RU203484U1 - Inlet valve with bottom water connection - Google Patents

Abstract

The utility model refers to the inlet valve for filling the flush cistern and is designed to ensure the flow of water into the sanitary compact cistern in a specified volume. An inlet valve with a lower connection comprises a housing with a cover fixed on it, in which there is a cavity and an outlet; a rocker arm mounted on the cover, one end of which, through a rod, with a bushing attached to it, is connected to the glass and to a float located inside it, and the other provides interaction with the outlet through an insert installed in the rocker; a water supply pipe, inside which a filter element is located at the lower end, and the upper end is connected to a nozzle; a bayonet pipe, inside of which the supply pipe is rigidly fixed, while the bayonet pipe is made with the possibility of extension from the housing to adjust the height of the inlet valve and fix it in the housing; at the same time, at the lower end of the rod there is an external thread for screwing on it a glass with a counter thread, and the sleeve fixed to the rod has an external thread for screwing a float with a counter thread on it; a membrane with a membrane sleeve is located between the cover and the nozzle, and the membrane is made with the ability to move into the cavity of the cover and back; and the rod is made with the possibility of adjusting the height of the float. The technical result achieved by the implementation of the claimed utility model is to increase the operational properties of the claimed intake valve.

Description

The utility model refers to the inlet valve for filling the flush cistern and is designed to ensure the flow of water into the sanitary compact cistern in a specified volume.

An adjustable inlet valve for filling cisterns is known from the prior art, which includes a telescopic pipe 1 for admitting water and passing it into a corresponding cistern, which serves as the basis for the installation of this inlet valve. In addition, it contains at the upper part a cylindrical part 2, in which the opening / closing means are placed, gaskets 20 for blocking / passing water, and at the top of which there is a lever 3 connected to the corresponding float of the cistern, all these devices are known including the protective closed shell 4 (RF patent No. 2493333, 20.09.2013).

The disadvantage of this device is the low reliability of its operation. This is due to the fact that tap water enters the device, which may contain suspended particles (for example, rust particles, etc.), which can lead to clogging of the valve and, as a result, to its breakdown .

The technical problem to be solved by the utility model consists in the development of a design of an inlet valve with a lower water supply, which maintains a fast water supply up to its complete closure and excludes water supply when the water pressure in the network rises, excluding the outflow of water into the water supply network in the absence of pressure in a network with a low noise level, with the possibility of installation in contact with the walls of the tank and the elements of the discharge valve, as well as having a design that is convenient for use by the consumer.

The technical result achieved by the implementation of the claimed utility model is to increase the operational properties of the claimed intake valve.

The specified technical result is achieved in an inlet valve with a lower connection, containing

a housing with a lid fixed on it, in which there is a cavity and an outlet;

a rocker arm mounted on the cover, one end of which, through a rod, with an adjusting sleeve fixed to it, is connected to the glass and to a float located inside it, and the other provides interaction with the outlet through a valve (insert) installed in the rocker arm;

a water supply pipe, inside which a filter element is located at the lower end, and the upper end is connected to a nozzle;

a bayonet tube, inside of which an inlet pipe is rigidly fixed, while the bayonet tube is made with the possibility of extension from the housing to adjust the height of the inlet valve and fix it in the housing;

at the same time, at the lower end of the rod there is an external thread for screwing on it a glass with a counter thread, and the sleeve fixed to the rod has an external thread for screwing a float with a counter thread on it;

a membrane with a membrane sleeve is located between the cover and the nozzle, and the membrane is made with the ability to move into the cavity of the cover and back;

and the rod is made with the possibility of adjusting the height of the float.

The diaphragm can be installed through a washer. The membrane is a flexible element made of rubber or rubber-like material. The membrane may contain a membrane sleeve, on the shaft of which a groove is made, through which water enters the cavity formed in the cover (into the membrane cavity).

The filter element can be made of polypropylene (for example, polypropylene nonwoven material) with a pore size of 0.5 mm.

The upper end of the inlet pipe can be connected to the nozzle by means of rubber seals in the form of rings.

The outlet in the lid can be calibrated. The outlet is made with the possibility of closing by means of a valve (insert) installed in the rocker arm when the float ascends. The valve (liner) can be made of rubber, for example. The place where water flows from the nozzle through the outlet is above the maximum water level in the tank, so the water accumulated in the tank cannot flow back into the water supply network if there is no pressure in the network. This further improves the reliability of the valve.

Bayonet tube means a tube with a bayonet mount.

In addition, the cover can be mounted on the body using a bayonet clip,which greatly simplifies the design of the intake valve.

The float is located inside the glass and can be made of an annular shape or have an oval profile, so the thread can be located on the inner side, that is, the side located in the axial hole of the float.

The glass is a container with hollow walls and a central opening and can be made, for example, in the form of an annular container with external and internal sides and has an opening with a plug in its bottom. When installing the float into a glass, the inside of the glass goes through the hole in the float ring. Thus, when placing the float in the glass, their holes are coaxial. The inside of the glass is carved. The thread is also made on the inside of the float.

The placement of the float in the glass allows for accurate filling of the tank. The glass eliminates splashes, waves of water and increases the speed of valve closing. The glass allows contact with the walls of the tank or reinforcement elements.

A screw (or a rod with an external thread at the lower end) with an adjusting sleeve fixed to it can be used as a thrust for connecting the rocker arm with a glass and a float located inside it.

The adjusting sleeve (sleeve) is fixed to the rod with the upper side. When installing the bushing on the rod, the rod is passed through the bushing, the upper side of the bushing is fixed to the rod (screw), for example, using a clamp or screw. In this case, the fastening is carried out in such a way that the sleeve is located in the lower part of the rod (screw). After installing the sleeve on top of the lower section of the rod, between the surface of the rod and the inner side of the sleeve, there is a cavity into which the inner side of the sleeve enters when screwing the thread on the inner side of the sleeve onto the lower part of the rod. In this case, the wall of the sleeve is located between the inner side of the float and the inner side of the glass. In this case, when the inner side of the glass is screwed onto the rod, the float (its inner side) installed in the glass is screwed onto the outer thread of the sleeve at the same time. With this design of the valve, it is possible to adjust the height of the location of the float and the glass in the tank. Adjustment of the position of the float and glass in height is carried out by rotating the rod (screw), as a result of which there is a synchronous movement (rotation) of the glass along the rod (screw) and the float along the surface of the adjusting sleeve in the up or down direction. As a result, smooth adjustment of the position of the glass and float is achieved.

The ability to adjust the height of the float in the inlet valve allows you to use the inlet valve for sancompact tanks with different volumes and thus adjust the amount of water drawn into the tank. Adjusting the height of the float position allows the float to be fixed at the maximum height, which makes it possible to set a full tank when using a valve with large tanks. At the same time, it is also possible to reduce the height of the float position if it is necessary to fill the tank with a smaller volume of water, which is important when using the valve in small tanks.

The possibility of using the intake valve with sancompact tanks of different volumes allows the declared utility model to be considered universal and leads to an increase (improvement) in the performance properties of the intake valve.

A bayonet tube is installed inside the housing, which is made with the possibility of its extension from the housing together with the inlet pipe to increase the total height of the inlet valve. This is necessary in order to increase the height of the float when installing the valve in a large tank. The pipe can also be pushed into the body to reduce the height of the valve if it is necessary to install it in small tanks. The bayonet tube is fixed in the housing at the required height by means of a bayonet connection. Fixation by means of a bayonet connection is carried out as follows. Along the outer surface of the bayonet tube, two vertical rows of protrusions of the same size are made. The rows are located opposite each other. On the inner surface of the body there are also protrusions corresponding to protrusions on the outer surface of the bayonet tube. Thus, the bayonet connection allows the projections of the bayonet tube to engage with the mating projections of the housing.

The possibility of adjusting the height of the inlet valve allows it to be used in tanks with a bottom water supply of any volume, which leads to an increase (improvement) in the performance properties of the inlet valve due to the versatility of the inlet valve.

An increase (improvement) in operational properties is achieved by increasing the reliability of the inlet valve and, as a consequence, increasing its durability, which is ensured by the presence of a filter element on the inlet pipe. The presence of a filter element on the supply pipe prevents suspended particles (for example, particles of rust, sand, etc.) from entering the valve cavity together with water. This allows you to avoid quick clogging of the valve during its operation, and as a result of its breakdown. Thus, the reliability of the device is increased, as well as its service life is increased . In addition, the presence of a filter inside the inlet pipe reduces the noise level of the water during the operation of the valve, which also improves the operational properties of the device.

The claimed utility model can significantly reduce the noise during its operation also due to the formation of cavities between the body and the inlet pipe, between the bayonet tube and the inlet pipe. This further improves the performance of the device.

The claimed technical result is achieved by a set of features reflected in the independent claim of the utility model.

The essence of the utility model is illustrated by drawings.

FIG. 1 shows a general view of the cistern inlet valve.

FIG. 2 shows a vertical section A-A,

Figure 3 shows a horizontal section BB.

FIG. 4 shows a top view of a glass with a float.

FIG. 5 shows a view of the valve installed inside the reservoir.

In the figures, positions 1-29 denote:

1 - nut;

2 - gasket;

3 - membrane;

4 - membrane sleeve;

5 - insert;

6 - plug;

7 - filter element;

8 - washer;

9 - intake valve body;

10 - bayonet tube;

11 - supply pipe;

12 - nozzle;

13 - cover;

14 - rocker;

15 - screw;

16 - clamp;

17 - an adjusting sleeve;

18 - float;

19 - glass;

20 - small rubber seal;

21 - large rubber seal;

22 - outlet;

23 - glass holder;

24 - projections of the bayonet connection;

25 - valve cavity;

26 - thread;

27 - inside of the glass;

28 - inner side of the float;

29 - cavity in the lid.

The inlet valve with a lower connection contains a water supply pipe 11 with a bayonet pipe 10 fixed on it. The bayonet pipe 10 with an inlet pipe located inside it is installed in the cavity of the inlet valve body 9. The bayonet tube 10 is connected to the body 9 by means of a bayonet connection. A filter element 7 is located inside the lower end of the inlet pipe 11, and the upper end of the inlet pipe is connected to the nozzle 12 through a rubber seal, a small ring 20. In the upper part of the body 9, a cover 13 is installed, in which there is a cavity 29 and a calibrated outlet 22. The cover 13 is installed on the body 9 through the ring 21 using a bayonet clamp, which also greatly simplifies the design of the intake valve. The cover 13 is connected to the rocker arm 14 by a movable connection. Between the cover 13 and the nozzle 12, a washer 8 and a membrane 3 with a membrane sleeve 4 are installed in the body 9. A groove is made on the rod of the membrane sleeve 4 (not shown in the figure), through which water enters the cavity 29 in the cover 13 (the membrane cavity formed in the lid 13). At one end of the rocker arm 14 is an insert 5. The other end of the rocker arm 14 is connected to a screw 15, at the lower end of which thread 26 is made. An adjusting sleeve 17 is put on the lower part of the screw 15, on the outer surface of which thread 26 is made. The adjusting sleeve 17 is attached to the screw 15 by means of clamp 16.

The screw 15 and the adjusting sleeve 17 are fixed in the glass 19 and the float 18. The glass is made in the form of an annular container 19 with an inner side 27 and has a hole in its bottom with a plug 6. Inside the glass 19 there is an annular float 18 with an inner annular side 28. On the inner annular sides 27, 28 of the nozzle 19 and the float 18 are made with a thread 26. The screw is screwed into the inner annular side of the nozzle, and the adjusting sleeve is screwed into the inner annular side of the float. Thus, the float 18 and the glass 19 are made with the possibility of synchronous height adjustment by rotating the screw 15 and the sleeve 17.

The intake valve works as follows.

The valve height is preliminarily adjusted by extending the bayonet tube 9, which is rigidly fixed to the inlet tube 11, from the body 9 to the required distance. Further fixation of the body to the bayonet tube is carried out using a bayonet connection, which also simplifies adjustment. Next, adjust the position of the glass 19 and the float 18 in height. The adjustment is made steplessly and synchronously with the help of a pair of screw 15 - adjusting sleeve 17, which rotate simultaneously but have the possibility of axial displacement relative to each other. In this case, there is a simultaneous movement of the glass with the float either up or down along the screw to the required height. All manipulations with the valve are carried out in the upper zone with easy access.

Further, the lower free end of the supply pipe 11 is inserted into the hole in the bottom of the tank and secured with a nut 1 from the outside of the tank (not shown in the figure). In this case, the gasket 2 on the inlet pipe should be located inside the tank and abut against its bottom.

A water supply hose (not shown in the figure) is attached to the lower end of the supply pipe 11 by means of a union nut.

During operation, water enters the supply pipe 11 and then into the tank through the nozzle hole 12, pressing out the membrane 3. At the same time, through the groove made on the rod of the membrane sleeve 4, water enters the cavity in the lid (membrane cavity formed in the lid) 29. B the lid 18 is provided with a calibrated outlet 22, through which water in a small amount enters the tank through the lid 13. As the tank is filled, the incoming water acts on the plug 6, closing access to the glass 19.

With a further increase in the water level, it overflows over the upper edge of the glass 19, while the float 18 floats up and through the clamp 16, the bushing 17 and the rocker arm 14 with the insert 5 overlaps the calibrated outlet 22 in the cover 13.

As a result, the pressure in the membrane cavity 29 increases and, due to the difference in areas in the pre- and membrane cavities, the membrane closes the opening of the valve nozzle 12. The water supply to the tank stops.

At the same time, during the water intake due to the use of the float 18 with a glass 19 99% of the filling time, the inlet valve remains completely open. After draining the water from the tank, the float 18, descending along with the water level, through the rocker arm 14 with the insert 5, opens the calibrated outlet 22 in the cover 13, the pressure in the membrane cavity 29 drops and the membrane 3 opens the hole of the nozzle 12, the cycle repeats.

Moreover, the place where the water flows out of the nozzle 12 is above the maximum water level in the tank, therefore, the water accumulated in the tank cannot flow back into the water supply network in the absence of pressure in the network.

The given example is a special case and does not exhaust all possible implementations of the utility model.

Thus, the developed design of the inlet valve has increased reliability during operation, while realizing the possibility of adjusting the volume of the intake water depending on the volume of the tank.

Claims (5)

1. An inlet valve with a lower connection, characterized in that it contains a housing with a cover fixed on it, in which there is a cavity and an outlet; a rocker arm mounted on the cover, one end of which, through a rod, with a bushing attached to it, is connected to the glass and to a float located inside it, and the other provides interaction with the outlet through an insert installed in the rocker; a water supply pipe, inside which a filter element is located at the lower end, and the upper end is connected to a nozzle; a bayonet tube, inside of which an inlet pipe is rigidly fixed, while the bayonet tube is made with the possibility of extension from the housing to adjust the height of the inlet valve and fix it in the housing; at the same time, at the lower end of the rod there is an external thread for screwing on it a glass with a counter thread, and the sleeve fixed to the rod has an external thread for screwing a float with a counter thread on it; a membrane with a membrane sleeve is located between the cover and the nozzle, and the membrane is made with the ability to move into the cavity of the cover and back; and the rod is made with the possibility of adjusting the height of the float. 2. An intake valve according to claim 1, characterized in that a screw with an adjusting sleeve installed on it is used as a thrust. 3. An inlet valve according to claim 1, characterized in that the bayonet tube is secured inside the housing by means of a bayonet connection. 4. An inlet valve according to claim 1, characterized in that the float can be installed in the nozzle. 5. The inlet valve according to claims 2, 4, characterized in that the height adjustment of the float and the cup is provided by synchronous rotation of the screw with the adjusting sleeve installed on it.

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