RU2156335C2 - Valve for vacuum sewage system - Google Patents

Abstract

FIELD: valves designed for washing of vacuum sewage system with water jet. SUBSTANCE: valve includes casing with inlet pipe, through flow section and outlet pipe, and drive for valve opening and closing. Drive is movable body of valve with the first sealing surface slightly inclined to its axis. The first sealing surface extends along valve body periphery up to cylindrical part, and the second sealing surface is vertical relative to direction of flow through valve. The first sealing surface rests on corresponding inclined seat which is located on valve casing protrusion. This seat is found behind the internal wall of through flow section. The second sealing surface tightly rests on corresponding cylindrical upper part of valve casing. EFFECT: simplified design of valve, with compact structure and low cost, featuring prolonged service life. 8 cl, 3 dwg

Description

 The present invention relates to a valve, and more particularly, to a valve for flushing a vacuum sewage system with a water jet, which consists of a valve housing with an inlet pipe, a through-flow section and an outlet pipe, and also a drive for opening and closing the valve.

 Sewer from the toilet contains particles such as paper and excrement, so it is extremely important that the valve of the type mentioned above is designed so that the particles do not accumulate inside it and do not interfere with its operation. The simplicity and low cost of these valves in production and operation, the speed with which they open and close, the water resistance, the long service life, and the fact that they are designed in such a way that they produce little noise when used, are more important.

 The closest analogue to the claimed invention is a valve for vacuum sewer systems, in which the section of the through passage is made of an elastic material that is compressed in order to close the valve (French application 2366186, B 65 F 5/00, 1978). This design of the valve meets the above requirements only in a small segment, since the durability of this valve is very small due to the rapid wear of the elastic section, and therefore requires a significant amount of repair work. In addition, this valve does not provide noise reduction.

 Norwegian patent 164049, E 03 C 1/122, 1990, describes a valve that focuses on reducing noise from toilets connected to vacuum sewer systems. The problem is solved by using a second valve to draw in additional air connected to the valve described above, which is flushed with a stream of water, thereby reducing the suction effect. Thus, the noise from the toilet is reduced and the speed of wastewater from the sewage system increases, but this solution is very complex and includes a large number of components that occupy a significant place and whose production is expensive. This solution also requires additional holes in the toilet for air supply, which complicates the fire hazard category of the premises. It is also difficult to coordinate the work of these two valves, which leads to the accumulation of material in the valve, as well as in the sewer from the toilet. In addition, a pipe is used to draw in additional air, which passes through the wall behind the toilet and produces noise, which is transmitted to the restroom or neighboring rooms.

 The basis of the present invention was the task of creating a simple structurally designed valve for vacuum sewer systems, which would be compact, cheap and have a long service life.

 This is achieved by the fact that in a valve for vacuum sewer systems containing a valve housing with an inlet pipe, a through-flow section and an outlet pipe, as well as an actuator for opening and closing the valve, according to the invention, the actuator for opening and closing the valve is a movable valve body with slightly inclined to its axis, the first sealing surface, which extends along the periphery of the valve body up to the cylindrical part, and the second sealing surface is vertically with respect to the direction of flow through the valve, it is envisaged that the first sealing surface rests on a corresponding inclined seat, which is located on the protrusion of the valve casing, and this seat is located behind the inner wall of the through flow section, and the second sealing surface is closely supported by the corresponding cylindrical upper part of the valve cover.

 The valve body may be in the form of a bottle or spoon, with its convex side facing the inlet pipe, and the edges of this spoon form the first sealing surface of the valve body.

 It is desirable that the cylindrical upper part of the valve housing corresponds to the second sealing cylindrical surface — the cylindrical valve body — and is made with a taper directed downward.

 The drive, which reports the movement to the valve body, can be made in the form of a spring and a piston-cylinder device, which is driven by a vacuum.

 The piston of the piston-cylinder device is connected to the valve body by means of a cylindrical part, which is mounted to move inside the corresponding cylindrical part of the valve housing.

 The cylindrical part of the valve housing is provided with an opening located directly above the outlet pipe for supplying additional air when the valve body is in the "open" position.

 The hole may be provided with a damper or throttle valve to control the supply of additional air.

 The hole for supplying additional air can be connected by an air channel to the silencer.

The invention is further illustrated by the description of specific examples of its implementation with reference to the accompanying drawings, in which:
FIG. 1 shows a general diagram of a valve according to the invention (longitudinal dimension);
FIG. 2 is another embodiment of a valve according to the invention with a nozzle for additional air and a silencer;
FIG. 3 - valve shown in FIG. 2, mounted in the toilet.

 As schematically shown in FIG. 1, the proposed valve consists of a casing 1 of the valve, the inlet pipe 2 and the outlet pipe 3, as well as from the valve body 4, driven by the actuator 5 to open and close it. The inlet and outlet nozzles 2, 3 are preferably provided with flanges or other connecting devices 6, 7 for connecting the valve to the toilet or similar devices by means of a sewer pipe 8 or the like.

 The actuator 5 for opening and closing the valve is a movable valve body 4 with a first sealing surface 9 slightly inclined to its axis, which extends along the periphery of the valve body 4 up to the cylindrical part, and the second sealing surface 10 is vertical with respect to the direction of flow through the valve it is provided that the first sealing surface 9 rests on the corresponding inclined seat 16, which is located on the protrusion of the valve housing 1, and this seat is behind the inner wall 36 of the through-flow portion 11, and that the second sealing surface 10 is closely supported by the corresponding cylindrical upper portion 17 of the valve housing 1.

 The valve body 4, which is shown in the closed position in the drawing, has a structure resembling the bottom of a bottle or spoon and the like, the lower part of which extends into the through-flow portion 11 of the valve casing 1, and the convex side part faces the inlet pipe 2 , while the concave part is facing in the opposite direction to the outlet pipe 3, and the edges of this spoon form the first sealing surface 9. A part of the valve body 4, which has the shape of a spoon, is connected to the vertical cylindrical part 12, with the cylindrical part 1 2, as well as the edges or surface 13 of the part of the valve body 4 of the spoon type, is provided with recesses for the sealing elements 14, 15 that enter the connection (sealing elements and recesses for them) to provide the necessary sealing of the valve body 4. The sealing member 14 rests on the inclined seat 16 in the casing through-flow portion 11 when the valve body 4 is in the closed position, as shown in FIG. 1, and thereby provides sealing of the casing 1 in this area. The cylindrical upper part 17 of the valve housing 1 corresponds to the second sealing surface 10 - the cylindrical part of the valve body 4 and is made with a taper directed downward. The seat 16 is formed by the protruding portion of the valve housing 1 and extends, as can be seen from FIG. 1, in a slightly inclined position upwards along the periphery of the casing 1 until it abuts against the cylindrical part 17 of the casing 1 of the valve opposite the sealing element 15. The cylindrical part 17 of the casing 1 of the valve is made with a slight taper directed downwards, which provides additional pressing of the sealing element 15, which creates an additional seal when the valve body 4 is in the closed position.

 The actuator 5 of the valve is made in the form of a spring 20 and a device of the piston-cylinder type, consisting of a piston 18 and cylinders 19, 21 and which is driven by a vacuum. The valve body 4 is connected to the piston 18 by means of a cylindrical part 22, which is mounted to move inside the corresponding cylindrical part 24 of the valve housing 1. On the other hand, the piston 18 is mounted upwardly movable along the inner surface of the cylinder 19 and is provided with a seal 23 at the inner surface of the cylinder 19. The spring 20 is located between the valve wall and the top 25 of the cylinder 19 and is designed to push the valve body 4 down to the position "closed", i.e. to the seat 16. The spring 20 is held in a predetermined position by a cylinder 21 serving as a cylindrical holder protruding downward. This cylinder 21 also serves as a guide for the connecting cylindrical part 22 between the piston 18 and the valve body 4 and increases the stability of the piston 18 during its movement.

 The most common use of the valve, as mentioned earlier, is its use in vacuum sewer systems and in this case it is convenient that the valve actuates the vacuum through a pipe or similar device (not shown) that connects to the valve housing 1 on one side with a nipple 29, and by means of a two-position valve “open / closed” (not shown) connected to a vacuum source, for example, a sewer pipe 8. When the piston 18 moves upward under the action of vacuum in the cavity 26 of the cylinder core 19, the air from the room passes inward through the opening 37 in the bottom of the cylinder and the valve opens. During the reverse movement, the valve closes under the action of the spring 20, when the cylindrical part 22 with the vacuum source is "raised" by the closing valve. Then, the air from the room is sucked in through the nipple 29 and enters the cavity 26 in the upper part of the piston 18, while the air on the opposite side of the piston 18 is displaced from the cavity 26 through the holes 37.

 Of course, the valve in accordance with the invention can also be driven by the pressure medium, but in this case, the pressure medium must be supplied through the opening 37 in the lower part of the valve, and the discharge must be through the nipple 29.

 Another type of drive may be used within the scope of the present invention, however, it is not described here.

 In FIG. 2 shows a valve similar to that shown in FIG. 1, however modified by the inclusion of an auxiliary inlet pipe 27 for supplying additional air and a silencer 28.

 As mentioned above, the problems of using vacuum toilets are related to the noise that occurs when opening the toilet outlet valve. In accordance with the present invention, this noise can be substantially reduced when the cylindrical portion 24 of the valve housing 1 is provided with an opening 30 for supplying additional air located above the outlet pipe 3 when the valve body 4 is in the open position. For this, the supply of additional air in this embodiment of the valve is carried out through an integrated separate pipe 27 for supplying additional air and an opening 30 in the cylindrical part 24 of the valve housing 1, located directly above the outlet pipe 3 of the valve and which in this case is the outlet of the pipe 27. The pipe 27 for supplying air (hole 30) may preferably be provided with an adjustable sliding flap (not shown) or a butterfly valve 31.

 In FIG. 2, the opening 30 is shown to open when the valve body 4 is in the “open” position, and the spoon-shaped part of the valve body 4 deflects the flow of air that is sucked in and directs it to the outlet pipe 3. Thus, it does not the flow of wastewater from the toilet is disrupted. In FIG. 2 also shows that the seat 16 for the valve body 4 is located below the hole 30 in such a way that the hole is not connected to the through-flow portion 11 when the valve body 4 is in the closed position.

 The opening 30 thus made substantially reduces the noise level, but a silencer 28 can be provided to further reduce it, which is connected to the valve housing 1 by an air channel 32 — in this case, a pipe 27 leading to the sound filter 33. Thus, air is drawn in through the filter 33, passes the channel 32 of the pipe 27 and enters the hole 30.

 The main advantage of the invention is that it provides a very simple, compact and cheap shut-off valve, which has a long service life. The valve made of ROM plastic passed accelerated tests corresponding to more than 700,000 closing and opening operations, after which no significant wear or defects were found on it.

 In fact, this valve is very compact and compact, as can be seen in FIG. 3. This drawing shows that the valve can be easily mounted behind the toilet, while providing easy access for both dismantling and installation. Air that is drawn into the valve and into the toilet chamber 35 passes through an opening 34 in the lower part of the toilet bowl.

 In the well-known solution mentioned earlier, a separate valve for additional air is used, which is mounted outside the toilet, and the air is sucked into it through an air intake pipe that passes through the wall of the toilet, while making noise that enters the toilet, as well as other rooms . The solution found in this invention eliminates the need for an additional air intake pipe, since air, as mentioned above, enters through an opening in the lower part of the toilet bowl, thereby eliminating the problem of an increased fire hazard category.

 The invention, as defined in the claims, is not limited to the spoon-shaped valve body 4 shown and described above. Thus, the valve body may have a different design, however, the surface 13 of the valve body 4 with the sealing element 14, if it is required, as well as the cylindrical part 12 of the valve body 4 and the sealing element 15, if required, must remain unchanged. The design of the valve body in the form of a bottle or spoon is necessary if the valve is provided with a separate nozzle for additional air, as shown in FIG. 2, while this should be possible to supply air and direct it to the outlet of the valve, as shown in this drawing.

 In the valve shown in FIG. 1, in which there is no nozzle for supplying additional air, the valve body may have a different shape, as mentioned above, in particular, for example, be flat or biconvex. In addition, the valve can be made of other materials than one of the above, and can also be applied to other vacuum systems.

Claims (8)

 1. Valve for vacuum sewer systems, comprising a valve housing with an inlet pipe, a through-flow section and an outlet pipe, and also a valve opening and closing actuator, characterized in that the valve opening and closing actuator is a movable valve body with a slight inclination towards its axis with a first sealing surface that extends along the periphery of the valve body up to the cylindrical part, and the second sealing surface is vertical with respect to the direction flow through the valve, wherein it is provided that the first sealing surface rests on a corresponding slanted seat, which is positioned on a ledge of the valve housing, and this saddle is located behind the inner wall portion of throughflow, and the second sealing surface is closely based on the corresponding cylindrical upper portion of the valve housing.  2. The valve according to claim 1, characterized in that the valve body is made in the form of a bottle or spoon, with its convex side facing the inlet pipe, and the edges of the spoon form the first sealing surface of the valve body.  3. The valve according to claim 2 or 3, characterized in that the cylindrical upper part of the valve housing corresponds to the second sealing surface - the cylindrical part of the valve and is made with a taper directed downward.  4. The valve according to any one of claims 1 to 3, characterized in that the actuator, which reports the movement to the valve body, is made in the form of a spring and a piston-cylinder device, which is driven by vacuum.  5. The valve according to claim 4, characterized in that the piston of the piston-cylinder type device is connected to the valve body by means of a cylindrical part, which is mounted to move inside the corresponding cylindrical part of the valve casing.  6. The valve according to any one of claims 1 to 5, characterized in that the cylindrical part of the valve housing is provided with an opening for supplying additional air located directly above the outlet pipe when the valve body is in the "open" position.  7. The valve according to claim 6, characterized in that the hole is provided with a damper or throttle valve to control the supply of additional air.  8. The valve according to claim 6 or 7, characterized in that the hole for supplying additional air is connected by an air channel to the silencer.

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