SU1112235A1 - Digital level indicator - Google Patents

Abstract

A DIGITAL LEVEL, containing a tube mounted in a tank, an annular magnet with a float, movably enclosing a tube with a movable rod, located in it sealed magnetic contacts, distributed over the height of the rod with a higher-order discrete bit, connected by a common current lead, reciprocating actuator and a rod displacement transducer, a trigger, one of the inputs of which is connected to the output of the driver of the presence of the supply voltage, and the output to the input of the element I, the common current lead, connected to the input of the voltage conditioner and through the diodes and the communication lines to a control panel, characterized in that. In order to increase the accuracy of the level gauge without increasing the number of sealed magnetically controlled contacts and connecting drives and increasing the reliability of the device, it is equipped with a positional unitary code to binary code converter, parallel code to serial converter, three OR elements, a pulse shaper and two keys, while the outputs are sealed The magnetically controlled contacts are connected to the input of the converter of the positional unitary code to the binary code, the outputs of which are connected Nena with input converter parallel code. the serial and the first SHS, the last output is connected to the input of the pulse shaper connected to the gate input of the parallel code converter to the serial one and the input of the second OR element, to another input of which the output of the logic zero of the parallel code converter to the serial is connected, and the output of the logical unit of the last connected to the input of the third OR element, to the second input of which the output of the AND element is connected, the outputs of the second and third OR elements are connected to the control the inputs of the corresponding keys connected to the communication lines.

Description

The invention relates to a measuring technique and can be used in an automated system for monitoring and accounting for liquid chemical raw materials and petroleum products in commercial parks. A device for measuring the level of liquid media is known, which contains magnetic switches placed in a pipe and an annular magnetic flooding G1. The disadvantage of the device is its low accuracy. When measuring the level in the capacitances, since the low-order discrete can be made smaller than the size of the magnetic switch is not possible, moreover, a very large number of switches is required. The closest to the invention to the technical essence and the achieved effect is a level gauge containing a tube mounted in a container, an annular magnet connected to the tube with a float, groups of sealed magnetic contacts (reed switches) arranged in height with a certain pitch and connection common tokovod with other tokovodami in accordance with the position in height with code scales 1, 2, 4, 8, the drive reciprocating motion, the stock of which is connected to the current leads by an isolator AC torus, connected via controlled keys to the negative pole of the power source, and outputs through an amplifier and filter to a communication line connected to the receiver with indicating devices, and through a filter to a power supply unit, a rod displacement converter, and positive power supply circuits The ditch is connected to the current leads, and the displacement transducer of the actuator stem is connected to the input of the I element, the output of which ot) is connected to the controlled key circuit, and the second output of the trigger is connected to the second input of the AND element o is connected to a controlled circuit of another generator key, and a trigger is connected to the input of an additional current lead connected by additional reed switches located in front of each code group and spaced from each other with a certain step, with a common current lead, and the other stroke is connected to another trigger input voltage pulse generator in the supply circuit 2. Each point of the highest bit of 5VENTION is determined by a group of reed switches consisting of five reed switches located along the length of the rod; so that the impulses commuted by them do not merge. For example, a group of reed switches, recruited from reels of type KEM-2, occupies a length of 25 cm plus conductor fastening terminals, a sensor of a meter code of 30-35 cm long is obtained. Since the distance between the leading gerkonamy is, for example, 1 m, the stroke the piston is obtained equal to the sum of the distance of the windrow reed plus the sensor length of the meter code, i.e. 1350 mm. But there are productions when the tanks in which it is necessary to control the Level are dispersed in the rooms and the distance between the upper part of the container and the ceiling does not allow placing the level gauge of this type. The disadvantage of the level gauge, in addition, is the presence of a large number of reed switches per controlled point of the highest bit. For example, with a measurement range of 1Q m with the location of reed switch groups in 0.5 m, 5 pcs. in the group the required number is equal to 100 reed switches, which increases the cost of the level gauge, reduces its reliability of operation. The aim of the invention is to improve the accuracy of the level gauge without increasing the number of sealed magnetically controlled contacts and increasing the reliability of the device. Set Goal Achieved by the fact that a digital level gauge containing a tube, mounted in a tank, an annular magnet with a float, movably enclosing a tube with a movable rod, hermetically sealed magnetic contacts located in it, the drive of reciprocating post-movement movement of the rod and the transformation: the rod movement of the rod, the trigger, one of the inputs of which is connected to the output of the driver of the presence of power supply, and the output - from the input m of the element I, the common tokovod, entered into the driver input

31

voltage and diodes

and communication lines - with a control panel, equipped with a converter of a positional unitary code into a binary code, a converter of a parallel code into a serial one, three OR elements, a pulse shaper and two keys, while the outputs of the sealed magnetically controlled contacts are connected to the input of the converter of the positional unitary code into a binary the code, the outputs of which are connected to the inputs of the parallel code to serial converter and the first element OR the output of the latter is connected to the input of the importer pulse connected to the gating input of the parallel code to serial converter and the input of the second OR element, to another input of which the output of the logical zero is converted: parallel code parallel code to serial, and the logical unit output: the last connected to the input of the third OR element, to the second input of which the output of the AND element is connected, the outputs of the second and third OR elements are connected to the control inputs of the corresponding keys connected to the communication lines.

The drawing shows the proposed digital level gauge.

The level gauge contains a pipe 1 mounted in the vessel 2, an annular magnet 3 movably covering the pipe 1 and a common current lead 5 connected to the float 4, passing along pipe 1 and connected to lines 6 and 7 of the connection through diodes 8 and 9. To A common current lead 5 with a step equal to the high-order discrete bit is connected to 10-15 coils, the second electrodes of which are connected to the converter of a 16-position unitary code to a binary code whose outputs are connected to the converter 17 of a parallel code to a serial one and through the first element OR 1.8 - to trigger input .19 and a pulse driver 20, the output of which through the second element 21 is OR connected to the controlled circuit of the high-order key 22 and to the start input of the inverter 17 of the parallel code to the serial one, and the other output of the higher-order zero former through the third element OR 23

354

connected to a controllable key circuit 24 of forming the low-order impulses and a high-zero value. A shaper 25 of supply voltage, the output of which is connected to the second input of the trigger 19, and an electropneumatic valve 26 connected by a pneumatic line 27 to a cylinder 28 mounted on pipe 1 are connected to the communication line, and above the piston 29 of cylinder 28 a magnetic rail 30 is mounted along which are magnetic poles with a step equal to the discrete discrete digit. The magnetic poles of the rail 30 are in contact with the read head 31, the output of which is through the element AND 32, the second input of which is connected to the output of the trigger 19, along with the third element OR 23.

Lines 6 and 7 of the communication are connected to the control panel 23 Control, located in the explosion-hazard zone. The reed switches 10-15 are fixed on the rod 34, connected

with piston 29.

Digital gage works as follows.

From the control panel 33, the voltage is supplied to the circuit of the level gauge via lines 6 and 7, and the pulse voltage supply driver 25 sets the trigger 19 to a state providing a signal corresponding to one at the input of the element 32.

At the same time, the electropneumatic valve 26 is actuated into the cylinder.

28 compressed air and piston are supplied

29, together with the reed switches 10-15, begins to move upwards. In this case, the magnetic rail 30, moving along the reading head 31, excites pulses in it with its magnetic poles, which arrive at the input

And 32 and then through the OR element 23 into the controlled-line circuit of the key 24, which in the link 7 forms current pulses arriving at the input of the control panel 33 where they are counted. The number of pulses received by the control panel is proportional to the distance t traveled by the gyronex 12 to the magnetic field created by the magnet 3 just on

the level N. As the reed switch 12 enters the field of the magnet, its contacts are closed and the converter of the 16 positional unitary code s has a binary code, a higher-order signal b is received, with the result that a signal corresponding to the height of reed switch 12, which is fed to the input generator 17 of the parallel code into a serial code and simultaneously through the element OR 18 switches the trigger 19 to another state, which removes a high level signal (one) from the input of the AND 32 element, resulting in The low-order pulse is outputted to the key 24 input. At the same time, the output pulse of the element OR 18 starts the pulse shaper 20, which by the front edge of its pulse through the element OR 21 sends the current signal via the key 24 to form higher-order bits to the input of the control panel 33, which switches to receive the higher-order sequential code. The reverse front of the signal is formed by the pulse generator 20 of the parallel-to-serial code converter 17 through the OR 21 and 23 elements. the keys 22 and 24 start to generate current pulses in the lines 6 and 7 in accordance with the height code of the reed switch 12, with the result that the information containing the height is received at the input of the control panel 33). The received height U is summed up with the distance I, the result of the addition in the form of the level H is displayed on the display elements of the control panel 33 of the control. After de-energizing the communication lines 6 and 7, the level gauge returns to its original state. The technical and economic effect is achieved by simplifying the design of the level gauge, which generally reduces the cost of its manufacture, commissioning ,. Technological prog, reduces the cost of maintenance and repair of new preventive work by increasing the reliability of work, as the number of reed switches and rations as elements of unreliability is significantly reduced. Reducing metal consumption by reducing the stroke of the rod, reducing the dimensions of the cylinder, casing, rod, reduces manufacturing costs, and makes installation and adjustment easier. In general, the economic effect reaches 14 thousand rubles. per year with one batch.

J73029 28

eg 67

/. /./.

d - f

Claims (1)

DIGITAL LEVEL MEASURER containing a pipe mounted in a tank, an annular magnet with a float movably wrapping around a pipe with a movable rod, sealed magnetically-controlled contacts located in it, dispersed over the height of the rod with a discrete senior bit and connected by a common current lead, the drive of the reciprocating rod and transducer rod movement, a trigger, one of the inputs of which is connected to the output of the driver of the presence of supply voltage, and the output - to the input of the element And, a common current lead, is connected connected with the input of the voltage availability driver and through the diodes and communication lines with a control panel, characterized in that, in order to increase the accuracy of the level gauge without increasing the number of sealed magnetically controlled contacts and connecting drives and increase the reliability of the device, it is equipped with a positional unitary code to binary code converter , a parallel-to-serial code converter, three OR elements, a pulse shaper and two keys, while the outputs of the sealed magnetically controlled control such as are for the position are connected to the input of a unitary code into binary code converter, which outputs are connected to the parallel code converter entrances. serial and of the first OR element, the output of the latter is connected to the input of the pulse shaper connected to the gate input of the parallel code converter to serial and the input of the second OR, to the other input of which the logic zero output of the parallel code converter is connected to serial, and the output of the logical unit of the last it is connected to the input of the third OR element, to the second input of which the output of the AND element is connected, the outputs of the second and third OR elements are connected to the input controls mi of the corresponding keys connected to communication lines. health>