CZ34308U1 - Filling valve for toilet tank - Google Patents

Description

Field of technology

The technical solution relates to a filling valve for toilet cisterns with a closing membrane between the valve chamber and a connecting channel, the diaphragm being controlled by hydraulically connecting the chamber in front of the diaphragm to an auxiliary chamber behind the diaphragm, the auxiliary chamber being connected to an outlet with float.

Prior art

So far, a number of filling valve designs designed for use in toilet cisterns are known and manufactured. These filling valves are usually divided into two basic groups according to the method of their control, namely float and non-float. Float-free valves are used less because they require a sufficiently high and constant water pressure together with a relatively precisely determined pipe diameter in order to function properly and to achieve a corresponding flushing effect.

More widespread are filling valves, which are operated by a float, which closes the valve opening by means of a lever. The diaphragm is usually built into the valve body, provided with a system of holes and channels, and is exposed to the pressure of water from the water supply line, through which it is lifted and thus allows water to flow through the valve body into the tube, from which it flows into the cistern. The membrane is also equipped with a small overflow opening, which allows water to flow into the space behind the membrane. The space behind the membrane is usually tightly closed with a lid with a nozzle for the outflow of water flowing through the membrane into the space behind the membrane. A lever controlled by a float rests on the nozzle, which closes the water supply by means of a lever when the tank is filled with water. This type of priming valve is relatively simple. However, its well-known disadvantage is the limited possibility of regulating the level in the tank and also the fact that the lever extends too much into the interior of the tank, which often prevents the use of more modern types of drain valves.

Most of the shortcomings of previous solutions of WC tank filling valves are eliminated by the filling valve for WC tanks, in which closing of the filled water flow is ensured by a membrane according to CZ utility model 10511 provided with a mandrel inside, hydraulically operated by a nozzle and a closing lever connected to the float there is a flat surface on the priming valve seat, and that the tm located inside the diaphragm is provided at its lower part abutting the inner lower surface of the diaphragm with a circular surface forming a low protrusion having a minimum diameter equal to the outer diameter of the priming valve seat and a maximum diameter equal to the outer diameter. priming valve seat increased by 2 mm. When the outer surfaces of the valves are clogged, the moving parts of the valve become more difficult and at pressures of the filled water above 0.4 Atm, the noise level increases due to the flow of water through the folds and differences in the brightness of the channels. Another disadvantage of this solution is that at low water line pressures of about 0.05 MPa and lower, the whole system is sensitive to the quality and geometric accuracy of the diaphragm seating surface, water can flow through the valve seat into the tank.

The noise deficiencies of the filling valve are reduced by the valve according to CZ UV 18393, in which the water flow through the inner channels of the valves is guided in the most direct paths and possible changes in water flow direction are solved in places with maximum cross-section and minimum water flow rate. However, it turns out that even this noise reduction is insufficient in some applications.

Deficiencies of the valve according to CZ UV 10511 caused by difficult movement of moving parts of the valve due to clogging of external surfaces of valve components are reduced or eliminated by solution according to CZ UV 18443 by adjusting the filling valve seat, where the bearing surface of the filling valve seat forms .

- 1 CZ 34308 U1

At present, filling valves are required to seal even in the event of a sudden increase in the pressure of the filled water, up to a value of 1.6 MPa, which the valves described above do not meet, which is the main disadvantage of the prior art.

The aim of the technical solution is to create a filling valve which would meet the current tightness condition with minimal modifications even in the event of a sudden increase in water pressure in the supply pipe, up to 1.6 MPa, and which would show a further reduction in noise.

The essence of the technical solution

The object of the technical solution is achieved by a filling valve for toilet cisterns, the essence of which consists in that the hydraulic connection of the chamber in front of the membrane with the auxiliary chamber behind the membrane comprises an axial through hole through the membrane and the axial through hole with circumferential clearance extends into the valve body.

The advantage of this solution is a significant improvement in the resistance of the valve to higher water pressures, when this valve can close or keep closed the water supply with a pressure up to 1.6 MPa. Another advantage is the further reduction of the valve noise when filling with water.

Preferred embodiments are the subject matter of the dependent protection claims.

Explanation of drawings

The technical solution is schematically shown in the drawing, where Fig. 1 shows the basic assembly of the filling valve according to the technical solution - broken down into parts, Fig. 2 shows a vertical section of the filling valve according to the technical solution and Fig. 3 shows a detail of the filling valve according to the technical solution.

Examples of technical solution

The technical solution will be described on the example of an embodiment of a filling valve for WC tanks, which is provided with an inlet channel 10 of filled water through which water flows into the valve chamber 11 up to perpendicular to the face 200 of the central sealing part 20 of the diaphragm 2.

In the inlet channel 10 there is a screen 100 for capturing mechanical impurities in the water, and further in the inlet channel 10 there is a reducer 101 of the cross section of the inlet channel 10 to reduce the noise when filling with water. The reducer 101 comprises a plate carrier 1010 with a central opening 10100, a reduction tube 1011 being briefly mounted on the front side of the plate carrier 1010, which faces upstream and which with its cavity 10110 connects to the central hole 10100 of the plate carrier 1010.

The diaphragm 2 is housed in the valve body 1 and comprises a central sealing part 20 which, with its front face 200, resiliently abuts an annulus-shaped seat 12 between the valve chamber 11 and the connecting channel 13, through which water is passed from the valve chamber 11 to the connecting channel. 13 and further into the water filling tube 14 opening into the toilet cistern.

The diaphragm 2 comprises on the outer circumference of the central sealing part 20 a plate extension 22 which has the shape of an annular ring and which is provided on its outer circumference with a mounting collar 23. through which the diaphragm 2 is accommodated in the valve body 1. The central sealing part 20 of the diaphragm 2 is thus axially movable relative to the bearing collar 23.

-2 CZ 34308 U1

In the illustrated embodiment, at least a part of the plate extension 22 of the membrane 2 is formed as curved and thus has a de facto shape of a part of the toroid.

An axial through hole 30 is formed in the axis of symmetry of the central sealing part 20 in the central sealing part 20 of the diaphragm 2, into which a tm 40 arranged on the rear valve cover 4 extends with circumferential play, the auxiliary chamber 15. The auxiliary chamber 15 is connected to an actuating outlet opening 16, to which an actuating sealing cap 170 arranged on the actuating lever 17 is assigned, which is pivotally mounted on the valve body 1 and which is coupled to the float 18. In the illustrated embodiment, the axial through hole 30 is formed in an axial bushing 3, which is located in the axis of symmetry of the central sealing portion 20 of the diaphragm 2, which in particular improves the deflectability of the circumferential clearance between the axial through hole 30 and the mandrel 40 on the valve rear cover 4, including defined friction and movement between the mandrel 40 and the axial bushing 3. In an exemplary embodiment (not shown), the through hole 30 is formed directly in the central seal. The part 20 of the diaphragm 2 and the tm 40 on the rear cap 4 of the valve engage in this axial opening 30 in the central sealing part 20 of the diaphragm 2, i.e. without the presence of the axial bushing 3.

When the toilet bowl is emptied, the control lever 17 is in the position of opening the sealing cap 170 from the outlet opening 16, which is thus open, while when the toilet bowl is filled, the control lever 17 is in the position of closing the sealing cap 170 to the outlet opening 16, which is thus sealed. closed.

The size of the area of the central sealing part 20 of the membrane 2 exposed to the infused water from the chamber 11 is smaller than the size of the area of the rear side 24 of the membrane 2 arranged against the auxiliary chamber 15.

The limiting collar 130 is accommodated in the valve body 1 by its outer circumference, which is associated with its inner circumference to the central part of the diaphragm 2, here for example the outer circumference of the central sealing part 20 of the diaphragm 2 projecting, as a support against excessive deformation of the plate extension 22 of the membrane 2 and rupture of the plate extension 22, resp. diaphragm 2, at high operating pressures. The space 131 between the plate extension 22 of the diaphragm 2 and the limiting collar 130 allows axial movement of the central sealing part 20 of the diaphragm 2 and is connected to the toilet tank or to the upper hollow part of the float 18 through the outlet opening 132.

The valve according to the technical solution operates so that water enters the valve through the inlet channel 10, passing through the cavity 10110 of the reduction tube 1011 of the reducer 101 into the central opening 10100 of the plate carrier 1010 and enters the valve chamber 11 via the screen 100, where it presses the central seal 200 on the front face 200. part 20 of the diaphragm 2, where this front face 200 fits tightly on the seat 12 between the valve chamber 11 and the connecting channel 13. When the control outlet opening 16 is open, i. the valve is in the state of filling the toilet cistern, then the water from the chamber 11 pushes the front face 200 of the central sealing part 20 of the diaphragm 2 away from the seat 12 and flows into the connecting channel 13 and further into the water filling pipe 14 opening into the toilet cistern. In this case, a very small amount of water flows through the gap between the axial through hole 30 in the axial passage 3 and the mandrel 40 on the rear lid 4 into the auxiliary chamber 15 behind the membrane 2, this water having the same pressure as the water in the chamber 11 in front of the membrane 2. with the open control outlet 16 out of the valve.

During the filling of the toilet cistern, the float 18 rises and in the final phase then gradually closes the control outlet opening 16 via the control lever 17 and the control sealing cap 170, because the control sealing cap 170 presses against the control outlet opening 16. The passage closes when the control outlet 16 is gradually closed. water from the auxiliary chamber 15 through the control outlet 16 and the water pressure in the auxiliary chamber 15 gradually presses the front face 200 of the central sealing part 20 of the diaphragm 2 back onto the seat 12, thereby gradually closing the water flow from the valve chamber 11 to the connecting channel 13 and further into water filling tube 14 opening into the toilet cistern.

-3CZ 34308 U1

When the control outlet 16 is closed, then the water in the auxiliary chamber 15 behind the membrane 2 has the same pressure as the water in the chamber 11 in front of the membrane 2, and because the back side 24 of the membrane 2 is affected by the water pressure in the auxiliary chamber 15. than the area of the central sealing portion 20 of the membrane 2 exposed to the impregnated water from the chamber 11, the water exerts a greater force on the rear side 24 of the membrane 2 than it exerts on said front side of the membrane 2 (i.e. on the front face 200 of the central sealing part 20 of the diaphragm 2) and securely presses the front face 200 of the central sealing part 20 of the diaphragm 2 with the seat 12, even if the supply water pressure increases, even to the level of 1.6 MPa required by the standards.

Claims (9)

CLAIMS FOR PROTECTION Filling valve for toilet cisterns with a closing diaphragm (2) between the valve chamber (11) and the connecting channel (13), the diaphragm (2) being controlled by hydraulically connecting the chamber (11) in front of the diaphragm to an auxiliary chamber (15) behind the diaphragm ( 2), where the auxiliary chamber (15) is connected by an outlet opening (16) to which an actuating sealing cap (170) associated with the float (18) is assigned, characterized in that the hydraulic connection of the chamber (11) in front of the membrane (2) with the auxiliary chamber (15) behind the diaphragm (2) comprises an axial through hole (30) through the diaphragm (2) and a tm (40) mounted on the valve body (1) extends into the axial through hole (30) with a circumferential clearance. Filling valve for toilet cisterns according to claim 1, characterized in that the axial through hole (30) through the membrane (2) is arranged in an axial bushing (3) which is accommodated in the central sealing part (20) of the membrane (2) in the axis symmetry of the central sealing part (20). Filling valve for toilet cisterns according to claim 1, characterized in that the axial through hole (30) through the membrane (2) is formed in the central sealing part (20) of the membrane (2) in the axis of symmetry of the central sealing part (20). Filling valve for toilet cisterns according to any one of claims 1 to 3, characterized in that the tm (40) is fixedly mounted on the rear cap (4) of the valve. Filling valve for toilet cisterns according to any one of claims 1 to 4, characterized in that the diaphragm (2) comprises on the outer circumference of its central sealing part (20) a disc extension (22) which has the shape of a spacer and which is on provided with a storage socket (23) in its outer circumference, by which the diaphragm (2) is accommodated in the valve body (1). Filling valve for toilet cisterns according to Claim 5, characterized in that at least a part of the plate extension (22) of the diaphragm (2) is formed as an arc and is in the form of a part of a toroid. Filling valve for toilet cisterns according to any one of claims 1 to 6, characterized in that a reducer (101) of the cross-section of the inlet channel (10) is inserted in front of the chamber (11) and the membrane (2) in the inlet channel (10) to reduce noise when filling with water. Filling valve for toilet cisterns according to claim 7, characterized in that the reducer (101) comprises a plate carrier (1010) with a central opening (10100), a reduction sleeve (1011) being briefly mounted on the front side of the plate carrier (1010) , which faces against the direction of water flow, and which with its cavity (10110) connects to the central opening (10100) of the plate carrier (1010). Filling valve for toilet cisterns according to any one of claims 1 to 8, characterized in that a restrictor collar (130) is arranged in the valve body (1), which is associated with its inner circumference with the central part of the diaphragm (2), the middle part of the restrictor the collar (130) is situated against the plate extension (22) of the diaphragm (2) as a support against excessive deformation of the plate extension (22) of the diaphragm (2) and rupture of the plate extension (22) or diaphragm (2) at high operating pressures.