JPH0615192Y2 - Coil spring lift type quick closing check valve - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial application] The present invention relates to a coil spring lift type quick closing in which a valve body is pressed and urged against a valve seat by a coil spring attached to the valve body via a spring retainer. Regarding the improvement of the check valve.

[Prior Art] A conventional coil spring lift type quick-close check valve has, for example, a structure as shown in FIG. In FIG.
A conventional coil spring lift type quick-close check valve, which is generally designated by reference numeral 1, has a valve box 2 in which a valve rod 3, a valve body 4, and a coil spring 5 are housed. There is.
The valve body 4 is seated on a valve seat 7 via a rubber sheet 6.
The coil spring 5 has one end (lower end in FIG. 5).
Is attached to the valve body 4, and the other end (upper end in FIG. 5) is attached to the spring retainer 9 via the bush 8.
Here, the spring retainer 9 is the screw 1 with the spring retainer assembly.
It is attached to the valve box 2 by 0. In FIG. 5, reference numeral 11 is a slide guide, reference numeral 12 is a bypass valve, and reference numeral 13 is a valve rod nut.

As is apparent from FIG. 5, the valve body 4 is pressed downward by the coil spring 5 in the figure and pressed against the valve seat 7.

[Problems to be Solved by the Invention] However, in the conventional coil spring lift type quick-close check valve as shown in FIG. 5, the spring retainer 9 is a cast product, and the portion (fitting) to be fitted with the valve box 2 (fitting). The machining of the joint part 14 was very troublesome, and the manufacturing cost increased. That is, since the spring retainer is assembled so as to be inlay-fitted to the valve box, the assembling dimensional accuracy is very high and its processing is difficult. At the same time, it is necessary to assemble the spring retainer assembly screw 10 to the valve box 2 in the manufacturing process, but this work is not simple and mass productivity is low.

Further, regarding rust prevention for the fitting portion 14, no suitable and simple method has been found in the past. Although a technique for preventing the occurrence of rust by using stainless steel as the material of the spring retainer 9 or bronze has been proposed, there is a problem that the manufacturing cost of the spring retainer 9 becomes relatively high.

Further, since the movable body composed of the three members of the valve rod 3, the valve body 4 and the slide guide 11 has a relatively heavy weight, the pressure loss head, which is a basic characteristic of the valve, cannot be reduced. There's a problem.

As another conventional technique, a technique using a casing formed by pressing a metal plate is disclosed in Japanese Utility Model Laid-Open No. 55-16695.
The technique disclosed in Japanese Patent Publication No. 2 and in which a snap ring is fitted in a circumferential groove to hold a support bearing is disclosed in Japanese Patent Publication No.
A technique disclosed in Japanese Patent Laid-Open No. 4-11932 in which a coil spring type check valve is used as a quick-close check valve is disclosed in Japanese Utility Model Laid-Open No. 62-2.
No. 4174.

However, in all of these techniques, it is very difficult to assemble the spring retainer, and in that respect, the manufacturing cost cannot be sufficiently improved. Further, the weight of the movable body composed of the three members of the valve rod, the valve body and the slide guide is insufficiently reduced, and the reduction of the pressure loss head is not satisfactory.

Further, various forces act on the spring retainer during operation of the valve, and there is also a force for releasing the assembled state of the spring retainer, such as a force with which the valve element collides when the valve is opened. However, in the above-mentioned conventional technique, there is no means for preventing the assembled state of the spring retainer from being released by such a force (a force that tries to release the spring retainer), and the spring retainer may not be released during operation of the valve. It may come off.

The present invention has been proposed in view of the above-mentioned problems of the prior art, and it is possible to keep the manufacturing cost low, it is possible to apply proper and simple rust prevention, and moreover, a coil that can reduce the pressure loss head. It is intended to provide a spring lift type quick closing check valve.

[Means for Solving the Problems] A coil spring lift type quick-close check valve of the present invention is a coil spring in which a valve body is pressed and urged against a valve seat by a coil spring attached to the valve body via a spring retainer. In a lift-type quick-close check valve, the spring retainer is a press-molded product, and the fitting portion thereof is fitted into a spring retainer assembly groove formed in the valve box by elastic repulsive force. The portion is joined to the inner wall surface of the valve box and vertically separated from each other, and a third portion which is continuous with the first portion and is substantially perpendicular to the first and second portions. And a fourth portion which is continuous with the third portion and the second portion and which is tapered.

Here, the surface of the groove for assembling the spring retainer is preferably covered with a rust preventive coating film.

Further, it is preferable that the valve body and the slide guide are press-molded products.

In implementing the present invention, it is preferable that the spring retainer is manufactured by pressing a plate material having the characteristics of spring such as stainless steel.

Further, a general paint may be used as the rust preventive coating film, or a resin paint such as epoxy resin or nylon resin may be applied.

[Operation] According to the present invention having the above-mentioned configuration, the press-molded spring retainer has a mechanical form having an elastic repulsive force, and therefore, when pressed, the spring retainer assembly formed in the valve box is pressed. Fit in the attachment groove. Therefore, the work of assembling the spring retainer to the valve box can be easily and surely performed without using a set screw or the like. In addition, the dimensional accuracy of the spring retainer mounting groove of the valve box is sufficient with normal dimensional tolerances, and the cross-sectional shape of the groove corresponds to the fitting portion of the spring retainer, which increases productivity. improves.

The spring retainer will be described in more detail. The fitting portion of the spring retainer includes a first portion and a second portion which are joined to an inner wall surface of the valve box and are vertically separated from each other, and are continuously connected to the first portion. And a fourth portion that is substantially perpendicular to the first and second portions and a fourth portion that is continuous with the third portion and the second portion and that is tapered.

When assembling the spring retainer, the spring retainer elastically deforms and contracts along the taper formed in the fourth portion, so that the spring retainer can be easily inserted into the valve box. As a result, the fitting portion easily fits into the spring holding assembly groove formed in the valve box, and the efficiency of the assembling work is significantly improved.

Here, as the force that acts in the direction of releasing the assembled state of the spring retainer, there is the collision force of the valve element that acts axially upward when the valve is opened. However, a third portion, which is substantially perpendicular to the first and second portions (generally perpendicular to the axial direction), is in contact with the spring retainer mounting groove, and goes upward in the axial direction at the third portion. Since the reaction force against the collision force of the valve element acts, the assembled state of the spring retainer is not released by the collision force of the valve element.

Another force that acts on the spring retainer in the assembled state is a reaction force against the elastic repulsive force of the spring retainer itself. This reaction force is received by the first and second portions joined to the inner wall surface of the valve box.

In addition to this, when coating the spring retainer mounting groove, which is a shape corresponding to the above-mentioned fitting part, with a coating film to prevent rusting, the coating material does not stagnate and the coating film is uniform. Since it becomes smooth, rust prevention treatment can be performed very easily.

Furthermore, if the valve body and the slide guide are press-molded products, the movable body of the valve including the valve rod can be made lighter, and the pressure loss head, which is a basic characteristic of the valve, can be reduced.

[Embodiment] An embodiment of the present invention will be described below with reference to FIGS. 1 to 4. The same members as those in FIG. 5 are designated by the same reference numerals, and the duplicate description will be omitted.

In FIG. 1, a coil spring lift type quick-close check valve of the present invention, which is generally designated by reference numeral 20, comprises a valve box 22, which has a valve rod 24, a valve body 26, a rubber sheet 28, and a slide guide. Thirty are accommodated. Further, a spring retainer 32 is attached to the valve box 22. With this spring retainer 32, the coil spring 5 is arranged so as to urge the valve body 26 toward the valve seat 7.

The spring retainer 32 is a press-molded product, the shape of which is shown in detail in FIGS. 2A to 2C. In this embodiment, the spring retainer 32 is formed of a metal plate, and when no external force is applied, the spring retainer 32 shown in FIG.
As shown by the two-dot chain line in FIG. The fitting portion 34 provided above the skirt-shaped portion 33 has a shape as shown in FIG. 2C. Here, FIG. 2A, second
Reference numeral 35 in FIG. B indicates a receiving portion that receives the valve rod 24.
Regarding the fitting portion 34, referring to FIG. 2C,
It will be described in more detail below.

The valve box 22 is shown in detail in FIG. 3, and a spring retainer assembly groove 36 is formed above the valve box 22.
As is clear from the drawing, the cross-sectional shape of the spring retainer mounting groove 36 corresponds to the fitting portion 34 of the spring retainer 32, and its machining is relatively easy. The shoulder 38
Is adapted to engage the valve seat 7.

Referring again to FIG. 1, the valve rod 24, the valve body 26, the rubber sheet 28, and the slide guide 30 are integrally connected by the valve rod nut 13. Although not shown, the groove 36 for assembling the spring retainer is coated with a coating film for rust prevention.

At the time of assembly, first, the valve body 26 (rubber sheet 28) integrally connected to the valve rod 24 and the like is seated on the valve seat 7. Next, the skirt-shaped portion 33 of the spring retainer 32 is pressed to be inserted into the valve box 22 through the upper opening 40 so that the end portion of the valve rod 24 is received in the receiving portion 35 and the fitting portion 3
4 into the spring retainer assembly groove 36. Here, since the spring retainer 32 tries to expand outward due to its own elastic repulsive force, the fitting portion 34 does not come off from the spring retainer mounting groove 36. Therefore, the spring retainer 32 can be easily and surely assembled to the valve box 22 without using a set screw or the like. Also,
The processing accuracy does not need to be so high.

FIG. 4 is a view showing a pressure loss head of the coil spring lift type quick-close check valve of the present invention in comparison with a conventional product. First
As is clear from the figure, the valve body 26, the rubber sheet 28, the slide guide 30, and the valve rod 24 are integrally connected to each other. The movable member of the present invention is lighter than the conventional movable member shown in FIG. As a result, the pressure loss head is reduced by about 10% to 30%.

Next, referring again to FIG. 2C, the fitting portion 34 will be described in detail.

The fitting portion 34 of the spring retainer 32 is joined to the inner wall surface of the valve box 22 by a first portion (upper portion in the drawing) 44 and the first wall portion of the valve box 22. 2 part (the part located below in the figure) 46 and the first part 4
4 and a third portion 48 that is substantially perpendicular to the first and second portions 44, 46 and a third portion 48 and a second portion 46 that are continuous and tapered. And a fourth portion 50, which is open.

When assembling the spring retainer 32, the fourth portion 5
Spring retainer 32 along the taper formed at 0
Elastically deforms and contracts, and is easily inserted into the valve box 22. As a result, the fitting portion 34 easily fits into the spring pressing assembly groove 36 formed in the valve box 22, and the assembly becomes extremely easy.

Here, as the force acting in the direction of releasing the assembled state of the spring retainer 32, there is a collision force of the valve body, which collision force is represented by an arrow F in FIG. Direction (vertical direction in the figure: or the first and second parts 4)
(Direction parallel to 4, 46) acting upward. However, the third portion 48, which is substantially perpendicular to the axial direction, is in contact with the spring retainer mounting groove 36, and a reaction force (downward force in the figure) against the collision force F is generated at the third portion 48. ) F acts, it is prevented that the assembled state of the spring retainer 32 is released by the collision force F.

The other force that acts on the spring retainer 32 in the assembled state is the elastic repulsion force (reference D) of the spring retainer 32 itself.
There is a reaction force C against. This reaction force C is received by the first and second portions 44 and 46 joined to the inner wall surface of the valve box 32.

[Effects of the Invention] The effects of the present invention are listed below.

(1) The spring retainer can be easily and surely assembled to the valve box without using a set screw or the like.

(2) Since complex processing and ultra-precision processing are not required, mass productivity is excellent and manufacturing cost is low.

(3) Since the rust preventive coating can be applied uniformly and evenly, reliable rust preventive treatment can be easily performed.

(4) The pressure loss head can be reduced by reducing the weight of the movable member of the valve.

(5) It is prevented that the assembled state of the spring retainer is released during the operation of the valve.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a vertical sectional view showing an embodiment of the present invention, FIG. 2A is a vertical sectional view of a spring retainer used in the present invention, and FIG. 2B is a vertical sectional view of FIG. 2A. FIG. 2B is an enlarged partial sectional view, and FIG.
FIG. 3 is a vertical cross-sectional view of a valve box used in the present invention, and FIG. 4 is a characteristic diagram showing pressure loss heads of the present invention and a conventional product in comparison.
FIG. 5 is a vertical sectional view of a conventional product. 1, 20 ... Coil spring lift type quick closing check valve,
2, 22 ... Valve box, 3,24 ... Valve rod, 4,26 ... Valve element, 5 ... Coil spring, 6,28 ... Rubber seat, 7 ... Valve seat, 9,32 ... Spring Foot, 11,
30 ... Slide guide, 13 ... Valve nut, 34 ...
… Mating part, 36 …… Spring retainer assembly groove, 44…
... 1st part, 46 ... 2nd part, 48 ... 3rd part, 50 ... 4th part, F ... collision force of valve body, f ...
Reaction force against the collision force of the valve body, D ... Elastic repulsion force of the spring retainer, C ... Reaction force against the elastic repulsion force

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Yoshiyuki Kitajima Yoshida Kitajima 873 Hisachi, Takatsu-ku, Kanagawa Prefecture Kumagaya Iron Works Co., Ltd. (56) References 24174 (JP, U) Actual public Sho 54-11932 (JP, Y2)

Claims (2)

[Scope of utility model registration request] 1. A coil spring lift type quick-close check valve in which a valve body is pressed against a valve seat by a coil spring attached to the valve body via a spring retainer, wherein the spring retainer is a press-formed product. Further, the fitting portion is fitted into the spring holding assembly groove formed in the valve box by the elastic repulsive force, and the fitting portion is joined to the inner wall surface of the valve box and is vertically separated. And a second portion, a third portion which is continuous with the first portion and is substantially perpendicular to the first and second portions, and a third portion which is continuous with the third portion and the second portion. A coil spring lift type quick-close check valve, which further comprises a fourth portion having a taper. 2. The coil spring lift type quick-close check valve according to claim 1, wherein the surface of the groove for assembling the spring retainer is coated with an anticorrosive coating film.