SU1065703A1 - Protective device for manometric instrument installed in hydro-transportation system pile-lines - Google Patents

Abstract

PROTECTIVE DEVICE FOR MONOMETRIC INSTRUMENTS INSTALLED ON THE NOPTHtffi SYSTEM HYDROTRANE PIPELINES, containing the case with the lower pulse tube connected to it, connected to the piping, and with the piping, and the upper part of the stroke; located chamber, hermetically connected to the housing and closed at the top of the luminaire, the supply (Yu outlet with a hole, which is so that, in order to increase the reliability of the instruments when g In the cavity of the chamber, there is a cap with holes on the cylindrical part, fitted with a flange flange, a spring-loaded bellows having an inlet in the end face, and a spring-loaded Nee from the inside an inverted cup with a cylindrical coaxial bead at the same time, the glass spring is placed in the cavity of the cylindrical collar; with a stop made on the upper part of the impulse tube, and the sylphide cavity communicates with the glass cavity through an opening made in its bottom, the bottom of the glass being rigidly connected to the bellows end, the other end of which is rigidly connected to the end of the cap; whose flange is attached to the roof of the ke chamber. ate

Description

The invention relates to equipment for hydro-mechanized work and hydro-transport of sand and gravel mixtures, in particular to. protective separating devices for control devices (vacuum) in the pipeline. Separating devices for manometric instruments 1 J are known. The closest to the technical essence of the invention is a separating device for protecting against clogging of impulse tubes of pressure control devices (dilution) in pipeline systems for transporting sand-gravel hydraulic mixtures consisting of a c. non-axially placed in it a lower segment of the impulse tube connected to the pipeline and an upper section of the tube, the upper part of which is out of the casing, is placed in the vertical chamber tightly connected to the body and equipped with a labyrinth transition to the outlet opening in the upper chamber cover. The purpose of such a device is to disconnect the flow of the medium selected for monitoring the transported medium. The housing of the separating device may include a separating diaphragm made of porous material (for example), foam rubber to prevent solid particles of the slurry from entering the impulse tubes 2. The disadvantage of such a device is low reliability of its operation. For example, when coitrol vacuum in the suction pipe when working with a dirt pump is pulsed the tube remains uncovered. However, when the ground pump stops and the hydraulic column moves backward, the diaphragm becomes completely clogged with sand and loses the ability to transfer the vacuum value to the impulse pipe and then to the pressure control device. If the diaphragm is removed completely, then when the slurry column moves backward, the separation tank is filled with water. The remaining vacuum in the impulse pipet promotes the movement of water containing solid particles through the impulse piping to the instrument and the formation of traffic jams in it and its blockage. The labyrinth transition from the open upper end of the impulse tube to the outlet in the upper lid of the chamber placed in a vertical chamber is also clogged with fine silty particles. The purpose of the Invention is to increase the reliability of operation of manometric instruments during hydrotransport of sand-gravid mixtures. This goal is achieved by the fact that in a protective device for manometric instruments installed on hydrotransport pipelines. systems comprising a housing disposed with a lower end of the impulse tube connected to the pipeline and an upper end of the impulse tube, the upper part of which is extended outside the housing, is placed in a vertically positioned chamber, hermetically connected to the housing and closed on top with an outlet hole in the cavity of the chamber are installed in series with respect to the lid of the cap; pce inlet, inverted cup with a cylindrical, closely aligned coaxial shoulder at the bottom, spring-loaded from the inside; the glass spring is placed in the collar cavity, the lower part covers the end of the upper part of the impulse tube and contacts the lower coil with the stop made on the upper part of the impulse tube and the bellows cavity communicates with the cavity through a hole made in its bottom, the bottom of the glass being rigidly connected to the end of the bellows, the other end of which is rigidly connected to the end of the cap whose flange a cover attached to the camera. Figure 1 shows the protective device, a general view; in FIG. 2, node I in FIG. The device consists of a cylindrical body 1 with a lower segment 2 of the impulse tube connected to the pipeline and an upper section 3 of the tube bent away from the cut-off end of the lower segment placed non-axially in it. The vertical end of the segment 3, which is extended beyond the limits of the housing 1, is provided with a movable glass 4 coaxial with it, in the bottom of which there is a central hole 5 and a concentric B.urt6 6. A glass 4 of the inner-end. the surface rests on the upper coils of the spring 7 placed in the cavity of the collet b, the lower coils of which enclose the end of section 3. The bellows 8 is connected to the outer end surface of the bottom of the glass and the coaxial 8 is connected with the cavity through the opening 5. The bellows 8, which can be made of elastic material, is located inside the spring 9 and is rigidly connected with the end of the cap 10 with its end. The cap 10

Claims (1)

PROTECTIVE DEVICE FOR 'MANOMETRIC INSTRUMENTS INSTALLED ON PIPELINES OF HYDROTRANO PORT SYSTEMS, comprising a housing with a misaligned lower segment of the impulse tube connected to the pipeline and an upper segment of the impulse tube located outside the vertically extended portion outside the housing, which is led outwardly located outside a chamber hermetically connected to the housing and closed by a lid on top, provided with an outlet, about l and: characterized by the fact that, in order to increase the reliability of the devices during hydrotransport of sand and gravel mixtures, in it. in the chamber cavity, a cap with holes on the cylindrical part, equipped with a flanged flange, equipped with a flanged flange, a spring-loaded bellows having an inlet end in the end, and an inverted cup with a coaxial coaxial collar spring-loaded in the bottom, is installed in the chamber cavity in the bottom, while the cup spring is placed in the cylindrical cavity the collar, with its lower part covering the end of the upper segment of the impulse tube and contacts the lower turn with a stop made on the upper segment of the impulse tube, and the floor the bellows span communicates with the cavity of the glass through an opening made in its bottom, and the bottom of the glass is rigidly connected to the end of the bellows, the other end of which is • rigidly connected to the end of the cap ^, the flange of which is attached to the chamber lid. SU „L065703>