RU2169874C2 - Shut-off valve - Google Patents

Abstract

FIELD: power engineering; chemical, gas, food-processing and other industries. SUBSTANCE: shut-off valve has shut-off member with rod. Rod is provided with taper section mounted for motion of rod of end position indicator of shut-off member. EFFECT: facilitated manufacture; enhanced operational reliability with indicator of one type for valves having different diameters of shut- off members. 7 cl, 6 dwg

Description

 The invention relates to mechanical engineering, more specifically to valves installed on various highways, pipelines and other communications, and more specifically to shut-off valves with a control body, mainly with an electromagnetic actuator.

 The invention can find application in the widest areas of technology, for example, in the energy, chemical, gas, food industries, etc.

 Known shut-off valves containing a shutoff body with a kinematic rod connected through a lever with a pressure bar acting on the microswitch of the final positions of the shutoff body (see, for example, AS USSR N 1024638 class F 16 K 37/00 1983).

 This valve allows using one type of signaling device for valves with different nominal diameters, but at the same time it is characterized by low manufacturability and insufficient operational reliability.

 Shut-off valves are also known, containing a shutoff body with a stem, which is made in one piece with the stem of the pointer of the final positions of the shutoff body, bearing a control permanent magnet interacting with reed switches (see utility model of the Russian Federation N 3018 class. F 16 K 1/44 for 1996 )

In this valve, the technical result set by the invention is also not achieved, since it is impossible to use one type of signaling devices for valves with different nominal diameters of the shutoff element
The problem to which this invention is directed is the creation of a simple design shut-off valve having a pointer to the final positions of the shut-off member, which allows it to be used for various nominal diameters of the shutoff member.

 The technical result achieved by the invention is the provision of high manufacturability and operational reliability when using one type of signaling device for valves with different nominal diameters of the overlapping body.

 This technical result is achieved in that the shutoff valve comprises a shutoff member with a stem having a cone-shaped portion mounted to move the rod of the pointer of the end positions of the shutoff member.

 The technical result is achieved to a greater extent by the fact that in the valve, characterized by the above features, the stem is made with a free end in the form of a console; the rod of the pointer of the final movements of the overlapping body in the area of contact with the rod of the overlapping body is made hollow; the stem of the overlapping body is equipped with a device for damping the overlapping body; the stem of the shutoff body has a groove, as well as a latch provided with a return spring and an electromagnetic drive and mounted with the possibility of fixing in the groove when the valve is in the "open" position; the cone-shaped portion is located in the area between the groove and the free portion of the stem.

 In FIG. 1 schematically depicts the described shut-off valve.

 In FIG. 2 is an embodiment of a specific embodiment of the described shutoff valve in longitudinal section.

 In FIG. 3 shows the stem of a shutoff body with a damping device.

 In FIG. 4 shows a part of the stem with a latch that engages in the groove of the stem.

 In FIG. 5 shows a portion of a stem with a latch sliding over the stem.

 In FIG. 6 - node A of FIG. 2.

 The shut-off valve (see Fig. 1) contains a housing 1 with an inlet 2 and an outlet 3 nozzles and with a cowl 4 inside, made in one piece with the housing, forming with it an annular gap 5 for the working medium. A piston shutoff member 6 is installed inside the housing with an internal cavity 7 connected by a line 8 (representing channel 9) to the governing body. This body is predominantly a solenoid valve 10. Other valves of known types can also be used as options. The electromagnetic valve is also equipped with communication lines 11, 12 with inlet 2 and outlet 3 nozzles. The overlapping body 6 (see Fig. 2) is rigidly connected to the rod 13, and in the central part of the fairing there is a distribution chamber 14, the walls 15 of which serve as guides for the rod 13. The electromagnetic valve is installed on lines 11, 12 (see Fig. 1 ) with the possibility of their alternate overlap. In other words, the lines 11, 12 have saddles 16, 17, which can be blocked by the shut-off element 18 of the electromagnetic valve, while line 8 remains always open. A device for damping the shutoff member 6 is made on the stem 13 (see FIG. 2). This device (see FIG. 3) is a spring-loaded valve (with spring 19) 20. In the stem 13 (see FIG. 2) there is a through a channel 21 connecting the radial channel 22 with the end portion 23 of the distribution chamber 14. The radial channel 22 is in communication with the inner cavity 7 of the shutoff member 6, and the valve 20 is located near the end portion 23. The shutter member 24 of the valve 20 has a protrusion 25, which is installed with the possibility of contact with deaf end 26 distribution to amers 14.

 A removable sleeve 27 is installed inside the outlet pipe 3 (see Fig. 2). A part of the inner surface of the sleeve serves as guides 28 for the ceiling member, and on its other part 29 (having a smaller inner diameter) a seat 30 for the ceiling member 6 is made. In the inner cavity 7 (see FIG. 1) of the shutoff member 6, a return spring 31 is provided. The stem 13 (see FIG. 2) has a cone-shaped portion 32 that interacts with the stem 33 of the end position indicator of the shutoff member (the pointer itself is not shown). The rod 33 in the area of contact with the rod 13 is made spherical.

 A cavity 35 is made in the area of the overlapping element 24 (see FIG. 3), and the overlapping element 24 of the valve 20 has a through channel 36 (which is part of the channel 21) connecting the cavity 35 with the end section 23 (see FIG. 4, 5) while in the valve 20 (see Fig. 3) there are side channels 37 also connecting the cavity 35 with the end section 23 (see Figs. 4, 5).

 On line 11 (see Fig. 1) a filter 38 is installed.

 An annular groove 39 is made in the stem 13 (see Fig. 4, 5). The groove may also have a different shape. The execution of the groove ring is determined by the reliability of the work and technological motives. The valve is equipped with a latch 40 (see Fig. 4, 5), the lower part of which corresponds in shape to the shape of the groove so that the latch can be stably fixed in this groove 39. The latch 40 has a return spring 41 and is installed relative to the stem with the possibility of sliding along it when moving the rod and securing it in the groove 39 when the shutoff body 6 is in the "open" position (as well as the valve as a whole). The latch enters the groove under the influence of the return spring 41. The release of the latch 40 from the groove 39 occurs under the influence of the electromagnetic actuator 42 when the valve is opened, i.e. with the separation of the overlapping body 6 from the saddle 30.

 The indicator of the final positions of the locking element (see Fig. 1) contains a non-magnetic hollow body 43, in which the rod 44 is placed, which is a continuation of the rod 33. The control permanent magnet 45 is located on the rod. The indicator also includes an electric indicator of the final positions, made in the form of reed switches 46 , 47, located around the case asymmetrically to the latter (the number of reed switches should be at least two and a multiple of two).

 In the area of the blind end 48 of the housing 43, a hollow compartment 49 made of non-magnetic material is mounted on the same axis with an auxiliary permanent magnet 50 located axially movable, facing the same pole toward the control permanent magnet 45. The magnet 45 is electrically connected to the control panel, having light signaling devices (not shown). The magnet 50 is rigidly connected to the signal rod 51 provided with a return spring 52.

 The shut-off valve operates as follows.

 In the closed position, the overlapping element 18 (see Fig. 1) overlaps the line 12 and the pressure of the working medium in the pipe 2 is equal to the pressure in the cavity 7 (due to the fact that the line 11 is connected to the line 8).

 To open the shutoff valve 6, it is necessary to apply voltage to the actuator 10 of the pulse electromagnetic valve. In this case, the overlapping element 18 overlaps line 11, and the internal cavity 7 is connected through lines 8 and 12 with the outlet pipe 3. Thus, the pressure in the cavity 7 decreases (compared with the pressure in the pipe 3) and the overlapping body 6 moves away from the seat 30, opening annular clearance 5.

 The valve is open. In this case, the latch 40 slides along the conical part of the rod 13 and, under the influence of the return spring 41, is fixed in the groove 39. As a result of this, no sudden changes in the working medium can affect the position of the shutoff body 6. Therefore, it becomes possible to relieve the voltage from the actuator 10 of the electromagnetic valve The end result leads to savings in energy consumed by the valve actuator.

 In addition, the reliable fixing of the latch in the groove 39 leads to the fact that it will ensure the constancy of the bore of the valve in the entire range of operation of the shutoff member 6.

 When the shut-off valve is opened, the working medium from the cavity 7 through the through channel 21 enters the cavity 35 and through the channel 36 to the end section 22, then the protrusion 25 abuts against the blind end face 26, and the working medium through the lateral channels 37 enters the cavity 35, and then through channel 21 into the cavity 7. In this case, the blow of the overlapping organ 6 against the wall of the inner cavity 7 is softened.

 When moving the rod 13 (see Fig. 2), its cone-shaped portion 32 interacts with the rod 33. The rod 13 moves towards the end face 26, and the rod 33 rises. When the shutter body is in the “open” position, the permanent magnet 50 is repelled from the magnet 45, and the signal rod 51 extends beyond the compartment 49, signaling the opening of the valve.

 In this case, the control permanent magnet 45 interacts with the reed switches 46, 47, sending the corresponding signals to the control panel and then to the light signal devices.

 To close the valve (when the actuator 10 is de-energized), a signal is supplied to the electric actuator 4, the latch 40 is removed from the groove 39 and begins to slide along the rod 13.

 In this case, the overlapping element 18 is lowered onto the saddle 16, blocking the line 12, and the working medium from the pipe 2 along the lines 11 and 8 enters the cavity 7, i.e. the pressure in the pipe 2 and cavity 7 is equalized, and under the influence of the return spring 31, the shutoff member 6 sits on the seat 30. The valve is closed.

 In the “closed” position, the permanent magnet 45 interacts with the reed switches 46, 47, sending a corresponding signal to the control panel, which, in turn, ignites the light devices. The tension of the magnets 45 and 50 is designed so that the connection between them is interrupted and with the help of the return spring 52, the rod 51 returns to the compartment 49, signaling the closure.

 The location of the inlet 2 and outlet 3 nozzles on a common axis in conjunction with the fairing 4, forming an annular gap 5 with the housing 1, will provide low hydraulic resistance to the shut-off valve and allow the use of contaminated media (in particular, due to the absence of calibrated holes in the working medium path), those. the end result will lead to insensitivity of the valve to contamination of the working medium entering the governing body.

 The presence of the electromagnetic valve 10 with a shutoff element 18, alternately blocking the lines 11 and 12, eliminates a constant flow through the governing body.

A prototype of the described valve for a system of gas mains with working fluids having various impurities, for example, contaminated butane, propane, etc., operating in a wide temperature range (P = 10-300 kg / cm ² T = -50 - + 300 ^o C).

Claims (7)

 1. A shut-off valve comprising a shutoff member with a stem having a cone-shaped portion mounted to move the rod of the pointer of the end positions of the shutoff member.  2. The shutoff valve according to claim 1, characterized in that the stem of the shutoff body is made with a free end in the form of a console.  3. The shut-off valve according to claim 1, characterized in that the stem of the pointer of the final positions of the overlapping body in the area of contact with the stem of the ceiling is made spherical.  4. The shutoff valve according to claim 1, characterized in that the stem of the shutoff member is hollow.  5. The shutoff valve according to claim 1, characterized in that the stem of the shutoff body is equipped with a device for damping the shutoff body.  6. The shutoff valve according to claim 1, characterized in that the stem of the shutoff body has a groove, as well as a latch provided with a return spring and an electromagnetic actuator and mounted with the possibility of fixing in the groove when the valve is in the open position.  7. The shutoff valve according to claim 6, characterized in that the conical section is located in the area between the groove and the free end of the rod. Priority on points:
12/28/98 according to claim 1;
September 6, 1999 according to claim 2;
05/13/99 according to claim 3;
12/28/98 according to claims 4 and 5;
05/13/99 according to paragraphs 6 and 7.

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