SU1536111A1 - Assembled piston rod - Google Patents

Abstract

The invention can be used mainly in the drive units of piston crank pumps and compressors. The purpose of the invention is to increase reliability by providing compensation for the technological errors of manufacture. The rod consists of a two-piston 7 and a rod 8 8, covered by a detachable coupling 11 for their axial fixation. Between parts 7 and 8, a liner 18 is placed in contact on the spherical surface with the support heel 14, and part 7 in the contact zone with the coupling 11 is provided with a section of the spherical surface 13, the double spherical hinge formed thereby allows parts 7 and 8 to be displaced relative to the other in the axial and angular directions. 2 Il.

Description

(21) 4311499 / 25-29

(22) 09/28/87

(46) 01.15.90. Bul № 2

(71) Production Association Uralmash

(72) L.N. Goronovich

(53) 621.651 (088.8)

(56) Verzilin OI Modern mud pumps, M .: Mashinostroenie, 1971, p. 229, fig. 86

(54) COMPOSITE PISTON ROD

(57) The invention can be used mainly in the drive units of piston crank pumps.

and compressors. The purpose of the invention is to increase reliability by providing compensation for the technological errors of manufacture. The rod consists of a two-piston 7 and a rod 8 8, covered by a detachable coupling 11 for their axial fixation. Between parts 7 and 8, a liner 18 is placed in contact on the spherical surface with the support heel 14, and part 7 in the contact zone with the coupling 11 is provided with a section of the spherical surface 13, the double spherical hinge formed thereby allows parts 7 and 8 to be displaced relative to the other in the axial and angular directions. 2 Il.

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about

The invention relates to the field of mechanical engineering and can be used mainly in piston crank pumps and compressors.

The aim of the invention is to increase reliability by providing compensation for the technological errors of manufacture.

Figure 1 - shows a piston crank pump; figure 2 - node I in figure 1 (on an enlarged scale).

The piston crank pump contains a frame 1 on which the drive mechanism 2 and the valve box 3 with the cylinder sleeve 4 are mounted. In the cylinder sleeve

4 with the possibility of reciprocating installed piston

5 by means of a composite rod 6 connected to the drive mechanism 2.

The composite rod contains piston 7 and drive 8 parts, having radial projections on the ends in the form of flanges 9 and 10, respectively, interconnected by a detachable coupling 11 that covers them and is installed with contact with flanges 9 and 10 of rod 7 and 8 for their axial fixation and having in the zone of contact with the flange 9 of the piston part 7 a section of the conical surface 12, while the piston part 7 is provided with a section of the outer spherical surface 13 formed on the flange 9 in the contact zone with the conical section 12 of the surface of the coupling 11. Piston The part 7 has a blind axial hole at the end, in which the support pin 14 is installed, having at the end face facing the drive part 8, a portion of the inner spherical surface 15, made from the same center as the spherical surface 13 of the flange 9. Drive portion 8 of the stem is provided with a hollow axial boring 16 with a flat end surface 17, and between the two parts 7 and 8 of the stem there is a cylindrical liner 18 placed in the hollow axial boring 16 with the possibility of radial movement along its end surface 17 and having Highlander otivopolozhnom outer spherical surface 19 for cooperating with the spherical surface 15 of the heel support 14 and forming a spherical joint. The flange tO of the drive part 8 and the coupling 11 in the contact zone are flat

five

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five

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on the surface are 2U and 21, respectively.

The pump works as follows.

When the reciprocating movement of the rod 6, carried out by the driving mechanism 2, the piston 5 performs the same movement in the cylinder. - a hub 4 of the valve box 3, while ensuring the suction and discharge of the pumped medium. The connecting rod 4 at the suction stroke transmits the force of the piston 5 from the driving mechanism 2 through the bearing surfaces 12 and 20 of the detachable coupling 11 when they contact the spherical surface 13 flange 9 and a flat surface 21 of the flange 10.

During the pumping stroke, the composite rod 6 transfers the force to the piston 5 from the drive mechanism 2 through an insert 18 placed in a hollow axial bore 16, which, when its spherical surface 19 interacts with the spherical surface 15 of the support bar 14, transfers this force to the piston part 7 of the rod and connected to In this case, the piston 5, in this case, the technological errors in the manufacture of the pump elements are compensated as follows. The mixing of the axes of the parts 7 and 8 in the radial direction is compensated by the radial movement of the liner 18 in the blind axial bore 16 along its

17. The misalignment of the axes of the parts 7 and 8 in the angular direction is compensated by a double spherical hinge, i.e. By rotating part 7 relative to the aligned centers of the spherical surfaces 15 of the support bar 14 and the spherical surface 13 of the flange Y. Since the connection of the piston 7 and the drive 8 parts of the rod is a finishing operation when assembling the pump, it is possible to assemble without creating a one-sided pressing of the side surface of the piston 5 to the working the surface of the cylinder sleeve 4, caused by misalignment of parts 7 and 8 due to technological errors in the processing of the elements of the drive unit 2 and the valve box 3. Significantly reduced The lateral load on the piston 5 makes it possible to increase the reliability of the pump and reduce the wear of its cylinder-piston group.

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Formula and about brege n and

Composite piston bolt of a predominantly crank pump containing piston and drive parts having radial projections on the ends in the form of flanges interconnected by a female and plug coupling installed with the possibility of contact with the flanges of the rod parts for their axial fixation and having a piston part in the contact zone with the flange a section of a conical surface, the piston part having a blind axial bore at the end, which is due to the fact that, in order to increase reliability by providing compensation, iCal manufacturing errors piston part is provided with a portion of the outer spherical surface formed

one

on the flange in the contact zone with the tapered portion of the coupling surface, and the support heel installed in the axial bore of this part of the stem and having on the end face facing the drive part, a portion of the internal spherical surface made from the same center as the spherical surface of the flange, the drive part of the rod is provided with a hollow axial bore with a flat end surface, and a cylindrical liner is placed in the shaft / edu with both parts of the rod and housed in a hollow axial bore with the possibility of radial movement along its end howl surface and having at the opposite end an outer spherical surface for cooperating with the spherical surface of the heel, and forming a spherical joint.

fig1

Claims (1)

SUMMARY OF THE INVENTION A composite piston rod of a predominantly crank pump, comprising a piston and a drive part having radial protrusions at the ends in the form of flanges, interconnected by a female and detachable sleeve, mounted to contact the flanges of the stem parts for axial fixing and having in contact with the flange of the piston part has a section of the conical surface, the piston part having a blind axial bore at the end, characterized in that, for the purpose. To increase reliability by providing compensation for manufacturing manufacturing errors, the piston part is provided with a portion of the outer 20 spherical surface made on the flange in the zone of contact with the conical portion of the coupling surface, and with a support heel installed in the axial hole 5 of this stem part and having on. the end facing the drive part, a portion of the inner spherical surface made from the same center as the spherical surface of the flange, the drive part of the stem is provided with a blind axial bore with a flat end surface, and a cylindrical insert placed in both blind axial axles is installed between both parts of the stem a bore with the possibility of radial movement along its end surface and having an outer spherical surface at the opposite end to interact with the spherical surface of the heel and form spherical hinge. F / ί