RU2142616C1 - Gear measuring and testing tightness force of threaded connections - Google Patents

Abstract

FIELD: measurement technology. SUBSTANCE: gear includes upper and lower plates joined by means of columns, driving mechanism and dynamometer. It is fitted with upper and lower rollers fixed in columns, sleeve located in upper plate, sleeve bottom has central hole accommodating tested member, threaded bushing and pivot and thrust bearing with spherical surface positioned in lower plate. Side surface of sleeve has through vertical ports and through vertical grooves located beneath them and perpendicular to them through which upper roller is passed. Threaded bushing has vertical grooves through which lower roller is passed. Pivot has spherical surface contacting spherical surface of thrust bearing that is mounted for displacement relative to vertical axis. Driving mechanism is manufactured in the form of differential screw which one end is connected to pivot and which other end is screwed into threaded bushing. Dynamometer is connected with one end to sleeve and with other end-to threaded bushing. EFFECT: simplified design and increased handling convenience. 1 dwg

Description

 The present invention relates to measuring technique.

 A device is known for monitoring the tightening force of threaded joints, comprising upper and lower supports, a testing machine and a fastener for the test product (A.S. USSR N 811087, class G 01 D 5/24, priority 11.10.78). This device is difficult constructively due to the use of a testing machine, the complexity of the mount of the test product and its replacement.

 Closest to the claimed device is a device for measuring force, containing the upper and lower plates interconnected by struts, a drive mechanism and a dynamometer (AS USSR N 253414, class G 01 L 5/24, priority 03.07.67). The disadvantage of this device is the complexity of the design, as well as the difficulty of replacing the test product.

 The technical result of the proposed invention is to simplify the design and improve ease of use.

 The technical result is achieved by the fact that a device for measuring and controlling the tightening force of threaded joints, comprising an upper and lower plate interconnected by struts, a drive mechanism and a dynamometer, in accordance with the proposed invention is equipped with an upper and lower rollers, a glass, a threaded sleeve and a fifth. The rollers are passed through the racks, the bottom of the glass is installed in the upper plate and has a central hole. Through vertical windows are made in the side surface of the glass, and through them vertical through grooves are made perpendicular to them. The threaded sleeve is made with through vertical grooves, and the heel is made with a spherical surface in contact with the spherical surface of the thrust bearing of the lower plate, and is fixed in it with the possibility of displacement relative to the vertical axis. The drive mechanism is made in the form of a differential screw, one end of which is connected to the fifth, and the other is screwed into the threaded sleeve. The upper roller of the racks is passed through the through vertical grooves of the glass, and the lower through the through vertical grooves of the threaded sleeve. A dynamometer is connected at one end to a glass and at the other end to a threaded sleeve.

 To install the test element in the device, through vertical windows are made in the side surface of the glass, and its bottom has a central hole.

 Under the windows of the glass and perpendicular to it, through vertical grooves are made, through which, as well as through vertical grooves of the threaded sleeve, a roller is passed that passes through the racks at the same time, which protects the glass and the threaded sleeve from turning.

 The heel is made with a spherical surface in contact with the spherical surface of the thrust bearing of the lower plate and fixed in it with the possibility of displacement relative to the vertical axis for coaxial interaction of the elements of the device.

 The drive mechanism is made in the form of a differential screw, one end of which is connected to the fifth, and the other is screwed into the threaded sleeve, which ensures the necessary tension of the controlled threaded connection.

 The presence of a dynamometer in the device, one end of which is connected to the glass, and the other to the threaded sleeve, allows direct control of the generated force.

 Installing the bottom of the glass in the upper plate ensures the stability of the device.

 Based on the foregoing, as well as due to the ease of replacement of the test product, the combination of the claimed essential features allows us to simplify the design and increase the convenience of its operation.

 In FIG. 1 shows a device, a General view; in FIG. 2 is a view along arrow A in FIG. 1.

 The proposed device contains the upper 1 and lower 2 plates, interconnected by uprights 3, between which the upper and lower rollers 5 are passed and secured by nuts 4. The lower plate 2 is fixed to the supports 6. An axial hole 7 and a flange 8 are made in the upper plate 1 equipped with a glass 9, in the side surface of which vertical vertical windows 10 are made, and in the bottom a central hole 11. The glass 9 is installed with its bottom using an elastic ring 12 in the flange 8 of the upper plate 1. In the glass 9 under the windows 10 and perpendicular to it Fuss vertical grooves 13, through which the upper roller 5 is omitted.

 The bottom plate 2 is attached with screws 14 installed in the grooves 15, washers 16 and elastic gaskets 17 of the heel 18, the spherical surface of which interacts with the spherical surface of the thrust bearing 19. A differential screw 20 is screwed into the heel 18, with threads at different ends, and in the middle part - a thickening in the shape of a hexagon. The second end of the screw 20 is connected to a threaded sleeve 21 having through vertical grooves 22 through which the lower roller 5 is passed. A dynamometer 23 is installed between the cup 9 and the threaded sleeve 21. The test bolt 24 is provided with a washer 25 and a nut 26, on which a torque wrench 27 is put on The bolt 24 may be provided with another means of controlling the tightening force.

 The proposed device works as follows.

 When tightening the differential screw 20, the controlled threaded connection experiences a tensile that must be reproduced when tightened. This force is controlled by the readings of the dynamometer 23. Turning the torque wrench 27 mounted on the nut 26 determines the required torque.

Claims (1)

 A device for measuring and controlling the tightening force of threaded joints, comprising an upper and lower plate interconnected by racks, a drive mechanism and a dynamometer, characterized in that the device is equipped with upper and lower rollers fixed in the racks, a glass, a threaded sleeve, as well as installed in the fifth bottom plate and the thrust bearing with a spherical surface, while in the bottom of the glass placed in the upper plate, a central hole is made for the test element, in the side surface of the glass are made through vertical windows, under which and through the vertical grooves are made perpendicularly, vertical grooves are made in the threaded sleeve, the heel is made with a spherical surface in contact with the spherical surface of the thrust bearing, and mounted with the possibility of displacement relative to the vertical axis, the drive mechanism is made in the form of a differential screw, one end of which is connected to the fifth, and the other is screwed into the threaded sleeve, with the upper roller passing through the through vertical grooves of the glass, the lower through through vertical grooves of the threaded sleeve, and the dynamometer is connected at one end to the glass and the other to the threaded sleeve.

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