RU2774245C2 - Plumbing valve with membrane valve - Google Patents

Abstract

FIELD: plumbing valves.

SUBSTANCE: invention relates to a plumbing valve with a water inlet, a water outlet, a membrane valve, which is located between the water inlet and outlet. Membrane valve includes: valve seat, balance port, pilot port and pilot spool. The control spool, by actuating when pressure is applied, is made with the possibility of being transferred to the first and second stable positions. The control spool in the first position closes the control hole, and in the second position it keeps it in a flowing state, and with an adjusting device, with the help of which, by means of a rotary movement, the flow through the plumbing valve is changed when the membrane valve is open.

EFFECT: invention is aimed at improving the possibility of changing the flow rate through a plumbing valve with an open membrane valve.

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Description

The present invention relates to a sanitary faucet with a water inlet, a water outlet, a diaphragm valve, which is located between the water inlet and the water outlet, and the diaphragm valve includes a valve seat, a equalization hole, a control hole and a control spool, which, by actuating when pressure is applied in the axial direction, is made with the possibility of transferring to the first and second stable axial positions, moreover, the control spool in the first position closes the control hole, and in the second position it keeps it in the flow state (open), and with an adjusting device, with the help of which, by means of a rotary movement, the flow through the plumbing valve with the diaphragm valve open.

When the control spool in the first position holds the control port closed, pressure builds up in the pressure chamber opposite the valve seat through the equalization port due to the water pressure applied at the water inlet. Due to the pressure present in the discharge cavity, the diaphragm valve is held in its closed position. When the control port is released due to primarily axial movement of the control spool, the pressure in the discharge chamber is released through the open control port, whereupon the diaphragm valve moves to its open position. Such plumbing valves are designed to block or release the flow of water.

A sanitary valve with the above features is known from DE 10 2012 221 043 A1. In order to be able to regulate the flow rate when the diaphragm valve is open, it is proposed that the stop can be changed by means of a rotary movement in order to set the position of the diaphragm valve in its open state. As a result, when the diaphragm valve is open, the flow cross section between the diaphragm valve and the valve seat can be adjusted.

A plumbing valve with the features of the restrictive part of claim 1 is known from JP 2008-256 141 A, in which case a first control element in the form of a push button is provided in order to switch the diaphragm valve between the flow position and the open position by means of actuation upon application of pressure (possibly closed? - approx., translator) position, and a second rotary element is provided, located with the possibility of rotation relative to the push button, with which you can change the flow through the plumbing valve. Thus, on the one hand, a more complex design is given, and, on the other hand, it is clearly not clear to the operator how the plumbing valve should work.

From DE 10 2014 110 550 A1, WO 2009/135 490 A2 and WO 2015/010 685 A2, respectively, a valve is known for supplying a heat carrier to a heating body in a closed hydraulic system, in the case of which a diaphragm valve is provided in order to maintain a constant level differential pressure over the valve for supplying coolant. From US 2009/0 146 090 A1, in contrast, another sanitary faucet is known.

The aim of the present invention is to propose an alternative for the possibility of changing the flow rate through a plumbing valve with an open diaphragm valve.

This problem is solved thanks to the plumbing valve with features according to the independent claim. Preferred improved versions of the sanitary faucet are given in the dependent claims and in the description, and the individual features of the preferred improved options can be freely combined with each other in a technically expedient way.

The problem is solved primarily thanks to a sanitary faucet with the above features, in which case the control device includes a flow element, the flow element having at least one flow opening and being associated with a water inlet or outlet, wherein at least one flow opening of the flow element by means of a rotary movement is set to various rotary positions.

In accordance with the invention, the control spool is directly or indirectly rigidly connected to the actuating cover, which can actuate upon application of pressure and impart a pivotal movement to the control spool. As a result, pressing on the actuating cover is converted into an axial movement of the control spool, while the pivotal movement of the actuating cover results in a rotational movement of the control spool and thus a rotational movement of the flow element. Therefore, the actuating cover is placed in the body of the sanitary faucet, preferably equally with the possibility of performing both rotation and axial movement.

Thus, the invention according to its basic idea provides that the flow through a plumbing valve is changed by changing the cross section of the flow at the water inlet or outlet, for which at least one flow opening of the flow element, by means of a rotary movement, is set to positions of alignment of varying degrees with at least one orifice defining a water inlet or outlet.

The water inlet and outlet respectively are defined primarily by at least one through hole in the body or body component of the plumbing valve. First of all, it is preferable that the flow element includes more than one flow opening and that the water inlet and outlet have more than one flow opening. First of all, the flow element includes exactly as many flow holes as there are through holes associated with it water inlet or outlet. In this case, the flow element may also include more or fewer flow holes than the number of through holes. Preferably, the flow element is located within the body component defining the water inlet or outlet. The flow element may be positioned directly adjacent to the portion of the housing having through holes. In this case, an intermediate piece, such as a bushing, can also be located between the body and the flow element, the intermediate piece having holes corresponding to the through holes.

The flow element is preferably associated with a water outlet. Preferably, the water inlet is provided in the radial planes of the casing of the sanitary faucet body, while the water outlet is provided at the axial end of the sanitary faucet, the water outlet being positioned radially and/or axially.

If the water inlet or outlet is made in a cylindrical, radially located section of the housing, then it is preferable that the flow element has a casing in the form of a circular cylinder, in which at least one flow opening is made.

If, on the other hand, the water inlet or outlet is provided on the front side of the body of the sanitary faucet, then it is preferable that the flow element includes a disk-shaped segment in which at least one flow opening is provided.

It can be provided that the flow element can operate independently of the control spool. In this case, it is preferable that the flow element is coupled to the control spool with resistance to torque (without the possibility of rotation) so that the flow element is adjustable to various rotational positions as a result of turning the control spool.

To decouple the axial movement of the control spool between its two stable positions from the movement of the control spool in the axial direction, the control spool is preferably arranged for axial movement relative to the flow element. Thus, during axial movement of the control spool, the flow element remains in its axial position, while the rotational movement of the control spool results in a rotational movement of the flow element.

In this case, it can be provided that the control spool passes through a non-circular opening in the disk-shaped segment, in particular in the case of a disk-shaped flow element, wherein the control spool in the area of the through passage through the segment has the shape of a counterpart for the opening in the disk-shaped segment. . Alternatively, it can be provided that the control spool is connected indirectly to the flow element by means of a mating element and, if necessary, other structural elements.

In a preferred embodiment, the control spool is directed through the control hole so that the control spool passes through the control hole. In this regard, first of all, it is provided that the flow element is associated with the control spool on the side, which, in connection with the diaphragm valve, is remote from the drive side of the control spool.

In this regard, first of all, it is provided that the control spool has a constriction, which in the second position of the control spool is located so that water from the discharge cavity can flow through the control opening along the constriction.

In order to lock the control opening in the first position of the control spool, a seal is provided next to the control opening. In the second position of the control spool, releasing the control opening, water can flow between the constriction and the seal, while in the first position of the control spool, closing the control opening, the control spool, with its portion axially adjacent to the constriction, is in contact with the seal, so that no water can flow through the control hole.

In order to place the control spool in various stable axial positions by actuation upon application of pressure and to hold them there, first of all, a rocker mechanism is made, which, after actuation upon application of pressure, keeps the control spool in a stable position and which is provided so that during actuation when applying pressure to move the control spool to another stable position. This rocker switch operates according to the principle of a ballpoint pen, as is already sufficiently known for sanitary valves with diaphragm valves and is described in EP 1 903 267 A, for example. spring opposite to the direction of actuation when pressure is applied, while the stop, for example, in the form of a pin or a ledge, is pressed in stable positions against respectively made contact surfaces of the rocker mechanism. The contact surfaces of the rocker mechanism for various stable axial positions, located next to each other in the circumferential direction, are offset relative to each other in the axial direction. First of all, one of the rocker mechanisms with contact surfaces for a stable position of the opposite rocker guide is designed so that when actuated, when pressure is applied, the stop moves in the circumferential direction in such a way that the stop, when the spring is released, goes to the contact surface adjacent in the circumferential direction.

The invention, as well as the technical field, are explained hereinafter on the basis of the figures. The figures schematically show:

Fig. 1: a sectional view of the first embodiment of the plumbing valve with the diaphragm valve closed.

Fig. 2: perspective view of the diaphragm valve according to FIG. one.

Fig. 3 is an exploded perspective view of some structural elements of the sanitary faucet according to FIG. one.

Fig. 4 is a sectional view of FIG. 4 with open diaphragm valve and maximum flow.

Fig. 5 is a sectional view of FIG. 1 with diaphragm valve open and minimum flow.

Fig. 6-9: the second version of the design of the plumbing valve.

Shown in FIG. 1-5, the sanitary valve has a water inlet 1 in its body, which is defined by multiple through holes 16.1, and a filter is located radially outside in front of the through holes 16.1.

In addition, the plumbing valve includes a water outlet 2, which is defined by multiple through holes 16.2 and an axial end hole.

In the direction of flow, between the water inlet 1 and the water outlet 2, a membrane valve 3 is provided, which includes a valve body 4 which, in the case shown in FIG. 1 the closed position of the diaphragm valve rests on the seat 5 of the valve. In the valve body 4, an equalizing hole, not shown, is made, which creates a hydraulic connection between the water inlet 1 and the injection cavity 19 located above the membrane valve.

In addition, the valve body 4 has a control opening 6 through which the control spool 7 passes. 1 in the closed position of the diaphragm valve 3 interacts with the seal 13 in such a way that the hydraulic connection from the discharge cavity 19 towards the water outlet 2 through the control hole 6 is blocked.

The control spool 7 on the side remote from the water outlet 2 is connected to the drive cover 14, which is placed in the body of the plumbing valve with the possibility of rotation and axial movement with overcoming the force of the spring.

In addition, a rocker mechanism 15 is provided, which, according to the principle of a ballpoint pen, allows the control spool 7 to be set in two stable axial positions, in which the control spool 7 is in different axial positions.

As follows primarily from FIG. 3, the control spool 7, on its side facing the water outlet 2, without the possibility of rotation, but with the possibility of axial movement, is connected to the mating element 18. In turn, the mating element 18 is connected without the possibility of rotation to the flow element 8. The flow element 8 has a casing 10 , in which flow holes 9 are made. In the mounted state, between the flow element 8 and outlet 2, a sleeve 17 is located, and the holes in the sleeve 17 coincide with the through holes 16.2 of the outlet 2.

In the shown in FIG. 1 state, the diaphragm valve is closed, so that the flow of water from the water inlet 1 to the water outlet 2 is blocked. By actuating when pressure is applied to the actuating cover 14, the diaphragm valve 3 can be opened, whereby the control spool 7 is displaced axially upwards by actuating when pressure is applied and under the action of the rocker mechanism 15. As a result, the control opening 6 is first released, since water can flow from the pressure chamber 19 along the constriction 12, thereby depressurizing the pressure chamber 19 so that the diaphragm valve 3 opens in a known manner.

The flow through the plumbing valve can in this case be changed by turning the drive cover 14. That is, by turning the drive cover 14, the shut-off element 8 can be placed in various rotational positions, with the closure element 8 shown in FIG. 4 in the rotary position, the flow holes 9 of the flow element 8 coincide with the through holes 16.2 in the sanitary valve body so that maximum flow is possible.

In the shown in FIG. 5 in the rotary position, on the contrary, the passage holes 16.2 are closed by the casing 10 of the flow element 8, at least for the most part, so that the minimum flow rate is set. In the case of the embodiment according to FIG. 1-5, the water outlet can also be carried out on the end side of the plumbing valve.

Shown in FIG. 6-9, the plumbing valve is different from the plumbing valve of FIG. 1-5 by the implementation of the water outlet 2 and the locking element 8, so that only these differences will be considered further in the text.

According to the design example according to FIG. 6-9, outlet 2 is defined by two through holes 16.2 on the lower end side of the plumbing valve.

The flow element 8 is made as a disc 11, in which flow holes 9 are made. The control spool 7, with its end on the outlet side, passes through the flow element 8 directly, the connection being given without the possibility of rotation, but relative axial movement is possible.

In the shown in FIG. 8 in the open position of the membrane valve 3, the flow holes 9 of the flow element 8 coincide with the through holes 16.2 of the water outlet 2 so that maximum flow is possible. In the shown in FIG. 9 in the rotational position of the flow element 8, on the contrary, the passage holes 16.2 are mostly closed by the flow element 8 so that only a minimum flow through the plumbing valve is possible.

LIST OF REFERENCES

1 water inlet

2 Outlet

3 Diaphragm valve

4 Valve body

5 Valve seat

6 pilot hole

7 Control spool

8 Flow element

9 Flow port

10 Casing

11 Disk

12 Narrowing

13 Seal

14 Drive cover

15 Rocker mechanism

16 Through hole

17 Sleeve

18 Mating element

19 Discharge cavity.

Claims (18)

1. Plumbing valve having: - water inlet (1), - outlet (2), - a membrane valve (3), which is located between the water inlet (1) and the water outlet (2), and the membrane valve (3) includes: - seat (5) of the valve, - balance hole - control hole (6), and the control spool (7), moreover, the control spool (7) by actuating when pressure is applied is made with the possibility of being transferred to the first and second stable positions, moreover, the control spool (7) in the first position closes the control hole (6), and in the second position it holds it in a flowing state, and an adjusting device, with the help of which, by means of a rotary movement, the flow through the plumbing valve is changed with the membrane valve (3) open, and the adjusting device includes a flow element (8), moreover, the flow element (8) has at least one flow opening ( 9) and correlated with the water inlet (1) or water outlet (2), wherein at least one flow hole (9) of the flow element (8) is settable to various rotary positions by means of a rotary movement, characterized in that the control spool (7) is rigidly connected to the drive cover (14). 2. Plumbing valve according to claim 1, wherein the flow element (8) has a cylinder-shaped casing (10), and at least one flow hole (9) is made in the cylinder-shaped casing (10). 3. Plumbing valve according to claim 1 or 2, wherein the flow element (8) includes a disc-shaped segment (11), wherein the disc-shaped segment (11) has at least one flow opening (9). 4. Sanitary valve according to one of the preceding paragraphs, wherein the flow element (8) is connected to the control spool (7) without the possibility of turning. 5. Plumbing valve according to one of the preceding paragraphs, wherein the control spool (7) is installed with the possibility of axial movement relative to the flow element (8). 6. Plumbing valve according to one of the preceding claims, wherein the control valve (7) passes through the control hole (6). 7. Plumbing valve according to claim 6, wherein the control spool (7) has a constriction (12), along which, in the second position of the control spool (7), water flows through the control hole (6). 8. Plumbing valve according to claim 6 or 7, with a seal (13) located next to the control hole (6). 9. Plumbing valve according to one of the preceding claims, wherein a rocker mechanism (15) is provided, which, after being actuated by the application of pressure, keeps the control spool (7) in a stable position.

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