valve body 5.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric control expansion valve used in a refrigeration cycle of a room air conditioner or a refrigerator, or an electric control valve used as a proportional control valve used in combination with a microcomputer in general industrial fields. It is about a valve.

[0002]

2. Description of the Related Art As an example of a motor-operated valve controlled by a microcomputer by combining an electric drive mechanism and a valve, a motor-driven valve having a configuration as shown in FIG. The configuration will be described below. The conventional motor-operated valve has a fitting portion 60a
Male screw 60b, shaft portion 60c, and lower male screw 60
a valve shaft 60 formed by rotating the valve shaft 60 by an electric drive mechanism 63 and converting the rotation into a linear rotation by a female threaded propulsion bearing 59, the upper part of which is connected to the electric drive mechanism 63. Main body I51, doorway pipe 5
The main body II 52 having the sealing members 55 and 54 is provided with a resin sealing material 55a.
Are connected by an appropriate means via a seal guide 55 equipped with a. A room I is provided at the center of the main body I51.
A valve body 56 having a chamber II 65 formed below the main body II 52 connected to the inlet / outlet pipe 53 and having a pressure equalizing portion 56 a slidable up and down and having a diameter of φd ₂ in the chamber I 64. And a bearing 5 is provided in a hole 56b of the valve body 56.
7 is fixed with a collar 58, and a shaft portion 60c at the lower end of the valve shaft 60 is inserted into the inner surface of the inner ring 57b. is fixed a male screw 60b of the shaft lower end at the adjusting screw 62 with placing the spring 61, to form a valve bore .phi.d ₁ of the main body II52 lower end on the same diameter as the diameter .phi.d ₂ of the valve body pressure equalizing part 56a At the same time, the hole 56b of the valve body communicates with the chamber I64. When the valve is closed, the valve body 56 is pushed down via the spring 61, and when the valve is opened, the bearing 57 fixed to the valve body 56 by the adjusting screw 62 is lifted. The lower end tapered portion 56c of the valve body 56 and the main body II5
2 The gap between the lower end and the valve port is changed to control the flow rate.
No vertical force acts on 6.

[0003]

In the conventional product configured as described above, since the motor-operated valve has one valve port, it is necessary to increase the size in order to obtain a large flow rate. As a countermeasure, the resin sealing material 55a is expensive because it uses an ethylene tetrafluoride resin.

Further, if the motor-operated valve installed in the refrigeration cycle fails or the microcomputer stops operating due to a malfunction of the microcomputer, the motor-operated valve must be replaced or replaced.
There was a problem that the refrigeration cycle was not controlled until the microcomputer was repaired.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and in an electric valve controlled by a microcomputer by combining an electric drive mechanism and a valve, a valve element is indirectly connected to a valve shaft. And the first valve port and the second valve port formed in the partition wall in the main body have substantially the same diameter and are substantially coaxial, and when the valve is closed, the outflow sides of the respective valve ports are equalized. And a vertical force acting on the valve element due to the pressure of the fluid is canceled out.
A large flow can be obtained with one valve port,
The provisional refrigeration cycle can be operated by a manual opening / closing device that manually opens and closes the valve port when the motor-operated valve fails or the microcomputer fails and the motor-operated valve stops operating. An object of the present invention is to provide a valve that is small and inexpensive and that can be controlled by a manual opening / closing device even if a failure occurs, by using a Teflon packing having a small sliding resistance in order to prevent chattering of the rod.

[0006]

A motor-operated valve according to a first aspect of the present invention is a motor-operated valve in which a valve body is axially operated by a motor. And a chamber I33 is formed in the partition, and a chamber IIa34 and a chamber IIb35 are provided in an upper portion and a lower portion of the partition, respectively, a first valve port 36 is provided in a lower portion of the partition, and a first valve port 36 is provided in an upper portion. When providing the two valve ports 37, the diameter of the second valve port 37 is formed to be slightly larger than the diameter of the first valve port 36, and these valve ports 36, 37 are formed to have a diameter larger than that of the first valve port. A valve body 5 having a first valve portion 5b and a second valve portion 5c formed in a small diameter is faced, and provided to the two valve ports and the valve body 5 via a valve shaft 13 by controlling the power supply to a motor. The flow rate is controlled by changing the gaps between the respective valve portions, and when the valve is closed, the flow rate is controlled by the chamber IIa34. IIb35 is characterized in that it has to be the pressure equalizing.

The motor-operated valve according to the second invention is characterized in that a manual opening / closing device 32 for manually opening and closing the valve body 5 is attached.

In the electric valve according to the third aspect of the present invention, the male screw 13b housed in the case 2 is energized by energizing the stator 26 of the motor fixed to the outer periphery of the cylindrical case 2 made of a non-magnetic material. An electric valve that rotates a rotor 14 of a motor integrally formed with a valve shaft 13 and converts the rotation into a linear motion of the valve shaft 13 by a female threaded propulsion bearing 11. A U-shaped partition wall 1a is provided in the portion to form a chamber I33 in the partition wall, and a chamber IIa34 and a chamber IIb35 are provided in an upper portion and a lower portion of the partition, respectively.
When the first valve port 36 is provided in the lower portion of the partition and the second valve port 37 is provided in the upper portion, the diameter of the second valve port 37 is formed to be slightly larger than the diameter of the first valve port 36. A valve body 5 having a first valve portion 5b and a second valve portion 5c formed with a smaller diameter than the first valve diameter is provided in the valve ports 36 and 37 at the chamber IIa34 and the chamber IIa. I33 and IIb35 are connected to each other so as to be slidable up and down.
The outer ring 8a is press-fitted and fixed by a collar 9 and a shaft 13d below the valve shaft 13 is provided on the inner surface of the inner ring 8b.
And a male screw 13e at the lower end of the shaft is fixed with an adjusting screw 18 to push down the valve body 5 without rotating the valve body 5 via the spring 17 when the valve is closed. At 18, the bearing 8 fixed to the valve body 5 is lifted, so that no vertical force acts on the valve body 5 even if refrigerant flows in from any of the inlets and outlets 3, 4 of the refrigerant. Is characterized in that a large flow rate can be obtained by the two valve ports of the first valve port 36 and the second valve port 37 without requiring large power.

The motor-operated valve according to the fourth aspect of the present invention is characterized in that
A rod guide 21 hermetically fixed by a metal seal to a lower portion of the rod guide, a rod 22 fitted to the inner surface of the rod guide 21 and held airtight by an O-ring 24;
A manual opening / closing device 32 is constituted by the hexagonal bar 23 press-fitted and fixed to the lower end of the rod 22, and after removing the body plug 25 airtightly fixed to the lower part of the main body 1, the hexagonal bar 23 is manually moved. The rod 2
2 is rotated up and down and the rod 22 is rotated upward, the tapered surface 22a of the rod 22 comes into contact with the lower end of the valve body 5, and the spring 17 is contracted. When the body 5 is pushed up to open the valve and the rod 22 is rotated downward, the tapered surface 22 of the rod 22
4. A device according to claim 3, wherein a manual opening / closing device (32) is mounted so as to push down the valve body (5) and close the valve by extending the spring (17) away from the lower end of the valve body (5). .

Further, in the motor-operated valve according to the fifth invention, a Teflon packing 6 is mounted via a collar 7 in a hole 5a of the valve body 5 in which the upper part of the rod slides as a measure against chattering of the valve body. The valve body 5 can smoothly slide vertically on the outer surface of the rod 22 with respect to the rod 22.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a specific embodiment of the motor-operated valve of the present invention will be described with reference to the drawings. 1 is a longitudinal sectional view of the motor-operated valve of the present invention, FIG. 2 is a sectional view taken along line AA of FIG. 1, FIG. 3 is a sectional view taken along line BB of FIG. 1, and FIG. 5 is an enlarged vertical section of the Teflon packing part of FIG. 1, and FIG. 6 is an enlarged vertical section showing a flow control part of FIG.

The electric drive mechanism 31 includes a motor stator 26.
The rotor 14 of the motor in the cylindrical case 2 made of a non-magnetic material is rotated by energizing the motor. In order to control the number of rotations of the rotor 14 in the left-right direction, a stopper 20 is provided on the back surface of the lid 19 at the upper end of the case 2 at a position away from the center so as to hang down. A shaft 13c is provided at an upper portion of the valve shaft 13 integrally formed with the shaft 13c. The shaft 13c has a central portion formed in a spiral shape and has projections 16a and 16b at upper and lower ends, respectively. The guide wire 16 is extrapolated, the upper protruding piece 16a is fixed to the upper end of the shaft 13c, and the lower protruding piece 16b is provided with a downwardly bent engaging portion 16c. Is provided with a ring-shaped guide pin 15 composed of a ring portion 15a rotated substantially once along a helix and an arm 15b extending above the ring portion 15a in an outer circumferential direction so as to abut against the stopper 20. The ring-shaped guide pin 15 guides the upper end portion of the ring portion 15a of the guide pin 15 when moving upward along the helical groove of the guide line 16 line 16
When the guide pin 15 moves downward along the spiral groove of the guide wire 16, the arm 15a of the guide pin 15 comes into contact with the engaging portion 16c formed on the lower projecting piece 16b. It has become.

The valve shaft 13 fixed to the rotor 14 of the motor has a fitting portion 13a connected to the rotor 14 of the motor of the electric drive mechanism 31 from above, a male screw 13b, and an upper shaft portion 13c. It is formed by a lower shaft portion 13d and a lower male screw 13e.

The main body 1 is provided with entrance / exit pipes 3 and 4 symmetrically on its side, and a portion connected to the entrance / exit pipe 3, that is, a U-shaped partition wall 1 a is formed at the center of the main body 1.
To form a chamber I33 in the partition, and a chamber IIa34 and a chamber IIb35 in the upper part and the lower part of the partition, respectively.
Is provided. A first valve port 36 connecting the chamber I33 and the chamber IIb 35 and a second valve port 37 connecting the chamber I33 and the chamber IIa 34 are arranged substantially coaxially and substantially coaxially.

The valve body 5 has a flange-shaped first valve portion 5b and a second valve portion 5c having a triangular pyramid formed with a smaller diameter than the first valve diameter. The first valve portion 5b contacts the first valve port 36, and the second valve portion 5c of the triangular pyramid is
Contact 7

The valve body guide 10 has a female screw formed at the center thereof, which is used as a propulsion bearing 11, and a lower part of which is opened to form a chamber IIc38 into which the upper part of the valve body 5 is inserted. In order to prevent the valve body 5 from rotating in the left-right direction below the pin 10, the pin 12 is fixed by press-fitting, and the valve body 5 slides in the vertical direction by a groove 5d formed in the upper part of the valve body 5 in the vertical direction.

The valve body guide 10 is connected by press-fitting with the valve body 5 inserted from above the main body 1. The chamber IIc 38 in which the valve element 5 is inserted into the valve element guide 10 has an equalizing hole I formed in the side of the propulsion bearing 11.
10a and a pressure equalizing hole II10b formed at a position distant from the center of the valve body guide 10 to communicate with a chamber IIa in the main body 1.
It becomes the same pressure as 34.

The valve element 5 is mounted downward from the chamber IIa side. The upper part of the valve element 5 is housed in an opening at the lower part of the valve element guide 10, The lower portion of the valve body 5 is mounted on the chamber IId39 through the first valve port 36 and the second valve port 37, and the chamber IIa34 and the chamber I3
3 and the inside of the chamber IIb 35 are slidably mounted vertically.

A chamber IId in which the lower part of the valve element 5 is mounted.
39 is a groove 5e formed in the vertical direction of the lower side surface of the valve body 5.
As a result, the pressure communicates with the chamber IIb35 in the main body 1 and has the same pressure.

The outer ring 8 is provided in the hole 5a of the valve body 5.
a and a bearing 8 having an inner peripheral ring 8b are inserted therein.
The outer peripheral ring 8 a is pressed at its upper end by a press fit by a collar 9 and is fixed to the valve body 5. A shaft 13d below the valve shaft 13 is inserted into the inner peripheral ring 8b, and an adjusting screw 18 is screwed to the external thread 13e at the lower end of the shaft portion. Can be supported. In addition, the valve shaft 1
A spring 17 is mounted between the lower end of the third male screw 13b and the upper surface of the bearing 8. Further, a Teflon packing 6 for preventing chattering of the valve body is attached to a lower portion of the hole 5a of the valve body 5 by a collar 7, so that the valve body 5 can slide up and down with respect to the shaft portion 22b of the rod 22. Has become.

The manual opening / closing device 32 includes a rod guide 21 which is hermetically fixed to a lower portion of the main body 1 with a metal seal.
And a rod 22 fitted to the inner surface of the rod guide 21 and held airtight by an O-ring 24, and a hexagonal bar 23 press-fitted and fixed to the lower end of the rod 22.

Next, how to use the manual opening / closing device 32 will be described. First, the body plug 25 airtightly fixed to the lower part of the main body 1 is removed. Then, the hexagonal bar 23
When the rod 22 is rotated manually by rotating the rod 22 upward and downward, and the rod 22 is rotated upward, the tapered surface 22 a of the rod 22 comes into contact with the lower end of the valve body 5. Then, when the spring 17 is contracted, the valve body 5 is pushed up to open the valve, and when the rod 22 is rotated downward, the tapered surface 22a of the rod 22 is separated from the lower end of the valve body 5 When the spring 17 is extended, the valve body 5 is pushed down to close the valve.

Next, the operation will be described. When the valve shaft 13 is screwed with the internal thread of the propulsion bearing 11 and moves downward, the power is transmitted from the valve shaft 13 to the valve body 5 via the spring 17 and the bearing 8 and moves upward. Sometimes, the power is transmitted from the adjusting screw 18 to the valve body 5 via the bearing 8, and the opening area S ₁ between the first valve port 36 and the flange 5 b of the valve element 5, the second valve port 37, and the Opening area S with flange 5c
_The flow rate control is performed by changing the area S (S = S ₁ + S ₂ ) obtained by combining the _two . That is, the valve element 5 does not rotate integrally with the valve shaft 13 fixed to the rotor 14 of the motor, but uses the bearing 8 to perform only the linear movement. Further, since the valve body 5 is pushed down by the spring 17, when the flange of the valve body 5 comes into contact with the valve port, the external thread 13b of the valve shaft 13 and the internal thread of the propulsion bearing 11 are provided. Is difficult to cut into.

When using the manual opening / closing device 32 attached to the lower part of the main body 1, first, the body plug 25 airtightly fixed to the lower part of the main body 1 is removed. Thereafter, the hexagonal rod 23 is manually rotated to thereby remove the rod 2.
2 is rotated up and down and the rod 22 is rotated upward, the tapered surface 22a of the rod 22 comes into contact with the lower end of the valve body 5, and the spring 17 is contracted. When the body 5 is pushed up to open the valve and the rod 22 is rotated downward, the tapered surface 22 of the rod 22
When a is separated from the lower end of the valve body 5 and the spring 17 extends, the valve body 5 is pushed down to close the valve.

[0025]

The motor-operated valve according to the present invention has a chamber I33 in the main body 1.
The first valve port 36 located at the lower end of the
Since the two valve ports 37 have substantially the same diameter, the fluid pressure P
₁, P ₂The vertical force acting on the valve body 5 due to
Fit. To explain this theoretically, the side entrance pipe
3 to force P acting on valve element 5₁Is the pressure P of the chamber I33₁
Becomes, upward F₁= 1 / 4πd₂ ²P₁  F downward₂= 1 / 4πd₁ ²P₁  Also, the valve 5 is formed from the other side entrance / exit pipe 4.
Force P to use₂Are the communicating rooms IIa34 and IIb3
The pressure of 5 is P₂And upward F₃= 1 / 4πd₁ ²P₂  F downward₄= 1 / 4πd₂ ²P₂  Becomes To summarize the forces F acting on the valve element 5 (upward
The acting force is plus, and the downward acting force is minus
I do. ) F = F₁-F₂+ F₃-F₄  = 1 / 4πd₂ ²P₁−1 / 4πd₁ ²P₁+ ／ Πd₁ ²P₂−1 / 4πd₂ ²P₂  = 1 / 4π ｛(d₂ ²-D₁ ²) P₁+ (D₁ ²-D₂ ²) P₂｝ Here, the first valve port 36 diameter φd₁And second valve port 37 diameter φd₂
Are approximately the same diameter, d₁≒ d₂Becomes Yo
Thus, F = 0. Set the pressure of the entrance / exit pipe 3 to P₁(= Pressure of chamber I) Pressure of inlet / outlet pipe 4 is P₂(= Pressure of chamber II) 1st valve diameter φd₁  Second valve diameter φd₂  Therefore, the motor output is controlled by the Tef attached to the hole 5a of the valve body 5.
Of the rod packing 6 and the rod 22 above the manual opening / closing device 32
Large force slightly larger than sliding resistance with the shaft portion 22b
Is good.

[0026]

As described above, the present invention relates to a motor-operated valve controlled by a microcomputer by combining an electric drive mechanism and a valve. Since the diameters of the one valve port 36 and the second valve port 37 are made substantially equal to each other so as to cancel each other, a large power is not required, and by providing two valve ports, a conventional valve port is provided. On the other hand, a large flow rate can be obtained without increasing the size.

In the case where the motor-operated valve installed during the refrigeration cycle fails or the microcomputer stops operating due to a malfunction of the microcomputer, the motor-operated valve is conventionally replaced or replaced.
There was a problem that the refrigeration cycle was not controlled until the microcomputer was repaired. However, attaching the manual opening / closing device 32 to the motor-operated valve enables emergency refrigerant control in the event of a failure.

Further, by using the Teflon packing 6 between the rod 22 in the valve body 5 as a sliding resistance as a measure against chattering, the conventional sealing material 55a made of a resin-made sealing material 55a can be used for the tetrafluoroethylene resin. It will be cheaper.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view showing a valve-open state of a motor-operated valve according to the present invention.

FIG. 2 is a sectional view taken along line AA of FIG.

FIG. 3 is a sectional view taken along line BB of FIG. 1;

FIG. 4 is an enlarged longitudinal sectional view of a Teflon packing part of FIG. 1;

FIG. 5 is an enlarged vertical sectional view of the manual opening / closing device of FIG. 1;

FIG. 6 is an enlarged vertical sectional view showing a flow control part of FIG. 1;

FIG. 7 is a longitudinal sectional view showing a closed state of a conventional electric valve.

[Explanation of symbols]

1 body 2 case
3 Entrance pipe 4 Entrance pipe 5 Valve
5a hole 5b tsuba 5c tsuba
5d groove 6 Teflon packing 7 color
8 Bearing 8a Outer ring 8b Inner ring
9 Collar 10 Valve guide 10a Equalizing hole I
10b Equalizing hole II 11 Propulsion bearing 12 pin
13 Valve shaft 13a Fitting portion 13b Male thread
13c shaft part 13d shaft part 13e male screw
14 Motor rotor 15 Guide pin 15a Ring part
15b Arm 16 Guide wire 16a Projection piece
16b Projection piece 16c Engagement part 17 Spring
18 Adjustment screw 19 Lid 20 Stopper
21 rod guide 22 rod 22a tapered surface
22b shaft part 23 hexagon stick 24 O-ring
25 Body Plug 26 Motor Stator 31 Electric Drive Mechanism
32 Manual switchgear 33 Room I 34 Room IIa
35 Room IIb 36 First valve port 37 Second valve port
38 rooms IIc 39 rooms IId

Claims (5)

[Claims] 1. A motor-operated valve in which a valve body is axially actuated by a motor. A U-shaped partition wall 1a is provided in the center of the main body 1 so that a chamber I33 is formed in the partition wall. A chamber IIa34 and a chamber IIb35 are provided in the lower part and the lower part, respectively. The first valve port 36 is provided in the lower part of the partition and the second valve port 37 is provided in the upper part. The second valve port 37 is formed to have a slightly larger diameter, and these valve ports 36 and 37 are provided with a first valve portion 5b and a second valve portion 5c formed to have a smaller diameter than the first valve port. The flow rate is controlled by changing the gap between the two valve ports and the respective valve portions provided on the valve body 5 through the valve shaft 13 by controlling the power supply to the motor. When the valve is closed, the pressure in the chamber IIa34 and the chamber IIb35 is equalized. Valve movement. 2. A manual opening / closing device 3 for manually opening and closing the valve body 5.
2. The motor-operated valve according to claim 1, further comprising: 3. A valve shaft 13 having a male screw 13b housed in the case 2 is formed integrally with the stator 26 of a motor fixed to the outer peripheral portion of the cylindrical case 2 made of a non-magnetic material. A motor-operated valve that rotates a rotor 14 of a motor and converts the rotation into a linear motion of a valve shaft 13 by a propulsion bearing 11 having a female thread. A U-shaped partition wall 1a is provided at the center of the main body 1. And a chamber I33 is formed in the partition, and a chamber IIa34 and a chamber IIb35 are provided in an upper portion and a lower portion of the partition, respectively, and a first valve port 3 is provided in a lower portion of the partition.
When the second valve port 37 is provided in the upper portion, the diameter of the second valve port 37 is formed to be slightly larger than the diameter of the first valve port 36. The valve body 5 including the first valve portion 5b and the second valve portion 5c formed to have a smaller diameter than the first valve diameter is connected to the chamber IIa34, the chamber I33,
IIb35 is connected so that it can slide up and down.
The outer ring 8a of the bearing 8 is press-fitted and fixed in the hole 5a by the collar 9, and the inner surface of the inner ring 8b is provided with a shaft 13d below the valve shaft 13. A spring 17 is arranged between the upper surface of the shaft and the external screw 13e of the lower end of the shaft.
At the time of closing the valve, the valve body 5 is pushed down without rotating the valve body 5 via a spring 17, and at the time of closing the valve, the bearing 8 fixed to the valve body 5 is lifted by the adjusting screw 18. Even if refrigerant flows in through the entrances 3 and 4, no vertical force acts on the valve body 5, so that a large power is not required for the operation, and the first valve port 36 and the second valve A motor-operated valve characterized in that a large flow rate can be obtained by two valve ports of the port 37. 4. A rod guide 21 hermetically fixed to a lower portion of the main body 1 with a metal seal,
And a hexagonal rod 23 press-fitted and fixed to the lower end of the rod 22 to form a manual opening / closing device 32. Body plug 25 fixed to
Is removed, the hexagonal rod 23 is manually rotated to rotate the rod 22 linearly up and down, and when the rod 22 is rotated upward, the tapered surface 22a of the rod 22 Is in contact with the lower end of the valve body 5, then the spring 17 contracts to push up the valve body 5 to open the valve, and when the rod 22 is rotated downward, the tapered surface 22 a of the rod 22 The motor-operated valve according to claim 3, further comprising a manual opening / closing device (32) configured to push down and close the valve body (5) by extending the spring (17) away from the lower end of the valve body (5). 5. As a measure against chattering of the valve body, a Teflon (registered trademark) packing 6 is mounted via a collar 7 in a hole 5a of the valve body 5 in which the upper part of the rod slides, and the outer surface of the rod 22 is fixed. The motor-operated valve according to claim 3, wherein the valve element (5) can smoothly slide up and down with respect to the rod (22).