RU2548227C1 - Percussion assembly - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: percussion assembly contains casing with two channels for work medium entry, each of them is connected with one channel of work medium output via the installed shock valves installed on stocks. Between each shock valve and casing the return spring is installed. In work medium output channel the adjustment screw is installed brought-out to the casing outside surface. In work medium output channel two sylphons are installed, they are connected via stocks with the shock valves. The sylphons are hydraulically connected with each other via the f-shape branch pipe, its free end is brought-out from the casing and plugged with the piston connected with the adjustment screw. The forces of the return springs are made different.

EFFECT: increased operation reliability of the device and simplified design upon decreasing of the materials consumption, ergonomic implementation of the stroke frequency and amplitude control gear of the shock valves.

2 cl, 1 dwg

Description

The invention relates to the field of hydrodynamics and can be used in devices that use the phenomenon of water hammer in their work, as well as to intensify heat transfer in thermal power plants.

A device of the shock assembly is known, including a housing with two input channels and one output channel of the working medium, two shock valves, two rods and a rocker with a rolling axis. Each of the input channels of the working medium is connected to the output channel of the working medium through shock valves installed in them, fixed to the rods and connected to the beam, the rolling axis of which is located in the output channel of the working medium. The adjusting mechanism is made of fixed, movable parts and an adjusting screw, the fixed part of which is fixed in the output channel of the working medium, and its movable part is connected with the axis of rolling of the rocker arm. The movable and fixed parts of the adjusting mechanism are interconnected by means of an adjusting screw. Additional adjusting screws are installed on the outer side of the housing and are located in the channel of the working fluid outlet from the ends of the arms of the rocker arm symmetrically to its axis of rotation, and a spring is installed between the corresponding end of the arm of the rocker arm and the additional adjusting screw (RU No. 113546, IPC F15B 21/12, publ. 02/20/2012.).

The disadvantages of the known solution are the presence of relatively large mechanical losses during operation of the device, the relative complexity of adjusting its operation, as well as the fact that when adjusting the height of the shock valves, the settings for alternately closing the shock valves at a constant flow rate of the medium through them are violated.

The closest technical solution for the combination of essential features is the shock assembly, comprising a housing with two input channels and one output channel of the working medium, two shock valves, two rods and a rocker with a rolling axis, each of the input channels of the working medium is connected to the output channel of the working medium through installed shock valves mounted on rods and connected to the beam, the rolling axis of which is located in the output channel of the working medium, an adjustment mechanism made of fixed, movable parts and an adjusting screw, the fixed part of which is fixed in the outlet channel of the working medium, and the movable part is connected with the axis of rolling of the rocker arm, the movable and fixed parts of the adjusting mechanism are interconnected by means of the adjusting screw. Two lateral adjusting screws are installed on the outer side of the housing and are located in the outlet channel of the working medium from the side of the ends of the arms of the rocker arm symmetrically to its rolling axis. A spring is installed between the corresponding shoulder end of the rocker arm and the side adjusting screw. A return spring is installed in each inlet channel between the shock valve and the housing. The movable part of the adjusting mechanism is made with mutually perpendicular holes for the pin and the adjusting screw with a radial groove, with which the adjusting screw and the pin are installed in the corresponding holes of the movable part of the adjusting mechanism. Between the housing and the movable part of the adjusting mechanism, a support spring is installed (RU No. 128263, IPC F15B 21/12, publ. 05.20.2013).

The disadvantages of the known solutions are the relatively excessive material and metal consumption of the structure, as well as the difficulty of adjusting the lift height of the shock valves while maintaining their closing moment, adapted to the specific flow rate of the working medium.

The technical result consists in increasing the reliability of the device and simplifying its design while reducing material consumption, ergonomic implementation of the mechanism for controlling the frequency and amplitude of stroke of the shock valves.

The technical result is achieved by the fact that the shock assembly includes a housing with two channels of the input of the working medium, each of which is connected to one channel of the output of the working medium through the installed shock valves mounted on the rods. A return spring is installed between each shock valve and housing. An adjustment screw mounted on the outside of the housing is installed in the outlet channel of the working medium. Two bellows are installed in the outlet channel of the working medium, each of which is respectively connected through the rods to the shock valves. The bellows are hydraulically connected to each other through an f-shaped pipe, the free end of which is brought out of the housing and is muffled by a piston connected to the adjusting screw. The stiffness of the return springs are made different.

The drawing shows the design of the shock assembly.

The shock assembly includes a housing 1 with two input channels 2, 2 ′ and one output channel 3 of the medium, two shock valves 4 and 4 ′, two rods 5 and 5 ′. Each of the input channels 2 and 2 ′ of the working medium is connected to the channel of the output 3 of the working medium through the shock valves 4 and 4 ′ installed in them and fixed to the rods 5 and 5 ′. The adjusting screw 6 installed in the output channel 3 of the working medium is brought out to the external side of the housing 1. In each channel of the input 2 and 2 ′ of the working medium, return springs 7 and 7 ′ of different stiffness are installed between the shock valves 4, 4 ′ and the housing 1. Two bellows 8 and 8 ′ are installed in the outlet channel 3 of the working medium, each of which is respectively connected through the rods 5 and 5 ′ to the shock valves 4 and 4 ′. The bellows 8 and 8 ′ are made hydraulically communicating through an f-shaped pipe 9 installed in the outlet channel 3 of the working medium, the free end of which is outside the housing 1 and is muffled by the piston 10 connected to the adjusting screw 6.

The shock node operates as follows. Initially, both the input channels 2, 2 ′ and the output channel 3 of the working medium are connected respectively to the supply source of the working medium and its receiver (not shown in Fig. 1). At the initial moment of time, until the working medium is supplied to the inlet channels of the working medium 2, 2 ′, one of the shock valves 4 fixed on the stem 5 is in the open position and the other shock valve 4 ′ is in the closed position. This is achieved due to the fact that the shock valves 4 and 4 ′ are made hydraulically communicating through the f-shaped pipe 9, and the stiffness of the return springs 7 and 7 ′ is made different. The pressure of the fluid inside the f-shaped pipe 9 is changed by means of a piston 10, the position of which is regulated by the adjusting screw 6. The working medium enters through the open shock valve 4 of the inlet channel 2 to the outlet channel 3 of the working medium and at a certain point in time, when its expiration will reach the required value, the shock valve 4 will tend to close, and the bellows 8 will compress. After the bellows 8 is compressed in this channel 2 of the working medium inlet and the shock valve 4 is closed, a water hammer will occur, the energy of which can be used depending on the application of the device. Closing the shock valve 4 and the accompanying movement of the associated rod 5 to compress the bellows 8 in the corresponding channel of the input 2 of the working medium through the f-shaped pipe 9 filled with the working fluid will stretch the second bellows 8 ′. As a result, the second shock valve 4 ′ in the inlet channel 2 ′ of the working medium, connected with it through the second rod 5 ′, opens, and the process of generating a water hammer is repeated in the sequence described above. Setting the shock assembly 4 ′ for specific parameters of a moving working medium is carried out by rotating the adjusting screw 6 without stopping and disassembling the device. In this case, the fluid pressure increases or decreases inside the f-shaped pipe 9, the bellows 8 and 8 ′ are stretched or compressed in height and thereby the stroke amplitude of the shock valves 4 and 4 ′ changes. The use of a bellows mechanism for alternately opening the shock valves 4 and 4 ′ eliminates mechanical losses that occur when using the rocker mechanism for alternately opening the shock valves in known constructions, which leads to a violation of the stability of their operation at low flow rates.

Compared with known solutions, the proposed one allows to increase the reliability of the device and simplify its design while reducing material consumption, ergonomic implementation of the mechanism for controlling the frequency and amplitude of stroke of shock valves.

Claims (2)

1. The shock assembly, comprising a housing with two working medium inlet channels, each of which is connected to one working medium outlet channel through shock valves installed on them, mounted on the rods, a return spring is installed between each shock valve and the housing, and a working outlet channel an adjustment screw is installed on the outside of the housing, characterized in that two bellows are installed in the outlet channel of the working medium, each of which is connected via a rod to a shock valve, while the bellows are hydraulically The skis are communicated with each other through an f-shaped pipe, the free end of which is brought out of the housing and is muffled by a piston connected to the adjusting screw. 2. The shock assembly under item 1, characterized in that the stiffness of the return springs are made different.

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