RU214252U1 - HYDRAULIC PLATE - Google Patents

Abstract

The utility model relates to valve building, in particular to high-pressure hydraulic plates used to organize the operation of hydraulic pumps. The hydraulic plate includes a housing having holes for mounting solenoid valves, for draining and supplying fluid to the solenoid valves, for pressure sensors, for mounting hydraulic compensators, interconnected by internal channels, the plate contains two solenoid valves, two pressure sensors, two hydraulic compensators. The technical result provided by the above set of features is the expansion of the arsenal of technical means of a similar purpose. 1 ill.

Description

The utility model relates to valve building, in particular to high-pressure hydraulic plates used to organize the operation of hydraulic pumps.

There are solutions for organizing the operation of hydraulic pumps by means of throughput channels from universal fittings, sensors (pressure gauges) and fittings. The first drawback of such a solution is a large number of detachable connections, the second drawback is the large dimensions of the assembled typesetting block, due to the impossibility of a set of fittings of the required size for sufficient convergence of all elements to the minimum distances from each other, subject to the condition of maintaining maintainability and the ability to control all elements assembly, the third drawback of the existing solutions is the high cost, since the assembly is carried out from several elements (fittings and fittings), and there is a need to use a fixing and sealing composition during assembly.

A hydraulic mounting plate is known from the prior art (patent RU 131527, publ.: 20.08.2013 Bull. No. 23), containing a housing having holes for attaching a hydraulic apparatus and holes for draining and supplying fluid to the hydraulic apparatus, interconnected by internal channels.

The closest in technical essence is a hydraulic plate (patent RU 197825, publ.: 06/01/2020 Bull. No. 16), which includes a housing having holes for mounting solenoid valves and holes for draining and supplying fluid to the solenoid valves, interconnected by internal channels, and contains a hole for the pressure sensor.

The disadvantage of these technical solutions is the inability to provide the necessary scheme of work.

The task to be solved by the claimed utility model is the layout of the hydraulic plate, which allows minimizing the dimensions of the assembly unit and provides the necessary scheme of work.

This problem is solved by the fact that the hydraulic plate includes a housing having holes for mounting solenoid valves, for draining and supplying fluid to the solenoid valves, for pressure sensors, for mounting hydraulic compensators, interconnected by internal channels, the plate contains two solenoid valves, two pressure sensors , two hydraulic compensators, while the channels for the fluid flow are formed in such a way that the fluid enters the channel through the first inlet, the pressure in which is measured by the first inlet pressure sensor, then the fluid enters the cavity of the normally closed solenoid valve, when opened, the fluid flows partially into hydraulic compensator for smoothing inlet pulsations, and the rest into the first outlet for supply to the hydraulic pump, after increasing the pressure in the pump, the liquid enters the second inlet, where it enters the second chamber of the hydraulic compensator, where the outlet pressure pulsations are extinguished, and the flow exits into the channel, the pressure in which is measured by the second pressure sensor, in which the flow is divided into two separate flows, the first of which goes directly to the second outlet, and the second flow passes through the normally closed solenoid valve before exiting and then exits through the third outlet.

The technical result provided by the above set of features is the expansion of the arsenal of technical means of a similar purpose. Such effects as solidity and compactness of the plate are also achieved.

The organization of the operation of hydraulic pumps is carried out by controlling fluid flows by placing controlled solenoid valves and stabilizing the pressure of the outgoing flow by placing a hydraulic compensator (hydroaccumulator) on the plate within the permissible limits of deviation from the nominally specified parameters, the measurement of deviations of which is controlled at the control points of the plate by installing pressure sensors ( manometers).

The utility model is illustrated by drawings, which show:

figure 1 is a schematic diagram of the hydraulic operation,

where

1 - hydraulic plate,

2, 9 - input channels,

3, 11 - pressure sensors (pressure gauge),

4, 12 - solenoid valves,

6, 8 - external reinforcement,

7 - hydraulic pump,

5, 10 - hydraulic compensators (hydraulic accumulators),

13, 14 - output channels.

The hydraulic plate includes a housing having holes for fastening solenoid valves 4 and 12, hydraulic compensators (hydraulic accumulators) 5 and 10 for draining and supplying fluid, holes for pressure sensors 3 and 11 interconnected by internal channels.

The liquid through channel 2 enters the solenoid valve 4, before the solenoid valve there is a control point for measuring pressure by reading the pressure sensor (pressure gauge) 3. hydraulic plate 1 and through the external fittings 6 enters the hydraulic pump 7. Then, through the external fittings 8, the liquid enters the inlet channel 9 on the hydraulic plate 1, passes into the chamber of the hydraulic compensator (hydraulic accumulator) 10, after which the liquid enters the channel, in which there is a control point for measuring pressure by placing a pressure sensor (pressure gauge) 11. In this channel, the flow is divided into two flows, the first flow enters the channel 13 and exits the hydraulic plate 1, and the second channel goes to the normally closed solenoid valve 12, and after it will go to output channel 14.

The advantages of the claimed device are:

solidity of the structure due to its manufacture from a solid bar of metal that meets the requirements for strength (not to collapse under the action of constant working pressure), by machining, drilling and milling working surfaces,

compactness due to individual manufacturing of the hydraulic plate for specific models of solenoid valves, sensors (pressure gauges), hydraulic compensator (hydraulic accumulator), it is possible to achieve maximum convergence of the valves to each other, all this allows minimizing the required amount of material of the initial workpiece for the production of the hydraulic plate,

low manufacturing cost and low requirements for the equipment used in manufacturing in comparison with the design of universal fittings, since the number of detachable connections is minimized and a metal bar of standard section is used as the initial workpiece, then the operations and time of machining (drilling, turning and milling) are performed in a smaller volume, due to this, the cost of production is reduced.

Thus, the layout and organization of channels inside the developed hydraulic plate allows to achieve the minimum overall dimensions of the occupied installation and provide the necessary scheme of work due to the maximum convergence of the elements of the hydraulic system to each other.

Claims (1)

Hydraulic plate, including a housing having holes for mounting solenoid valves, for draining and supplying fluid to the solenoid valves, for pressure sensors, interconnected by internal channels, characterized in that the plate contains two solenoid valves and two pressure sensors, also contains two holes for attaching two hydraulic compensators, while the channels for the fluid flow are formed in such a way that the first inlet is configured to allow fluid to enter the channel to the first inlet pressure sensor, then into the cavity of a normally closed solenoid valve, when opened, it is possible for some of the fluid to flow into the hydraulic compensator to smooth the inlet pulsations, and the remaining part of the liquid into the first outlet into the hydraulic pump, from which it is possible for fluid to flow into the second inlet, from there into the second chamber of the hydraulic compensator, from which into the channel with the second pressure sensor, from where the channel has separation into two channels, the first of which is directed directly to the second outlet, and the second through a normally closed solenoid valve is directed to the third outlet.

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