RU2017018C1 - Distributing unit - Google Patents

Abstract

FIELD: hydraulic and pneumatic control. SUBSTANCE: each section of the unit has electrically controlled slide distributors of the first cascade which are in communication with control chambers of a slide distributor of the second cascade. Longitudinal axes of the slide distributors of the first cascade is positioned on both sides of plane wherein longitudinal axis of the slide distributor of the second cascade and perpendicular to an assembling plane of the second case. The slide distributors of the first cascade are shifted along their longitudinal axes toward each other with overlapping. EFFECT: enhanced efficiency. 4 dwg

Description

 The invention relates to distribution systems of hydropneumatic automation, and in particular to structural implementations of circuit elements and prefabricated units from them, and can be used in the manufacture of modular drive equipment in any industry.

 A distribution block is known comprising a housing with electrically controlled pilot spools of the first cascade and a spool of the second cascade, the control chambers of which are connected to the output channels of the spools of the first cascade, and the input / output channels, supply and drain lines are connected to holes made on the mounting plane of the block. In this case, the longitudinal axis of the pilot valves of the first stage and the valves of the second stage are located in the same plane perpendicular to the mounting plane of the block [1].

 Closest to the invention is a distribution block, which can be assembled from separate sections, each of which consists of electrically operated spool valves of the first cascade located in the first housing, and a spool valve of the second cascade located in the second housing, the control chambers of the spool distributor of the second cascade connected to the output of the corresponding spool valve of the first cascade, and the input-output channels are connected to the holes located on the mount zhnoy plane of the second housing. In addition, the distribution block includes mounting plates for supplying the pressure and drain channels to the spools of the second cascade of all sections, as well as the inlet and pressure channels of the control spool valves of the first cascades of all sections. The longitudinal axis of the spool valves of the first and second stages in each section are placed in one plane perpendicular to the mounting plane of the second housing [2].

 In these designs, the spool valves of the first cascade are aligned and their common axis and the longitudinal axis of the spool valves of the second cascade in each section are placed in one plane perpendicular to the mounting plane of the second casing, which makes it difficult to maintain the unit and replace the spool valves of the first cascade with compact sections, and also increases the dimensions of the block.

 The aim of the invention is to improve operational characteristics and reduce the size of the block.

 The goal is achieved due to the fact that in the distribution block containing sections, each of which consists of two electrically controlled spool valves of the first cascade located in the first housing, a spool valve of the second cascade located in the second housing, the control chambers of the spool valve of the second cascade connected to the output of the corresponding spool valve of the first stage, and the input-output channels are connected to the holes located on the mounting plane of the second building whiskers, mounting plates of the block, in which the pressure and drain channels are connected respectively to the spool valves of the second stages, as well as the inlet and drain channels of the control pressure of the spool valves of the first stages, the longitudinal axes of the spool valves of the first stage of each section are placed on both sides of the plane, which is the longitudinal axis of the spool valve of the second cascade and perpendicular to the mounting plane of the second housing, and the spool valves of the first askada displaced along their longitudinal axes towards each other with overlap.

 Placing the axes of the spool valves of the first stage outside the plane passing through the longitudinal axis of the spool valves of the second stage and perpendicular to the mounting plane of the block section from opposite sides and shifting the spools of the first stage along their longitudinal axes towards each other with overlapping allows to reduce the dimensions of each section and block in generally, with a compact execution of the section in the axial direction, while the distance between its extreme points is less than the same distance between the edges young points of electromagnets in the prototype. In addition, this allows you to increase the area for maintenance and replacement of the elements of the first stage, which improves operational characteristics.

 In FIG. 1 shows a block from the mounting plane of the second housing; in FIG. 2 - section of the block with a partial section of the second casing, in which the spool valve of the second cascade is located; in FIG. 3 is a view of the section of the block from the side of the electromagnets with a cut of part of the first housing at the location of the spool valves of the first cascade; in FIG. 4 - conditional block diagram.

 The block shown in FIG. 1 and 4, contains electrically controlled spool valves 1, 2 of the first stage, spool valves 3 of the second stage, respectively located in the first 4 and second 5 buildings. The valves 1, 2 are controlled by electromagnets 6 with connectors 7. The control pressure from the valves is connected to a common drainage channel. The distributors 1, 2 and 3 of the first and second stages are installed in the respective housings 4 and 5 and make up sections 9, forming the distribution block assembly. The control chambers 10 of the distributor 3 of the second stage are connected to the output of the corresponding distributor 1, 2 of the first stage. Holes 11, 12 are made on the mounting planes of the second cases of the unit sections, to which the inlet and outlet channels of the distributors 3 of the second stages are connected, and the pressure and drain channels of these distributors are combined and connected to the pressure 13 and drain 14 channels made respectively in the mounting plates 15 and 16, which are common to the block. In addition, in the mounting plates 15 and 16, a drainage channel 8 and a control pressure input channel 17 of the spool valves 1, 2 are made. The longitudinal axes of the spool valves 1, 2 are placed in opposite directions outside the plane in which the longitudinal axis of the spool valve 3 of the second stage is located perpendicular to the mounting, in this case lower in FIG. 2 planes of the second casing 5. Spool valves of the second cascade are offset along their longitudinal axes towards each other with overlapping (see Fig. 3).

 The block works as follows.

 When a control electric signal is supplied through connector 7 to one of the electromagnets 6, the corresponding distributor of the first stage is activated, supplying control pressure to one of the control chambers of the distributor of the second stage, connecting the input and output channels 11, 12 with pressure 13 and drain 14 channels to drive the corresponding engine . The rest of the sections are similar.

Claims (1)

 A DISTRIBUTION BLOCK comprising sections, each of which consists of two electrically operated spool valves of the first cascade located in the first housing, a spool valve of the second cascade located in the second housing, the control chambers of the spool valve of the second cascade connected to the outputs of the corresponding spool valve of the first cascade, and the input-output channels are connected to the holes located on the mounting plane of the second housing, and interfaced with the second housing Mi mounting plates of the block, in which the pressure and drain channels are respectively connected to the spool valves of the second stages, as well as the inlet and drain channels of the control pressure of the spool valves of the first stages, characterized in that the longitudinal axes of the spool valves of the first stage of each section are placed on both sides the plane in which the longitudinal axis of the spool valve of the second cascade is located, and perpendicular to the mounting plane of the second casing, and the spool races redeliteli first stage are offset along their longitudinal axes towards each other with overlap.

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