SU1191626A1 - Pulser - Google Patents

Abstract

A PULSATOR, comprising a housing with a loading valve, designed in the form of a piston, having a stem with a locking element fixed to it and installed in the housing to form a control cavity associated with the control system, and a spring-loaded pusher mounted in the housing with the possibility of overlapping. and acting with a shut-off element of the loading valve and with the formation of a flow cavity directly connected to the actuator and the pressure line and through the pressure valve to the atmosphere, and the control cavity, the pressure line connected to the control valve of the pusher via an adjustable throttle and non-return valve characterized in that, in order to expand technological capabilities, it is equipped with an additional check valve installed before the regulator. (Ly throttle, and an additional adjustable throttle, installed in series with the main check valve, with the additional check valve inlet connected to the control cavity of the pusher.

Description

The invention relates to hydraulic press equipment and may not be used in industry. Both for metal forming and for pressing powder products, it can also be used in test benches for reproducing cyclic loading of test objects with load-time control.

The purpose of the invention is the expansion of technological capabilities.

The drawing shows the scheme of the proposed pulsator.

The pulsator includes a housing 1 with a loading valve made in the form of a piston 2 with a stem 3, at the end of which a locking element 4 is mounted that controls a cavity 5 connected to a control system (not indicated). The pusher 6 is installed with the ability to interact with the locking element 4 and forms with the housing 1 a flow cavity 7 connected with channel 8 with an actuator (not shown), channel 9 with the pressure line 10 and through channel 11 with the atmosphere and an uphole cavity 12, in which a spring 13 is installed. The pressure pipe 10 is connected to the cavity 12 through valves 14 and 15 and adjustable throttles 16 and 17 The pressure pipe is connected to the pump 18.

The pulsator operates as follows.

The pump 18 is turned on. In the absence of a force on the piston 2. The fluid filling the cavity 7 and the working cavity of the corresponding hydraulic actuator connected to it, freely flows through the channel 11 to the drain. At the same time, the reverse valve 15 and the throttle 17 pass through; and then the filling of the control band 12 with the liquid. To enter the pulsator into a predetermined loading mode of the product or object under test from the control system: the necessary pressure is supplied to the control cavity 5 so that the piston 2 of the loading valve has the required force to close the locking element 4. Under the action of this The force of the loading valve stem 3 moves down the pusher 6, compressing the spring 13. The flow of fluid through the channel 11 stops. AT

the flow cavity 7 and in the working cavity of the executive body connected to it, the pressure begins to increase. At the same time, the fluid pressure begins to increase in the control cavity 12. The rate of increase in pressure in cavity 12 is controlled by the throttle 17. In all cases, when the throttle 17 is adjusted to a predetermined trapezoidal cycle, the pressure in the fluid in cavity 12 increases at a slower rate than in cavity 7. A difference occurs between cavity 7 and 12 pressure. Under the action of excess pressure in the cavity 7, the pusher 6 begins to move downward, compressing the spring 13, and comes out of contact with the loading valve.

With an increase in the pressure of the fluid in post 7, the force acting on the locking element 4 of the loading valve also increases. At that time, when the pressure in cavity 7 reaches a predetermined value, this force becomes equal in magnitude to the force acting on the valve from above, from the side of piston 2. At the next moment of time, the locking element 4 is slightly open. The loading valve starts to operate in safety mode. Excess fluid from pump 18 begins to flow into the drain. A constant pressure is established in the working cavity of the executive body. The time to maintain this pressure at a predetermined level (the length of the site of the highest pressure in the cycle) is determined by the setting of the Russian 17, which provides a clear flow of fluid into the cavity 12 through the non-return valve 15. With a fully open throttle 1 7, the discharge time of the workpiece or the test object under pressure is minimal (peak load mode).

As the axial total force is determined by the degree of compression of the spring 13 and the value of pressure. The liquid in the cavity 12, which acts on the pusher 6 from below, increases, the pusher 6 shifts top to contact with the locking element 4 and begins to move it upwards. The flow of fluid to the drain through the channel 11 increases, the pressure in the cavity 7 begins to fall. Mezh3.

A gap of 7 to 12 appears in the pressure drop. Excessive pressure in the cavity 12 leads to a further displacement of the pusher 6 upwards and to the complete opening of the channel 1I. The fluid pressure in cavity 7 and in the working cavity of the actuator falls to its minimum value.

The duration of the full opening of the channel 11 is provided by the choke 16. As the liquid

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bone from cavity 12 flows through choke 16 and check valve 14, pressure in cavity 12 drops. The total axial force acting 5 on the pusher 6 from the side of the cavity 12 begins to decrease. The loading valve piston 2 and the plunger 6 are moved downward, compressing the screw 13 and displacing a part of the fluid from the cavity fO 12 through the throttle 16 and the check valve 14. At the end of the movement, the locking element 4 is lowered onto its seat. Then the cycle repeats.

Claims (1)

A PULSATOR, comprising a housing with a load valve made in the form of a piston having a rod with a locking element fixed on it and installed in the housing with the formation of a control cavity associated with the control system, and a spring-loaded pusher installed in the housing with the possibility of interaction with the locking element load valve and with the formation of a flow cavity directly connected to the actuator and the pressure line and through the load valve with the atmosphere, and the control cavity, and the trunk line is connected with the control cavity of the pusher through. an adjustable throttle and a non-return valve, characterized in that, in order to expand technological capabilities, it is equipped with an additional non-return valve installed before the regulation. throttle, and an additional adjustable throttle, mounted in series with the main check valve, and the input of the additional check valve is connected to the control cavity of the pusher. su „and 1191626 2