TR201612420A2 - A REFRIGERATOR WITH ICE MAKING UNIT - Google Patents

Abstract

The present invention provides a cabinet (2), at least one freezing chamber (3) in the cabinet (2), in which the food to be frozen is placed, and a plurality of cells (2) in the freezing chamber (3), in which water is placed to form pieces of ice (2). 4) a refrigerator (1) having at least one ice container (5) having a body (6) in which the ice container (5) is placed, an ice making unit (8) having a housing (7) in which the body (6) is located. ) is about.

Description

DESCRIPTION A REFRIGERATOR WITH ICE MAKING UNIT This invention is an ice making unit that enables transparent ice chips to be obtained. Containing a refrigerator.

In ice making units used in refrigerators, the mains water is usually Ice pieces are obtained by freezing. A typical tap water, air impurities such as bubbles, dust, chlorine, minerals and foreign particles contains. Such impurities in the frozen water are foggy in the ice chips. causes an image to appear and visually enhances the user experience. causing adverse effects. Also, due to gases dissolved in water Ice also causes changes in taste and odor in foods. known technique In order to obtain transparent ice in case of separating it from inside, fractional freezing, There are various methods such as freezing and vacuuming from the center to the outside. takes. However, these methods cause difficulties in practice and by users because they cause excessive freezing time. are unusable. Therefore, high transparency ice particles An ice-making unit with an ice-making unit that can be obtained simply and in optimum time. refrigerator is needed.

Japanese patent numbered JPH0611219 in the state of the art In the application, on the bottom surface of a cover that covers the ice cabinet, ice-water There is a heater that prevents the top surface of the mixture from freezing. is explained. Thus, the gases escape from the last frozen surface of the ice. can be removed. However, in this application, both and freezing time are prolonged. evaporation of water as both ice pieces are exposed to direct thermal radiation. due to mass loss.

European patent numbered EP2743611 in the state of the art application of the hot air taken from the outside environment or a cooling compartment. by sending the water in the ice container from the bottom up Describes a refrigerator that ensures correct freezing. However, this In practice, the uncontrolled freezing of outdoor air at variable temperature and fast heat changes increase the transparency rate. greatly affects.

The aim of this invention is to produce a high transparency ice cube. is the realization of a refrigerator with an ice making unit The first request made to achieve the purpose of this invention and depending on this request The refrigerator as defined in the claims, a cabinet, a freezer in the cabinet compartment, located within the freezer compartment, a casing, contained within the casing area, a body in which the freezing process takes place and placed in the body, at least one ice cube with multiple cells on which water is filled Includes an ice making unit with cabinet.

The refrigerator, which is the subject of the invention, almost completely surrounds the ice cabinet. body, at least one heater and heater positioned between the housing and the body at least one fan that circulates the air passed over it in the body contains. The fan sucks the air on the ice box and sends it to the heater and By blowing the heated air back into the body, the body of the heat carried over the heater allows it to spread. Thus, the water in the cells directly It prevents exposure to thermal radiation and provides an independent warm temperature on the ice tray. air circulation is provided between the lower and upper parts of the ice cabinet. a temperature difference is created. In this way, the ice making process can be carried out efficiently. is carried out and each of the ice pieces is made in the same transparency and in equal time. can be produced.

In another embodiment of the invention, from the inner surface of the hull to the ice cabinet. extending, resting on the edge of the ice cabinet inside the hull above the ice cabinet There is at least one support that enables the creation of a separate volume remaining.

Thus, the bottom and upper surface of the ice cabinet are separated from each other and the cells high transparency ice by creating an effective temperature differential on the parts are obtained.

In another embodiment of the invention, at least one temperature sensor measures the temperature of the heater. measures the heater and according to the data received from a control unit temperature sensor. It allows it to be operated at an almost constant temperature. In this way, the body the temperature of the circulating air is simply under control can be held.

In another embodiment of the invention, ice is placed inside the body at the bottom and top of the cabinet. A double temperature sensor is placed on the side and the control unit the base of the ice-water mixture by following the data from the temperature sensors and in a predetermined temperature range of the temperature difference between It operates the heater in a way that ensures that it is kept. In this way, cells The temperature differential applied on the water-ice mixture in it is precisely can be adjusted.

In another embodiment of the invention, the heater is placed between the base and the top surface of the cells. Achieve a temperature differential of 4 degrees Celsius to 6 degrees Celsius It is operated in the way it will be.

Thanks to this invention, an independent hot air cycle over the cells realizing the formation of transparent ice effectively and efficiently is provided.

In order to achieve the aim of this invention, the refrigerator realized is in the attached figures. has been shown, from these figures; Figure 1 - Side schematic of the refrigerator of an embodiment of the invention is the view.

Figure 2 - Side schematic of the freezer compartment of an embodiment of the invention is the view.

Figure 3 - Top of the body, heater and fan of another embodiment of the invention perspective view.

Figure 4 - Front schematic of the ice making unit of another embodiment of the invention is the view The parts in the figures are numbered one by one and the corresponding numbers are given below. 1. Refrigerator Ice cream compartment ice container Casing ice making unit . temperature sensor . Control unit . via rotation Refrigerator (1), a cabinet (2), of the food to be frozen in the cabinet (2) at least one freezer compartment (3) and the freezer compartment (3) There is a multitude of water in which water is put to form ice pieces. at least one ice cabinet (5) with a cell (4), an ice cabinet (5) in which the ice cabinet (5) is placed an ice pack having a body (6), a housing (7) in which the body (6) is housed. making unit (8). Refrigerator (1) also in the water to be frozen a tank (not shown in the drawings) where the water in the tank is stored in the ice container. a water addition apparatus (not shown in the drawings) and ice The user's ice cabinet (5), connected to the cabinet (5), is located around a horizontal axis. which allows it to rotate so that pieces of ice are removed from the ice cabinet (5). separated and poured into a chamber (14) located under the ice cabinet (5). It includes a rotating means (15) that provides it.

The refrigerator (1), which is the subject of the invention, almost completely covers the ice cabinet (5). The ice making process, which takes place between the covering body (6), the housing (7) and the body (6) at least one heater (9) and The air heated by the heater (9) on the body (6) enters the body (6). blown and passed over the ice container (5) to the heater (9) It includes at least one fan (10) that allows it to be sent. The heater (9) outside of the body (6) in such a way as to prevent it from reaching the ice container (5). is placed. The fan (10) sucks the air inside the body (6) towards the heater (9). The heater (9) ensures that it passes over and returns the heated air to the body (6). blows in. The hot air blown by the fan (10) enters the body (6). disperses and ensures a homogeneous heat distribution on the ice container (5). it provides. Thanks to the hot air cycle created on the ice container (5), by preventing the freezing of the upper surface of the water-ice mixture in the cells (4). It is ensured that the dissolved gases are removed from the upper surface and the bottom of the ice cabinet (5) transparency by creating a controlled temperature difference between its surface and its upper surface. rate is increased.

In one embodiment of the invention, the ice making unit 8 will be below the heater 9 The air inlet, which is located on the body (6) in the figure, in which the fan (10) is placed. at least one slot (ll) with more than one hole (12) allowing its exit contains. The slot (11) is in the form of a recess formed in the ceiling of the body (6) and the fan (10) will be placed on the body (6) between the heater (9) and the ice container (5). allows it to be placed in a row. In this way, the heat is transferred through the heater (9). can be efficiently transferred to the passed air.

In another embodiment of the invention, inside the body (6), extending towards the ice cabin (5), Based on the ice cabinet (5), the volume of the body (6) together with the ice cabinet (5) is doubled. There is at least one support (II) that ensures its separation. abutment (ll) ice between the ice box (5) and the wall of the body (6) it helps to close the gap. In this way, the hot air in the ice cabinet (5) access to the lower part is prevented and the hot air cycle is only in the ice cabinet (5). It is provided to be performed on the upper surface. Thus, water-ice By providing an effective temperature difference between the lower part and the upper part of the mixture It is ensured that the dissolved gases are completely removed from the ice-water mixture and transparency rate is increased.

In another embodiment of the invention, at least two abutments (1 1) are attached to both sides of the ice cabinet (5). It is located on the opposite walls of the body (6) so that it is next to it. one of which will rest on the ice cabinet (5) from the bottom and the other to the ice cabinet (5) from the top. They are positioned staggered relative to each other to withstand In this way, After ice making, using the user's rotation tool (15) while discharging the ice cubes into the chamber (14), they are relative to each other on the vertical axis. that the slidingly positioned abutments (l 1) do not rotate prevent it from impeding its movement.

In another embodiment of the invention, near or above the heater (9), the heater There is at least one temperature sensor (12) that allows the temperature of (9) to be determined. and a control unit (13) of the heater (9) according to the data received from the temperature sensor. It allows it to be operated in a predetermined temperature range. Control unit (13) continuously monitors the data received from the temperature sensor (12) and In case the temperature reaches an upper limit value, it turns off the heater (9). unit (13) turns the heater (9) on again, heating the air inside the body (6). it provides. The temperature sensor (12) indicates a certain temperature by turning the heater (9) on and off. to be integrated with a thermostat that allows it to work in the temperature range on the heater (9) or near the heater (9) as a separate structure. can be placed. .In this way, the heater (9) can reach high temperature values. the effect of the melt-freeze chamber (3) on the cooling performance is avoided.

In another embodiment of the invention, inside the body (6), on the underside of the ice cabinet (5). and at least one pair of temperature sensors (12) on its upper side, and the control unit (13), according to the data it receives from the temperature sensors (12), The temperature difference between the bottom and the top is a predetermined temperature. It enables the heater (9) to be operated so that it is kept within the range. Heat sensors (12) are separated from each other by means of stops (11) inside the body (6). to the bottom and top of the ice cabinet (5) to be included in the volumes. is placed. The data received from the temperature sensors (12) of the control unit (13) a constant temperature between the bottom and the top of the ice cabinet (5) The heater (9) turns on and off so that the differential is formed. In this way, ice The cold volume below the cabinet (5) and the heater (9) above the ice cabinet (5) The temperature difference between the volume heated by means of can be achieved. Thus, considering that its resolution changes with temperature, effective removal of dissolved gases from water and ideal transparency is obtained.

In another embodiment of the invention, the heater (9) is placed between the bottom and the top of the ice cabinet (5). A temperature difference of 4 degrees Celsius to 6 degrees Celsius will be created between it is operated in the following way. In this way, the degree of transparency and ice making time An optimum balance is achieved between

By means of this invention, a homogeneous hot air is formed on the upper surface of the ice cabinet (5). By creating a flow of ice, pieces of ice with equal transparency are obtained. Like this, The degree of transparency changes according to the distance of the cells (4) to the heater (9). display is prevented. With this invention, the bottom surface of the ice cabinet (5) and by providing an effective temperature differential between the upper surface of the ice making process. A refrigerator (1) is obtained in which it is carried out quickly and with high efficiency. has been made.

Claims (3)

REQUESTS A cabinet (2) consists of at least one freezer compartment (3) in which the foods to be frozen are placed in the cabinet (2), and more than one cell (4) in the freezer compartment (3), in which water is filled to form ice pieces. 0 ice cabins (5 ) almost completely covering the body (6), at least one heater (9) and 0 body (6) located between the 0 housing (7) and the body (6), which ensures the heating of the air inside the body (6) during the ice making process. a refrigerator (1), which is characterized by at least one fan (10) located above it, which allows the air heated by the heater (9) to be blown into the body (6) and passed over the ice container (5) to be sent back to the heater (9). Claim 1, which is characterized by at least one abutment (II) located inside the body (6), extending towards the ice cabinet (5), and which, based on the ice cabinet (5), allows the volume of the body (6) to be divided into two together with the ice cabinet (5)” a refrigerator as in (1). At least two abutments (l) located on opposite walls of the hull (6) on both sides of the ice cabinet (5), positioned staggered against each other, one of which will be supported by the ice cabinet (5) from below and the other will be supported by the ice cabinet (5) from above. A refrigerator (1) as in claim 1, characterized by 1. at least one temperature sensor (1 2) and a control unit (1), which enables the heater (9) to be operated in a predetermined temperature range according to the data received from the temperature sensor. A refrigerator (1) as in any one of the above claims, characterized by 3). . The temperature difference between the bottom and the top of the ice cabinet (5) according to the data it receives from at least one pair of temperature sensors (12) and temperature sensors (12) located inside the body (6), at the bottom and top of the ice cabinet (5) A refrigerator (l) as in Claims 1 to Claims 1, characterized by a control unit (13) that enables the heater (9) to be operated in a predetermined temperature range. . A refrigerator ( l) as in Claim 4 or Claim 5, characterized by the heater (9) operated in such a way that a temperature difference of 4 degrees Celsius to 6 degrees Celsius is created between the bottom and the top of the ice cabinet (5).