RU85572U1 - Plunger pump - Google Patents

Abstract

1. A plunger pump comprising a housing with a flow part, a supply and pressure manifold with check valves attached to the flow part, a plunger kinematically connected with a reciprocating drive, plunger seals installed in the pump casing, a threaded sleeve for preloading the plunger seals, a diaphragm chamber with a diaphragm made of an elastic hydraulically impermeable material, connected by an adapter to the pump housing, hydraulic lines of communication of the cavity of the diaphragms gmennoy chamber facing the pump body and the adapter with a container for collecting leakage through the plunger seal and the atmosphere, and characterized in that the kinematic connection of the plunger and actuator vozratno reciprocating action diaphragm rod enters the chamber. ! 2. The pump according to claim 1, characterized in that the check valves are installed on the communication lines of the diaphragm chamber with a leakage collection tank and with the atmosphere. ! 3. The pump according to claim 1, characterized in that the adapter is made in the form of a sleeve with two flanges, one of which is attached to the pump casing, and the other through an intermediate ring to the drive casing. ! 4. The pump according to claims 1 and 3, characterized in that the outer diameter of the diaphragm is fixed between the adapter flange and the intermediate ring. ! 5. The pump according to claim 1, characterized in that in the adapter sleeve at the location of the threaded sleeve, a slot is made for accommodating the adjustment tool, the pressed plunger seal, hermetically closed by a removable cover. ! 6. The pump according to claim 1, characterized in that the drive reciprocating action

Description

The utility model relates to the field of engineering for use in various industries for the dosed supply of various fluids.

Known plunger dosing pumps and installations for dispensing liquids based on them / Vidineev Yu.D. Dispensers of continuous action. - M .: Energy, 1978, S.80-81 /.

For plunger pumps, leakage through the gap between the hole in the housing and the plunger is typical, and therefore there are recommendations for choosing the pumped fluid, tightening the seal and installing the drainage system, for which, for example, it is recommended to tilt the floor or bottom of the installation in the direction of collecting leaks, the pumped liquid should preferably have lubricating properties on the seal, the tightening of the seal should not be excessive / Electropump dosage units type DP (E), DPM (E) with a power of 0.25 kW and multi-pump dosing units based on them with a capacity of 0.37 kW. Passport Н52.001.00.000 PS (JSC "Dosing pumps and systems", Perm), Dosing plunger pump. Passport Н444.00.000 Substation (OJSC "Svessky Pumping Plant") /.

The technical solution closest to the claimed one is a unit for dosed fluid supply according to RU2293881, comprising a housing, a plunger pump, the flow part of which is hydraulically connected by means of a suction valve to the fluid tank and by means of a discharge valve with a discharge line, a reciprocating actuator interacting with a plunger of the pump, and a system for discharging fluid leaks through the gap between the pump housing and the plunger, characterized in that the system of draining leaks contains iafragmennuyu chamber connected to the pump housing, the piston rod of the diaphragm chamber is substantially formed integrally with the plunger and orifice chamber cavity adjacent to the pump housing in fluid communication with a container for collecting leakages, wherein further:

- a pressure valve is installed on the communication line of the cavity of the diaphragm chamber with the leakage collecting tank, an opening is made in the diaphragm chamber body in its lower part, through which the cavity of the diaphragm chamber is connected to the leakage collecting tank;

- an annular ledge is made on the plunger, on which a diaphragm block is installed, consisting of two washers and a diaphragm made of elastic hydraulically impermeable material, fixed with a nut on the plunger, and an adapter between the plunger and the pump drive is installed on the end section of the plunger;

- the installation is equipped with a pressure equalization system in the cavity of the diaphragm chamber with atmospheric pressure at the end of the return stroke of the plunger, including a suction valve on the communication line of the cavity of the diaphragm chamber with the atmosphere.

The technical solution according to RU2293881 is a basic solution that does not detail the design features of devices used in oil fields to supply corrosion inhibitors, paraffin and scaling inhibitors and bactericidal reagents to oil production equipment, aimed at solving the problems of manufacturability and ease of maintenance of dispensers in the field.

The technical result of the utility model is to ensure manufacturability and improve serviceability.

The technical result is achieved by the fact that in a plunger pump containing a housing with a flowing part, a supply and pressure lines with check valves attached to the flowing part, a plunger kinematically connected with a reciprocating drive, plunger seals installed in the pump housing, a threaded sleeve for preloading plunger seals, a diaphragm chamber with a diaphragm made of an elastic hydraulically impermeable material, connected via an adapter to the housing on wasp and containing hydraulic link chamber diaphragm chamber facing the pump body and the adapter with a container for collecting leakage through the plunger seal and with the atmosphere in the drive connection of the plunger and actuator vozratno reciprocating action diaphragm rod enters the chamber, and further comprising:

- check valves are installed on the lines of communication between the diaphragm chamber and the tank for collecting leaks and with the atmosphere;

- the adapter is made in the form of a sleeve with two flanges, one of which it is attached to the pump housing, and the other through an intermediate ring to the drive housing,

- along the outer diameter, the diaphragm is fixed between the adapter flange and the intermediate ring;

- in the adapter sleeve at the location of the threaded sleeve, a slot is made to place a tool for adjusting the preload of the plunger seal, hermetically closed by a removable cover;

- the reciprocating drive is made with an adjustable stroke length;

- the diameter of the washer to which the diaphragm is pressed is larger than the hole of the adapter sleeve, an annular end face is made on the adapter inside the cavity of the diaphragm chamber, the diameter of which is larger than the diameter of the pressure washer, and on the drive side of the reciprocating action, the diaphragm is pressed to the pressure washer by the washer, compression spring and with a nut.

The technical solution is illustrated by a graphic illustration.

The plunger pump comprises a housing 1 with a flow part 2, a plunger 3 placed in the housing 1, a plunger seal 4 made of chevron collars, pressed by a threaded sleeve 5. The plunger 3 is connected through a stem 6 to a reciprocating drive 7, which is made with an adjustable working length move. An intermediate ring 9 is attached to the flange 8 of the actuator 7, to which a diaphragm 10 is attached, pressed against the intermediate ring 9 by the adapter 11. The adapter 11 consists of two flanges 12 and 13 and the sleeve 14. One of the flanges of the adapter 11 is connected to the pump housing 1 through a pressure ring 15, a threaded connection 16 and an annular protrusion 17 on the housing 1.

On the threaded sleeve 5, holes 18 are made, designed to preload the plunger seal 4, for example, using a winch. At the location of the holes 18 in the sleeve 14, a slot is made that is tightly closed by a lid 19 with a handle 20.

A washer 22 is supported on an annular protrusion 21 on the stem 3, between which and another washer 23 a diaphragm 10 is clamped by means of a compression spring 24 and a nut 25. The diameter of the washer 22 is larger than the diameter of the bushing 14 of the adapter 11 and smaller than the diameter of the annular end plate 26 made on the flange 13 the adapter 11 from the side facing the diaphragm 10.

The plunger pump operates as follows. When the plunger 3 is pulled out of the housing 1 in the flowing part 2, a vacuum is created, the pumped liquid from the tank 27 through the tube 28, the check valve 29 and the hole 30 in the housing 1 enters the flowing part 2. When pumping the liquid (working stroke of the plunger 3) in the flowing part 2, an increased pressure is created, and the liquid when the check valve 29 is closed through another hole 31, the open check valve 32 and the tube 33 enters the discharge line.

To preload the plunger seal 4, the cover 19 is removed, which provides access to manipulations with the threaded sleeve 5.

The cavity formed by the housing 1, the adapter 11 and the diaphragm 10 is sealed. Leaks of the pumped fluid through the plunger seal 4 and plunger 3, accumulate in the lower part of the diaphragm chamber. During the stroke of the plunger 3 and, accordingly, the rod 6, increased pressure is created in this cavity, as a result of which leaks through the hole 34 in the lower part of the flange 13 of the adapter 11, the tube 35 and the open check valve 36 are forced into the tank 37 to collect leaks. When the plunger 3 is pulled out of the housing 1, a vacuum is created in the cavity, as a result of which, through another hole 38 in the flange 13 of the adapter 11, the tube 39 and the open check valve 40 communicate with the atmosphere.

If the values of the working stroke of the actuator 7 and the magnitude of the possible deformation of the diaphragm 10 do not coincide, there may be cases when the diaphragm 10 will experience tensile stresses, which negatively affects the resource characteristics. To avoid this, the following is provided: if the working stroke of the actuator 7 exceeds the deformation of the diaphragm 10 during the working stroke, the washer 22 rests on the annular end plate 26, and further operation of the pump is carried out with the diaphragm 10 stationary due to deformation of the spring 24. The presence of the compression spring 24 also simplifies fitting the positions of the diaphragm 10 and plunger 3 when assembling the pump.

Claims (7)

1. A plunger pump comprising a housing with a flow part, a supply and pressure manifold with check valves attached to the flow part, a plunger kinematically connected with a reciprocating drive, plunger seals installed in the pump casing, a threaded sleeve for preloading the plunger seals, a diaphragm chamber with a diaphragm made of an elastic hydraulically impermeable material, connected by an adapter to the pump housing, hydraulic lines of communication of the cavity of the diaphragms gmennoy chamber facing the pump body and the adapter with a container for collecting leakage through the plunger seal and the atmosphere, and characterized in that the kinematic connection of the plunger and actuator vozratno reciprocating action diaphragm rod enters the chamber. 2. The pump according to claim 1, characterized in that the check valves are installed on the communication lines of the diaphragm chamber with a leakage collection tank and with the atmosphere. 3. The pump according to claim 1, characterized in that the adapter is made in the form of a sleeve with two flanges, one of which is attached to the pump casing, and the other through an intermediate ring to the drive casing. 4. The pump according to claims 1 and 3, characterized in that the outer diameter of the diaphragm is fixed between the adapter flange and the intermediate ring. 5. The pump according to claim 1, characterized in that in the adapter sleeve at the location of the threaded sleeve, a slot is made for accommodating the adjustment tool, the pressed plunger seal, hermetically closed by a removable cover. 6. The pump according to claim 1, characterized in that the reciprocating drive is made with an adjustable stroke length. 7. The pump according to claims 1 and 6, characterized in that the diameter of the washer to which the diaphragm is pressed is larger than the hole of the adapter sleeve, an annular end face is made on the adapter inside the cavity of the diaphragm chamber, the diameter of which is larger than the diameter of the pressure washer, and return from the drive side - progressive action of the diaphragm pressed against the washer by a washer, compression spring and nut.