CS211567B1 - Pressure and flow sensor - Google Patents

Abstract

The invention relates to a pressure and flow sensor for a medium, especially water, used in mining finishing machines for cooling the machine and for sprinkling dust sources. The invention solves the problem of reliably stopping the operation of the machine engine if sufficient pressure and flow of the medium are not achieved. The essence of the invention is that in a sensor with a channel through which the medium flows, in which a diaphragm is located, equipped with pressure sensors of the medium in front of and behind the diaphragm, the input of the pressure sensor is connected in front of the diaphragm, the output of which is connected against the inner piston of the control element, against whose outer piston the pressure of the medium behind the diaphragm is connected. The basic embodiment of the pressure and flow sensor of the medium according to the invention is evident from the attached drawing.

Description

The invention is the seat of the pressure and flow of the medium, in particular the coolant.

In mining mining machines, water is used to cool the electric motor and subsequently to sprinkle dust sources. Typically, water at a pressure of up to 1 MPa is supplied to the quarrying machine by means of a manifold equipped with manually operated valves, for example, for sprinkling the decoupling roller, cooling the winch, cooling the electric motor and sprinkling panels.

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The disadvantage of this embodiment is the large number of valves and that the running motor and the winch without cooling are not excluded. There is also known a device for monitoring the pressure and the flow of water, which senses the pressures on the orifice placed in the duct as a function of the flow. Its disadvantage is that it reacts at different pressure and different flow rates.

The above-mentioned disadvantages of the known devices are largely eliminated by the pressure and flow sensor of the medium, in which the orifice is provided in the body through which the pressure sensor is provided with pressure sensors upstream and downstream of the orifice. is connected against the inner piston of the actuator against the outer piston of which the medium pressure sensor is connected behind the orifice plate.

The higher effect of the pressure and flow sensor of the medium according to the invention is, in particular, in that it makes it possible to monitor the pressure and flow of the medium - water supplied for cooling the mining machine and for spraying dust sources during its operation. The setting of both controlled variables is independent of each other.

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An exemplary embodiment of a pressure and flow sensor according to the invention is shown in simplified form in the accompanying drawing in a section through a plane passing through the axis of the sensor. The medium pressure and flow sensor consists of a body J in which a duct 2 is formed which flows through the medium, for example water for cooling and sprinkling. Aperture J is built in channel 2.

J in the body further defines a first cavity 4 in which is mounted a pressure sensor 2, comprising the housing 6, in which the bore 2 is fixedly mounted stopper 8 and the seat 2 and slidably supported Pistek JO pressed into the seat ₂ by a first spring 11. In the housing A supply duct 12 is formed with a plug 8 connecting the space in front of the orifice 2 with the inlet of the pressure sensor 2. The body is formed and the second cavity 14. ^In the first three ^e .jjg guided. ^{and in the} second guide 16 a control element 17 is slidably mounted and springed by a second spring 18 interposed therebetween and the first guide 15.

The control element 17 comprises a pivot 12 to which is connected the inner piston 20 and outer piston opposite sides of internal piston 20 is moveable within internal chamber 22 of the first conduit 15. The outer piston 24. 3 ^e displaceable in the outer chamber 23 of the second guide JJ. The outlet 24 of the pressure sensor 2 is connected by a first passage 25 in front of the first membrane 26 inserted in the inner chamber 22 between the inner piston 20 and the lid 27. enclosing the first cavity 4 ^{and the} second cavity 14.

Similarly, a second diaphragm 28 is inserted into the outer chamber 23 between the outer piston 21 and the body J provided with a second conduit 29 in place of the second diaphragm 28, opening into the conduit 2 beyond the orifice J. a contact 31 is applied to the switching element 32, preferably also located in the second cavity 14.

The function of the pressure and flow sensor according to the invention is as follows:

When the medium pressure in channel 2 is low, the plunger 10 is pressed into the seat 2 and the pressure sensor 2 is closed. The actuating element 17 is subjected to the pressure of the medium behind the orifice 2 and the second spring 18 which moves it to the left position and the contact 11. switches the switching element 32 such that the power supply to the working machine motor (not shown) is disconnected. If there is sufficient pressure in channel 2 but insufficient fluid flow, the pressure sensor 2 opens and the pressure medium passes through the first membrane 26.

Due to the low flow through the channel 2, the pressure behind the orifice J does not sufficiently decrease and this pressure together with the force exerted by the second spring 18 keeps the actuator 17 in the left position.

and

If the pressure and flow rate of the medium reaches at least the desired value, the pressure of the medium will drop accordingly. The pressure sensor g opens, and the actuator 17 is moved to the right position and the contact gg moves away from the switching element 32, which causes the power supply to the machine of the machine to be switched on.

The sensor according to the invention can be used in addition to mining equipment in other machines and equipment where the pressure and the flow of the medium have to be controlled.

Claims (3)

OBJECT OF THE INVENTION A pressure and flow sensor having a orifice in the body of the fluid flow passage therein, provided with pressure sensors upstream and downstream of the orifice, characterized in that an inlet (13) of the pressure sensor (5) is connected in front of the orifice (3); the outlet (24) is connected against the inner piston (20) of the actuator (17), against whose outer piston (21) the medium pressure sensor is connected downstream of the orifice (3). 2. The pressure and medium flow sensor according to claim 1, characterized in that the ratio of the inlet diameter of the seat (9) and the diameter of the piston (10) of the pressure sensor (5) is 0.9 to 0.98. 3. A pressure and flow sensor according to claim 1 or 2, characterized in that the inner piston (20) of the actuator (17) is separated from the medium by the first membrane (26) and the outer piston (21) of the actuator (17) is separated by a second membrane (28). 1 sheet of drawings