KR101146353B1 - Device for measuring water level capable of emergency switching - Google Patents

Abstract

The present invention relates to a water level measuring device capable of emergency switching, and more specifically, is provided with a magnetic buoyancy body which is raised and lowered according to the water level and generates a magnetic force, and a sensor unit generating a water level signal by the magnetic force of the magnetic buoyancy body. The sensor unit is divided into a main sensor unit and an auxiliary sensor unit, and when the main sensor unit is broken, an emergency switching unit for outputting the water level calculated through the auxiliary sensor unit is operated according to the water level output from the water level measuring device. The apparatus of the present invention relates to a water level measuring device capable of emergency switching so that the main sensor part can be emergency operated even in the case of an emergency in which the main sensor part has failed.
The water level measuring device capable of emergency switching according to the present invention comprises: a hollow housing having a watertight structure which is erected vertically in a water level measuring location with a material through which magnetic force is passed; A magnetic buoyant body which is guided to an outer surface of the housing and is moved up and down along the longitudinal direction of the housing by buoyancy according to a change in water level, at least a portion of which generates a magnetic force; The main sensor unit is arranged in the housing spaced apart at predetermined intervals along the longitudinal direction of the housing, when the magnetic buoyancy body is close, the first sensor unit having a plurality of first magnetic sensing unit for reacting by a magnetic force and generating a water level signal; ; An auxiliary sensor unit having a plurality of second magnetic sensing units configured to be equivalent to the main sensor unit; Is connected to the main sensor unit and the auxiliary sensor unit outputs the water level calculated from the water level signal generated by the main sensor unit, the water level signal generated by the main sensor unit and the water level signal generated by the auxiliary sensor unit It is characterized in that it comprises an emergency switching unit for determining whether or not the main sensor unit failure in preparation and outputs the water level calculated from the water level signal generated in the auxiliary sensor unit when it is determined that the main sensor unit failure.

Description

Water level measuring device capable of emergency switching {DEVICE FOR MEASURING WATER LEVEL CAPABLE OF EMERGENCY SWITCHING}

The present invention relates to a water level measuring device capable of emergency switching, and more specifically, is provided with a magnetic buoyancy body which is raised and lowered according to the water level and generates a magnetic force, and a sensor unit generating a water level signal by the magnetic force of the magnetic buoyancy body. The sensor unit is divided into a main sensor unit and an auxiliary sensor unit, and when the main sensor unit is broken, an emergency switching unit for outputting the water level calculated through the auxiliary sensor unit is operated according to the water level output from the water level measuring device. The apparatus of the present invention relates to a water level measuring device capable of emergency switching so that the main sensor part can be emergency operated even in the case of an emergency in which the main sensor part has failed.

Generally, the water level measuring device is used in various fields throughout the industry, such as a water purifier, a washing machine, a water tank, or a water tank, and when a level below the reference point is measured in the water level measuring device, a signal for operating a pump or the like to replenish water is used. It is a device that plays a very important role.

Types of the level measurement device include the use of fluid pressure, ultrasonic waves, LC discharge or buoyancy.

The water level measuring device having a mechanical pressure switch using the pressure of the fluid is slow in the responsiveness of the sensor, very large in size of the sensor itself, it is difficult to precisely measure the average level of the container according to the pressure of the fluid to be measured There are disadvantages.

In addition, the ultrasonic level measurement device is difficult to install due to its complicated structure, and the electrical level measurement device using LC discharge is difficult to precisely measure the water level due to foreign matters attached to the external temperature or the sensor surface or errors due to aging. There is this.

In addition, the conventional water level measurement apparatus using the buoyancy is shown in Figure 1, looking at the drawing, the lever 10 'having two arms (11', 12 ') is rotatable around the hinge axis (18'). A buoyancy body 19 'is attached to an end of the first arm 11' of the lever 10 'located in the reservoir 13' and interlocked with the vertical movement of the buoyancy body 19 '. A plurality of detectors 14 ', 15', 16 'are provided on the rotation path of the second arm 12', which is rotated, such as a photointerrupter capable of detecting the motion trajectory of the second arm 12 '. .

Accordingly, the detector 16 'at the top of the reservoir 13' among the three detectors 14 ', 15', 16 'detects the passage or the arrival of the second arm 12' and correspondingly outputs it. The depleted state with little residual amount of fluid 20 'can be obtained from the signal that is used. Similarly, the detector 15' in the middle portion of the reservoir 13 'can be used to prevent depletion of the fluid 20'. It is used to inform in advance that it is time to replenish the fluid 20 ', and the detector 14' at the bottom of the reservoir 13 'is used to inform that the liquid has reached the low water limit.

However, in the above-described conventional buoyancy level measuring device, since the arm 11 'of the lever 10' needs to be rotated about the hinge axis 18 ', the radius for the operation increases, and the lever 10 Since the detectors 14 ', 15', and 16 'must be installed along the rotational path of, the occupied space for installing them increases, resulting in a large system.

In addition, the conventional water level measuring device is not provided with a means for detecting when the sensor unit for detecting the water level is broken, so that the device operated according to the level measured in the water level measuring device does not operate in some cases the water tank There was a problem that could cause serious problems in life, such as running out of water. Even if a means for detecting a failure of the sensor unit is provided, the device connected to the water level measuring device can be used during the period before repairing the broken sensor unit. There was no problem.

The present invention has been made in order to solve the problems of the prior art as described above is an object of the present invention by using a magnetic buoyancy body to move up and down along the housing in accordance with the water level to generate a magnetic force occupying the space required for installation While having a minimum, it comprises a sensor unit for generating a water level signal by the magnetic force of the magnetic buoyancy body, the sensor unit is divided into a main sensor unit and an auxiliary sensor unit and outputs the water level calculated through the auxiliary sensor unit when the main sensor unit is broken. By providing an emergency switching unit to the device such as a pump operated according to the water level output from the water level measuring device to provide an emergency water level measuring device capable of emergency switching to enable emergency operation even in the event of an emergency in which the main sensor unit is broken.

Another object of the present invention is that the second magnetic sensing unit provided in the auxiliary sensor unit is spaced apart and spaced apart at intervals larger than the spaced apart from the mutually spaced apart from the main sensor unit to exert emergency function in an emergency. It is possible to reduce the manufacturing cost without using it, and to configure the circuit so that the number of electrically connected resistors varies according to the level, and to easily calculate the level through the current value that varies according to the number of connected resistors. It is to provide a water level measuring device capable of emergency switching.

Water level measurement device capable of emergency switching according to the present invention to achieve the above object, the hollow housing of the watertight structure which is erected vertically in the water level measurement point made of a material through which magnetic force is passed; A magnetic buoyant body which is guided to an outer surface of the housing and is moved up and down along the longitudinal direction of the housing by buoyancy according to a change in water level, at least a portion of which generates a magnetic force; The main sensor unit is arranged in the housing spaced apart at predetermined intervals along the longitudinal direction of the housing, when the magnetic buoyancy body is close, the first sensor unit having a plurality of first magnetic sensing unit for reacting by a magnetic force and generating a water level signal; ; An auxiliary sensor unit having a plurality of second magnetic sensing units configured to be equivalent to the main sensor unit; Is connected to the main sensor unit and the auxiliary sensor unit outputs the water level calculated from the water level signal generated by the main sensor unit, the water level signal generated by the main sensor unit and the water level signal generated by the auxiliary sensor unit It is characterized in that it comprises an emergency switching unit for determining whether or not the main sensor unit failure in preparation and outputs the water level calculated from the water level signal generated in the auxiliary sensor unit when it is determined that the main sensor unit failure.

In addition, in the emergency level switchable water level measuring apparatus according to the present invention, the auxiliary sensor unit, the second magnetic sensing unit is spaced apart from each other at intervals greater than the interval spaced apart from the first magnetic sensing unit from the main sensor unit. Characterized in that arranged.

In addition, in the emergency level switchable water level measuring apparatus according to the present invention, the main sensor unit and the auxiliary sensor unit, the input wire and the ground which is arranged in a pair in the longitudinal direction in the housing and is supplied with a voltage from the voltage supply unit A plurality of resistors electrically connected to the input wires and the output wires between the output wires, the plurality of resistors connected to the input wires or the output wires at predetermined intervals along a longitudinal direction, and the neighboring resistors, respectively. A plurality of magnetic switches connected to the connection line, the first magnetic sensing unit and the second magnetic sensing unit, respectively, are provided in the plurality of connecting lines to block electrical connection of the connecting line, but are contacted by magnetic force when the magnetic buoyancy body is in close proximity. Is provided, wherein the water level signal is a current value that is output through the output wire The features.

The water level measurement device capable of emergency switching according to the present invention by the configuration as described above, while using the magnetic buoyancy body to be moved up and down along the housing in accordance with the water level to generate a magnetic force, while minimizing the occupied space required for installation, The sensor unit for generating a water level signal by the magnetic force of the magnetic buoyancy body is provided by dividing the sensor unit into the main sensor unit and the auxiliary sensor unit, and the emergency switching unit for outputting the water level calculated through the auxiliary sensor unit when the main sensor unit has failed By providing a device such as a pump operated according to the water level output from the water level measuring device has an effect that can be operated emergency even in the event of an emergency that the main sensor unit is broken.

In addition, the water level measuring device capable of emergency switching according to the present invention is such that the second magnetic sensing unit provided in the auxiliary sensor unit is spaced apart and spaced apart from each other at a larger interval than the spaced apart from each other in the main sensor unit. It is possible to reduce the manufacturing cost without any trouble in performing emergency functions in an emergency, and configure the circuit so that the number of electrically connected resistors varies according to the level, and the water level is changed by the current value that varies according to the number of connected resistors. There is an effect that can be easily calculated.

1 is a cross-sectional view of the water level measuring device capable of emergency switching according to the prior art
Figure 2 is a cross-sectional view of the water level measuring device capable of emergency switching according to an embodiment of the present invention
3 is an equivalent circuit diagram of a main sensor unit and an auxiliary sensor unit according to an embodiment of the present invention.

Hereinafter, with reference to the embodiment shown in the drawings will be described in more detail the water level measuring device capable of emergency switching according to the present invention.

2 is a cross-sectional view of the water level measuring device capable of emergency switching according to an embodiment of the present invention, Figure 3 is an equivalent circuit diagram of the main sensor unit and the auxiliary sensor unit according to an embodiment of the present invention.

Referring to the drawings, the water level measurement device capable of emergency switching according to an embodiment of the present invention, the housing 10, the magnetic buoyancy body 20, the main sensor unit 30, the auxiliary sensor unit 40, emergency It is configured to include a switching unit (50).

The housing 10 has an outer surface guides the lifting and lowering of the magnetic buoyancy body 20 and accommodates the main sensor unit 30 and the auxiliary sensor unit 40 therein, and the magnetic buoyancy body The magnetic force of the 20 is made of a material that can pass through and the main sensor unit 30 and the auxiliary sensor unit 40 is formed in a hollow shape of a watertight structure so that the water does not come into contact with water level measurement point, for example, water It is erected vertically in tanks or the like.

The magnetic buoyancy body 20 is made of a material that floats in water and at least a portion of the magnetic force generated to surround the outer surface of the housing 10 is guided to the outer surface of the housing 10 and the fluctuation of the water level According to the buoyancy is configured to move up and down along the longitudinal direction of the housing 10, the generated magnetic force is the first magnetic sensing unit 30a of the main sensor unit 30 and the first of the auxiliary sensor unit 40 It is used to react the two magnetic sensing unit (40a).

The main sensor unit 30 is arranged to be spaced apart at predetermined intervals along the longitudinal direction of the housing 10 in the housing 10, but reacts by magnetic force when the magnetic buoyancy body 20 is in close proximity. A plurality of first magnetic sensing units 30a for generating a water level signal are provided, and the auxiliary sensor unit 40 is equal to the main sensor unit 30 in the housing 10 in the housing 10. A plurality of second magnetic sensing units 30a are arranged to be spaced apart at predetermined intervals along the longitudinal direction of the magnetic buoyancy body 20 and react with magnetic force to generate a water level signal.

In addition, in an embodiment of the present invention, the second magnetic sensing unit may reduce the manufacturing cost without any problem in exerting the emergency function of the auxiliary sensor unit 40 when the main sensor unit 30 is broken. 40a are spaced apart and spaced apart from each other at a larger interval than the spaced apart from the first magnetic sensing unit 30a in the main sensor unit 30.

Meanwhile, FIG. 3 illustrates an equivalent circuit diagram of the main sensor unit and the auxiliary sensor unit according to an embodiment of the present invention. Referring to the drawings, the main sensor unit 30 and the auxiliary sensor unit 40 respectively include input wires 31, 41 and a plurality of magnetic switches serving as output wires 32 and 42, a plurality of resistors 33 and 43, and the first magnetic sensing unit 30a and the second magnetic sensing unit 40a ( 35 and 45, and the water level signal is a current value output through the output wires 32 and 42.

The input wires 31 and 41 and the output wires 32 and 42 are arranged in pairs in the vertical direction in the housing 10 and the input wires 31 and 41 are connected to the voltage supply unit ACC. Connected to receive a voltage, and the output wires 32 and 42 are grounded.

The plurality of resistors 33 and 43 are connected to the output wires 32 and 42 at predetermined intervals along the length direction in one embodiment of the present invention, and the input wires 31 and 41 at predetermined intervals. Even if it is connected, it will be the same, and as described above, in one embodiment of the present invention, the auxiliary sensor unit 40 in the case of an emergency in which the main sensor unit 30 is broken does not interfere with exerting an emergency function and reduces manufacturing costs. The resistance 43 of the auxiliary sensor unit 40 is spaced apart from each other at a larger interval than the spaced apart from the resistance 33 of the main sensor unit 30 so as to be spaced apart.

The plurality of connection lines 34 and 44 are configured to electrically connect the input wires 31 and 41 and the output wires 32 and 42, respectively, between the neighboring resistors 33 and 43.

The plurality of magnetic switches 35 and 45 are provided on the plurality of connection lines 34 and 44, respectively, and serve as the first magnetic sensing unit 30a or the second magnetic sensing unit 40a. It is configured to block the electrical connection of the connecting line (34, 44) but the magnetic buoyancy body 20 is configured to be contacted by the magnetic force when close.

Since the principle of operating the main sensor unit 30 and the auxiliary sensor unit 40 are the same, the operation principle of the main sensor unit 30 will be described in detail below with reference to FIG. 3.

When the water level decreases and the magnetic buoyancy body 20 is located at L1, the magnetic switch 35 'near the magnetic buoyancy body 20 of the magnetic switches 35 is contacted by a magnetic force, and the remaining magnetic switch is electrically Connection is blocked. In this case, when the voltage input from the voltage supply unit is V, and the resistance values of the plurality of resistors 33 are all R, the magnetic switch 35 close to the magnetic buoyancy body 20 on the input wire 31. A current flows in the direction of the output wire 32 through the connecting line 34 'where') is located, and since seven resistors are connected in series, the total resistance value is 7R, and the output wire 32 The current value output through is eventually V / 7R.

On the other hand, when the magnetic buoyancy body 20 is located at L2 due to an increase in the water level, the connection line 34 '' in which the magnetic switch 35 '' close to the magnetic buoyancy body 20 is positioned on the input wire 31. The current flows in the direction of the output wire 32 through), and since the three resistors are connected in series, the total resistance value is 3R, and the current value output through the output wire 32 eventually becomes. As V / 3R becomes larger, the current value changes according to the water level.

The emergency switching unit 50 is connected to the main sensor unit 30 and the auxiliary sensor unit 40 to output the water level calculated from the water level signal (current value) generated in the main sensor unit 30, The water level signal (current value) generated by the main sensor unit 30 and the water level signal (current value) generated by the auxiliary sensor unit 40 are compared with each other to determine whether the main sensor unit 30 is faulty. When it is determined that the failure of the main sensor unit 30 is configured to output the water level calculated from the water level signal (current value) generated by the auxiliary sensor unit 40.

That is, when the magnetic switch 35 ′ located at the bottom in FIG. 3 is always a contact due to a failure, the magnetic switch 35 ″ positioned at the top thereof is also contacted when the water level is changed from the position of L 1 to the position of L 2. And the current flows in the direction of the output wire 32 through the connecting line 34 ″ in which the magnetic switch 35 ″ located above the input wire 31 is located. When the magnetic switch 35 '' becomes a contact at all times due to a failure, when the water level is changed from the position of L2 to the position of L1, the current is broken at the input wire 31 and the magnetic switch located above the always-contacted point. The main sensor unit 30 keeps the water in the water tank L2 even though the water tank is bottomed out through the connection wire 34 ″ (35 ″) located in the direction of the output wire 32. Keep up It is not determined not to activate the pump and the like becomes a problem.

In this case, in the embodiment of the present invention, the auxiliary sensor unit 40 is present, so that the current value generated from the main sensor unit 30 in the emergency switching unit 50 and the auxiliary sensor unit 40 are generated. It is possible to determine whether the main sensor unit 30 is broken by comparing current values with each other, and when the failure of the main sensor unit 30 is determined, it is calculated from the current value generated by the auxiliary sensor unit 40. By outputting the water level, it is possible to operate a pump or the like which operates according to the water level even in an emergency.

The water level measuring device capable of emergency switching described above and illustrated in the drawings is only one embodiment for carrying out the present invention, and should not be construed as limiting the technical spirit of the present invention. The scope of protection of the present invention is defined only by the matters set forth in the claims below, and the embodiments which have been improved and changed without departing from the gist of the present invention will be apparent to those skilled in the art. It will be said to belong to the protection scope of the present invention.

10 Housing
20 magnetic buoyancy bodies
30 Main sensor
30a first magnetic sensing unit
40 Auxiliary Sensor
30b 2nd magnetic sensing unit
50 emergency switch

Claims (3)

A hollow housing having a watertight structure, which is made of a material through which magnetic force passes, and is erected vertically at a water level measurement point;
A magnetic buoyant body which is guided to an outer surface of the housing and is moved up and down along the longitudinal direction of the housing by buoyancy according to a change in water level, at least a portion of which generates a magnetic force;
The main sensor unit is arranged in the housing spaced apart at predetermined intervals along the longitudinal direction of the housing, when the magnetic buoyancy body is close, the first sensor unit having a plurality of first magnetic sensing unit for reacting by a magnetic force and generating a water level signal; ;
An auxiliary sensor unit arranged in the housing at a predetermined interval along a longitudinal direction of the housing, and having a plurality of second magnetic sensing units that react with a magnetic force and generate a water level signal when the magnetic buoyancy body is close; ;
Is connected to the main sensor unit and the auxiliary sensor unit outputs the water level calculated from the water level signal generated by the main sensor unit, the water level signal generated by the main sensor unit and the water level signal generated by the auxiliary sensor unit In contrast, the emergency sensor is capable of determining whether the main sensor unit has a failure, and if the main sensor unit is determined to include an emergency switching unit for outputting the water level calculated from the water level signal generated by the auxiliary sensor unit. Measuring device. The method of claim 1,
The auxiliary sensor unit, the second magnetic sensing unit is a water level measurement device capable of emergency switching, characterized in that spaced apart and spaced apart from each other at intervals greater than the spaced apart from each other in the main sensor unit. The method according to claim 1 or 2,
The main sensor unit and the auxiliary sensor unit are arranged in pairs in the housing in an up-down direction and are long in an input wire and an output wire that are supplied with a voltage from a voltage supply unit, and an output wire that is grounded. A plurality of resistors connected to each other at predetermined intervals along the, and a plurality of connection lines for electrically connecting the input wires and the output wires to each other between the neighboring resistors,
The first magnetic sensing unit and the second magnetic sensing unit are provided in the plurality of connection lines, respectively, to block the electrical connection of the connection line, but when the magnetic buoyancy body is composed of a plurality of magnetic switches that are contacted by magnetic force. ,
The water level signal generated by the main sensor unit and the water level signal generated by the auxiliary sensor unit may be current values output through the output wire provided in the main sensor unit and the output wire provided in the auxiliary sensor unit, respectively. Level measurement device capable of emergency switching.

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