RU151546U1 - ADJUSTABLE PLUNGER PUMP - Google Patents

Abstract

An adjustable plunger pump containing a sleeve mounted on the housing with inlet and outlet channels, in which a plunger with a flat on its end is installed with the possibility of reciprocating and rotational movement, characterized in that a connecting rod is pivotally attached to the opposite end of the plunger, which is pivotally connected to the other end with a rotor mounted on the shaft of the worm gear gearing with the worm and forming a kinematic gearbox with the worm, the casing of which is mounted on a hinged support in the casing x, having a common axis, and pivotally connected to a cracker, which is connected to the adjusting screw screwed into the threaded hole of the housing, with the possibility of converting the rectilinear movement of the adjusting screw when it rotates in the threaded hole of the housing into the rotational movement of the gear housing relative to the axis of its hinged supports.

Description

The utility model relates to pump engineering.

A known analogue is an adjustable plunger pump - US patent No. 4575317, F04B 7/06, 1986, comprising a sleeve with input and output channels, in which a plunger with a flat on its end, a yoke and a ball is installed with the possibility of reciprocating and rotational movement hinge connecting the plunger to the drive, a base having a surface with a groove elongated below the piston hinge point and an arcuate groove near the opposite end of the sleeve, the first and second pivot pins mounted on the turntable, which in turn is fixed to the sleeves e through a vertical column.

An adjustable plunger pump is also known - USSR author's certificate No. 1548506, F04B 7/06, 05.20.88, selected as a prototype, containing a sleeve mounted on the housing with input and output channels, in which a plunger with a reciprocating and rotational movement is installed flat at its end and a leash, characterized in that, in order to increase the reliability and uniformity of fluid supply by reducing axial loads on the working bodies, the pump is equipped with a two-way stop made in the form of two parallel disks connected by a partition, while one end of the stop is spring-loaded to the body, and the other is pivotally mounted on the latter with the possibility of tilting it to the axis of the plunger, and the leash is made in the form of a spherical roller mounted between the disks.

The disadvantages of the prototype are its low reliability and low accuracy of regulation of its performance. Low reliability is due to the presence of a gap between the leash and parallel disks, without which the pump is not possible, since when the leash rolls on the surface of one disk, contact with another surface is not allowed due to the rotation of the leash in the opposite direction of its movement. The clearance during operation leads to backlash, and backlash leads to the occurrence of shock loads on the pump mechanism, which reduces its reliability. The low accuracy of the performance control is due to the presence of a spring element that presses the double-sided stop against the eccentric. If the force exerted by the pumped medium onto the plunger exceeds the force of the spring element, the contact between the double-sided stop and the eccentric disappears, and the pump flow spontaneously changes. The periodic occurrence of a gap between the double-sided stop and the eccentric leads to shock loads on the pump mechanism, which reduces its reliability.

The technical tasks of the utility model are to increase the reliability of an adjustable plunger pump and increase the accuracy of regulation of its performance.

The solution to the technical problem in an adjustable plunger pump containing a sleeve mounted on the housing with input and output channels, in which a plunger with a flat on its end is installed with the possibility of reciprocating and rotational movement, characterized in that a connecting rod is pivotally mounted to the opposite end of the plunger, which the other end is pivotally connected to the rotor mounted on the shaft of the worm wheel, which is engaged with the worm, and forming a kinematic gearbox with the worm, the housing of which is mounted it is inserted into the housing on hinged supports having a common axis and pivotally connected to a cracker, which is connected to the adjusting screw screwed into the threaded hole of the housing, with the possibility of converting the linear movement of the adjusting screw when it is rotated in the threaded hole of the housing into the rotational movement of the gear housing relative to the axis its articulated supports.

In FIG. 1 is a drawing of a pump at the end of a plunger stroke.

In FIG. 2 is a sectional view of pump A-A.

In FIG. 3 shows a drawing of a pump at the beginning of a plunger stroke.

An adjustable plunger pump comprising a sleeve 2 mounted on the housing 1 with an input 3 and an output 4 channels, in which a plunger 5 with a flat 6 at its end is installed with the possibility of reciprocating rectilinear and rotational movement, characterized in that it is pivotally connected to the opposite end of the plunger 5 a connecting rod 7 is fixed, which at the other end is pivotally connected to the rotor 8 mounted on the shaft 9 of the worm wheel 10, which is engaged with the worm 11, and forming a kinematic gearbox with the worm 11, the housing 12 of which is mounted mounted in the housing 1 on the pivot bearings 13 and 14 having a common axis 18, and pivotally connected to the cracker 15, which is connected to the adjusting screw 16 screwed into the threaded hole 17 of the housing 1, with the possibility of converting the linear motion of the adjusting screw 16 when it rotates in a threaded hole 17 of the housing 1 in the rotational movement of the gear housing 12 relative to the axis 18 of its hinged supports 13 and 14.

Consider an adjustable plunger pump in operation.

An electric motor or any drive device rotates the worm 11. The rotation of the worm is converted to the rotation of the worm wheel 10 and the flywheel 8 mounted on the same shaft 9 with the worm wheel 10. The rotation of the flywheel 8 relative to the axis of the shaft 9, located at an angle α degrees to the horizon, through the connecting rod 7 converted into rotational and reciprocating rectilinear motion of the plunger 5.

The start of the plunger stroke shown in FIG. 1, directed to the right. In this case, the plunger 5 rotates, the flat 6 opens the input channel 3 into the sleeve 2 and closes the output channel 4. When the output channel 4 is blocked and the input channel 3 is open, the pumped medium is pumped into it due to the created vacuum in the sleeve 2. Upon reaching the extreme right position of the plunger 5 shown in FIG. 3, the sleeve is filled with a portion of the pumped medium. With the reverse movement of the plunger 5, directed to the left, the plunger 5 performs a rotational movement, in which the flat 6 overlaps the input channel 3 of the sleeve 2 and opens the output channel 4, through which a portion of the pumped medium is squeezed out.

The pump performance is changed by rotating the adjusting screw 16. The rotation of the adjusting screw 16 in the threaded hole 17 of the housing 1 is accompanied by its rectilinear movement, which is transmitted to the cracker 15. The rectilinear movement of the cracker 15 along the tangent to the radius R shown in FIG. 2, is transmitted into the rotational movement of the gear housing 12 relative to the axis 18 of the hinged supports 13 and 14. This changes the angle α between the axis of rotation of the flywheel 8 and the horizon. At a maximum angle α, plunger 5 has a maximum stroke, and the pump has maximum performance. When the angle α decreases, the stroke of the plunger 5 and the pump performance decrease.

The proposed technical solution is much more reliable than the device of the prototype, since in its design, unlike the prototype, there are no connections with backlashes. Kinematic pairs of the plunger 5 with the connecting rod 7, the connecting rod 7 with the flywheel 8, the gear housing 12 with the cracker 15 are pivotally connected, the worm wheel 10 with the screw 11 are connected by gearing, the cracker 15 with the adjusting screw 16 are connected with the possibility of transmitting translational motion from the rotation of the screw 16 to the cracker 15, the screw 16 with the housing 1 have a threaded connection 17. Due to the lack of backlash, the accuracy of regulation of the pump performance is increased.

Claims (1)

An adjustable plunger pump containing a sleeve mounted on the housing with input and output channels, in which a plunger with a flat on its end is installed with the possibility of reciprocating and rotational movement, characterized in that a connecting rod is pivotally attached to the opposite end of the plunger, which is pivotally connected to the other end with a rotor mounted on the shaft of the worm gear gearing with the worm and forming a kinematic gearbox with the worm, the casing of which is mounted on a hinged support in the casing x, having a common axis, and pivotally connected to a cracker, which is connected to the adjusting screw screwed into the threaded hole of the housing, with the possibility of converting the rectilinear movement of the adjusting screw when it rotates in the threaded hole of the housing into the rotational movement of the gear housing relative to the axis of its hinged supports.

Images