JPH0673087B2 - Liquid level controller - Google Patents

Description

TECHNICAL FIELD The present invention relates to a liquid level control device for controlling the liquid level in a water tank of an ice making machine, for example.

b. Prior Art FIG. 5 is a structural explanatory view showing an example of a conventional liquid level control device, and a guide portion 3 is provided above the highest liquid level 2 in the tank 1.
Is provided. The guide portion 3 is provided with legs 4 which are vertically slidable. At the base end of the leg body 4, a leg sliding portion
4a is formed.

A float 6 that moves up and down according to the displacement of the liquid level between the control liquid level 5 and the maximum liquid level 2 is attached to the tip of the leg 4.

In the conventional liquid level control device, the liquid level in the tank 1 is the maximum liquid level 2.
Prevents the guide part 3 from being hidden in the liquid when it rises to the point where high-viscosity liquid, dirt, etc. may adhere to both sliding surfaces of the guide part 3 and the leg sliding part 4a, causing malfunction. In order to do,
Was placed above the highest liquid level 2, but this one had the following drawbacks.

(1). When the liquid level difference between the maximum liquid level 2 and the control liquid level 5 becomes large, the leg body 4 must be lengthened in proportion to it, and the buoyancy force that the float 6 receives from the liquid surface causes the leg body 4 to move.
However, since the leg 4 needs to have appropriate rigidity in order to smoothly move up and down along the guide portion 3, the weight of the leg 4 becomes large and the response to the displacement of the liquid surface becomes slow.

(2). An appropriate clearance is required between the leg sliding portion 4a and the guide portion 3 so that the leg body 4 can smoothly move up and down according to the buoyancy of the float 6, and the length of the leg body 4 becomes large. Accordingly, due to this clearance, the inclination of the leg 4 with respect to the axis of the guide portion 3 becomes large, and accurate liquid level control cannot be performed.

c. Problems to be Solved by the Invention As described above, the conventional liquid level control device has a problem that the response to the height displacement of the liquid level is slow and the liquid level cannot be accurately controlled.

d Means for Solving Problems In the present invention, in order to solve the above problems, in a tank having a float that floats due to vertical movement of the liquid level,
A hollow case is provided with the top closed and the bottom open. This case is located in the tank so that the liquid level in the tank moves upward and the liquid level seals the bottom of the liquid level to form a sealed chamber in the case. Further, the case is formed with a guide portion for guiding the vertical movement of the float.

e. When the liquid level in the working tank is low and the closed chamber is not formed in the case, the float rises according to the liquid level in the tank. When the liquid level further rises, the liquid level contacts the lower end surface of the case, and a sealed chamber is formed in the case, the rising height of the liquid level in the case is suppressed by the pressure in the sealed chamber, It is much smaller than the liquid level in the tank, so that the guide part that guides the vertical movement of the float is not submerged.

f. Embodiment An embodiment of the liquid level control device of the present invention will be described below with reference to the drawings. FIG. 1 is a structural explanatory view showing an embodiment of the present invention, in which a hollow case 7 having a closed top and an open bottom has a tank 9 inside, and a guide portion 8 for the liquid inside the tank 9. It is provided to face the surface. Legs of this guide part 8
A leg slide portion 10a formed at the base end of 10 is slidably provided, and the leg body 10 is vertically movable with respect to the case 7. A float 11 that moves up and down according to the displacement of the liquid level in the tank 9 is provided at the tip of the leg 10.

The case 7 is attached to the tank 9 so that the liquid level in the tank 9 rises and the liquid level seals the bottom of the case 7 to form a sealed chamber 12 in the case 7. The volume in the closed chamber 12 becomes minimum when the maximum liquid level 13 in the tank is reached, and the pressure on the liquid level of the tank 9, the internal pressure 14 of the case, the specific gravity of the liquid, the maximum internal liquid level 13 of the tank and below the case 7 It is calculated by various factors such as the length L between the end surface 7a and the inner volume of the case 7. The tip of the guide portion 8 is positioned above the maximum liquid level 13a in the case so as not to be hidden from the maximum liquid level 13a in the case even when the liquid level in the tank 9 is the maximum liquid level 13 in the tank. There is.

In the liquid level control device configured as described above, the in-tank control liquid level 15 is the lower end surface 7a of the case 7 as shown by the broken line.
If it is higher than the above, the liquid level of the control liquid level in the case 15a can be easily understood by the calculation of the above element, and the height position of the float 11 is higher than that of the conventional control liquid in the tank. It goes down from the surface 15 to the control liquid surface 15a in the case. Further, as shown by the solid line, the control liquid level 16 in the tank is the lower end surface of the case 7.
When it is below 7a, the position of the float 11 becomes equal to the in-tank control liquid level 16. And the lower end surface of the case 7
When the in-tank control liquid level 16 is below 7a, the displacement difference h of the float 11 with respect to the liquid level difference H between the in-tank control liquid level 16 and the in-tank maximum liquid level 13 is greatly reduced. That is, the lengths of the guide portion 8 and the leg body 10 can be reduced accordingly. Further, even if the liquid level difference H between the in-tank control liquid level 16 and the in-tank maximum liquid level 13 becomes larger than that in the above-mentioned embodiment, the case 7 and the guide portion 8 are extended downward and sealed. Increase the internal volume of chamber 12 or
By extending the case rising portion 7b to the case 7 so that 17 is not hidden in the liquid, it is possible to avoid increasing the length of the leg 10.

Next, second and third embodiments of the liquid level control device of the present invention will be described with reference to the drawings. 2 and 3 are structural explanatory views of second and third embodiments of the liquid surface level control device of the present invention, in which the same or corresponding parts as in FIG. 1 are designated by the same reference numerals, and the description thereof will be omitted. . A groove-shaped guide portion 80 extending vertically is formed on the inner peripheral surface of the case 70 in FIG. The guide portion 80 corresponds to the guide portion 8 of the first embodiment and guides the float 110, which is displaced according to the vertical movement of the liquid level in the tank 9 and the case 70, through the leg 100. Is. Also, the guide 80
Is formed above the maximum liquid level 13a in the case so as not to be hidden from the maximum liquid level 13a in the case even when the liquid level in the tank 9 is the maximum liquid level 13 in the tank 9.

A guide portion 81 hangs down in the center of the case 71 in FIG. A float 111 is vertically slidably provided on the guide portion 81. In the case of this embodiment, the leg 10 of the first embodiment has been deleted, and the float 111 has the guide portion 8
Directly to 1. Therefore, there is no concern about delay in response or malfunction due to the leg body 10. Further, since the lower part of the guide portion 81 is always closed by the float 111, there is no possibility that the guide portion 81 is contaminated with the liquid. FIG. 6 is a structural explanatory view showing a fourth embodiment of the liquid level control apparatus of the present invention. The difference from the above-mentioned embodiment is that even if the liquid level in the tank 9 reaches the maximum liquid level 13 in the tank 9. That is, the float 11 is not stored in the closed chamber 12. But float
Since the lower end portion 8a of the guide portion 8 for guiding the vertical movement of 11 is located above the lower end surface 7a of the case 7, the liquid level in the tank 9 is the highest in the tank 9. Liquid level 13
The effect is the same that the guide portion 8 will not be contaminated with the liquid even when it reaches.

Although the closed chamber 12 is filled with air in any of the above-described embodiments, the present invention is not limited to this, and may be, for example, nitrogen gas or carbon dioxide depending on the type of gas on the liquid surface of the tank 9. It may be gas or the like.

Next, a case where the liquid level control device of the first embodiment is used for detecting the completion of ice making of an ice making machine will be described with reference to FIG. The maximum liquid level 20 in the tank 18 for storing water for making ice is obtained by supplying water for a certain period of time, and the excess water is discharged to the outside by an overflow pipe 19. The water in the water tank 18 is sent to the water spray pipe 23 by the pump 22, flows through the surface of the ice making plate 24 from the water spray holes 23a of the water spray pipe 23, and then returns to the water tank 18.

In this way, the water in the water tank 18 is used as an ice plate for the water tank 18.
By circulating on the ice making plate 24 while circulating between it and 24, the temperature of the circulating water gradually decreases, and finally the ice making plate 24 begins to freeze, and accordingly, the water in the water tank 18 The water level will drop.

In the case where the liquid level control device of the first embodiment is attached to the ice making machine configured as described above, when the water level in the water tank 18 is the maximum liquid level 20 in the tank, the case in the liquid level control device The inner maximum liquid surface 20a is pushed down to the vicinity of the lower end surface 7a of the case 7 by the air pressure in the closed chamber 12. For that reason,
With the guide portion 8 and the leg sliding portion 10a of the leg body 10 slidably provided on the guide portion 8, the water level in the water tank 18 is not hidden in the water even when it is at the maximum liquid level 20 in the tank. Absent.

A reed switch 31 is provided in the guide portion 8, and a magnet 30 is attached to the leg sliding portion 10a. When the magnet 30 approaches the reed switch 31, the liquid level inside the water tank 18 can be detected.

Next, the operation of the liquid level control device used in the ice making machine will be described. As the ice 25 grows, the water level in the water tank 18 drops, but if the water level is above the lower end surface 7a of the game 7, the float 11 descends as calculated by the above-mentioned factors. If it is lower than the lower end surface 7a of the case 7, the float 11 descends according to the water level in the water tank 18.

When the desired size of ice is obtained, that is, the detected water level
When the float 11 is lowered to 21, the magnet 30 of the leg sliding portion 10a crosses the reed switch 31 and gives a signal of completion of ice making. After that, a cycle for harvesting the ice 25 formed on the ice making plate 24 is entered, and at the same time, the water supply to the water tank 18 is started. When the ice 25 falls from the ice making plate 24, the ice guide plate 33 prevents the ice 25 from entering the water tank 18.
When the ice 25 drops from the ice making plate 24 and the water supply to the water tank 18 is completed, the above-mentioned ice making process is started again, and when the float 11 drops to the detected water level 21, the liquid level control device is activated again. .

g. Effect of the Invention As described above, according to the liquid level control device of the present invention,
A sealed chamber is formed in the case, and the float is displaced according to the fluctuation of the liquid level in the tank and the liquid level in the case due to the action of the guide part provided in the case. The effect is obtained.

(1). The guide part that guides the float keeps the liquid level in the case low due to the pressure in the sealed chamber even when the liquid level in the tank is the maximum, so it does not get dirty with liquid. The float can move up and down smoothly.

(2). Since the guide portion is provided in the case, even if a droplet is generated on the control liquid surface, the guide portion is not contaminated by the droplet and the float operates smoothly. Further, in the first, second and third embodiments, in addition to the above, due to the pressure in the closed chamber, the liquid level height in the case is kept low, and the maximum liquid level in the tank and the control liquid level Even if the difference is large, the displacement of the float is small, so that it is not necessary to use a long leg as in the above-mentioned conventional one, and an accurate and quick response to the height displacement of the liquid surface is possible.

[Brief description of drawings]

FIG. 1 is a structural explanatory view showing a first embodiment of a liquid level control device of the present invention, FIG. 2 is a structural explanatory view showing a second embodiment of the present invention, and FIG. 3 is a third embodiment of the present invention. 4 is a structural explanatory view when the liquid level control device of the first embodiment of the present invention is used for controlling the liquid level in a water tank of an ice making machine, and FIG. 5 is a conventional liquid level FIG. 6 is a structural explanatory view showing an example of a control device, and FIG. 6 is a structural explanatory view showing a fourth embodiment of the present invention. 7,70,71 …… Case, 8,80,81 …… Guidance section 9 …… Tank, 11,110,111 …… Float 12 …… Closed chamber

Claims (2)

[Claims] 1. A tank (9) containing a liquid, a float (11, 110, 111) which is displaced in accordance with the vertical movement of the liquid level in the tank (9), and provided in the tank (9). A hollow case (7,70,71) with its upper part closed and its bottom part open, and is provided in this case (7,70,71) to guide the vertical movement of the float (11,110,111). And a guide section (8,80,81) for the case (7,70,71)
By the upward movement of the liquid level in the tank (9), the liquid level seals the bottom of the case (7,70,71) to form a sealed chamber (12) in the case (7,70,71). As described above, it is located in the tank (9), and by forming the closed chamber (12), the guide part (8, 80, 81) is not hidden in the liquid. Characteristic liquid level control device. 2. The float (11,110,111) is displaced by the vertical movement of the liquid level in the case (7,70,71) that seals the bottom when the closed chamber (12) is formed. The liquid level control device according to claim 1, wherein