RU2183296C1 - Shut off- distributing device - Google Patents

Abstract

FIELD: machine engineering, namely, shut off and distributing devices used in testing beds, hydraulic and pneumatic, mainly high pressure, drive systems. SUBSTANCE: shut off- distributing device includes housing with cavities for pumping, supplying and discharging; two mutually spring-loaded valves in the form of sleeve arranged in housing. The last is provided with second pair of mutually spring-loaded valves. Cavities of both pairs of valves are mutually communicated. Inside inner cavities of each pair of valves there are protrusions between which spring is placed. Extending outside tie rod is passed through said spring. Both tie rods are kinematically joined one with another by means of supporting unit and control knob. Each tie rod has stops that may alternatively engage with above mentioned protrusions. Lengthwise grooves are provided on outer surface of one valve of valve pair; said one valve abuts to supply cavity of device. EFFECT: enlarged functional possibilities of device providing operation of hydraulic aggregates with several working cavities. 4 dwg

Description

 The invention relates to valve engineering and can be used in bench-test equipment, hydropneumatic actuators of predominantly high pressure.

 Known shut-off device containing a housing and two normally closed valves (A. S. 505846, M. Cl. F 16 To 11/14, bull. 9 from 01.06.76).

 The technical drawback of this device is the inability to provide the required logic of work.

 Known locking and distributing device containing a housing with cavities of discharge, supply and discharge, placed in the housing two mutually spring-loaded valves made in the form of a glass (A.S. 1767262, CL F 16 K 11/10, bull. 37 from 07.10. 92).

 The technical disadvantage of this shut-off switchgear is the inability to ensure the operation of the hydraulic unit with several working cavities.

 Technical task: the expansion of functionality due to the possibility of ensuring the operation of hydraulic units with several working cavities.

 According to the invention, in a shut-off switchgear comprising a housing with feed and discharge discharge cavities, two mutually spring-loaded valves made in the form of a cup are housed in the housing. The housing is equipped with a second pair of mutually spring-loaded valves, the cavities of both valve pairs are interconnected, protrusions are provided in the internal cavity of the valves of each pair, between which a spring is placed, through which a rod is drawn outside, both rods are kinematically connected to each other by means of a support and a control handle, at the same time, stops are made on each thrust with the possibility of alternating interaction with the indicated protrusions, and on the outer surface of one of the valves of the pair adjacent to the supply cavity, enes longitudinal grooves.

 In FIG. 1 shows a general view of the shut-off switchgear; FIG. 2 - section aa in figure 1, in figures 3 and 4 - the same as in figure 1, but in operating conditions.

 The locking and distribution device consists of a housing 1 (Figs. 1, 3, 4), in which two channels 2 and 3 are made, which serve as guides for moving a pair of valves 4, 5 under the action of the rod 6 and the second pair of valves 7, 8 under the action thrust 9, and all valves (4, 5, 7, 8) are made in the form of glasses.

 The rods 6 and 9 have the ability to move in opposite directions, thanks to the two-arm lever of the control handle 10, pivotally connected to them and the support 11, rigidly connected with the housing 1.

 On the rods 6 and 9 made stops 12, 13 and 14, 15, with the possibility of interaction with the protrusions 16, 17, 18, 19 on the internal cavities of the valves 4, 5, 7, 8, which can be made in various ways, for example, in the form split washers.

 The cavities of both pairs of valves 4, 5, 7, 8 are interconnected and form a discharge cavity 20, which is connected through a fitting 21 to the high-pressure line. Valves 4 and 7 interact with the sharp edges of the seats 22, 23 of the washer 24, in which feed cavities 25, 26 are connected to the fittings 27, 28. The feed cavities are disconnected, and the fittings 27, 28 are connected to pressure consumers (hydraulic cylinders, other hydraulic motors and etc.).

 Valves 5, 8 can be pressed against the seats 29, 30 of the washer 31. The housing 1 is closed by covers 32, 33. A fitting 34 is installed in the cover 32, connected to a drain line. Between the washer 31 and the cover 32, a discharge cavity 35 is formed, and behind the washer 31 there are two disconnected drain cavities 36 and 37 connected to the fittings 38 and 39, respectively. The fittings 38, 39 are connected to the same cavities as the fittings 27, 28.

 A spring 40 is installed between the valves 4 and 5, and a spring 41 is installed between the valves 7 and 8.

 On the valves 4, 7, longitudinal grooves 42, 43 are made (FIGS. 1, 2). To prevent leakage of liquid shut-off switchgear is equipped with sealing elements.

 The operation of the locking switchgear is as follows. In the neutral position (figure 1), the control handle 10 is in a vertical position. Valves 4, 5, 7, 8, under the action of springs 40, 41, are pressed against the seats 29, 30, 22, 23. The injection cavity 20 is disconnected from the supply cavities 25, 26, drain 36, 37, and discharge 35, while the drain cavity 36 , 37 are disconnected from the discharge cavity 35.

 In this position, the working fluid passes through the longitudinal grooves 42, 43 (figure 2) of the valves 4, 7 and reaches the washer 24.

 When moving the control handle 10 (figure 3) to the left according to the drawing, the rods 6 and 9 move in opposite directions. The rod 6 moves to the left, on the one hand moves in the cavity of the valve 8, without moving it, on the other hand, acting as a stop 12 in the protrusion 19 of the valve 7 and overcoming the force of the spring 41, we move the valve 7 to the left. At this time, the thrust 9, moving to the right, on the one hand moves in the cavity of the valve 4, and, acting on the stop 15 in the protrusion 16 of the valve 5, we move it to the right, overcoming the force of the spring 40. In this case, the discharge cavity 20 is in communication with the feed cavity 26 (cavity feed 25 remains disconnected with the injection cavity 20) and the working fluid is supplied to one of the cavities of the pressure consumer through the nozzle 28, and the drain cavity 36 (the other cavity of the pressure consumer) communicates with the discharge cavity 35, and through the nozzle 34 to the drain line.

 When moving the control handle 10 to the right according to the drawing (Fig. 4), the rods 6, 9 move in opposite directions. The rod 6 moving to the right, on the one hand moves in the cavity of the valve 7 without moving it (the stop 12 does not interact with the protrusion 19 and the bottom of the glass), on the other hand, acting with the stop 13 in the protrusion 18 of the valve 8 and overcoming the efforts of the spring 41, moves the valve 8 to the right. At this time, the rod 9, moving to the right, on the one hand moves in the cavity of the valve 5, and acting on the stop 14 in the protrusion 17, moves the valve 4 to the left. In this case, the injection cavity 20 communicates with the delivery cavity 25 (the delivery cavity 26 remains disconnected with the injection cavity 20) and the working fluid is supplied to the other cavity of the hydraulic unit - the consumer through the nozzle 27, and the drain cavity 37 communicates with the discharge cavity 35 and through the nozzle 34 with drain (with a tank, not shown in the diagram and widely known in the art).

 In addition, throttling of the fluid flow is ensured when it is supplied through the fittings 28, 27 due to the throttling of the working fluid when passing through the longitudinal grooves 42, 43.

 Thus, the described features of the device and the principle of operation of the shut-off switchgear provide the expansion of its functionality, which is achieved by the possibility of a simple and reliable way to ensure the operation of the hydraulic unit with several working cavities.

Claims (1)

 Shut-off and distribution device containing a housing with discharge, supply and discharge cavities, two mutually spring-loaded valves made in the form of a cup located in the housing, characterized in that the housing is equipped with a second pair of mutually spring-loaded valves, the cavities of both valve pairs are interconnected, in internal There are protrusions between the valve cavities of each pair, between which a spring is placed, through which a rod is pulled out, both rods are kinematically connected to each other by means of a support and a handle phenomenon wherein each thrust stops made with the possibility of alternately interacting with said projections, and on the outer surface of one of the pair of valves adjacent to the flow chamber, there are longitudinal grooves.

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