RU2011005C1 - Straight-flow valve - Google Patents

Abstract

FIELD: valving. SUBSTANCE: each seat surface of a case is provided with outlet ports length of which is grater than diameter of an inlet passage. Tops of an equilateral triangle (the case in plane) are provided with radial grooves having spherical surfaces for positioning base bearing-fastening platforms of a closing plate which are congruent to the grooves. Length of closing members is unlimited. EFFECT: improved design. 6 dwg

Description

 The invention relates to mechanical engineering and can be used in volume displacement machines - reciprocating, rotary-piston and screw compressors as suction, discharge, check valves, etc.

 Known direct-flow valve according to ed. St. USSR N 1551926, class F 16 K 15/14, 1988. This valve includes a housing with outlet windows and grooves at the end, locking plates with a jumper and a pressure plate.

 The disadvantage of this valve is the presence of grooves to accommodate the jumpers of the locking plate and the hole with an annular groove for securing the pressure plate, increasing material consumption, manufacturing time and repair.

 A direct-flow valve is also known, which comprises a housing with exit windows, annular grooves with inclined surfaces, plates with two locking parts overlapping windows of different lengths.

 The disadvantage of this valve is the relatively small total bore in the windows, due to the reduced length of the lower window located between the supporting elements, insufficient durability due to additional vibrations of the locking part of the plate that overlaps the upper outlet window, located in the gas flow area coming from the lower window. In addition, there is an intensive abrasion of the supporting surfaces of the annular groove of the valve body due to the movement of the locking parts of the plate to the limiter and vice versa, which prematurely leads to a weakening of the mounting plate, reducing durability.

 The specified valve is the closest to the proposed technical essence.

 Common features of the proposed technical solution and prototype is the presence of a valve body, a locking plate and a limiter.

 The aim of the invention is to reduce specific power and increase the durability of the valve.

 This goal is achieved in that the outlet windows of the valve body are made at an angle to the saddle surfaces and have a length greater than the diameter of the inlet channel, the locking element of the plate is not limited in length by the supporting elements surrounding it and an annular groove with spherical surfaces that increase the area of interface with the basic support mounting plates of the plate, equipped with an elastic element, resting on the limiter, reliably holding the plate in the groove of the housing.

A sample was made with two different length exit windows on each saddle surface. The total flow area of these windows is 951 mm ² . In this case, the window width is 5.5 mm. The ratio of the total area in the windows to the area of the input channel is 951: 615 = 1.550.

In a sample made in accordance with the proposed technical solution, the total flow area, for example, with two windows of equal length, is 35˙4.65 ˙6 = 963 mm ² .

 The ratio of the total area in the windows to the area of the input channel is 963: 615 = 1.565.

 This design allows you to reduce the width of the window when entering the saddle surface by 1.2 mm, but reducing the total bore in the windows, which helps to increase durability.

 The basic support and mounting pads of the plate, made in the form congruent to the radial grooves with spherical surfaces, increase the contact length, and hence the area of contact of the plate with the groove of the housing, contributing to an increase in durability.

 In FIG. 1 shows a valve assembly; in FIG. 2 is a longitudinal section through a valve (AA in FIG. 1); in FIG. 3 is a top view of the valve (with a section BB in FIG. 1); in FIG. 4 - valve body (view of one of the saddle surfaces); in FIG. 5 - a locking plate (with a section BB); in FIG. 6 - a locking plate with a locking body overlapping one output window.

 The proposed valve contains a housing 1 (in terms of an equilateral triangle), a cylindrical surface 2 for installation in a valve plate, an inlet channel 3 for supplying gas. The faces of the housing 1 are saddle surfaces 4. The flow along the inclined surfaces 5 of the exit windows 6 exits the housing 1 (in Fig. 1 these windows are shown by a dashed line). The windows 6 are overlapped by the locking part 7 of the plate 9. To install and fix the locking plates on the tops of the casing, radial grooves 10 are made with spherical surfaces 11 for accommodating the basic support and mounting pads 12, equipped with elastic tabs 13, supported by a stopper 14, the function of which is provided by the walls of the hole under the valve in the valve plate.

 The in-line valve operates as follows. Gas enters the inlet channel 3 and rushes into the outlet windows 6, squeezing the locking part 7 of the plate 9 from the saddle surfaces 4 to the wall 14 of the valve plate. The pressure above the valve, the locking part 7 is firmly and tightly pressed against the saddle surface 4, ensuring tightness.

 Increasing durability and decreasing specific power is ensured by reducing the groove width, the larger interface area of the basic support and mounting platforms with the radial grooves of the valve body and increasing the total bore in the output windows. (56) Copyright certificate of the USSR N 983304, cl. F 04 B 39/10, 1980.

Claims (1)

 A DIRECT VALVE comprising a valve body with outlet windows, locking plates and a plate lift stopper, characterized in that, in order to reduce power density and increase durability, output windows are made on each saddle surface of the valve body which are longer than the diameter of the inlet channel at the vertices the polyhedron has radial grooves with spherical surfaces to accommodate the basic supporting and mounting areas of the plate having a shape congruent with these grooves, and the locking elements are not limited in length.

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