CS258682B1 - Pressure switch for soiled and medium thickened liquid mixtures - Google Patents

Description

The present invention provides a pressure switch for contaminated and moderately concentrated liquid compositions responsive to the pressure of contaminated liquid, cement and lime slurries, clay, artificial and natural resin based compositions, and moderately concentrated liquid compositions in low pressure distributions. The pressure switch falls within the control technology field.

There are a number of pressure switches which react to the respective pressure values of pure liquids, for example membrane pressure switches. Their disadvantage is the easy sedimentation of the overflowing suspension in the pressure switch, the possibility of leakage of the medium through the membrane and their improper use during operation. mining, such as grouting. Furthermore, it is possible to sense the pressure by strain gauge, based on the tension in the material of the pressure switch in which the liquid mixture flows. Because of their complexity, these devices are not entirely satisfactory in mining, where it is necessary to control the pressure of the injection mixture. The pressure switches used to control the injection mixture must ensure that all pressure switch compartments are thoroughly washed to prevent solid particles from sedimenting. Said known pressure switches do not comply with these. conditions and cannot be used at all for the given conditions.

The above-mentioned disadvantages and drawbacks are essentially eliminated by the invention, which is a pressure switch for contaminated and moderately thickened liquid compositions and is based on the invention. in that, at the location of the necessary control of the pressure of the flowing suspension, it is connected to. pipe elastic cylindrical tube which is deformed by means of a strip. The strip is laid flat on the cylindrical pipe. The longitudinal axis of the strip is perpendicular to the longitudinal axis of the cylindrical tube. One end of the belt is rotatably mounted on the pin by means of a fastening bolt and the other free end is slid onto the guide bolt by a longitudinal groove. The upper and lower visor are attached to the movable knee belt. Without applying the pressure of the liquid mixture in the elastic cylindrical tube, the lower diaphragm goes into the slot of the lower microswitch®. By applying the force exerted by the pressure of the flowing liquid onto the resulting surface, the free end of the belt moves along the guide bolt, the upper diaphragm being inserted into the slot of the upper microswitch. The lower microswitch is attached to the shorter console and the upper microswitch is attached to the longer bracket. The guide bolt, bolt, longer bracket and shorter bracket are attached to the foundation dock. The cylindrical pipe is pressed by the strip onto the foundation thatch.

It is a further object of the present invention that the belt in

258632 in the starting position is placed on the stop nut which is screwed onto the guide bolt. The belt is held by a compression spring slid onto the guide bolt so as to deform the elastic cylindrical tube. The spring in the pre-stressed state is secured by the adjusted nut. The adjusting nut makes it possible to create a 1-pronged prestress of the compression spring.

The advantage of this pressure switch is mainly its simplicity, technologically undemanding construction, which has a great influence on reliability and simple production. A further advantage of the invention is the ability of the pressure switch to react to a large pressure range of the contaminated liquid mixture, which is achieved by a compression spring, belt width and alignment of the stop nut and the adjustment nut.

In the accompanying drawings, an exemplary embodiment of a pressure switch for contaminated and moderately thickened liquid compositions is shown, wherein in FIG. 1 is a front elevational view, and FIG. 2 is a cross-sectional side view.

The pressure switch is characterized in that an elastic cylindrical tube 1, which is deformed by the belt 2, is connected to the pipeline at the pressure control point of the flowing liquid mixture. The strip 2 is flat and longitudinally laid on the elastic cylindrical tube 1 perpendicular to the longitudinal axis of the cylindrical tube. 1. One end of the belt 2 is rotatably attached to the pin 3 by means of a fastening bolt 4. The movable end of the belt 2 terminated by a longitudinal groove 16 moves along the guide bolt 5. The belt 2 is supported in its initial position against the stop nut 12 and held by a compression spring 6. pushed onto the guide bolt 5.

The compression spring 6 is pre-tensioned by the adjusting nut 7. At the movable end of the belt 2 a lower diaphragm 8 and an upper diaphragm 10 are mounted, the lower diaphragm 8 extending into the slot of the lower proximity microswitch 9 and the upper diaphragm 10 entering the slot of the upper proximity microswitch. The lower proximity microswitch 9 is mounted on the shorter bracket 13 and the upper proximity microswitch 11 is mounted on the longer bracket 14, while the two microswitches 9, 11 are slidably adjusted in the direction of the longitudinal axes of the brackets 13, 14. the guide bolt 5, the shorter bracket 13, the longer bracket 14 and the elastic cylindrical tube 1 are pressed against the base plate 15 by means of a belt 2.

The pressure switch according to the invention operates in such a way that in the initial position - without exerting force from the pressure mixture - the lower diaphragm 8 goes into the slot of the lower contactless microswitch 9. The flowing pressure mixture creates a force proportional to the flat flat inside the elastic cylindrical tube 1 flowing liquid mixture. The force exerted by the belt 2 against the force formed in the biasing spring 6. By overcoming the force set in the compression spring 6, the belt 2 is rotated around the fastening bolt 4. As the pressure of the liquid mixture increases, the upper diaphragm 10 slides into the slot of the upper contactless microswitch. By dropping the pressure of the liquid mixture, the spring 8 presses the movable end of the belt 2 into the starting position and the lower diaphragm 8 is inserted into the lower contactless microswitch 9. Corrective interventions into the controlled system are made by signals from the contactless microswitches 9, 11.

The pressure switch according to the invention makes it possible to control the pressure of the grouting mixes in the mines, to control the pressure of contaminated and moderately concentrated liquid mixtures in the construction industry, in particular in low-pressure distribution systems.

Claims (2)

A pressure switch for contaminated and moderately thickened liquid mixtures, characterized by the fact that it flows into the pipeline at the pressure control point of the flowing liquid mixture. an elastic cylindrical tube (1) is attached to which a strip (2) is attached perpendicularly to the longitudinal axis of the elastic cylindrical tube (1), one end of the strip (2) being rotatably attached to the pin (3) by a fastening bolt (4); the second movable end of the strip (2) terminated by the longitudinal groove (16) is movably mounted on a guide bolt (51) for urging the cylindrical tube (1) against the base plate (15), the upper diaphragm being mounted on the movable end of the strip (2) YNALEZU (10) and lower diaphragm (8) which is inserted into the slot of the lower contactless microswitch (9) mounted on the shorter bracket (13) and the upper contactless microswitch (11) is mounted on the longer bracket (14) with the pin (3) , the guide bolt (5), the shorter bracket (13), the longer bracket (14) are fixed to the base plate (15). The pressure switch according to claim 1, characterized in that a stop nut (12), a second movable belt end (2) and an adjusting nut (7) are mounted on the guide bolt (5), wherein between the second belt end (2) and the adjusting nut (7) accommodates the compression spring (6) in the pre-condition.