CS252521B1 - Device for continuously measuring tensile forces when pulling steel drills in an emulsion environment - Google Patents

Abstract

The device enables the continuous measurement of the tensile force when pulling steel wires in an emulsion environment and, based on the measured values, to determine the quality of the lubricating emulsion, to select the most optimal set of wire ropes and thus to reduce the consumption of electricity. The device consists of a cable holder attached to a rotating isosceles lever, which is attached to a special structure. A tensometric sensor is attached to the supporting platform of the structure for sensing tensile forces, the value of which is registered by a recorder.

Description

The invention relates to a device for continuously measuring the tensile forces when drawing steel wires in an emulsion medium.

During the drawing process, the individual working tools (dies) are gradually removed to the required wire diameter. The pulling force required for this molding process is, inter alia, proportional to the frictional forces between the working tool and the wire being processed. The frictional forces are decisively influenced by the lubricating properties of the lubricating emulsion.

Until now, the lubricating properties of the lubricants used or tested, the optimum drawing parameters and the optimum drawing mode have been determined in laboratory conditions by means of electrical or hydraulic sensors mounted on one die, or indirectly, according to long-term lubricant consumption and drawing requirements. , which inevitably occur over a longer period of time.

Two devices are known which make it possible to measure only one of the parameters, namely the lubricating properties of the lubricating emulsion.

A device originally developed for determining the lubricating properties of oil is known. The principle of this test consists in immersing a test block of high-carbon steel in the emulsion under investigation, which is treated with a carbide wheel. The optically evaluated size of the worn pad is a measure to determine the originally desired lubricating properties of oil-like substances in the emulsion under investigation, which does not reflect the actual lubricating properties of the emulsion in the steel wire drawing process.

The four-ball device works in a similar way. In the emulsion under investigation, three spheres are submerged, under which the fourth spheres are subjected to a pressure of constant rotation until complete seizure. Readings at which seizure occurred are the basis for determining the lubricating properties of the emulsion under investigation.

Both of these devices do not allow to measure the overall quality of the lubricating emulsion, they cannot determine optimally the die parameters and the most suitable removal set and thus minimize the power consumption in the traction unit. The above drawbacks of these test devices are eliminated by a device for continuously measuring the tensile forces when drawing steel wires in the emulsion medium according to the invention, which is based on the fact that instead of firmly connecting the die holder to the bracket which is attached to a special construction. This structure consists of a support frame fixed in three places by screws to the drag unit and a tensometric sensor platform which is welded to the support frame to form a unit. The device registers the total pulling force on the set of dies, which was chosen to eliminate possible large fluctuations of tractive force on individual dies and guarantees greater objectivity of the measured values.

Using pulling forces it is possible to objectively monitor, evaluate and compare the quality of the lubricating emulsions used, their lubricating properties under various standard operating conditions, as well as the influence of some lubricant technological parameters such as temperature, pH, concentration on the drawing process.

The traction forces can be used to precisely determine the die parameters optimally, the most suitable die set, which allows to minimize the power consumption and the die drawing in the drawing unit.

An exemplary embodiment of the device according to the invention is shown in the accompanying drawings. The attached drawings schematically show, in a rectangular projection, a functional part of the traction unit with the proposed device. The device according to the invention is represented by more marked lines.

Fig. 1 is a side cross-sectional view taken by the traction unit to allow a functional view of the device.

In FIG. no. 2 is a front view of the functional portion of the traction unit and the spatial location of the device.

In both figures, the essential parts are indicated by numbered positions which correspond to each other.

Instead of a fixed connection to the bracket 2 of the traction unit 3, the die holder 1 is attached to a rotary isosceles lever 4 which transmits the measured tractive force to the strain gauge sensor 5 from which the electrical signal is transmitted by the cable 6 to the indicator and recorder. The strain gauge sensor 5 is mounted on a special structure 7 attached to the traction unit 3. The die holder 1 is immersed in the lubricating emulsion 8, which is filled with the trough 9 of the towing machine. The drawn wire 10 wrapped around the drawing drums 11 passes through the dies, which are housed in the dies holder 1.

Claims (2)

2S2521 5 OBJECT The device for continuously measuring tensile forces when pulling steel wires in an emulsion environment utilizes the design of a multi-stroke wet runner of the die holder and a tensometric apparatus for the detection and registration of tensile forces, characterized in that the die holder (1) is attached to the invention of an isosceles lever (4) which is attached to a structure (7) which is folded from a support frame attached to the three-way bolts to the pulling unit (3) and the strain gauge platform (5), which is fixed to the support frame and forms a unit with it. 2 sheets of drawings