JPH09218079A - Water level sensor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a water level sensor capable of preventing an oil, an impurity and a dust from being stuck on a sensor body section such as a sensor case or a float and of accurately detecting a water level even when a water surface in a tank is waving. SOLUTION: This device consists of a sensor body and an external case 11 housing the sensor body. The sensor body comprises at least switches 5, 6 that operates in response to magnetism and a float 2 with a magnet 8 attached thereto which is placed in the vicinity of the switches 5, 6 and moves vertically along with the variation of the water level. The external case 11 is equipped with a water injecting nozzle 12 and an air drain hole 15 placed on the top end which is not submerged below the water surface. It is also equipped with an inlet/outlet hole 13 placed on the lower end portion of the case which is submerged below the water surface. A water scattering plate 14 with a water scattering hole 14a thereon is provided to the lower part of the water injecting nozzle 12.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water tank suitable for use in a water tank in which dirt such as oil, impurities, and dust is easily mixed, for example, a water tank of a water filter type oil removing device installed in a range hood. Regarding sensors.

[0002]

2. Description of the Related Art FIG. 5 shows the structure of a conventional water level sensor.
In the figure, 1 is a cylindrical cylindrical sensor case with a bottom, 2 is a float, the float 2 is loosely fitted in the sensor case 1, and vertically extends between an upper stopper 3 and a lower stopper 4 formed on the outer circumference of the case. It is supposed to be movable. The upper stopper 3 and the lower stopper 4 are provided to prevent the float 2 from unnecessarily moving up and down due to the extreme rise and fall of the water level.

In the sensor case 1, an upper reed switch 5 for detecting the maximum water level and a lower reed switch 6 for detecting the minimum water level are filled with resin 7 or the like and built in water honey. The vertical installation interval between the upper reed switch 5 and the lower reed switch 6 is set to a distance corresponding to the water level difference between when the water tank to which the sensor is attached is full and when the water tank is dry.

On the other hand, a ring-shaped magnet 8 is attached to the inner peripheral surface or the inside of the float 2 which moves up and down, and when the float 2 moves up and down according to the fluctuation of the water level, it faces the magnet 8. The upper reed switch 5 or the lower reed switch 6 on the side is configured to be turned on by its magnetic force. Reference numeral 9 is a code for extracting the contact signals of the lead switches 5 and 6.

The conventional water level sensor having the above structure is mounted on the upper wall surface of the water tank 10 as shown in the figure, and is exposed to the inside of the tank. The water level in the tank is detected and the water level is detected as follows. Is to adjust.

That is, when water is supplied from a water supply device (not shown) and the water level in the tank rises and the float 2 reaches the position of the upper reed switch 5, the upper reed switch 5 is sensitive to the magnetic force of the magnet 8. Turn on.
This switch-on is led to a control device (not shown) through the code 9 to stop the water supply by the water supply device. Also,
On the contrary, when the water level in the tank drops and the float 2 reaches the position of the lower reed switch 6, the lower reed switch 6 is turned on in response to the magnetic force of the magnet 8. This switch-on is also led to the control device through the code 9 to start the water supply by the water supply device.

As described above, by controlling the on / off state of the water supply device according to the on / off state of the upper reed switch 5 and the lower reed switch 6, the water level in the water tank 10 always gives the maximum water level. And the lower reed switch 6 which provides the minimum water level.

[0008]

By the way, in the above-mentioned conventional water level sensor, the sensor case 1 and the float 2 are left exposed. Therefore, if the water accumulated in the tank contains oil, impurities, dust, or other dirt, if the oil, impurities, dust, or the like adheres to the surface of the sensor case 1 or the float 2, the float. 2 becomes difficult to move, and there is a problem that the function as a water level sensor is impaired.

In this way, once the dirt adheres, the water level sensor must be disassembled and washed in order to restore its function, which requires a great deal of labor for maintenance and the cost thereof is ridiculous. Such a problem particularly occurs remarkably in a water tank of a water filter type oil removing device installed in a range hood such as a food processing plant, a restaurant, a kitchen, etc., which often uses a large amount of oil.

Further, in the conventional water level sensor, since the sensor case 1 and the float 2 are exposed as described above, the water surface L in the tank is wavy and sways up and down as shown in the figure. In such a case, the float 2 also moves up and down accordingly, and there is a problem that the water level cannot be accurately detected. Since the water filter type oil removing device described above is configured to remove the oil content, impurities, dust, etc. contained in the flue gas by passing the flue gas through the water filter configured in the water tank portion, The water in the water tank often swells due to the stirring action when passing the smoke exhaust, causing the water surface to shake up and down.

The present invention has been made in order to solve the above-mentioned problems, and prevents dirt such as oil, impurities and dust from adhering to the sensor main body portion such as the sensor case and the float. An object of the present invention is to provide a water level sensor that can accurately detect the water level without being affected by the case where the water surface in the tank is wavy and sways up and down.

[0012]

In order to solve the above problems, the present invention employs the following means. That is,
The invention according to claim 1 comprises a sensor body and an external case accommodating the sensor body, wherein the sensor body is at least a switch that operates in response to magnetism, and a water level located near the switch. And a float attached with a magnet that moves up and down in accordance with the change of the external case, the outer case is provided with a water injection nozzle and an air vent hole at the upper end of the case that does not sink below the water surface It is configured by providing an inlet / outlet port at the lower end position.

With such a structure, dirt such as oil, impurities, and dust floating near the surface of the water can enter the outer case through the inlet / outlet port that is submerged at a predetermined depth below the surface of the water. The inside of the outer case is kept clean and clean. Therefore, oil and impurities,
It is possible to prevent the float 2 from becoming stuck due to dirt or other stains.

Further, the invention according to claim 2 is the invention according to claim 1, wherein a water flow diffusion plate having a water sprinkling hole is provided below the water injection nozzle inside the outer case. Is.

In the case of such a structure, the injected water is sprayed through the water spray holes of the water flow diffusion plate into the entire outer case, so that the sensor body housed in the outer case can be efficiently washed. You can

Further, in the invention according to claim 3, in the invention according to claim 1 or 2, the diameters of the air vent hole and the inlet / outlet port are set to a size that gives a wave canceling action to the water surface in the outer case. Is.

With such a structure, even if the water in the tank sways and sways up and down, the amount of air and water entering and exiting the outer case is regulated by the air vent hole and the inlet / outlet port.
Fluctuations in water level in the outer case are smoothed. Therefore, the water level in the outer case can be kept constant.

[0018]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. 2 to 4 show an example of an embodiment of a water level sensor according to the present invention. FIG. 2 is a perspective view, FIG. 3 is a partially cutaway perspective view, and FIG. 4 is a longitudinal sectional view. In these figures, the same parts as those of the conventional water level sensor (FIG. 5) described above are designated by the same reference numerals.

In the figure, 1 is a sensor case, 2 is a float, 3 is an upper stopper, 4 is a lower stopper, 5 is an upper reed switch, 6 is a lower reed switch, 7 is a resin for filling the reed switch, 8 is a magnet, Reference numeral 9 is a cord for extracting contact signals of the reed switches 5 and 6,
The parts shown by the reference numerals 1 to 9 have the same structure as the conventional water level sensor (FIG. 6) described above. Therefore, in the following, the conventional water level sensor portion consisting of the reference numerals 1 to 9 will be referred to as a sensor body.

According to the present invention, the sensor body is housed in a cylindrical outer case 11 and the sensor case 1 is fixed to the ceiling of the outer case 11 to integrate the sensor body and the outer case 11. is there. Then, the water injection nozzle 12 is provided in the peripheral wall portion near the upper end of the outer case 11, and the inlet / outlet port 13 is formed in the lower bottom portion of the outer case 11. Furthermore, a large number of water spray holes 1 are provided below the water injection nozzle 12.
The water flow diffusion plate 14 having the holes 4a is arranged, and the air vent hole 15 is formed in the peripheral wall portion below the water flow diffusion plate 14.
Is perforated.

The water flow diffusion plate 14 is provided to enhance the cleaning effect at the time of pouring water, as will be apparent from the operation description below, and the hole at the center of the water flow diffusion plate 14 is
The size is such that a gap G ₁ is formed between the outer peripheral surface of the sensor case 1 and the water flow diffusion plate 14, and
A protrusion 16 for forming a gap G ₂ between the inner peripheral surface of the outer case 11 and the water flow diffusion plate 14 is formed on the peripheral edge of the water flow diffusion plate 14, and the water flow diffusion plate 14 has the protrusion 16.
Is fixed to the inner surface of the outer case 11 (see FIG. 3).
reference).

In the illustrated example, the water injection nozzle 12 is provided on the peripheral wall portion of the outer case 11, but it may be provided on the upper end ceiling portion of the outer case 10. Further, although the inlet / outlet port 13 is formed in the lower bottom portion, it does not have to be the lower bottom portion, and may be the outer case 11 at a submerged depth position where dirt such as oil, impurities, and dust floating near the water surface L does not enter. It may be formed on the peripheral wall portion near the lower end. Further, the air vent hole 15 may be formed at any position of the outer case 11 as long as it does not sink below the water surface.

Next, the water level detecting operation of the water level sensor of the present invention having the above structure will be described with reference to FIG. The water level sensor of the present invention is, as shown in FIG.
By attaching the water injection nozzle 12 to the water supply pipe 17 arranged at a predetermined position such as a side wall of the water tank, the entire outer case 11 is fixedly arranged at a predetermined height position in the water tank 10 for use.

In FIG. 1, when water W is supplied from a water supply device (not shown) through the water supply pipe 17, the water W is injected from the water injection nozzle 12 into the outer case 11. Then, this injected water is indicated by an arrow (a) in the figure.
As shown in (b) and (c), the water spray holes 14 of the water flow diffusion plate 14
a, a gap G ₁ between the outer peripheral surface of the sensor case 1 and the water flow diffusion plate 14 and a gap G ₂ between the inner peripheral surface of the outer case 11 and the water flow diffusion plate 14 are ejected downwards to the outer case. 1
Water is poured into 1.

When water is poured into the outer case 11 as described above, the water level in the outer case 11 tries to rise by the amount of the poured water, but the outer case 11 has an air vent hole 15 Since the inlet / outlet port 13 is formed, the water in the outer case 12 and the water in the outer tank can freely flow in and out through the inlet / outlet port 13. Therefore, the water level in the outer case 11 quickly equilibrates with the outer water level through the inlet / outlet port 13 and becomes the same water level.

When the water level in the tank rises due to the water injection and the float 2 reaches the position of the upper reed switch 5, the upper reed switch 5 is turned on in response to the magnetic force of the magnet 8. This switch-on is led to the control device (not shown) through the code 9, and the water supply by the water supply device (not shown) is stopped. On the contrary, when the water level in the tank decreases and the float 2 reaches the position of the lower reed switch 6, the lower reed switch 6 is turned on in response to the magnetic force of the magnet 8. This switch-on is led to the control device through the code 9, and the water supply by the water supply device is started.

As described above, the water level sensor of the present invention is
The water level in the tank can be detected in exactly the same way as the conventional water level sensor, but in addition, dirt such as oil, impurities, and dust that cannot be achieved by the conventional water level sensor adheres to the sensor body. The preventive action, the washing action, and the wave-dissipating action for stabilizing the water level detection can be realized.

First, the effect of preventing oil, impurities, dust, etc. from adhering will be described. In the case of the water level sensor of the present invention,
The water in the outer case 11 has an inlet / outlet port 13 formed on the lower bottom surface.
It communicates with the water outside the sensor only through. In general,
Dirt such as oil, impurities, and dust often floats or drifts near the water surface L. In particular, the most problematic oil content is lighter than water, so it always floats near the water surface L.

Therefore, the oil, impurities, dust, etc. floating near the water surface L cannot enter the outer case 11 through the inlet / outlet port 13 submerged at a predetermined depth position below the water surface. For this reason, the inside of the outer case 11 is maintained in a clean state where oil, impurities, dust, etc. do not enter, and the sensor case 1 and the float 2 built in are stuck with oil, impurities, dust, etc. There is no such thing.

In addition, since an overflow pipe for discharging excess water is usually installed in this type of water tank, automatic water injection is performed at regular intervals apart from the water injection operation by the water level detection described above. If the outer case 11 is filled with clean water as much as possible and the ratio of dirty water is controlled to be as small as possible, the adhesion of the dirt can be further prevented.

Next, the cleaning operation inside the sensor will be described. The water injected from the water injection nozzle 12 is diffused by the water flow diffusion plate 14, and the water spray holes 14 of the water flow diffusion plate 14 are dispersed.
a, a gap G ₁ between the outer peripheral surface of the sensor case 1 and the water flow diffusion plate 14, and a gap G ₂ between the inner peripheral surface of the outer case 11 and the water flow diffusion plate 14, and arrows (a), (b). It flows down like (C). Therefore, among these, the arrow (a) that flows down through the water spray holes 14 a of the water flow diffusion plate 14.
The water indicated by is poured mainly around the float 2, and the surface of the float and its peripheral members is washed by the water flow.

The water indicated by the arrow (b) flowing down through the gap G ₁ between the outer peripheral surface of the sensor case 1 and the water flow diffusion plate 14 mainly flows down along the outer surface of the sensor case 1. The outer surface of the sensor case 1 is washed with the water flow. Further, the water indicated by the arrow (c) flowing down through the gap G ₂ between the inner peripheral surface of the outer case 11 and the water flow diffusion plate 14 is mainly the outer case 11.
The inner wall surface of the outer case 11 is washed by the water flow. In this way, every time water is injected from the water injection nozzle 12, the inside of the sensor is automatically cleaned and dirt is prevented from adhering to the sensor.

Further, the wave-dissipating action for stabilizing the water level detection will be described. The outer case 11 is connected to the outside by an inlet / outlet port 13 formed in the lower bottom part thereof and an air vent hole 15 formed in the upper end of the case. There is. Therefore, if the hole diameters of the inlet / outlet port 13 and the air vent hole 15 are set to appropriate sizes, and the amounts of air and water entering and exiting are appropriately regulated, the water surface L on the outer side of the outer case 11 is wavy as shown in the figure. Even if it is shaking vertically, the fluctuation can be canceled out inside the case and the water surface can be smoothed. For this reason, even if the external water surface L sways up and down, the water surface in the outer case 11 does not fluctuate up and down, and an accurate water level can always be detected.

In the above example, for convenience of explanation, the case of detecting the water level of water is taken as an example, but a liquid other than water can be measured. Also, for the water injected from the water injection nozzle 12, for example, a cleaning liquid can be used depending on the application. Also, the reed switch is used as a switch for detecting the water level that is sensitive to the magnet, but is not limited to this.
For example, a magnetically sensitive semiconductor switch or the like can be used.

Further, when the water injected from the water injection nozzle 12 is tap water or the like, the water injection nozzle 1 may be used as necessary.
A ceramic or the like that removes chlorine in tap water to convert hard water into soft water may be placed in a space formed between the water flow diffusion plate 14 and the water flow diffusion plate 14.

Although the embodiments of the present invention have been described above, the present invention is not limited to these, and various modifications can be made in accordance with the gist of the invention.

[0037]

As described above, according to the first aspect of the present invention, the water injection nozzle and the air vent hole are provided at the upper end of the outer case housing the sensor body, and the inlet / outlet port is provided at the lower end of the case. Therefore, dirt such as oil, impurities, and dust floating near the water surface will not easily enter the outer case. Therefore, the inside of the outer case is kept in a clean state where dirt does not enter, and there is no possibility that dirt such as oil, impurities or dust adheres to the sensor body and the float does not move.

Further, according to the invention of claim 2,
Since the water flow diffusion plate with the water spray holes is provided below the water injection nozzle inside the outer case, the injected water is sprayed into the outer case by the water flow diffusion plate. Therefore, the sensor main body can be washed more efficiently than when water is poured directly from the water injection nozzle.

Further, according to the third aspect of the invention, since the diameters of the air vent hole and the inlet / outlet port are set to a size that gives a wave-dissipating action to the water surface in the outer case, the water outside the outer case is waved. Even if it strikes and shakes up and down, the fluctuation of the water level in the outer case can be smoothed and kept constant. Therefore, the water level can always be detected accurately.

[Brief description of drawings]

FIG. 1 is an operation explanatory view of a water level sensor of the present invention.

FIG. 2 is a perspective view of a water level sensor of the present invention.

FIG. 3 is a partially cutaway perspective view of the water level sensor of the present invention.

FIG. 4 is a vertical sectional view of the water level sensor of the present invention.

FIG. 5 is a vertical sectional view showing the structure of a conventional water level sensor.

[Explanation of symbols]

1 Sensor Case 2 Float 3 Upper Stopper 4 Lower Stopper 5 Upper Reed Switch 6 Lower Reed Switch 7 Filling Resin 8 Magnet 9 Code 10 Water Tank 11 Outer Case 12 Water Injection Nozzle 13 Inlet / Outlet Port 14 Water Flow Diffuser 14a Water Spray Hole 15 Air Vent Hole 16 Protrusion 17 Water supply pipe W Water L Water surface G ₁ Gap between outer peripheral surface of sensor case and water flow diffusion plate G ₂ Gap between inner peripheral surface of outer case and water flow diffusion plate

Claims (3)

[Claims] 1. A sensor main body and an external case accommodating the sensor main body, wherein the sensor main body is at least a switch that operates in response to magnetism, and is located in the vicinity of the switch according to a change in water level. It is composed of a float to which a magnet that moves up and down is attached, and the outer case is provided with a water injection nozzle and an air vent hole at a case upper end position that does not sink below the water surface,
A water level sensor, which is equipped with an inlet / outlet port at the bottom end of the case that sinks below the surface of the water. 2. The water level sensor according to claim 1, further comprising a water flow diffusion plate having a water sprinkling hole, which is located below the water injection nozzle inside the outer case. 3. The water level sensor according to claim 1, wherein the diameters of the air vent hole and the water inlet / outlet port are set to a size that gives a wave canceling action to the water surface in the outer case.