KR20050077910A - The float type level sensor by the way to pull balanced weight up - Google Patents

Abstract

The present invention relates to a method of using a counterweight to maintain the buoyancy balance in the detection means for measuring low user water amount and the like. Float may be a common method for detecting low water quantity, but the conventional method mainly uses HAIR BALANCE SPRING to maintain the equilibrium. The detection error is too large due to the resilience difference according to the float position. It is hard to expect reliability with precision devices, so it was only used as a rough measure. The present invention considers all of these parts and is suitable as a measuring means for accurately detecting low oil storage.

To this end, the method of the present invention is equipped with a pulley wheel on the axis of the rotary encoder, a suspension line is mounted on the pulley wheel, and then suspended on a float on one side and suspended on a weight that is in equilibrium with the weight of the float. When you hang down into the reservoir, the float stops at equilibrium at the surface or on the surface. At this time, if the flow rate or quantity decreases and its position changes, it moves in an additional equilibrium with the float, and when the rotary encoder rotates according to the movement of the wire rope connected thereto, the pulse signal is output from the rotary encoder. It is configured to know the change in the low or high reservoir by counting that.

Therefore, according to the present invention, it is possible to simply measure the low user amount without an error due to the low user amount. This can be very useful when applied to remote low water quantity measurement. Until now, expensive laser level sensors have been used for accurate low user quantity measurement. The present invention has solved this problem simply and inexpensively.

Description

The float type level sensor by the way to pull balanced weight up}

The present invention relates to a float level sensor, which is a type of float level sensor using a float among the sensors for measuring the low user level of a low water tank, wherein a weight is used in the method of maintaining the equilibrium thereof.

So far, the type of level sensor used to maintain the balance of gravity and buoyancy of the float mainly uses the (HAIR BALANCE SPRING), so the resilience of the similarity varies depending on the position of the float. It was hard to expect reliability and was only used as a rough measure.

The present invention solves this problem by using a counterweight rather than a HAIR BALANCE SPRING to balance the weight of the float and buoyancy. In addition, unlike the counterbalance method where the tension varies depending on the location of the low user's height by using the counterweight, precise low user's height can be measured regardless of the height of the low user's height.

An object of the present invention is to minimize the buoyancy restoration error, which is a disadvantage of the low-cost float type level sensor by using pulley wheels and counterweights, rather than similar ones, thereby securing precision that is comparable to that of expensive laser level sensors and providing high accuracy at low cost. It is to realize the level sensor.

The configuration for achieving the object as described above is a float to generate gravity and buoyancy, the counterweight to maintain the balance of gravity and buoyancy generated in the float, the suspension line connecting the float and the counterweight, float and Pulley wheel that receives counterweight movement from suspension line, rotary encoder that generates pulse signal by rotation of pulley wheel, pulse signal line that connects pulse signal generated in rotary encoder to counting device, pulse signal input through pulse signal line It is characterized in that it is a counting device that displays the low user low or its capacity by calculating.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 shows the configuration of the present invention to maintain the equilibrium of gravity and buoyancy generated in the float (6) and the float (6) which generates gravity and buoyancy according to the change of the low user's height (7) A pulley wheel (1) receiving the movement of the float (6) and the counterweight (8) from the suspension line (5) and the suspension line (5) connecting the counterweight (8) and the fret (6) and the counterweight (8); The pulse signal line 3 and the pulse signal line 3 connecting the rotary encoder 2 and the pulse signal generated by the rotary encoder 2 to the counting device 4 are generated by the rotation of the pulley wheel 1. The basic feature is that it consists of a counting device (4) for counting and calculating the pulse signal coming in through the low user (7) or its capacity.

Referring to the operation of the present invention configured as described above is as follows.

First, as shown in FIG. 1, a counterweight (8) is connected to a float (6) on one side and a counterweight (8) connected to the other side through a suspension line (5) centering on the pulley wheel (1). The pulley wheel 1 is characterized in that the pulley wheel 1 is stopped in a state where the gravity of the float 6 combined with the buoyancy of the float 6 and the gravity of the float 6 are in equilibrium. At this time, if there is a change in the reservoir reservoir 7 due to the oil supply, the float 6 and the counterweight 8 move to maintain the equilibrium, and accordingly, the pulley wheel 1 rotates and the rotary encoder is rotated by this rotation. When the pulse signal corresponding to the corresponding rotation is generated in (2), the signal is counted by the counting device (4) connected through the pulse signal line (3) to display the low user's height (7) or its capacity. It is characterized by.

As described above, according to the present invention, as a relatively inexpensive and simple device such as a float, a counterweight, a pulley wheel, and a rotary encoder, it can serve as a high accuracy level sensor corresponding to an expensive laser level sensor.

1 is a block diagram of the present invention

<Description of Symbols for Main Parts of Drawings>

1: pulley wheel 2: rotary encoder

3: pulse signal line 4: counter

5: suspension line 6: float

7: low user height 8: counterweight

Claims (4)

Float (6) generating gravity and buoyancy according to the change of low user's height (7) and counterweight (8), prote (6), and counterweight to maintain the balance of gravity and buoyancy generated in float (6) The pulse signal is generated by the rotation of the pulley wheel 1 and the pulley wheel 1, which receive the movement of the suspension line 5, the float 6, and the counterweight 8 from the suspension line 5 connecting the (8). The pulse signal input through the pulse signal line 3 and the pulse signal line 3 connecting the pulse signal generated by the rotary encoder 2 and the rotary encoder 2 to the counting device 4 is counted and calculated. 7) A counterweight float type level sensor, characterized in that it comprises a counter device (4) which displays the capacity thereof. A counterweight float type level sensor, characterized in that a counterweight (8) is used as a means for generating a restoring force of the float (6) according to the change of the low user's height (7). A float 6 is connected to the float 6 on one side via a suspension line 5 around the pulley wheel 1 and floats on the gravity of the counterweight 8 pulled through the suspension line 5. Float type level sensor of the counterweight impression type, characterized in that the pulley wheel (1) is stopped in a state where the sum of the buoyancy of (6) and the gravity of the float (6) is in equilibrium When the reservoir reservoir 7 changes due to oil supply, the float 6 and counterweight 8 move to maintain the equilibrium, and the pulley wheel 1 rotates accordingly. When the pulse signal corresponding to the corresponding rotation is generated in (2), the signal is counted by the counter device 4 connected through the pulse signal line 3 to display the low user's height 7 or its capacity. Float type level sensor with counterweight