RU2062388C1 - Fitting - Google Patents

Abstract

FIELD: hydraulic engineering. SUBSTANCE: central part of the fitting housing is made up as a screw. The screw has noncircular cross-section with and pitch that exceeds the maximum size of the diameter of the nominal bore. If the fitting is a T-joint. The housing and branch pipes of the T-joint is made up as a screw of noncircular cross-section. The branch pipes are conjugated with the housing over the maximum size of the noncircular cross-section. EFFECT: enhanced reliability. 3 cl, 4 dwg

Description

 The present invention relates to the equipment of hydraulic systems for heating, water supply, sewage, land reclamation; more specifically to devices for connecting pipes and hoses, and can be used in fluid supply systems, as well as mixtures of various media, such as air-sand, air-liquid, emulsions.

 Known coupling for connecting pipes containing a housing having a curved shape in axial section. Bends of the body with protrusions at the ends serve to connect the pipes [1] The known coupling provides a quick connection, but increases the resistance to a liquid medium and is not suitable for connecting three or more pipes.

 A known fitting, for example a sleeve, tee, crosspiece for connecting pipes, comprising a housing with a cylindrical hole and with threaded connecting elements at the ends [2] The known fitting creates additional resistance in the pipeline. This fitting is taken as a prototype.

 The objective of the invention is to increase throughput by swirling the flow of a liquid medium.

 This problem is achieved by the fact that in the fitting for connecting pipes containing the housing with connecting elements at the ends, the central part of the housing is made in the form of a helical surface of non-circular cross section with a step exceeding the largest sectional size of the conditional passage. To connect three or more pipes, the casing has nozzles, also made in the form of a screw surface of non-circular cross section and connected to the casing according to the largest size of the non-circular cross section so that the largest dimension coincides or is perpendicular to the longitudinal axis of the casing.

 A comparative analysis of the proposed fitting with known patent data [1] and literature [2] shows that the non-circular axial section and its location along a helical line along the axis of the housing is a new feature. It is also unknown to make the nozzles in the form of a screw surface of non-circular cross section and their connection with the housing according to the largest section size. This design ensures the twisting of the fluid flow and the increase in flow rate compared with a cylindrical body with an equal average cross-sectional size of the nominal passage. The novelty of the features and the significant effect achieved through structural differences allow us to consider that they meet the criterion of "significant differences".

 The essence of the invention is illustrated in the drawings, where in FIG. 1 shows a compensating sleeve (fitting) of normal length; in FIG. 2, section A A in FIG. 1 and 3; in FIG. 3 elongated compensating coupling; in FIG. 4 - fitting tee.

 The fitting compensating sleeve for connecting pipes contains a housing 1 and connecting elements 2 in the form of cylindrical sections with internal thread (Fig. 1, 3). The central part of the casing is made in the form of a helical surface of non-circular cross section 3 having a pitch P. The pitch of the helical surface exceeds the largest dimension "a" of the conditional passage section (Fig. 2). Non-circular section can be oval, ellipse, triangular, ovoid and other shape with smooth contours, having the largest "a" and the smallest "in" size.

 To connect three or more pipes, up to six inclusive, the housing has nozzles 49 with connecting elements 2 at the ends (Fig. 4). The nozzles are made in the form of a screw surface of non-circular cross section, the parameters of which are the same as those of the case. The connection of the nozzles with the housing is made according to the largest dimension “a” of non-circular section, which coincides with the longitudinal axis of the housing (see Fig. 4). In some cases, the pairing can be at the location of the largest cross-sectional area of the pipe perpendicular to the longitudinal axis of the housing. This design is appropriate when placing four nozzles around the axis of the fitting body, designed to connect six pipes. Then the oppositely located nozzles are installed in pairs with the largest section size along and perpendicular to the longitudinal axis of the housing.

 When installing two or more fittings in a pipeline, it is necessary to ensure that the flow swirls in one direction. To do this, arrow 5 is applied to the body (Fig. 4). To avoid neutralizing the swirling flow of the adjacent fittings, the arrows should point in the same direction.

 As shown by comparative tests of cylindrical and screw fittings of the same nominal bore diameter of 10 mm and 24 mm in the pressure range up to 0.5 MPa, a non-circular spiral channel in the form of an oval with an aspect ratio of a / 0.8 (Fig. 2) increases the flow rate by 12 15% compared with a cylindrical fitting. Liquid medium water without additives.

 Increasing the flow rate at a constant pressure and twisting the flow of the liquid medium not only improves the circulation of the medium in the system, but also reduces the deposition of solid and viscous sediments on the pipe walls, which in turn extends the normal life of the pipeline. Screw fittings are especially effective in heating and heat exchange systems, water and sewer networks. YYY2

Claims (4)

 1. A fitting, for example a sleeve, for connecting pipes, comprising a housing and connecting elements at the ends, characterized in that the central part of the housing is made in the form of a screw surface of non-circular cross section with a step exceeding the largest sectional size of the nominal passage.  2. A fitting for connecting three or more pipes, comprising a housing with nozzles and connecting elements at the ends, characterized in that the housing and nozzles are made in the form of a screw surface of non-circular cross section, while the pipes are mated to the largest size of non-circular cross section.  3. The fitting according to claim 2, characterized in that the largest non-circular section of the pipe coincides with the longitudinal axis of the housing.  4. The fitting according to claim 2, characterized in that the largest non-circular section of the nozzle is located perpendicular to the longitudinal axis of the housing.

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