RU145697U1 - PUMP PLunger - Google Patents

Abstract

1. A plunger pump, comprising a bed, in which a crankshaft is mounted on bearings, on each connecting rod neck a connecting rod is mounted with the possibility of radial movement, connected through a hinge to a slide installed in the slide guide and connected to the plunger included in the cylinder block in the lower part of which a suction valve is installed connected to the suction pipe, and in the upper part a discharge valve connected to the pressure line, characterized in that the cheeks connecting the connecting rod journals are made They are round with a landing surface, coaxial with the bearings of the crankshaft, and additional bearings are installed on them, and the bed is made welded with stiffeners located at the places of installation of additional bearings. 2. A plunger pump according to claim 1, characterized in that rolling bearings are used as additional bearings. 3. A plunger pump according to claim 1, characterized in that plain bearings are used as additional bearings. 4. A plunger pump according to claim 1, characterized in that the holes for lubricating the bearings are made in the crankshaft. 5. A plunger pump according to claim 1, characterized in that the sliders are installed in pipes welded together, the number of which corresponds to the number of sliders.

Description

The plunger pump is designed for use in the oil, chemical, mining, metallurgical and other industries when pumping and injecting aqueous solutions of chemicals, abrasive sand and clay solutions in continuous operation.

Known plunger pump according to the patent of the Russian Federation for the invention No. 2204735. The invention is intended for use in the oil, chemical, mining, metallurgical and other industries for pumping and pumping liquids. The pump contains a housing with a housing for liquid lubrication. It contains an eccentric drive shaft and a connecting rod connecting the eccentric of the drive shaft with a two-stage plunger. One of the stages of the plunger forms a chamber for the injected fluid in the housing. The other forms a lubricating chamber isolated from the chamber for the injected fluid with a line for supplying liquid lubricant to the connecting rod of the connecting rod with the cam shaft of the drive shaft. On the surface of the connecting rod mating with the eccentric, an axisymmetric cavity is made, which is located opposite the chamber for the injected fluid and communicates with the lubricating chamber through the channel. The liquid lubricant supply line is formed by an axisymmetric cavity and channel. On the surface of the connecting rod mating with the eccentric around the axisymmetric cavity, a groove is made associated with the crankcase channel. Reliability is increased, lubrication and cooling of the connecting rod with an eccentric of the drive shaft is more efficiently provided. The disadvantage of the plunger pump is its low reliability.

Known plunger pump according to the patent of the Russian Federation for the invention No. 2202050. The invention is intended for use in devices for moving inhomogeneous rigid mixtures, for example concrete, as well as sludge containing a small percentage of the liquid phase and related to the dehydrated mass. The plunger pump contains a housing with a window for suction and a window for discharge, a rotary valve for opening and closing these windows, equipped with a rotary drive, and a displacement element. The butterfly valve is made in the form of a hollow cylinder with a side window, mating with its outer surface with the surface of the bore, made in the housing, and installed in it. The displacing element is made in the form of a hydraulic cylinder having a rod with a piston, which is connected to the housing, and a cylinder, which is mounted coaxially with a rotary shutter with the ability to make a reciprocating movement inside it. In the housing, the suction window is made both in location and in shape similar to the side window in the butterfly valve and each of them has a length commensurate with the stroke of the displacing element cylinder. An agitator is installed in the housing above the suction window, the shaft of which has a kinematic connection with the rotary shutter drive. Allows you to reduce the dimensions of the pump design and simplify it. The disadvantage of the plunger pump is its low service life.

Known plunger pump according to the patent of the Russian Federation for the invention No. 1828181. A plunger pump containing a housing, in the bore of which, with the possibility of reciprocating movement under the action of the drive lever and with the formation of the working chamber, a plunger is installed, and suction and discharge valves for alternately communicating the working chamber with supply and exhaust hydraulic lines, characterized in that, in order to increase reliability and service life, the housing is equipped with an additional bore, communicated in the lower part with the working chamber, in the middle part with a supply line and in the upper part with the atmosphere, and suction the blowing valve is made in the form of a cylindrical spool located in an additional bore with the possibility of limited axial movement between the two extreme positions, having a blind axial channel, a radial hole entering this channel, an outer annular groove and radial channels for communicating the axial channel and the annular groove, while one of the extreme positions of the spool its outer annular groove is in communication with the supply line, its radial hole is communicated with the working chamber, and in the other extreme In addition, the outer annular groove of the spool is located outside the zone of exit to the additional bore of the supply line. The disadvantage of the plunger pump is the low durability of the crankshaft of the pump.

Known plunger pump for pumping fluid according to the patent of the Russian Federation for invention No. 2294454. The device is intended for use in various industries, including oil production for pumping liquid viscous products containing mechanical impurities. The pump comprises a drive with a reciprocating and rotational motion device and a plunger associated with it. The hydraulic part consists of a cylinder, a plunger, a set of plunger seals, channels of the suction line and the discharge line of the pumped liquid. The channels of the suction and discharge lines are made in the side walls of the cylinder, spaced along the length of the cylinder and are constantly blocked by a plunger. The plunger is equipped with a central channel open from the side opposite to the drive. On the outer surface of the plunger are hermetically separated suction and discharge samples, which communicate with the Central channel using the corresponding suction and discharge holes. Suction and discharge openings spaced along the length of the plunger. The suction and discharge samples are arranged to alternately communicate respectively with the channels of the suction line when the plunger is pulled out of the cylinder and the discharge line when the plunger enters the cylinder. The disadvantage of the plunger pump is significant bending loads occurring on the crankshaft of the pump during its operation.

Known plunger pump according to the patent of the Russian Federation for the invention No. 2194189. The pump is intended for use in mechanical engineering where high pressure plunger pumps are required. In the pump, as a separator of the working and pumped liquids, the plunger itself is used, which is installed in the pump with a seal on the outer surface. For hydrostatic unloading of the plunger support, the plunger contains a hollow cylinder pivotally connected to the support with radial windows in the wall opening into the cavity with the working fluid. A sleeve with a blind bottom is worn on the cylinder with the possibility of axial movement relative to the piston until it stops with opening the windows during suction and closing the windows during pumping, while there is a return compression spring between the cylinder and the bottom of the sleeve. The proposed design allows to reduce dead volume and reduce losses. The exclusion of special dividers allows you to reduce the size and weight of the pump. The disadvantage of the plunger pump is its low reliability.

Known hydraulic plunger pump according to the patent of the Russian Federation for the invention No. 2159361. The invention relates to hydraulic plunger pumps. The pump comprises an inlet water conduit supplying inlet water to the inlet pipe, an injection conduit that communicates with the injected water through a bottom valve, a plunger pump valve that is connected to the inlet water conduit and the discharge conduit, the incoming water passing into the discharge conduit when the plunger pump valve is open. After closing the plunger pump valve, water flows into the discharge pipe, which sucks the injection water through the bottom valve, and to the valve of the plunger pump is held by the spring force in the closed position, separating the incoming water pipe from the discharge pipe. The pump also contains a pressure tank, which is connected to the pipeline for incoming water upstream relative to the valve of the plunger pump. Moreover, the valve body, having an annular shape, is made to move in the axial direction and hermetically connected to the discharge pipe, the effective cross section of this connection is larger than the cross section of the valve seat, and the valve seat of the plunger pump and the bottom valve seat are mechanically connected to convert kinetic energy . It is possible to create a compact plunger pump that provides high performance and long service life. The disadvantage of a hydraulic plunger pump is the design complexity.

Known plunger pump according to the patent of the Russian Federation for the invention No. 2203435 (prototype). The invention is intended for use in mechanical engineering. The plunger pump contains a hydraulic unit, a housing with a mechanical drive, consisting of a crank mechanism and crossheads connected by a rod to the plunger. The rod is made with a latch interacting with a threaded sleeve mechanically connected to the plunger. The inner diameter of the sleeve is selected from the ratio d1≥ (d + 0.2) mm, where d1 is the inner diameter of the sleeve, d is the outer diameter of the rod. Between the plunger and crosshead mounted substrate. The contact surface of the plunger with the substrate is made spherical. The disadvantage of the plunger pump is its low service life.

The task of creating a utility model is to reduce bending loads on the crankshaft and increase the life of the plunger pump.

The solution to these problems was achieved due to the fact that the plunger pump includes a bed, in which a crankshaft is mounted on the bearings, on each connecting rod neck there is a connecting rod mounted with the possibility of radial movement, connected through a hinge with a slider installed in the slide guide and connected to the plunger, included in the cylinder block, in the lower part of which there is a suction valve connected to the suction pipe, and in the upper part a discharge valve connected to the pressure line. Cheeks connecting connecting rod journals are made round with a seating surface coaxial with the bearings of the crankshaft and additional bearings are installed on them, and the bed is made welded with stiffeners located in the places of installation of additional bearings. As additional bearings, rolling bearings can be used. As additional bearings, plain bearings can be used. The crankshaft has holes for lubricating bearings. The sliders are installed in pipes welded together, the number of which corresponds to the number of sliders.

The proposed technical solution has novelty and industrial applicability, i.e. all the criteria of a utility model. The novelty of the technical solution is confirmed by patent research. Industrial applicability is due to the fact that in the manufacture of the plunger pump non-deficient materials and known technologies are used.

The essence of the utility model is illustrated in FIG. 1 ... 3, where:

In FIG. 1 shows a plunger pump, side view.

In FIG. 2 shows a plunger pump, top view.

In FIG. Figure 3 shows a section through a pump on a crankshaft; connecting rods are not shown.

The plunger pump consists of a bed 1, in which a crankshaft 3 is mounted on bearings 2, on each connecting rod neck 4 of which a connecting rod 5 is mounted with the possibility of radial movement, connected through a hinge 6 to a slider 7 installed in the guide of the slider 8 and connected to the plunger 9, included in the cylinder block 10, in the lower part of which there is a suction valve 11 connected to the suction pipe 12, and in the upper part the discharge valve 13 connected to the pressure line 14. The cheeks 15 connecting connecting rods 4 are made cr angular with the landing surface coaxial with the bearings 2 of the crankshaft 3 and additional bearings 16 are mounted on them, and the frame 1 is made welded with stiffeners 17 located at the places of installation of additional bearings 16. As additional bearings 16, rolling bearings can be used. As additional bearings 16, plain bearings can be used. In the crankshaft 3, holes 18 are made for lubricating the bearings. The sliders 7 are installed in welded pipes 19, the number of which corresponds to the number of sliders 7.

The plunger pump operates as follows. The engine through the transmission transmits rotational motion to the crankshaft 3, which rotates in the bearings 2 of the bed 1 and converts the rotational motion of the crankshaft 3 to the reciprocating movement of the connecting rod 5, connected through the hinge 6 to the slider 7. The slider 7 moves in the guide of the slider 8 and transmits back - progressive movement of the plunger 9. When the plunger 9 moves in the cylinder block 10 to the left, a vacuum is created, the suction valve 11 opens and fluid flows from the suction pipe 12. When the plunger 9 moves to the right, the suction valve 11 closes, the discharge valve 13 opens, the fluid enters the pressure line 14. During the operation of the plunger pump, significant bending loads act on the crankshaft 2. To reduce the cheeks 15, connecting connecting rod journals 4 are made round with a seating surface coaxial with the bearings 2 of the crankshaft 3 and additional bearings 16 are mounted on them. For installing additional bearings 16 in the welded frame 1, stiffeners 17 are made. The lubrication of the bearings of the crankshaft 3 is carried out through holes 18.

Application of the utility model allowed:

1. To increase the durability of the crankshaft of the plunger pump.

2. Reduce bending loads on the crankshaft of the pump.

3. Increase the service life of the plunger pump.

4. Increase the overhaul period.

5. Improve the reliability of the plunger pump.

6. Reduce maintenance costs.

Claims (5)

1. A plunger pump, comprising a bed, in which a crankshaft is mounted on bearings, on each connecting rod neck a connecting rod is mounted with the possibility of radial movement, connected through a hinge to a slide installed in the slide guide and connected to the plunger included in the cylinder block in the lower part of which a suction valve is installed connected to the suction pipe, and in the upper part a discharge valve connected to the pressure line, characterized in that the cheeks connecting the connecting rod journals are made They are round with a landing surface, coaxial with the bearings of the crankshaft, and additional bearings are installed on them, and the bed is made welded with stiffeners located at the places of installation of additional bearings. 2. The plunger pump according to claim 1, characterized in that rolling bearings are used as additional bearings. 3. The plunger pump according to claim 1, characterized in that plain bearings are used as additional bearings. 4. The plunger pump according to claim 1, characterized in that the holes for lubricating the bearings are made in the crankshaft. 5. The plunger pump according to claim 1, characterized in that the sliders are installed in pipes welded together, the number of which corresponds to the number of sliders.