KR20110037583A - Flux control apparatus for water control valve - Google Patents

Abstract

PURPOSE: A flux control device of a water control valve rotary disc is provided to control the passage flux of a water control valve by uniformly maintaining the rotation angel of the disc which controls the flow of the fluid passing through the water control valve. CONSTITUTION: A flux control device of a water control valve rotary disc comprises a header(12), an angle maintaining rod(13) and an angle maintaining groove(14). A holding rod(11) is formed in upper part of the header. When the holding rod descends as a fixed constant height using the compression of an elastic member(9), hangs on a stumbling projection(10), formed in the body of a steering wheel connect cap(6). The angle maintaining rod is perpendicularly projected on both side of the header. The angle maintaining rod is inserted in the angle maintaining groove formed on the lower part of the steering wheel connect cap, when the header descends as a fixed height.

Description

Flux control apparatus for water control valve

The present invention relates to a flow rate control device for a dilution valve rotating disk, and more particularly, is provided in a ball disc type or cylindrical disc type distillation valve to provide a structure for fixing the rotation angle of the disc, the fluid passing through the distillation valve The present invention relates to a flow rate control device for a dilution valve rotating disc which makes it possible to control the flow rate of the dividing valve very easily by maintaining a constant rotation angle of the disc for controlling the flow of water.

In general, the water-reducing valve is a valve device that is applied to water and sewage pipes to easily control the fluid flowing along the pipe from the outside, and is rotatably installed between the body and the upper by using an operation handle to block the flow of the fluid. The rotation angle of the disk is controlled.

Such a distillation valve is distinguished according to the shape of the disc. In particular, a cylindrical disc distillation valve in which the disc is a cylindrical type, and a ball disc distillation valve in which the disc is a ball type are widely used.

The structure of the water-reducing valve is a body having a water hole in the center, the disk is installed so that the lower end is rotatable, the body is provided with a water pipe on both sides, and the body to hold the rotating shaft installed on the top of the disk An upper portion installed at an upper portion of the upper portion, a connection flange formed at each end of the water pipe, an immersion hole provided at an upper portion of the upper portion to press the watertight means for watertightness between the upper portion and the rotary shaft, and a ball installed at an upper end portion of the rotary shaft. Consists of a handle connecting cap for connecting the operation handle to rotate the disk.

Therefore, if you want to control the flow of fluid passing through the dividing valve, if you turn the operating handle connected to the handle connecting cap while rotating the rotating shaft of the disk can open or close the disk opening can control the flow of fluid. .

However, since the conventional dilution valve is not affected by the water pressure when the disc is completely open, the rotation angle of the disc is kept open, but is affected by the water pressure when the disc is not fully open. Rotation angle is not maintained.

In other words, when the disk is not fully open, the disk acts as a load that hinders the flow of the fluid to some extent when the fluid is passed, so that the disk is gradually opened by hydraulic pressure, and the disk is later completely opened.

Therefore, the conventional distillation valve does not endure the water pressure in the state that the disk is not completely open, the rotation angle of the disk is not maintained constant, there was a lot of difficulty in controlling the flow rate of the distillation valve.

In order to solve this problem, conventionally, a combination of a worm gear and a worm wheel gear is installed on a rotating shaft to control a rotation angle of a disk through the worm gear, and a flow control device for controlling a rotation gear and its rotation on the rotating shaft. The distillation valve flow rate control device was developed in which the rotation angle of the disc was controlled by integrally installing the control handle.

However, all of the conventional distillation valve flow control device has a problem in that the structure is complicated, the operation is not easy, and the volume is also large. Therefore, there is an urgent need for the development of a distillation valve flow control device having a simple structure and simple operation.

The present invention has been invented to solve the above problems, in order to maintain a constant rotation angle of the disk is not affected by the water pressure so that the flow rate of the water flow valve can be controlled very easily, water pipes on both sides The rotation angle of the disk is fixed by supporting the rotating shaft which is installed on the upper side of the disk rotatably squeezed between the provided body and the upper which is watertight by the squeezing mechanism, and the handle connecting cap for fastening the operating handle is fastened to the upper portion. In the configuration of the through flow rate maintenance device for the water separator valve to control the flow rate of the water separator valve by maintaining it, the lower portion by the plurality of gap holding bolts and the elastic member to include the body portion except the head of the handle connecting cap on the upper end of the pressure holding device It is installed as possible, but formed in the body portion of the handle connecting cap when lowered by a certain height by compression of the elastic member A header formed at an upper portion of the latching portion to be caught by the latched jaw; A pair of angle holding rods each protruding at a predetermined height on both inner bottom surfaces of the header; A plurality of angle holding holes which are drilled at a predetermined interval on the lower surface of the handle connecting cap to insert and fix the angle holding rods selectively when the header is lowered by a certain height; It is an object of the present invention to provide a device for controlling the flow rate of a configured distillation valve rotating disk.

The flow rate control device of the dilution valve rotating disc of the present invention has the effect that the flow rate of the dilution valve can be controlled very easily by completely eliminating the conventional problem that the rotation angle of the disc is easily changed by the hydraulic pressure of the fluid.

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

Figure 1 is a vertical cross-sectional view of the ball-dispensing valve of the present invention is applied, Figure 2 is an enlarged view of the main portion of Figure 1, Figure 3 is a plan view of Figure 2, Figure 4 is a handle connection through the angle adjustment hole of the present invention 5 is a vertical sectional view according to another embodiment of the present invention, FIG. 6 is a plan view according to another embodiment of the present invention, and FIG. 7 is an enlarged view of "A" of FIG.

The flow rate control device of the dilution valve rotating disk of the present invention is the disk (5) rotatably axially between the body (2) provided with water pipes (1) on both sides and the upper (4) that is watertight by the blotter (3). The flow rate of the dilution valve 100 is maintained by maintaining a constant rotation angle of the disk 5 by supporting the rotating shaft 7, which is installed at the top of the head and the handle connecting cap 6 is fastened to the top of the operating handle. In constructing a passage flow rate maintenance device for a dilution valve to control the plurality of gap retaining bolts 8 and the elastic member on the upper end of the pressure holding device (3), so as to contain a body portion excluding the head of the handle connection cap (6) It is installed so as to flow downward by the (9), when the flow of the downward downward by a certain height by the compression of the elastic member 9 is caught between the locking jaw (10) formed in the body portion of the handle connecting cap (6) A header 12 having an upper portion 11 formed thereon; A pair of angle holding rods 13 protruding at a predetermined height on both sides of the inner bottom surface of the header 12; A plurality of angle holding holes 14 which are drilled at a predetermined interval on the lower surface of the handle connecting cap 6 and the angle holding rods 13 are selectively inserted when the header 12 flows downward by a predetermined height; Characterized in that configured.

The disk 5 is manufactured by injection molding, and may be configured by integrally injection molding the disk 5 and the rotating shaft 7.

The flow rate control device of the dilution valve rotary disk of the present invention configured as described above is installed in the ball disk type or cylindrical disk type distillation valve 100 as shown in Figure 1 to control the quantity of fluid passing through the distillation valve 100 constant It is a device for.

In particular, the present invention is a simple structure, but very easy to operate and also has a large volume is a big feature, the structure thereof is as shown in Figs.

That is, the plurality of gap retaining bolts 8 and the elastic member 9 may flow downwards so as to include a body portion excluding the head of the handle connecting cap 6 on the upper end of the holding hole 3 of the dilution valve 100. When the header 12 is installed on the upper end of the hook 11 is caught on the locking jaw 10 formed in the body portion of the handle connecting cap 6 when the flow is downward by a predetermined height due to the compression of the elastic member (9) And a pair of angle holding rods 13 protruding to both sides of the inner bottom surface of the header 12 at predetermined heights, and drilled at predetermined intervals on the lower surface of the handle connecting cap 6 so that the header 12 is downward. This is because the angle holding rod 13 is composed of a plurality of angle holding hole 14 is selectively inserted when the flow by a certain height.

Accordingly, when the handle connecting cap 6 is rotated while releasing the holding force while applying the pressing force to the header 12 so that the elastic member 9 is compressed by the operating handle to control the flow of the fluid, the header 12 is released. The angle holding rods 13 are inserted into and fixed in the angle holding holes 14 positioned at the adjusted rotation angles, respectively, to fix the rotation angles of the disk 5.

This is because the angle holding rod 13 is not separated from the angle holding hole 14 unless the header 12 is pressed to compress the elastic member 9. Therefore, unless the header 12 is gripped, the rotation shaft 7 is not rotated by any external action.

Accordingly, even when the fluid passes through the distillation valve 100 and a strong hydraulic pressure of the fluid is applied to the disc 5, the rotation angle of the disc 5 is constantly maintained by the above-described action, thereby passing through the distillation valve 100. The flow rate of the fluid can be controlled very easily.

Although not shown here, instead of the angle holding rod 13 and the angle holding hole 14, the upper angle holding gear and the lower angle holding gear which is engaged up and down by a gear having a certain height can be configured.

In the state where the upper angle control gear and the lower angle control gear are engaged up and down, even if a strong hydraulic pressure of the fluid is applied to the disk 5, the rotation is not rotated.

And the flow rate control device 100 of the dividing valve rotary disk of the present invention, as shown in Figures 5 to 7 by placing a space of a certain height on the lower end of the upper end of the pressure holding device 3 according to another embodiment It is installed to include the body portion except the head portion of the handle connecting cap 6, the engaging section 11 is caught on the locking jaw 10 formed in the body portion of the handle connecting cap 6 and the header 12 formed on the top ; In order to connect the rotary shaft 7 and the handle connecting cap 6 with the ball plunger 15 in the form of a hole having a predetermined height formed on the rotating shaft 7, the handle connecting cap 6 is fixed on the rotating shaft 7. A ball plunger hole 16 capable of descending by a height; An elastic member installed between the handle connecting cap 6 and the pressure holding member 3 to elastically push the locking jaw 10 of the handle connecting cap 6 to closely contact the locking section 11 of the header 12. (9); An upper angle adjusting gear 17 formed on the locking jaw 10 of the handle connecting cap 6; When the elastic member 9 is compressed and the handle connecting cap 6 is lowered by a predetermined height, the elastic member 9 is spaced apart from the upper angle adjusting gear 17 and the elastic member 9 is formed in the engaging section 11 of the header 12. When the handle connecting cap 6 is lifted to its original position, the lower angle keeping gear 18 meshes with the upper angle adjusting gear 17; A configured structure is also possible.

In the above-described structure, when the handle connecting cap 6 is rotated in the state in which the holding force is applied with the operation handle to control the flow of the fluid, the holding force is released, and the upper angle holding gear 17 of the header 12 is released. Since the lower angle retaining gear 18 of the handle connecting cap 6 is engaged up and down, the rotation shaft 7 is not rotated under any external action, so that the rotation angle of the disk 5 can be fixed.

However, the structure described above should apply a pressing force to the head of the handle connecting cap 6 supported by the elastic member 9, unlike the above structure. Then, as the elastic member 9 is compressed, the handle connecting cap 6 is lowered by a predetermined height on the rotation shaft 7, thereby allowing the handle connecting cap 6 to be rotated by the manipulation handle.

Therefore, the above-described structure also does not rotate the handle shaft 6, unless the rotary shaft (7) is rotated under any external action, even if a strong fluid pressure acts on the disk 5, the rotation angle of the disk (5) is always By maintaining the same, it is possible to very easily control the amount of passage of the fluid passing through the dilution valve 100.

1 is a vertical cross-sectional view of a ball disk type dilution valve to which the present invention is applied.

2 is an enlarged view illustrating main parts of FIG. 1;

3 is a plan view of FIG.

Figure 4 is a bottom view of the handle connecting cap drilled angle adjustment hole of the present invention

5 is a vertical cross-sectional view according to another embodiment of the present invention

6 is a plan view according to another embodiment of the present invention.

7 is an enlarged view of "A" in FIG.

[Description of Drawings]

1: water pipe 2: body

3: blotter strip 4: upper

5: Disc 6: Handle Cap

7: Rotating shaft 8: Spacing bolt

9: elastic member 10: locking jaw

11: Jam 12: Header

13: angle holding rod 14: angle holding hole

15: Ball Plunger 16: Ball Plunger Ball

17: Upper angle adjusting gear 18: Lower angle holding gear

100: Water valve

Claims (3)

Operation of the operation handle on the upper part and installed on the upper end of the disk (5) rotatably rotatable between the body (2) provided with water pipes (1) on both sides and the upper (4), which is watertight by the presser (3). Supports the rotating shaft (7) to which the handle connecting cap (6) for fastening maintains the rotation angle of the disk (5) to constitute a passage flow rate maintenance device for the distillation valve to control the flow rate of the water valve 100 In the box, it is installed so as to be lowered by a plurality of gap retaining bolts 8 and the elastic member 9 so as to contain a body portion except the head of the handle connecting cap 6 on the upper end of the pressure holding device (3), the elastic member A header 12 formed at an upper portion of the latching portion 11 that is caught by the locking jaw 10 formed at the body portion of the handle connecting cap 6 when descending by a predetermined height due to the compression of (9); A pair of angle holding rods 13 protruding at a predetermined height on both sides of the inner bottom surface of the header 12; A plurality of angle holding holes 14 which are drilled at a predetermined interval on the lower surface of the handle connecting cap 6 and the angle holding rods 13 are selectively inserted and fixed when the header 12 is lowered by a certain height; The flow rate of the dividing valve rotary disk is characterized in that the rotation shaft 7 is not rotated unless the header 12 is pressed, so that the rotation angle of the disk 5 can be kept constant regardless of the hydraulic pressure of the fluid. controller. Operation of the operation handle on the upper part and installed on the upper end of the disk (5) rotatably rotatable between the body (2) provided with water pipes (1) on both sides and the upper (4), which is watertight by the presser (3). Supports the rotating shaft (7) to which the handle connecting cap (6) for fastening maintains the rotation angle of the disk (5) to constitute a passage flow rate maintenance device for the distillation valve to control the flow rate of the water valve 100 In the box, on the upper end of the pressure holding device (3), it is installed to be lowered by a plurality of gap holding bolts (8) and elastic members (9) so as to contain a body portion except the head of the handle connection cap (6), A header 12 formed at an upper portion of the latching portion 11 that is caught by the locking jaw 10 formed at the body portion of the handle connecting cap 6 when lowered by a predetermined height by compression of the member 9; An upper angle holding gear formed to protrude in a gear shape having a predetermined height on an inner bottom surface of the header 12; A lower angle gear gear which is formed to protrude in a gear shape having a predetermined height on the lower surface of the handle connecting cap 6 and is engaged with the upper angle gear gear when the header 12 flows downward by a predetermined height; The flow rate of the dividing valve rotary disk is characterized in that the rotation shaft 7 is not rotated unless the header 12 is pressed, so that the rotation angle of the disk 5 can be kept constant regardless of the hydraulic pressure of the fluid. controller. Operation of the operation handle on the upper part and installed on the upper end of the disk (5) rotatably rotatable between the body (2) provided with water pipes (1) on both sides and the upper (4), which is watertight by the presser (3). Supports the rotating shaft (7) to which the handle connecting cap (6) for fastening maintains the rotation angle of the disk (5) to constitute a passage flow rate maintenance device for the distillation valve to control the flow rate of the water valve 100 In the box, a space of a certain height is placed on the upper end of the pressure holding device (3) at a lower portion and installed to include a body portion except for the head of the handle connecting cap (6), which is formed in the body portion of the handle connecting cap (6). A header 12 formed at an upper portion of the locking portion 11 to be locked to the locking jaw 10; In order to connect the rotary shaft 7 and the handle connecting cap 6 with the ball plunger 15 in the form of a hole having a predetermined height formed on the rotating shaft 7, the handle connecting cap 6 is fixed on the rotating shaft 7. A ball plunger hole 16 capable of descending by a height; An elastic member installed between the handle connecting cap 6 and the pressure holding member 3 to elastically push the locking jaw 10 of the handle connecting cap 6 to closely contact the locking section 11 of the header 12. (9); An upper angle adjusting gear 17 formed on the locking jaw 10 of the handle connecting cap 6; When the elastic member 9 is compressed and the handle connecting cap 6 is lowered by a predetermined height, the elastic member 9 is spaced apart from the upper angle adjusting gear 17 and the elastic member 9 is formed in the engaging section 11 of the header 12. When the handle connecting cap 6 is raised to its original position by tension, the lower angle keeping gear 18 meshes with the upper angle adjusting gear 17; When the handle connecting cap 6 is not pressed, the rotating shaft 7 is not rotated, so that the rotation angle of the disk 5 can be kept constant regardless of the hydraulic pressure of the fluid dividing valve rotating disk. Flow control device.

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