RU161850U1 - VALVE PASSING - Google Patents

Abstract

The check valve, consisting of a housing with inlet and outlet nozzles and a seat, a rod that can move to and from the seat, characterized in that the disk is made in the form of a disk with a central hole and is sealed on the stem with the possibility of rotation, longitudinal movement and fixation in the lower extreme position, and on the upper end of the plate there is a coaxially located hollow cylinder, and a compression spring located inside the hollow cylinder is installed on the rod, and on the rod above the free end of the compression spring I fixed the sleeve, containing at the upper end of the annular protrusion in the form of a washer, the outer diameters of the annular protrusion and the hollow cylinder being chosen equal, and the outer diameter of the sleeve selected slightly less than the inner diameter of the hollow cylinder.

Description

A utility model relates to shutoff valves designed to shut off or open a pipe channel or fitting connected to a valve. It can be used in the oil and gas industries.

The well-known ball valve (book SL SL Nikishenko "Oilfield equipment", ed. "In-Folio", Volgograd, 2008, p. 159, Fig. 4.25), consisting of a saddle and a ball. The specified valve is installed inside the pipe or plunger of the downhole pump and provides fluid movement in only one direction. Closest to the proposed one is a check valve (book by G.V. Konnova “Equipment for transport and storage of oil and gas”, a training manual, second edition, higher education, Rostov-on-Don, publishing house “Phoenix”, 2007), consisting of a housing with inlet and outlet nozzles and with a saddle, a rod that can move to and from the saddle. In the open position, this valve cannot interfere with the movement of fluid when changing its direction. In order for the liquid to be able to move in only one direction in the pipeline connected with this valve, a non-return valve is connected to the pipeline next to the check valve.

The objective of the utility model is to expand technical capabilities.

The problem is solved in that in the check valve, consisting of a housing with inlet and outlet nozzles and a seat, a rod that can move to and from the seat, the new one is that the plate is made in the form of a disk with a central hole and mounted on the stem hermetically, with the possibility of rotation, longitudinal movement and fixing in the lower extreme position, and on the upper end of the plate there is a coaxially located hollow cylinder, and a compression spring located inside the hollow cylinder is installed on the rod, moreover a rod over the free end of the compression spring is seated fixedly sleeve, comprising at its upper end an annular projection in the form of a washer, the outer diameters of the annular protrusion and the hollow cylinder are chosen equal, and the outer diameter of the sleeve is selected slightly smaller than the inner diameter of the hollow cylinder.

In FIG. 1 shows a General view of the checkpoint valve in section; in FIG. 2 is a view A of FIG. one; in FIG. 3, 4 and 5 depict views of the check valve, explaining the principle of its operation.

The check valve consists of a plate 1 (Fig. 1), a housing 2 with an inlet 3 and an outlet 4 nozzles and with a seat 5, rod 6. The stem 6 has the ability to move to and from the saddle 5. The plate 1 is made in the form of a disk 7 with a Central hole 8 (Fig. 2). The plate 1 is installed on the stem 6 hermetically by means of a rubber sealing ring 9 located in an annular groove made from the wall of the central hole 8 of the plate 1. The plate 1 is also mounted for rotation, longitudinal movement and fixing in the lower extreme position. To fix the plate 1 in the lower extreme position on the lower end of the rod 6, a thread is cut onto which the nut 10 is screwed. At the upper end 11 of the plate 1 there is a coaxially located hollow cylinder 12. A compression spring 13 is located on the rod 6, located inside the hollow cylinder 12. So on the rod 6 above the free (upper) end of the compression spring 13, a bush 14 is fixedly mounted, containing at the upper end of the annular protrusion 15 in the form of a washer. On the sleeve 14 there is a radial threaded sample where the locking screw is screwed (position is not given) to fix this sleeve on the stem 6. The outer diameters of the annular protrusion 15 and the hollow cylinder 12 are chosen equal so that when closing the passage valve the lower end of the annular protrusion 15 is adjacent to the end face of the hollow cylinder 12. The outer diameter of the sleeve 14 is selected slightly less than the internal diameter of the hollow cylinder 12 so that this sleeve can enter the cavity of the hollow cylinder.

Use a check valve as follows. By rotation of the handle 1 6, the stem 6 is lifted upward. Together with the stem 6, the plate 1 also rises upward, held by the nut 10 from the bottom, and by the compression spring from above. Thus, the open position of the check valve is established (as shown in Fig. 4). In this case, the fluid moves from the inlet pipe 3 through the gap between the plate 1 and the seat 5 to the outlet pipe 4. To close the checkpoint valve by rotation of the handle 16, lower the stem 6. In this case, first the plate 1 rests on the saddle 5. When the rod 6 is further lowered, the sleeve 14, fixedly mounted on the stem 6, enters the cavity of the hollow cylinder 12 from above, compressing the compression spring 13. Next, the sleeve 14 presses the lower end of the annular protrusion 15 onto the upper end of the hollow cylinder 12. The plate 1 is tightly pressed against the seat 5 and then the rotation of the handle stops one 6. The check valve takes a closed position (as shown in Fig. 3). To set the check valve in the non-return valve operation mode, the handle 16 is rotated in the opening direction. The number of revolutions of the handle is indicated in the passport valve valve. After rotation of the handle 16 to the number of revolutions indicated in the passport, the rod 6 rises up, not reaching the upper extreme position. In this case, the plate 1 remains under the action of the compression spring 13 in the closed position (as shown in Fig. 5) and prevents the movement of fluid from the outlet pipe 4 to the inlet pipe 3. But, with increasing pressure at the inlet pipe 3, under the action of the fluid pressure, the plate 1 rises and the check valve opens, similarly to the non-return valve.

The proposed check valve serves as a stop valve and the function of a check valve, and the prototype serves only as a stop valve. Therefore, in comparison with the prototype, the proposed check valve is expanding technical capabilities. This allows to reduce the number of connections in the pipeline and - the metal consumption of the pipeline equipment.

The list of used literature: book S.L. Nikishenko “Oilfield Equipment”, ed. “In-Folio”, Volgograd, 2008, p. 159, Fig. 4.25; book G.V. Horse “Equipment for transport and storage of oil and gas”, a training manual, second edition, higher education, Rostov-on-Don, 2007, ed. "Phoenix".

Claims (1)

The check valve, consisting of a housing with inlet and outlet nozzles and a seat, a rod that can move to and from the seat, characterized in that the disk is made in the form of a disk with a central hole and is sealed on the stem with the possibility of rotation, longitudinal movement and fixation in the lower extreme position, and on the upper end of the plate there is a coaxially located hollow cylinder, and a compression spring located inside the hollow cylinder is installed on the rod, and on the rod above the free end of the compression spring I fixed the sleeve, containing at the upper end of the annular protrusion in the form of a washer, the outer diameters of the annular protrusion and the hollow cylinder being chosen equal, and the outer diameter of the sleeve selected slightly less than the inner diameter of the hollow cylinder.

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