SU1748000A1 - Hydraulic press-pump for field mechanical testing of materials - Google Patents

Abstract

The invention relates to a technique for testing materials, in particular, devices for mechanical testing of materials under field conditions. The purpose of the invention is to improve reliability and ease of use. The housing 1 has a working piston 2 and a return dinner 3. The housing 1 is fixed to the housing 4 of a screw pump with a piston made in one piece - a lead screw 5, in which a guide for engaging the housing 4 is made by means of a key 6, which prevents the screw 5 from turning with axial movement. A screw 7 interacts with the screw 5, mounted on the housing 4, and the cavity of the housing 4 communicates with the pressure gauge 8 through a hole made in the piston-screw 5. When the nut 7 rotates, the screw 5 moves in the housing 4, compressing the working fluid. The fluid pressure acts on the working piston 2 which moves in the housing 1. The loading force is recorded by a pressure gauge 8 mounted on the end of the housing 4 1 c f f, 1 sludge. s / s

Description

The invention relates to a technique for testing materials, in particular, devices for testing materials in field conditions.

The known GPNV-5 device is used to determine the strength of concrete by the method of peeling with cleavage.

The disadvantage of this device is the design complexity,

The closest to the technical essence of the present invention is a device for determining the strength of artificial and natural stone materials, including the body of the ram with a working piston and spring, expansion cone and supporting device. The specified device type GPNS-4 is given in GOST 21243-75

A disadvantage of the known device is the complexity of the design of the annular casing, caused by the need for tight pressure gauge connection, as well as the inconvenience in working with the device, due to the fact that the pressure gauge is in the area of manipulation of the screw pump handle. and the likelihood of damage increases. In addition, the transmission of torque using a handle attached to the free upper end of the lead screw causes it to bend and increased wear of the screw threads

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when joining a screw and a small piston, considerable friction forces arise that necessitate considerable effort on the handle when transmitting an axial load at the point of stop of the screw.

The aim of the invention is to increase the reliability and ease of use.

This goal is achieved by the fact that in a hydraulic portable pressurization pump comprising a cylinder body with a working piston and a return spring, a manometer and a housing of a screw pump with a central hole in the upper part containing a small piston and a lead screw that can be vertically displaced the lead screw and the small piston are rigidly interconnected and have a through axial bore, with a pressure gauge fixed in the upper part of the lead screw. In addition, the lead screw is mounted with only the possibility of translational movement. The axial hole connects the high pressure zone in the press housing with a manometer fixed in the upper section of the lead screw. The lead screw has a longitudinal groove for the key; on the top of the pump housing there is a nut for fixing the screw against rotation and ensuring only its translational movement.

The drawing shows a hydraulic press pump,

It consists of a cylinder body 1 with a working piston 2 and a return spring 3, the case 4 of a screw pump containing a small piston with a lead screw 5 passing through a guide hole equipped with a key b, and a nut 7 with a steering wheel, and a pressure gauge 8, mounted in the upper part of the lead screw 5; In screw 5, a guide for key 6 is made

Press the pump works as follows.

The pressure on the working piston 2 of the power cylinder 1 is transmitted through the working fluid (oil), on which a small pressure is applied

the piston 5. The walking piston with the small piston 5 moves only progressively due to the rotation of the nut 7 from the steering wheels and also due to the presence of the guide 5 (longitudinal groove) on the rint 5, which includes a key 6, the working piston 2, compressing the return spring 3, moves with force progressively. When the load is relieved, the nut 7 is rotated in the opposite direction, the small

piston 5 is returned to its original position, and spring 3 returns the working piston 2.

For example, when the diameter of the small piston is 4 cm, the diameter of the working piston

13 cm and a working piston stroke of 2 cm, the stroke size of the small piston is 20 cm.

Thus, the proposed design of the press pump, namely that the small piston and the lead screw are rigidly interconnected and have a through axial bore, equipped with a pressure gauge, simplifies the design and also increases the reliability in

work.

Claims (2)

Claim 1 Hydraulic press pump for field mechanical testing of materials, comprising a SILSEOY cylinder body with a working piston and a return spring, an additional casing of a screw pump with a small piston and a lead screw attached to it, and a pressure gauge, characterized in that, in order to increase reliability and convenience of operation, it is provided with a nut mounted rotatably on the pump casing and entering into a screw pair with a lead screw, and the lead screw and the small piston are rigidly connected to each other and they have a through axial bore with which a pressure gauge communicates, mounted on the end of the lead screw. 2. Press-pump according to claim 1, that is, so that in the lead screw there is a guide for interacting with the pump casing by means of a key, excluding the rotation of the screw.