RU154649U1 - PIPE CRANE - Google Patents

Abstract

1. A pipeline valve comprising: a plastic housing (1) having a first (2), inlet and a second (3), outlet, fittings, as well as a third fitting (4) for mounting the valve (5), provided with a threaded section ( 11); - a valve (5) mounted on the third fitting (4) and connected with an overlapping plastic rod (12) of cylindrical shape placed in the hole of the third fitting (4) with the possibility of movement along its axis and overlapping the holes of the second fitting (3) , while the rod (12) has a non-through channel (13) for the passage of the medium associated with the hole of the first Utsera (2); and - a sealing element (15) located between the third fitting (4) and the stem (12) .2. A tap according to claim 1, wherein the first (2) and second (3) fittings have a threaded portion for connection with pipeline elements. 3. The crane according to claim 1, further comprising metal connecting nuts (7) and (8) mounted on the first (2) and second (3) fittings, as well as sealing elements (10) located between the first (2), second (3 ) fittings and nuts (7), (8) .4. The crane according to claim 1, wherein the first (2) and third (4) fittings are aligned and the second fitting (3) is perpendicular to the axis of the first (2) and third (4) fittings. 5. The crane according to claim 1, wherein said channel (13) made in the rod (14) is an axial channel. The crane according to claim 3, wherein the first (2) and second (3) fittings are provided with external protrusions (6) with the possibility of interaction with internal protrusions (9) made in the connecting nuts (7) and (8). 7. A tap according to claim 1, wherein said sealing elements (15) are made in the form of rubber rings of circular cross section. The crane according to claim 3, wherein said sealing elements (10) are made in the form of rubber rings of circular cross section

Description

The utility model relates to shut-off devices for a pipeline, namely to taps that can be used for installation on domestic water supply pipelines.

The closure device (gate valve) is known from the prior art (see Swiss Patent CH 701364, 12/31/2010), comprising a two-layer plastic housing having inlet and outlet fittings, as well as a fitting in which an overlapping cylindrical rod is placed. The overlapping rod is made with the possibility of movement in the fitting and overlapping the opening of the outlet fitting. In this case, the rod has a through channel for passing the medium and equalizing the pressure exerted on the stem walls.

The known device in terms of design features is the closest analogue of the claimed utility model, however, it has a number of disadvantages. Firstly, the known device is difficult to manufacture due to the two-layer design of the housing. Secondly, the device does not provide a sufficient level of tightness in the places of pairing of the rod and the outlet of the nozzle, as well as the connection of the nozzle with the elements of the pipeline.

The objective of the utility model is to eliminate the drawbacks of analogues and create an easy-to-manufacture pipeline valve that provides a high degree of tightness of all elements.

The technical result of the utility model is to increase the tightness of the crane elements.

This problem is solved, and the technical result is achieved due to the fact that the claimed pipeline valve contains:

- a plastic case having a first inlet and a second outlet fittings, as well as a third fitting for installing the valve, equipped with a threaded section;

- a valve mounted on the third fitting and connected with a cylindrical-shaped overlapping plastic rod located in the opening of the third fitting with the possibility of moving along its axis and overlapping the opening of the second fitting, the stem having a non-through channel for the passage of the medium connected with the opening of the first fitting; and

- sealing element located between the third fitting and the stem.

In addition, the specified technical result is achieved in special cases of the implementation of the utility model due to the fact that:

- the first and second fittings have a threaded section for connection with pipeline elements.

- the valve further comprises metal connecting nuts mounted on the first and second fittings, as well as sealing elements located between the first, second fittings and nuts.

- the first and third fitting are placed coaxially, and the second fitting is perpendicular to the axis of the first and third fittings,

- said channel made in the rod is an axial channel,

- the first and second fittings are equipped with external protrusions with the possibility of interaction with the internal protrusions made in the connecting nuts,

- said sealing elements are made in the form of rubber rings of circular cross section,

- the valve is equipped with a locking element to limit the twisting of the rod,

- the body, valve and stem can be made of polycarbonate or polyacetal of the corresponding brand.

- metal nuts are made of brass and, if necessary, can be coated (chrome, nickel)

In contrast to the analogue in the claimed tap, the overlapping rod is provided with a through hole. When pressure is applied, the stem will expand and, pressing against the inner wall of the body, seal the outlet. Moreover, the higher the pressure in the system, the greater the degree of sealing. In addition, the claimed crane may contain connecting metal nuts, put on a plastic first inlet and second outlet fittings. The elasticity of plastic is higher compared to metal, therefore, with increasing fluid pressure in the body cavity, the inlet and outlet fittings will expand in diameter and, pressing against the inner walls of the metal nuts, seal the joints. Sealing elements of the nozzles provide additional protection against leaks on the end surfaces of the elements. Thus, the entire set of features of the claimed utility model is aimed at achieving a technical result, which consists in increasing the tightness of the crane elements.

The claimed utility model is illustrated by drawings, where:

In FIG. 1 and 2 shows a General view of the crane,

In FIG. 3 shows a first embodiment of a crane body structure,

In FIG. 4 shows the design of a valve with a shutoff stem,

In FIG. 5 shows a second embodiment of a crane body design. The following describes the preferred configuration of the claimed device. The claimed valve contains a hollow body (1) having three fittings (forming holes): the first inlet (2) (for fluid inlet), the second outlet (3) (fluid outlet), and the third fitting (4) for installing a shut-off valve (5 ) In a preferred embodiment of the utility model, the first (2) and third (4) fittings are aligned and the second fitting (3) is perpendicular to the axis of the first (2) and third (4) fittings. The housing (1) is made of plastic, preferably polycarbonate or polyacetal.

There are two possible implementation options. In one embodiment, the first (2) and second (3) fittings are made with a threaded section for connection with pipeline elements, as well as a hexagonal section for screwing the housing (see Fig. 5). In another embodiment (Fig. 1, 3), the first (2) and second (3) fittings have an external protrusion (6), while they are put on (by pressing) metal nuts (7) and (8) with an external thread, for connecting fittings (2) and (3) to a pipeline or other devices (not shown). The nuts (7) and (8) have an internal protrusion (edge) (9), which interacts with the protrusion (edge) (6) of the fittings (2) and (3). Between the end surfaces of these protrusions (6) and (9) are placed sealing elements (10) in the form of rubber rings of circular cross section. The nuts (7) and (8) are preferably made of brass.

The third fitting (4) has a threaded section (11) onto which a valve (5) is screwed, connected to a cylindrical overlapping rod (12). Preferably, the valve (5) and the stem (12) are made as a single part. The rod (12) enters the hole of the third fitting (4) with the possibility of movement along its axis and overlapping the holes of the second (output) fitting (3) when the valve (5) rotates. The rod (12) has a non-through channel (13) for the passage of the medium associated with the cavity (hole) of the first fitting (2). The channel (13) is preferably made along the axis of the stem (12). The valve may be provided with a stop (14) to limit the stroke of the stem to invert (12). Between the valve and the third fitting, a sealing element (15) is placed in the form of a rubber ring of circular cross-section.

Valve (5) with stem (12) can be made of polycarbonate or polyacetal of the required brand.

The device operates as follows.

In the open position of the valve, when the rod (12) does not overlap the openings of the second (outlet) fitting (3), the fluid moves freely through the cavity of the housing (1) from the opening of the first (2) to the opening of the second (3) fittings.

When the valve (5) rotates, the stem (12) moves in the cavity of the housing (1) and blocks the hole of the second fitting (3). In this case, the pumped medium (water) entering the through-hole channel (13) of the plastic rod (12) expands it by pressing the outer wall of the rod (12) against the wall of the housing (10) in the area of the nozzle opening (3), which ensures sealing of the connection.

In addition, when creating excess pressure of the pumped medium, the first (2) and second (3) fittings will also expand, pressing along the outer surface to the inner surface of the metal nuts (if any) through the sealing elements (10) or to the surface of the attached element pipeline, which will provide sealing of the device at the place of its joints with the pipeline. Moreover, the higher the pressure in the system, the greater the degree of sealing.

Thus, the claimed device has a simple design, as well as high protection against leaks, which ensures high reliability and durability of the device.

Claims (12)

1. A pipeline valve comprising: - a plastic housing (1) having a first (2), input and second (3), output, fittings, as well as a third fitting (4) for mounting the valve (5), equipped with a threaded section (11); - a valve (5) mounted on the third nozzle (4) and connected with an overlapping plastic rod (12) of a cylindrical shape, placed in the hole of the third nozzle (4) with the possibility of movement along its axis and overlapping the holes of the second nozzle (3), while the rod (12) has a non-through channel (13) for the passage of the medium associated with the hole of the first fitting (2); and - a sealing element (15) located between the third fitting (4) and the stem (12). 2. The valve according to claim 1, wherein the first (2) and second (3) fittings have a threaded portion for connection with pipeline elements. 3. The crane according to claim 1, further comprising metal connecting nuts (7) and (8) mounted on the first (2) and second (3) fittings, as well as sealing elements (10) located between the first (2), second (3) fittings and nuts (7), (8). 4. The crane according to claim 1, in which the first (2) and third (4) fittings are placed coaxially, and the second fitting (3) is perpendicular to the axis of the first (2) and third (4) fittings. 5. The crane according to claim 1, wherein said channel (13) made in the rod (14) is an axial channel. 6. The crane according to claim 3, in which the first (2) and second (3) fittings are provided with external protrusions (6) with the possibility of interaction with the internal protrusions (9) made in the connecting nuts (7) and (8). 7. A crane according to claim 1, wherein said sealing elements (15) are made in the form of rubber rings of circular cross section. 8. A tap according to claim 3, wherein said sealing elements (10) are made in the form of rubber rings of circular cross section. 9. The crane according to claim 1, in which the valve (5) is equipped with a locking element (14) to limit the unscrewing of the rod (12). 10. A crane according to any one of paragraphs. 1-9, in which the housing (1), valve (5) with a stem (12) are made of polycarbonate or polyacetal 11. The crane according to claim 3, in which the metal nuts (7) and (8) are made of brass. 12. The tap of claim 11, wherein the metal nuts (7) and (8) are coated with chromium or nickel.

Images