KR20040049677A - Device for sensing water level of ice tray for refrigerator - Google Patents

Abstract

PURPOSE: An apparatus for sensing a water level of an ice-making container in a refrigerator is provided to sense a water level by an optical sensor, thereby improving the reliability of an ice-making container. CONSTITUTION: An ice-making container(10) receives water for making ice. An auxiliary container part(12) is connected with the ice-making container by a communicating part(14) and is formed on a side of the ice-making container to have the same water level as a water level of the ice-making container. A buoyant body(16) is contained in the auxiliary container part, having certain buoyancy toward the supplied water. An optical sensor(20) is installed at an upper part of the auxiliary container part to sense the buoyant body rose by the water levels of the ice-making container and the auxiliary container part. The optical sensor includes a light emitting element(20a) and a light receiving element(20b).

Description

Device for sensing water level of ice tray for refrigerator}

The present invention relates to an ice maker of a refrigerator, and more particularly, to an apparatus for detecting a water level of water supplied to an ice maker of a refrigerator ice maker.

Recently launched large refrigerators have built-in ice makers that can produce some form of ice. The ice maker is configured to discharge ice inside the ice maker container to the ice storage container by using the ice maker when the ice maker supplies a fixed amount of water to the ice maker container and then freezes for a predetermined time by supplying cold air. It is common.

Such supply of ice-making water and detection of ice-making completion are made by sensing the temperature of the ice-making container using a temperature sensor. That is, according to the conventional ice maker, in order to control the completion of ice making and the amount of water supply, the temperature change of the ice maker is sensed, and control is performed based on this.

However, the following disadvantages can be pointed out in the part using the temperature sensor by sensing the temperature of the ice making vessel. That is, in the ice maker, since the temperature difference at the time of water supply and the completion of ice removal is not so large, accurate temperature detection is required. Therefore, there is a high possibility that a normal operation may not be possible or a malfunction may be caused by a detection error of the temperature sensor.

In addition, for sensitive temperature sensing, the temperature sensor should be closely attached to the ice making container by using a separate attachment device.

It is an object of the present invention to provide a sensing device capable of more accurately sensing the water level of an ice making container.

Another object of the present invention is to provide an apparatus capable of detecting the water level of the ice making container with a simpler structure.

1 is a cross-sectional view showing a water level detection device of the ice making container according to the present invention.

Explanation of symbols on the main parts of the drawings

10 ..... De-icing container 12 ..... Auxiliary container

16 ..... Buoyancy Body 20 ..... Light Sensor

The water level detection device of the ice-making container according to the present invention for achieving the above object, the ice-making container is supplied with water for ice making; An auxiliary container connected to the ice-making container and communicating with the ice-making container, the auxiliary container being formed on the side of the ice-making container so as to have the same water level as the ice-making container; A buoyancy body accommodated in the auxiliary container part and having a predetermined buoyancy with respect to the water to be supplied; And it is configured to include an optical sensor for detecting the buoyancy body rising by the water level of the ice making container and the auxiliary container.

Since the water level detection device according to the present invention uses an optical sensor that senses light emission and light reception, more accurate water level detection is possible, and the overall level can be implemented using a simple structure.

Next, the present invention will be described in more detail with reference to the embodiments shown in the drawings.

1 is a cross-sectional view of an ice making container equipped with a sensing device according to the present invention by way of example. As shown, the ice making container 10 according to the present invention is a container capable of receiving and supplying water capable of forming ice. And one side wall of the ice-making container 10 by this invention is provided with the auxiliary container part 12 which can be communicated by the communication part 14. As shown in FIG. Since the auxiliary container part 12 and the ice making container 10 are connected to each other by the communication part 14 at the lower part of the auxiliary container part 12, for example, water supplied to the ice making container 10 is provided. Silver, can be introduced into the auxiliary container (12).

And the height of the auxiliary container portion 12, it should be molded higher than the water level of the water supplied once for ice making in the ice making container (10). Therefore, the water to be iced is supplied to the ice making container 10 so that the proper water level is maintained, the water will not overflow through the upper portion of the auxiliary container part 12.

The buoyancy body 16 is accommodated in the auxiliary container part 12. The buoyancy body 16 is floated upward by the buoyancy force to the water introduced into the auxiliary container portion 12 through the communication portion 14 in the ice making container 10.

An optical sensor 20 is provided above the auxiliary container 12. The optical sensor 20 is capable of detecting a state in which the buoyancy body 16 is raised to the upper side (in front of the optical sensor). In the illustrated embodiment, the optical sensor 20 may include a light emitting device 20a and a light receiving device 20b that are installed with the buoyancy body 16 interposed therebetween.

Alternatively, the optical sensor 20 may be configured of one light emitting device and one light receiving device. In the case of using an optical sensor in which the light emitting device and the light receiving device are integrated as described above, one side of the buoyancy body 16 (the surface facing the optical sensor) should be treated with a material capable of reflecting light.

Next, the operation of the level sensor according to the present invention having the above configuration will be described.

First, when water for ice making is supplied to the ice making container 10, the water is introduced into the auxiliary container part 12 through the communication part 14. When water flows into the auxiliary container part 12, the buoyancy body 16 floats on the surface of the water.

When the buoyancy body 16 floats, the light emitting device 20a and the light receiving device 20b are blocked, so that the optical sensor 20 can detect the water level of water currently supplied to the ice making container 10. do.

At this time, when the buoyancy body 16 is raised by the water and the state is detected by the optical sensor 20, the water supply amount can be controlled by immediately stopping the water supplied to the ice making container 10. Alternatively, after the optical sensor 20 detects that the buoyancy body 16 has risen, a predetermined time elapses, the water supplied to the ice making container 10 may be stopped.

Here, if the water level at the moment detected by the optical sensor 20 by the rise of the buoyancy body 16 is a suitable water level to perform ice making, it should be controlled to immediately stop the water supply. If the level of the moment when the rising of the buoyancy body 16 is detected by the optical sensor 20 is not enough to perform ice making, it should be controlled to stop the water supply after a predetermined time. Such a control process should be determined based on the installation position and height of the auxiliary container part 12, the vertical length of the buoyancy body, and the like.

When the optical sensor 20 detects the rise of the buoyancy body 16, when the optical sensor 20 is configured by the light emitting device 20a and the light receiving device 20b, the buoyancy is reduced. By blocking the sieve 16 between the light emitting device 20a and the light receiving device 20b, the water level of the ice making container 10 may be sensed.

When using an optical sensor in which the light emitting element and the light receiving element are integrated, the side surface of the buoyancy body facing the optical sensor is made of a material capable of reflecting light, thereby forming the ice making container 10. You will be able to detect the water level.

Then, when the appropriate amount of water is supplied through the water level detecting device of the present invention as described above, the water supply is stopped. The stopping of the water supply may be performed by controlling a valve installed in a supply pipe for supplying water to the ice making container.

In such a state that an appropriate amount of water level is maintained, the ice making device freezes the water inside the ice making container by ice generated and supplied from the refrigerator to completely ice the water. After the ice making process, the water inside the ice making container 10 is completely frozen, and the ice making process is performed. In order to proceed with the ice-making process, the heaters installed on the outer surface (for example, the lower surface and the side surface) of the ice making container generate heat. By the heat generated by the heater, the part in contact with the ice in the ice making container 10 will be melted, so that the interior ice can be separated from the ice making container 10 substantially.

In this process, the ice around the buoyancy body 16 inside the auxiliary vessel 12 is also melted. In this state of melting some ice, the ice inside the ice-making container 10 is emptied. The emptying of the ice in the ice making container 10 may have various processes depending on the shape of the ice making device.

In this way, when the ice inside the ice making container 10 is removed, the buoyancy body inside the auxiliary container portion 12 is lowered again. The lowering of the buoyancy body 16 can be detected by the optical sensor 20, and when the lowering of the buoyancy body is made, the microprocessor recognizes that the water supply is possible again, and thus supplies water again. Control such as starting will be repeated.

According to the present invention as described above, by configuring the optical sensor to detect the buoyancy body rising by the water supplied to the ice making container 10, to configure the water level inside the ice making container as a basic technical gist. It can be seen that.

Within the technical scope of the present invention, it will be obvious that many other modifications are possible to those skilled in the art. And the present invention should be interpreted based on the appended claims.

According to the present invention as described above, the following effects can be expected.

First, according to the present invention, it is configured to detect the water level of the water supplied to the ice making container 10 by an optical sensor. Sensing by such an optical sensor is more reliable than the conventional sensing by the temperature sensor, it is possible to substantially increase the reliability of the ice making device itself. In addition, the sensing device according to the present invention is achieved by a substantially simpler structure, and thus it is possible to expect the advantage that it can be manufactured with an inexpensive manufacturing cost.

Claims (1)

An ice making container supplied with water for making ice; An auxiliary container connected to the ice-making container and communicating with the ice-making container, the auxiliary container being formed on the side of the ice-making container so as to have the same water level as the ice-making container; A buoyancy body accommodated in the auxiliary container part and having a predetermined buoyancy with respect to the water to be supplied; And An ice-making container water level detecting device of a refrigerator, characterized in that it comprises an optical sensor for detecting the buoyancy body rising by the water level of the ice-making container and the auxiliary container.