RU40403U1 - MANUAL PUMP - Google Patents

Abstract

A hydraulic hand pump can be used to create pressures up to 100.0 MPa in various power devices: jacks, pullers, nut cutters, presses and others. The objective of the development is to increase reliability, simplify the design and reduce the size of the pump. The task and technical result is ensured by the fact that in the known hand pump comprising a housing 1 with a plunger device 45, the free end of the plunger 4 of which is installed in the lever 10, a biaxial earring 11, pivotally connected by one axis 12 to the lever 10, and the other to the body , 1 open reservoir 3 for the working fluid connected to the plunger device through the suction port 7 with the suction valve, the discharge manifold connected to the plunger device with the discharge valve, valve and ball ovym adjustment and safety valve 15, whose outputs are connected to the open tank 3, the following improvements conducted. A ball control and safety valve 15 is built into the pump housing 1 between the plunger device and the discharge valve and is connected to the discharge line by a damping hole 17, and the cavity 25 located in the housing 1 behind the ball 20 is connected by its opening 26 to the open reservoir 3. The hydraulic valve is made in the form of a screw with ball 28,

locking the inlet during operation of the pump, and the inlet 27 and outlet 29 of its openings are located in the housing 1. The ball 20 of the control and safety valve 15 is placed on the end of the spring 21 facing the damping hole.

Description

A manual pump can be used to create pressures up to 100.0 MPa in various power devices:

jacks, pullers, nut cutters, presses and others.

Known manual pump according to the application EAPO No. 199700031 F 04 B 9/14 from 1996, ZAO "Enerpred", Russia. The pump comprises a housing with suction and discharge valves, a spring-loaded piston and a plunger telescopically interconnected, located in the housing, a piston stroke limiting device made in the form of a nut with a shoulder, a handle with a lever, a biaxial earring and a device for fixing the piston. The earring is pivotally connected to the lever with one end, and the housing with the other, and the free end of the plunger is pivotally mounted in the lever groove. In the pump, the U-shaped lever of the device is switched from horizontal to vertical and vice versa, providing switching of two stages of supply of the working fluid.

The disadvantage of the pump design is the lack of regulation of the maximum pressure in the discharge lines of the pump.

In the catalog of ZAO Enerpred of the Russian Federation, 2001, Industrial Hydraulic Tools, it is recommended to use a hand pump containing a housing with a plunger device, the open reservoir of which is connected through

a suction port with a suction valve, a discharge line connected to a plunger device with a discharge valve, a control valve and a safety relief valve. To adjust the maximum pressure in the discharge lines of the pump and hydraulic tools, a separate unit is used - the control and safety valve. The latter, if necessary, can be built into the hydraulic system of the pump and tool to protect against exceeding the nominal pressure and to limit the maximum pressure in the part of the line located behind the discharge valve. Separately, a hydraulic distributor is built into the hydraulic system.

The described pump design of Enerpred CJSC, RF, was chosen as a prototype.

In the prototype, the design of the safety valve is not disclosed in detail. From the variety of control and safety valve designs, consider a back pressure valve according to Robert Bosch patent No. 4435493 F 16 K 17/04, bull. “Inventions of the World”, issue 70, No. 4., 1998. The valve has a sleeve-like body, a valve seat with a hole, a ball-shaped valve locking element interacting with it. The valve element is loaded with a spring, which is installed in the adjustment screw. In the latter, blunt surfaces are made, which, in the event of a ball tearing away from the seat opening at extreme pressure, cause axial flow of the working fluid through the valve. By varying bluntness values, any flowing cross sections can be formed.

The disadvantages of the known technical solutions include the use of additional tools for installation in the hydraulic system of the control and safety valve and control valve, in particular, connecting and pipe fittings, which reduces the reliability, complicates the design and increases the size. This is compounded by the fact that the control and safety valve is located behind the discharge valve and the area from the plunger device to the discharge valve and from the discharge valve to the control valve is not controlled by the control and safety valve.

The objective of the development is to increase reliability, simplify the design and reduce the size of the device.

The task and technical result is ensured by the fact that in the known hand pump containing a housing with a plunger device, the free end of the plunger of which is installed in the lever, a biaxial earring pivotally connected by one axis to the lever and the other with the housing, an open reservoir for the working fluid, connected to the plunger device through a suction port with a suction valve, connected to the plunger device, a discharge line with a discharge valve, a hydraulic distributor and a ball valve internally-relief valve, whose outputs are connected to an open reservoir, the following improvements conducted. A ball control and safety valve is integrated in the pump housing between the plunger device and the discharge valve and is connected to the discharge

the line with a damping hole, and the cavity located in the housing behind the ball of the control and safety valve is connected by the hole to the open tank. The control valve is made in the form of a screw with a ball locking the inlet during operation of the pump, and its inlet and outlet are located in the housing. The ball of the control and safety valve is located on the end of the spring facing the damping hole.

The design of the pump is shown in the drawings, where Fig. 1 shows the principal hydraulic circuit of the pump, Fig. 2 is an axial section of the pump along the axis of the plunger device, Fig. 3 is a section A-A in Fig. 2 along the axes of the control valve and the safety valve .

The housing 1 and the pipe 2 form an open reservoir 3 for the working fluid, connected to the atmosphere. A plunger 4 with a cylinder 5 (FIGS. 1, 2) constitute a plunger device installed between the suction and discharge valves in the housing 1. The ball 6 of the suction valve is spring-loaded to the suction hole 7 connected to the open reservoir 3. The spring ball 8 of the pressure valve is installed in the hole 9 of the housing 1. The lever 10 of the pump is pivotally coupled to the earring 11 by the axis 12, and the earring 11 is pivotally coupled to the housing 1 by the axis 13. The free end of the plunger 4 is pivotally connected by the axis 14 to the lever 10. In front of the ball 8 of the discharge valve, an adjustment ovochno-relief valve 15 (Figures 1, 2 and 3), locking hole 16, coupled with the hole injection pipe 9 a damping hole 17. Ball 8

discharge line integrated valve 18 and pressure gauge 19.

The valve 15 contains a ball 20, a spring 21 and a adjusting-movable screw 22 with a sealing ring 23. The lock nut 24 provides axial fixation of the screw 22. The cavity 25 behind the ball 20 is connected by an opening 26 to the reservoir 3. It should be noted that the diameter of the hole 16 in the housing 1 is lockable ball 20, for better positioning of the ball is taken equal to 0.3 ... 0.6 of the diameter of the ball 20, and the minimum area of the damping hole 17 or any gap of square or triangular section is 0.1 ... 0.3 mm ² (B. K. Sveshnikov, A. A. Usov. Machine-tool hydraulic drives. Directory - M .: Mashinos swarming, 1982, p.182 ... 183). It is advisable to select the diameter of the hole 17 equal to 0.6 ± 0.25 mm

The valve 18 (figure 1, 3) is made screw with a ball 28 that locks the outlet opening 27 of the housing 1, and the cavity behind the ball is connected to the reservoir 3 by the outlet 29. The valve is opened and locked by the handle 30.

The device operates as follows.

Rotating the control valve 30 of the control valve 18 with the ball 28 tightly closes the opening 27 of the housing 1. Using the lever 10, lifting it up, the plunger 4 rises with the help of the earring 11. When the plunger 4 is moved upward, it flows from the reservoir 3 through the opening 7, flowing around the suction valve ball 6 into hole 9 in the housing 1. Upon subsequent movement of the lever 10 down (and therefore the plunger 4 is lowered down), the ball 6 closes

hole 7, and the working fluid from the hole 9, squeezing the ball 8 of the discharge valve flowing around it, comes under the end face of the working cylinder of the hydraulic tool (not shown in the drawing). The swing of the lever 10 is repeated without increasing the pressure in the discharge line until the idle runs in the working cylinders of the hydraulic tools are selected. Then the pressure rises to normal, necessary for various technological processes: lifting the load with a jack, removing the pulley from the shaft and others. The pressure in the discharge line is indexed by a pressure gauge 19.

After the completion of the operation, the handle 30 of the valve 18 opens the hole 27 and the working fluid from under the end of the working spring-loaded cylinder and from the discharge line through the hole 29 enters the reservoir 3, and the pressure in the hydraulic system drops to atmospheric. The slave cylinder returns to its original position by spring (not shown in the drawing).

The maximum pressure is higher than the nominal one and for different operating modes it can be different. If necessary, its adjustment is carried out by a adjusting-movable screw 22 of the safety valve 15 with the lock nut 24 turned off using a pump with a pressure gauge 19. When the pressure reaches the limit value, the screw 22 is locked by the lock nut 24. The valve 15 is activated when the pressure reaches its limit value, then the ball 20 is wrung out from holes 16 and 17, and the liquid through the holes 17,16, the cavity 25 and the hole 26 of the housing 1 enters the open reservoir 3, protecting the pump and tool from breakdowns.

The integration of the safety valve 15 into the pump housing 1 between the plunger device and the discharge valve allows you to control the entire pump-tool hydraulic system. The implementation of the hole 17 damping reduces the load on the ball 20 at elevated pressure up to 100 MPa due to the pressure drop on the damping section of the hole 17, which stabilizes the operation of the valve 15 with changes in pressure in the hydraulic system. These enhancements enhance reliability. Additional advantages are the reduction in size and weight by mounting the valve 15 and its channels into the housing 1. There is no need for connecting and pipe fittings. An embodiment of the valve 15 with the ball 20 directly at the end of the spring 21 (figure 3) contains fewer parts.

Claims (2)

1. A manual pump, comprising a housing with a plunger device, the free end of the plunger of which is mounted in the lever, a biaxial earring pivotally connected by one axis to the lever and the other with the housing, an open reservoir for the working fluid connected to the plunger device through the suction port with the suction port a valve connected to a plunger device, a discharge line with a discharge valve, a directional control valve and a ball control and safety valve, whose outputs are connected to an open tank, about characterized in that the ball control and safety valve is built into the pump housing between the plunger device and the discharge valve and is connected to the discharge line with a damping hole, and the cavity located in the body behind the ball of the control and safety valve is connected by an opening to the open reservoir. 2. The pump according to claim 1, characterized in that the valve is made in the form of a screw with a ball that locks the inlet during operation of the pump, while its inlet and outlet openings are located in the housing, and the ball of the control and safety valve is located on the end of the spring facing to the damping hole.