RU16778U1 - SWITCHING DEVICE - Google Patents

Abstract

Switching device

The utility model relates to pipeline valves and can be used as a device that distributes the flow of a working medium along independent highways. The switching device includes a housing with one input and at least two output channels, a seat made in each of the output channels, and a locking member arranged to interact with each of the seats in turn. The surfaces of each of the saddles and the locking body, interacting with each other, are provided with surfacing from a material with a hardness greater than the material of the main element.

abstract

Description

Switching device

The utility model relates to pipe fittings and can be used as a device that distributes the flow of a working medium along independent highways.

Known distribution and switching devices containing a housing with an input and several output channels, saddles of the output channels, as well as a locking element associated with the drive and installed with the POSSIBILITY of alternating interaction with the saddles (RU, 2107209, class P16K11 / 02, 1998; patent Japan No. 49-19294, CL P16K 1/02, 1974). Known switching device containing the largest number of features common with the claimed (Ki, utility model No. 9036, class P16KZ / 26, 1999), comprising a housing with one input and two output channels having saddles in the flow part of the necks, between which there are double-acting cylindrical locking element connected to the shnindel, interacting with the seats of the output channels in turn. Between the seats and the locking element in the aforementioned devices, there is a hard metal contact without intermediate elements and the tightness in the area of the seats is ensured by a thorough treatment of the contacting surfaces. However, to ensure a high degree of density, it is necessary to achieve extremely thorough grinding of the sealing surfaces. Moreover, due to the deformation of the parts during operation, not the entire surface of the mentioned parts is involved in ensuring the tightness of the contact, and the properties of the surface layer differ sharply from the properties of the base material. In addition, the operation of the device in conditions of elevated temperatures, aggressive environments, high pressures, the passage of the medium between the sealing surfaces causes their erosion and, as a result, leakage. Improving the quality of surface treatment can be achieved by using a material with a higher hardness, however, while achieving a high degree of purity of large surfaces is associated with an increase in manufacturing cost. All this forces us to look for other solutions: to ensure contact density without resorting to excessive efforts on the flywheel and to maintain the ability to process sealed surfaces in mass production. This problem is solved by the claimed utility model.

The problem is solved in that in a non-switching device comprising a housing with one inlet and at least two outlet channels, saddles placed in the latter, as well as a locking member configured to alternately interact with each of the saddles, the surface of each of the saddles

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equipped with ring surfacing from a material with a greater hardness than the material of the saddle. Such surfacing can also be performed on the surface of the locking member, which directly interacts with the surface of the saddle. In the event that the saddle is made in the form of a sleeve connected with the body, the aforementioned surfacing is placed on the surface of the sleeve interacting with the locking member. The fastening of removable bushings with saddle surfaces to the housing additionally increases the tightness of the saddle-locking body pair, since it eliminates the influence of housing deformation on it during the manufacturing process of the device, as well as when the temperature changes during operation. In addition, the installation and dismantling of the device as part of the pipeline is greatly simplified.

Performing surfacing from a material with increased hardness allows to reduce the complexity of processing significant surfaces of the locking member and seat. The processing of small surfacing surfaces is not associated with significant time and material costs. At the same time, the switching device satisfies all the requirements both when working in a wider range of temperatures and pressures, and in aggressive environments.

The utility model is illustrated by the description and the attached drawing, which shows a section of a switching device.

The switching device consists of a housing 1 with one inlet 2 and two output channels 3. In each of the output channels, a saddle 4 is made in the form of a sleeve with a flange connected to the housing by fasteners. The seats are sealed relative to the body by means of gaskets placed on both sides of the flange. In the inner cavity of the housing there is a locking member 5, a nanometer, of cylindrical shape, connected with the spindle 6. The locking member is configured to interact alternately with the seats 4 of the output channels 3. Pa ring surfaces 7 are made on the surfaces of the locking member 5 and the seats 4 interacting with each other from material e larger than the material of the main parts, for example, from steel E13HP9T. The size of the surfacing is much smaller than the size of the main parts.

The utility model cares as follows.

When the pinch 6 is rotated by means of, for example, a flywheel or other drive, the locking member 5 makes a reciprocating movement. Pushed to one of the saddles, it overlaps the corresponding output channel for access to the working medium, while opening it a path to another output channel. When the locking element is in the middle position, both channels are open and the switching device carries out the mixer;

Utility model can be used as part of

main pipelines independently and complete with other pipeline fittings for changing and distributing the flows of gases and liquids, predominantly aggressive and coming under high pressure. The utility model can find application in the oil and gas industry, energy and other areas of the national economy.

Claims (3)

1. A switching device, comprising a housing with one input and at least two output channels, a seat made in each of the output channels, and a shut-off element placed with the possibility of alternating interaction with each of the seats, characterized in that the surface of each of the seats is provided surfacing from a material with a higher hardness than the material of the saddle.  2. The switching device according to claim 1, characterized in that said surfacing is also performed on the surface of the locking member interacting with the saddle. 3. The switching device according to claim 1 or 2, characterized in that at least one of the seats is made in the form of a sleeve with a flange, and said surfacing is placed on the surface of the sleeve interacting with the locking member.