JPH10160034A - Needle valve - Google Patents

Abstract

PROBLEM TO BE SOLVED: To vary an increasing rate of a flow amount at the time of valve opening without forming a stepped portion on a tapered surface of a needle, and facilitate manufacture by forming unequal pitches on a male screw thread of a lead screw so as to gradually increase a lifting rate every unit rotation at the time of valve opening. SOLUTION: Unequal pitches are formed on a male screw thread 17 formed on an outer peripheral surface of a male screw 16 so as to increase a lifting rate of a needle 22 is gradually increased every unit rotation at the time of opening a valve. When current is carried to coils 6, 7 and a stepping motor 5 is driven, a rotor 8, a rotary member 10 and a steel ball 11 are rotated in one direction. Since the steel ball 11 is slidably engaged with the male screw thread 17, torque is converted to linear motion by a lead screw 13 for starting opening valve. It is thus possible to attain flow rate charactersitics where an increasing rate of a flow amount is gradually increased. Since a tilting angle of a tapered surface 22d of the needle 22 is evenly set, manufacture is facilitated.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a needle valve which is a kind of lift valve.

[0002]

2. Description of the Related Art Conventionally, as shown in FIG. 5, a rotational torque generated in a motor 51 as a driving source is converted into a linear motion by a lead screw 52, and a needle 53 connected to the lead screw 52 is operated. A needle valve for controlling a flow rate is known.

However, in this prior art, the pitch p of the external thread 54 of the lead screw 52 is constant throughout, so that the lift amount of the needle 53 per unit rotation when the valve is opened becomes constant. ing.

Therefore, as shown in FIG. 6, in order to obtain a characteristic in which the rate of increase of the flow rate at the time of opening the valve increases with each step, an annular step 53b is provided on an inclined surface 53a on the outer periphery of the needle 53, and this step is provided. The inclined surface 53 above and below the portion 53b
When the number of steps is "3" or more, a plurality of steps 53b must be provided to change the angle of inclination of the inclined surface 53a above and below each step 53b. (Since the number of steps is “3” in FIGS. 5 and 6, two steps 53b are provided.) In addition, the diameter of each step 53b must be finished with high precision so that the flow rate in each step is accurate.

[0005] Therefore, from the above, in the prior art described above, the required number of steps 53
b, and the diameter of each step 53b must be finished with high precision, so that it is difficult to manufacture the stepped needle 53. And there is a problem that takes time.

[0006]

SUMMARY OF THE INVENTION In view of the above, the present invention can change the rate of increase of the flow rate when the valve is opened without providing a step on the inclined surface of the needle. An object of the present invention is to provide a needle valve that can be easily manufactured.

[0007]

In order to achieve the above object, a needle valve according to the present invention is a needle valve which operates a needle by converting a rotational torque generated in a driving source into a linear motion by a lead screw. The unequal pitch is set for the male screw of the lead screw so that the lift amount per number increases stepwise or gradually.

[0008] As in the needle valve of the present invention having the above configuration, when the unequal pitch is set in the external thread of the lead screw so that the lift amount per unit rotation speed increases stepwise or gradually, As the pitch increases, the lift amount per unit rotation speed increases, and as the lift amount per unit rotation speed increases, the rate of increase in the flow rate increases. Therefore, by defining the content of the unequal pitch in accordance with the flow rate characteristic to be realized, it is possible to change the rate of increase in the flow rate when the valve is opened without providing a step on the inclined surface of the needle.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, embodiments of the present invention will be described with reference to the drawings.

As shown in FIG. 1, a needle valve according to this embodiment is first divided into upper and lower housings 1 and 2.
A plate 3 having a shaft hole 3a is sandwiched between the housings 1 and 2, and is integrated by a required number of bolts 4.

Inside the housing 1, a stepping motor 5 as a driving source for forward and reverse rotation is incorporated.

The stepping motor 5 is a PM type (permanent magnet type) / two-phase excitation type stepping motor, and includes two sets of one-phase and three-phase coils 6a wound with a pipe filer and a required number of coils acting as magnetic poles. A-phase stator 6 including two sets of stator cores 6b provided with protrusions (not shown), two sets of two-phase and four-phase coils 7a wound with a pipe filer, and a required number of protrusions acting as magnetic poles (Not shown), a B-phase stator 7 including two sets of stator cores 7b, and a rotor (also referred to as a rotor) 8 including a permanent magnet 9; , 7 are fixed inside the housing 1 and the rotor 8 is a pair of upper and lower ball bearings 12.
And is rotatably supported by the housing 1 and the plate 3 via the.

A cylindrical rotating member 10 is fixed to the inner peripheral side of the rotor 8, and a steel ball 11 is attached to the inner peripheral surface of the rotating member 10.
Are fixed in a semi-buried state.

When the coils 6 and 7 are energized and the stepping motor 5 is driven, the rotor 8, the rotating member 10 and the steel ball 11 rotate in one direction, and the coils 6 and 7 are energized in the opposite direction and the stepping is performed. When the motor 5 is driven, the rotor 8, the rotating member 10, and the steel ball 11 rotate in opposite directions. The inner peripheral surface of the rotating member 10 is a cylindrical surface, in which no female screw is provided, and a steel ball 11 takes the place of the female screw.

A lead screw 13 is arranged on the inner peripheral side of the rotor 8 and the plate 3, and this lead screw 13 is slidably inserted into the inner peripheral side of the plate 3 via a bush 14 having an L-shaped cross section. And a male screw 16 slidably inserted on the inner peripheral side of the rotating member 10, and a male screw 17 is provided on the outer peripheral surface of the male screw 16. The steel ball 11 is slidably engaged with the arc-shaped thread groove.
The engagement position of the steel ball 11 with the male screw 17 at the time of the illustrated valve closing is at the upper end of the male screw 17 or in the vicinity thereof. The male screw 17 has an unequal pitch, which will be described later.

Below the plate 3, the housing 2
A retainer 18 having a shaft hole 18a is fixed inside the cylindrical bush. A cylindrical bush 19 is provided on the inner peripheral side of the retainer 18.
A rod 20 fixedly connected to the lead screw 13 is slidably inserted through the lead screw 13. Rod 2
0 and the lead screw 13, the small diameter portion 20 a provided at the upper end of the rod 20 is
Are connected integrally by press-fitting or screwing into a hole 15a provided in the lower end surface of the.

A valve seat 21 is fixed below the retainer 18 inside the housing 2, and a needle 22 fixedly connected to the rod 20 is inserted into a valve hole 21 a provided in the valve seat 21. It is inserted so that it can be inserted and removed freely.

The needle 22 has a disk-shaped large-diameter portion 22a having a diameter larger than the inner diameter of the valve hole 21a.
A sloped seating portion 22b is provided below and under the opening a of the valve hole 21a so as to come in close contact with and separate from the opening, and an insertion portion 22c inserted into the valve hole 21a is provided below the seating portion 22b. The outer peripheral surface of the portion 22c is an inclined surface 22d whose diameter gradually decreases downward. The inclined angle of the inclined surface 22d is set to a constant angle over the entire surface except for the chamfered portion 22e at the lowermost end. A spring seat 22f is provided above the large diameter portion 22a.

An inverted conical coil spring 23 is contracted between the retainer 18 and the needle 22, and the upper end of the coil spring 23 is fixed to the retainer 18 and the lower end is a spring seat 22f of the needle 22. , The movement of the needle 22 is suppressed and the needle 22 is prevented from rotating.

The housing 2 has a pair of fluid ports 24, 2
5 and one fluid port 24 and the valve hole 21 are provided.
a, a flow passage 27 communicating with the valve chamber 26 and the other fluid port 25 is provided. A packing 28 having a U-shaped cross section is attached to the inner periphery of the retainer 18 and is in close contact with the peripheral surface of the rod 20, so that the fluid in the valve chamber 26 does not leak to the upper space 29 of the retainer 18. . 3
0 is a packing presser.

An unequal pitch is set on the male screw 17 provided on the outer peripheral surface of the male screw 16 so that the lift amount (elevation amount) of the needle 22 per unit rotation when the valve is opened increases stepwise. Specifically, the male screw 17
Are formed as follows.

That is, as shown in FIG. 2, the pitch of the male screw 17 is increased stepwise as it approaches the needle 22 from the upper end. Of the six pitches, the first (upper) two pitches during pitch p ₁ is small, the pitch p ₂ in the next two pitches (middle) in,
Further, the pitch width p ₃ in the next two pitches (lower stage) is set to be large, whereby the lift amount of the needle 22 per unit rotation speed at the time of opening the valve increases stepwise with the progress of the valve opening, The number of steps is "3" as shown in FIG.
Thus, a characteristic is realized in which the rate of increase in the flow rate when the valve is opened increases stepwise in each step.

Next, the operation of the needle valve having the above configuration will be described.

FIG. 1 shows the closed state of the needle valve as described above. In this state, when the coils 6 and 7 are energized and the stepping motor 5 is driven, the rotor 8 and
The rotating member 10 and the steel ball 11 rotate in one direction, and the steel ball 1
1 is slidably engaged with the male screw 17, the rotational torque generated in the stepping motor 5 is converted into linear motion by the lead screw 13, and
3. The rod 20 and the needle 22 start to rise and the valve opening is started. Open lunch's first to the steel ball 11 is engaged with the upper portion of the small male screw 17 of pitch p _1, lift the unit rotation speed per needle 22 is small, thus increasing flow rate of the 3 Small as shown in the first step A.

Subsequently, the steel ball 11 is moved to the pitch width p ₂
3, the lift amount of the needle 22 per unit rotation speed increases, and the rate of increase of the flow rate increases as shown in the second step B of FIG.

Further, when the steel ball 11 is engaged with the lower portion of the male screw 17 having a large pitch width p ₃ , the lift of the needle 22 per unit rotation further increases, and the rate of increase of the flow rate increases accordingly. As shown in the third step C of FIG. 3, the flow rate characteristic is further increased, and the flow rate characteristic in which the number of steps is “3” shown in FIG.

On the other hand, the inclination angle of the inclined surface 22d of the insertion portion 22c of the needle 22 is set to be constant throughout, and the needle
There is no step provided on the inclined surface 22d for changing the inclination angle, and there is no need to provide a step. Accordingly, the manufacture of the needle 22 can be facilitated.

In addition, since a drawing force (a force for closing the valve) acts on the needle valve due to the fluid force at the time of low flow rate control, a large thrust is required against the drawing force. On the other hand, in the needle valve having the above configuration, since the pitch of the male screw 17 of the lead screw 13 in the low flow rate control region is dense, sufficient thrust is generated even if the motor 5 has a low output. Therefore, it is possible to use a low-output motor 5, that is, to reduce the size of the motor 5.

When the flow rate is reduced or set to zero, when the coils 6 and 7 are energized in the opposite direction and the stepping motor 5 is driven, the rotor 8, the rotating member 10 and the steel ball 11 rotate in the opposite direction. The rotational torque is converted to linear motion by the lead screw 13 so that the lead screw 1
3. The rod 20 and the needle 22 descend. Needle 22 per unit number of rotations
Decreases in a stepwise manner as opposed to the lift amount.

A male screw 17 provided on the lead screw 13 has a needle 2 per unit rotation speed when the valve is opened.
The unequal pitch may be set so that the lift amount of No. 2 increases gradually rather than gradually. In this case, the male screw 17 is formed such that, for example, as the pitch of the male screw 17 approaches the needle 22 from the upper end, the male screw 17 expands at a predetermined increase rate for each pitch.
A non-linear flow characteristic as shown in FIG.

[0031]

The present invention has the following effects.

That is, in the needle valve of the present invention having the above-described structure, since the unequal pitch is set in the male screw of the lead screw so that the lift amount per unit rotation speed increases stepwise or gradually. The lift amount per unit rotation speed increases as the pitch increases, and the rate of increase in the flow rate increases as the lift amount per unit rotation speed increases. Therefore, by setting the content of the unequal pitch in accordance with the flow characteristic to be realized, the rate of increase of the flow rate when the valve is opened can be changed without providing a step on the inclined surface of the needle. Thus, there is no need to provide a step for changing the inclination angle on the inclined surface of the needle.
Therefore, manufacture of the needle can be facilitated.

In addition, at the time of low flow rate control, a large drawing force acts on the needle valve due to the fluid force.
A large thrust is required to counter this retraction force. On the other hand, in the needle valve of the present invention having the above configuration, since the pitch of the external thread of the lead screw in the low flow rate control region is dense, even if the drive source such as the motor has a low output, it is sufficient. Thrust is generated. Therefore, it is possible to use a low-output drive source, that is, it is possible to reduce the size of the drive source.

[Brief description of the drawings]

FIG. 1 is a sectional view of a needle valve according to an embodiment of the present invention.

FIG. 2 is an enlarged view of a main part of FIG. 1;

FIG. 3 is a graph showing a flow rate characteristic.

FIG. 4 is a graph showing flow characteristics.

FIG. 5 is a sectional view of a needle valve according to a conventional example.

FIG. 6 is a graph showing flow characteristics.

[Explanation of symbols]

 1, 2 housing 3 plate 3a, 18a shaft hole 4 bolt 5 stepping motor (drive source) 6,7 stator 6a, 7a coil 6b, 7b stator core 8 rotor 9 permanent magnet 10 rotating member 11 steel ball 12 ball bearing 13 lead screw 14 , 19 bush 15 columnar portion 15a hole 16 male screw 17 male screw 18 retainer 20 rod 20a small diameter portion 21 valve seat 21a valve hole 22 needle 22a large diameter portion 22b seating portion 22c insertion portion 22d inclined surface 22e beveled portion 22f spring seat 23f spring seat 23f 24, 25 Fluid port 26 Valve chamber 27 Flow path 28 Packing 29 Upper space 30 Packing presser

Claims (1)

[Claims] 1. A needle valve for operating a needle (22) by converting a rotational torque generated in a drive source (5) into a linear motion by a lead screw (13), wherein a lift amount per unit number of rotations is stepwise. A needle valve wherein the male screw (17) of the lead screw (13) has an unequal pitch so as to gradually increase.