RU2175735C1 - Cock - Google Patents

Abstract

FIELD: sanitary engineering valving. SUBSTANCE: cock contains housing provided with inlet and outlet branch pipes, cover, rotary spindle, and gate made of two ceramic disks contacting to each other. One of the disks is fixed in the housing seat and provided with two through openings. The movable disk is provided with hollows for connecting the branch pipes. The cock is provided with, at least, one additional outlet branch pipe which is placed in the housing for connecting with inlet and outlet branch pipes. The seat is made of adjacent partitions to divide spaces of the branch pipes and has star-like shape in the plane of contact with the fixed disk. The fixed disk is provided with, at least, one additional through opening. The hollow for connecting branch-pipe in movable disk in the plane of contact with the fixed disk is bounded from one side with segment which center angle does not exceed angle between adjacent partitions of the seat forming the space of the inlet branch-pipe. The spindle is mounted into the cover for rotation through 360°. EFFECT: enhanced reliability, longevity, enriched functionality of the device. 6 cl, 11 dwg

Description

 The invention relates to mechanical engineering, and more particularly to equipment of sanitary fittings, and can be used in water and heat supply networks and engineering structures, where it becomes necessary to control (overlap) the flow of the working medium.

 Known crane (valve), in the body of which is mounted a locking-regulating element made in the form of two ceramic disks, one of which is fixed motionless, and the other is connected with a rotary spindle [1].

 A disadvantage of the known technical solution is the limited scope of its application in branched networks with varying flows of the working environment.

 Known crane, comprising a housing with inlet and outlet nozzles, a cover, a rotary spindle, a shutter made in the form of two ceramic disks in contact with each other, one of which is fixedly mounted in the saddle of the housing, and the second is installed with the possibility of interaction with a rotary spindle, while the fixed disk has two through windows, and in the moving disk there is a recess for communicating between the pipes [2]. This design of the crane provides its reliability, convenience and ease of operation. This well-known technical solution was made by the applicant as a prototype as the closest analogue in technical essence and achieved result.

 The disadvantage of the prototype is the inability to use the tap as a regulatory plumbing fixtures for branching flows of the working environment. This drawback is a consequence of the presence in the prototype design of only one inlet and outlet pipe, as well as a two-position mode of operation of the rotary spindle.

 The present invention is aimed at achieving a technical result, which is expressed in the fact that it is possible to connect several pipelines or devices to the tap at the same time and at the same time to provide adjustment of the parameters of the working fluid flows resembling its nozzles. In addition, the proposed crane retained all the positive advantages of the prototype.

 Ultimately, the specified technical result provides in the proposed crane the expansion of its functionality and scope while maintaining ease of use, reliability and durability.

The specified positive technical result is achieved by the fact that in the proposed crane, which includes a housing with inlet and outlet nozzles, a cover, a rotary spindle, a shutter made in the form of two ceramic disks in contact with each other, one of which is fixedly mounted in the saddle of the housing, and the second is installed with the possibility of interaction with a rotary spindle, moreover, two through-holes are made in the fixed disk, and in the movable disk there is a recess for connecting the pipes to each other, there is located in the housing e with the possibility of communication with the inlet and outlet pipes, at least one additional outlet pipe. The seat in the valve body consists of adjacent partitions for separating the cavities of the nozzles and has a star-shaped shape in the plane of contact with the fixed disk. At least one additional through window is made in the fixed disk, and the recess for communicating the nozzles with each other in the movable disk in the plane of contact with the fixed disk is limited to a sector with a central angle not exceeding the angle between adjacent saddle baffles forming the cavity of the inlet pipe, this spindle is mounted in the cover with the possibility of rotation through an angle of 360 ^o .

 Preferred is the design of the crane, in which the number of adjacent partition walls of the saddle and the number of through windows in the fixed disk correspond to the number of nozzles, each through window in the fixed disk is made in cross section in the form limited by a sector with a central angle not exceeding the angle between the corresponding adjacent partition walls of the saddle , inlet and outlet pipes are located in the housing so that their longitudinal axes intersect at one point with the longitudinal axis of the spindle and perpend they are peculiar to the latter, and an additional outlet pipe is located in the housing so that its longitudinal axis is perpendicular to the longitudinal axes of the inlet and outlet pipes.

 In addition, a crane is possible when it is equipped with at least one additional inlet pipe located in the housing with the possibility of communication with the inlet and outlet pipes.

 An important feature of the proposed tap is the combination of the properties of multi-way (multi-position) shut-off and plumbing fixtures and valves with shutters made in the form of two ceramic disks in contact with each other.

 To ensure that the flow of the working medium can be divided into at least two, the crane is equipped with at least one additional outlet pipe. Typically, the number of taps required corresponds to the number of exhaust pipes. The cavity of the nozzles are divided among themselves by means of adjacent partitions constituting a saddle, which thus has a star-shaped shape in the plane of contact with the fixed disk. However, the cavity of each outlet pipe has the ability to communicate with the cavities of the inlet and outlet pipes. This possibility is provided by the design of the shutter, in the fixed ceramic disk of which at least one additional through window is made, and the recess for communicating the nozzles with each other in the moving disk in the plane of contact with the fixed disk is limited by a sector with a central angle not exceeding the angle between adjacent partitions saddles forming the cavity of the inlet pipe. Thus, the shape of the fixed disk and the through windows in it fully corresponds to the star-shaped shape that the saddle has in the plane of contact with the fixed disk, which ensures the maximum value of the through sections of the through windows. The shape of the recess for connecting the through windows to each other in the movable disk, together with the maximum possible angle of rotation of the latter, creates the possibility of reliable overlap or communication of the through windows with each other and provides the required flow characteristics of the crane, since the increase in the central angle of the sector of the recess in the moving ceramic disk with respect to to the angle between adjacent partitions of the saddle will inevitably lead to the impossibility of completely blocking the flow of the working medium, and the decrease is unreasonably lower t capacity crane capacity. Optimal is the embodiment of the crane with approximately equal values of the indicated angles.

 The fixed ceramic disk is, as it were, a continuation of the saddle, only made of a special material, so the preferred embodiment of the crane is one in which the shape of the fixed ceramic disk is as close as possible to the shape of the saddle. This is possible only in the case of a minimum number of adjacent partitions of the saddle and through windows in a fixed ceramic disk. This minimum number is the number of nozzles. However, the conformity of the number of pipes, partitions and through windows is a necessary, but not fully sufficient condition. The second important condition is not to exceed the central angle of the sector, restricting the shape of the through window above the angle between the corresponding adjacent partitions of the saddle. If the specified ratio of angles is exceeded, the crane will not overlap. Unreasonable decrease in the central angle of the sector, as well as the presence of an excessive number of partitions and through windows, leads to a complication of the design, lower consumption characteristics of the crane and an increase in the noise level of its operation.

 It is also preferable to design a crane in which the inlet and main outlet are aligned, the additional outlet is perpendicular to them, and the axis of rotation of the spindle is perpendicular to the axes of all three nozzles. Such a crane is simple and convenient to operate, and the design of its body is the simplest and most technologically advanced.

 The design of the crane with one and even more with several additional inlet pipes is specialized and can be used to install control and measuring valves in the supply line. This design is an insert into the cavity of the main inlet pipe, does not provide for a special change in the seat and shutter of the crane and is therefore easy to implement.

 The proposed technical solution is illustrated by drawings.

 In FIG. 1 shows a sectional view of a general view of the proposed crane; in FIG. 2 - crane body (top view of the saddle); in FIG. 3 - fixed ceramic disk (view from the saddle side); in FIG. 4 - fixed ceramic disk in section; in FIG. 5 - movable ceramic disk (view from the side of the stationary ceramic disk); in FIG. 6 - sectional ceramic disk; in FIG. 7 - shutter in position "tap closed"; FIG. 8 - shutter in the position "the crane is open in the forward direction"; FIG. 9 - shutter in the position "tap open laterally"; FIG. 10 - shutter in the position "tap is open in both directions"; in FIG. 11 is a general view of the crane in execution, with one additional inlet pipe.

 The crane comprises a housing 1, a cover 2, a rotary spindle 3, a shutter consisting of a fixed 4 and a movable 5 ceramic discs. The housing 1 has an inlet pipe 6, a straight outlet pipe 7 and an additional (lateral located at right angles to the longitudinal axes of the pipes 6 and 7) exhaust pipe 8. The star-shaped surface of the saddle 9 is formed by adjacent partitions 10. Through the ceramic disk 4, through windows 11 are made, and in the movable cavity 12.

 In the figures, the central angle α of the sector bounding the recess 12 on one side, the angle β between adjacent partitions 10 defining the cavity of the inlet pipe 6, and the central angle γ of the sector forming the cross section of the through window 11 in the fixed ceramic disk 4 are indicated.

 The crane also has a flywheel 13, rigidly connected to the rotary spindle 3, an antifriction gasket 14 and a seal 15. On the surface of the fixed ceramic disk 4 in contact with the seal 15, there is a corresponding recess 16. A corresponding recess (not shown) may have a corresponding surface saddles 9. It is also possible to design a crane with an additional inlet pipe 17.

 The functioning of the crane is as follows.

The crane is mounted with its nozzles 6, 7, 8 and 17 in the piping system by means of threaded adapters and is controlled by turning the flywheel 13 360 ^o . In figures 7, 8, 9 and 10, the valve is shown in the valve positions, respectively, the valve is closed, the valve is open in the forward direction, the valve is open in the lateral direction, and the valve is open in both directions. When the spindle 3 is rotated by a certain angle, the through windows 11 are partially or completely blocked by the movable ceramic disk 5, and the flow of the working medium into the corresponding nozzle decreases or stops completely. When the recess 12 is combined with the corresponding through-holes 11, the medium moves along the corresponding nozzles. Since the rotation of the flywheel 13 with the spindle 3 is carried out within the full angle (360 ^o ) without locking in certain positions, except for the positions shown in FIG. 7, 8, 9 and 10, other intermediate positions of the crane are possible, which will correspond to the partial opening modes. Partial opening modes allow for smooth control of the flow rate of the working medium through the tap with the redistribution of flows in the directions.

 The option of connecting to one or several pipes at once 7, 8 and 17 of the recording or measuring armature is possible.

 Thus, the proposed technical solution significantly expands the scope of the crane while maintaining high reliability and ease of use.

Sources of information
1. UK patent N 1363835, CL F 16K 3/08, 1974

 2. RF patent N 2082054, cl. F 16 K 3/08, 1994 - prototype.

Claims (6)

 1. A crane including a housing with inlet and outlet nozzles, a cover, a rotary spindle, a shutter made in the form of two ceramic disks in contact with each other, one of which is fixedly mounted in the saddle of the housing, the second is installed with the possibility of interaction with the rotary spindle, while the fixed disk has two through windows, and in the movable disk there is a recess for connecting the pipes to each other, characterized in that it is provided with a possibility of communication with the inlet and outlet pipes located in the housing with at least one additional outlet pipe, the seat is made of adjacent partitions for separating the cavity of the pipes and has a star-shaped shape in the plane of contact with the fixed disk, at least one additional through window is made in the fixed disk, and the recess for communicating the pipes with each other in the movable disk in the plane of contact with the fixed disk is limited on one side by a sector with a central angle not exceeding the angle between adjacent partitions of the saddle, forming the cavity bottom of the nozzle, while the spindle is mounted in the cover with the possibility of rotation through an angle of 360 °.  2. The crane according to claim 1, characterized in that the number of adjacent partitions of the saddle and the number of through windows in the fixed disk correspond to the number of nozzles.  3. The crane according to claims 1 and 2, characterized in that each through window in the fixed disk is made in cross section in a shape limited to a sector with a central angle not exceeding the angle between the corresponding adjacent partitions of the saddle.  4. The crane according to claims 1 to 3, characterized in that the inlet and outlet pipes are located in the housing so that their longitudinal axes intersect at one point with the longitudinal axis of the spindle and are perpendicular to the latter.  5. The crane according to claims 1 to 4, characterized in that the additional exhaust pipe is located in the housing so that its longitudinal axis is perpendicular to the longitudinal axes of the inlet and outlet pipes.  6. The crane according to claim 1, characterized in that it is equipped with at least one additional inlet pipe located in the housing with the possibility of communication with the inlet and outlet pipes.

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