TR202010206A2 - COOLING DEVICE WITH ICE MAKING DEVICE - Google Patents

Abstract

The present invention includes an ice making device (1) that produces ice by means of the water provided; an ice store (2) in which the ices produced by the ice maker (1) are stored; It relates to a cooling device comprising an ice level lever (3) attached to the ice making device (1) in such a way that it can rotate up and down inside the ice tank (2), and a trigger means (4) that enables the ice level lever (3) to rotate.

Description

DESCRIPTION COOLING DEVICE WITH ICE MAKING DEVICE This invention relates to a cooling device, particularly a cooling device comprising an ice making device.

Cooling devices are used by many people on a daily basis. Important in kitchens It occupies a large volume and for this reason, users need to know that the cooling devices perform various functions. He requests that he bring it. These types of cooling devices contain an automatic ice-making mechanism. It is the result of a request. In such cooling devices, the ice making mechanisms are an ice maker. It includes an ice storage section where the ice cubes and produced ice pieces are stored.

Many manufacturers do not want users to interfere with ice making mechanisms. systems have been automated and thus ease of use has been provided to the user and the brand Its image has been improved. However, automation also has some problems such as detecting the ice level. has revealed. To detect the ice level in the ice tank, manufacturers usually preferably a motor or similar triggering means attached to the ice making device. It uses a level arm that can freely rotate up and down in the ice tank.

The ice level arm rotates in the ice tank at regular intervals and ensures that the ice in the ice tank is It perceives its depth. Although many different applications are being developed, a large part of the arms Some of them have complex structures that increase the production cost. Occurs due to ice level levers Another problem that arises is that the ice level arms take up a large volume in the ice tank and Therefore, it limits the ice storage capacity.

In the state-of-the-art patent document numbered US3863461A, an ice level a refrigerating device comprising an automatic ice making device with sensing means is explained.

In the patent document numbered U86161390A, which is in the state of the art, an ice making A cooling device containing the system and a method for controlling it are described.

The purpose of this invention is to create a system whose volume is reduced in order to increase the storage capacity of the ice tank. is the realization of the ice level lever.

Another purpose of this invention is to have a simplified structure that will reduce the production cost. is the realization of an ice level lever.

Another purpose of this invention is to produce devices that can make point contact and thus increase measurement sensitivity. is the realization of an ice level lever.

In the first claim and the claims related to this claim, which are made to achieve the purpose of this invention, The described method is used in a refrigeration device. The cooling device is an ice making device Contains. The ice maker produces ice using the water provided. ice making device It contains multiple empty volumes filled with water. Ice making device by freezing water operates a triggering means. The trigger means a container containing empty volumes. rotates and thus the ice cubes are discharged from the container. Ice due to gravity cubes fall into the ice tank. Ice maker rotatable ice maker It includes an ice level arm that is attached to the device. The ice level lever is inserted into the ice tank. It can rotate downwards towards the ice making device and upwards towards the ice making device. Towards the ice tank During the rotation movement, the ice level arm comes into contact with the ice cubes stored there and It stands still. In this way, the amount of ice in the ice tank is measured. ice level lever It provides a means of triggering rotational movement. The ice level lever consists of a first lever and a second lever. Includes arm. The first arm is the part where the ice level arm is connected to the ice making device.

The second arm is rotatably attached to the first arm and both arms are independent of each other. It can return as . The second arm is biased downwards into the ice tank. second one It is attached to the first arm along the axis. The trigger means to rotate the first lever. When it starts, the first arm rotates towards the ice tank. Length of ice level arm and Depending on the depth of ice cubes in the ice tank, the ice level lever contact and stops rotation. Thanks to the ice level lever, the The ice level is measured accurately. Another advantage of the ice level lever is Thanks to the multi-piece structure of the level arm, the internal volume of the ice tank is effectively can be used. Another advantage of the ice level lever is the effective control of the ice tank volume. It can be used in this way.

In one embodiment of the invention, the joint includes a canal and an ear. Joint basically It consists of the opposite ends of the first arm and the second arm. First arm via one end While the other end is rotatably attached to the triggering device, the other end is rotatably attached to the second arm. is attached. The channel is located at the end of the first arm connected to the second arm. ear second It is located at the end of the arm connected to the first arm. The ear is placed inside the canal and the second It can move along the channel with the rotation of the arm. The length of the canal determines the movement of the ear. and in this way it limits the rotational movement of the second arm. The channel that the joint has and the ear structure forms a solid structure and allows the movement of the second arm to be precisely controlled. allows it to be controlled.

In one embodiment of the invention, the joint is a device used to mount the second arm to the first arm. Includes screws and a washer. The screw passes through the hole of the joint and connects the first arm and the second arm. It enters the space along the joint of the arm.

In an embodiment of the invention, the depth of the joint can be changed along the axis. Joint It has a telescopic structure and can move along the axis. axis of the joint By moving along the axis, the position of the first arm remains the same while the second arm moves along the axis. is moving. By extending the second arm along the axis, different Ice level in locations can be measured.

In an embodiment of the invention, the triggering means is activated by a pair of locking ribs of the first lever. It contains a pair of drains into which it is fitted form-fit.

Thanks to this invention, the volume of ice used in ice making devices is reduced and ice cubes are produced in this way. An ice level lever that allows effective use of the internal volume of the tank is being carried out.

Another advantage provided by this invention is that, thanks to the rotating movement of the arms, the ice level arm It can be produced thinner and thus material costs can be reduced.

Another advantage provided by this invention is the multi-armed structure of the ice level arm. This is because the ice level arm allows it to reach longer distances.

The drawings do not limit the scope of protection defined in the claims and without referring to the technical explanation in the description section, the scope defined in the claims They should not be used alone for interpretation purposes.

Figure 1 - is the perspective view of the cooling device.

Figure 2 - is a stand-alone view of the ice making device.

Figure 3 - along the dashed line A-A in Figure 2 with the ice level lever in the one down position section view.

Figure 4 - along the dashed line A-A in Figure 2 with the ice level lever in the up position section view.

Figure 5 - is the side view of the ice level lever.

Figure 6 - is the perspective view of the first arm.

Figure 7 - is the perspective view of the first arm.

Figure 8 - is the perspective view of the second arm.

Figure 9 - is an exploded view of the triggering device and the ice level lever.

The parts in the figures are numbered one by one, and the corresponding numbers are shown below. given: 1. Ice making device 2. Ice storage 3. Ice level lever 4. Triggering means . first arm 6. Second arm 7. Joint Channel 8 9. Ear . Unloading 1 l. locking bracket The cooling device of the invention is an ice making device (1) that produces ice through the water provided; ice an ice tank (2) where the ice produced by the making device (1) is stored; inside the ice tank (2) An ice level arm attached to the ice making device (l) so that it rotates up and down (3) and a trigger means (4) that enables the ice level arm (3) to rotate.

In the cooling device of the present invention, the ice level lever (3) can rotate the ice level lever (3). An axis is formed by means of a first arm (5) and a joint, which is connected to the ice making device (1) as follows. It contains a second arm (6) attached to one end of the first arm (5) in a way that it rotates around it.

The ice making device (1) includes an ice container with multiple empty volumes. making water ice is fed to the device (1) and the empty volumes in question. There is cold air coming from the fan It is forced to pass through volumes and in this way water is frozen. After a certain period of time, The trigger means (4) triggers the ice making device (1). In other words, triggering The means (4) forces the ice cabin to rotate, thus the ice produced in the volumes in question cubes are released. Then, the ice cubes fall into the ice tank (2) and accumulate on top of each other. It accumulates. The cooling device is a control device that controls the operating functions of the cooling device. It includes the unit. The control unit monitors the ice level at predetermined time intervals. It operates the triggering means (4) to rotate the arm (3). After triggered The ice level lever (3) begins to rotate downwards into the ice tank (2). Ice When it comes into contact with the ice cubes inside the tank (2), the movement of the ice level lever (3) stops. and in this case, the control unit increases the electric current fed to the triggering means (4).

In this case, the supplied current exceeds a predetermined value and the control unit freezes. It decides that the tank (2) is full. As a result, the ice inside the ice tank (2) Ice production, which may cause ice cubes to overflow from the ice tank (2), is stopped.

The ice level arm (3) is connected to the first arm (5), the second arm (6) and the said arms (5, 6). It contains the joint (7) that enables the connection. The first arm (5) is between an upper and lower position. It is rotatably attached to the ice making device (l). Similarly, the second arm (6) It is attached to the first arm (5) in a rotatable manner between the lower position and the lower position. Second arm (6) lower It is biased towards the position. When the first arm (5) starts to rotate towards the lower position, the second The arm (6) touches the ice cubes for the first time. After the contact, the second arm (6) moves to the upper position. is forced to turn correctly. The second arm (6) makes a certain amount of rotational movement. Then, the second arm (6) reaches the end of its rotation movement. Ice by the second arm (6) The force applied to the ice cubes is the same as the force applied to the second arm (6) by the ice cubes. is balanced and the rotational movement of both arms (5, 6) stops. As a result, ice The ice level in the tank (2) is detected. Two levers (5, 6) for ice level lever (2) Another advantage of using the ice level lever (2) is that the height of the standard Z axis The volume inside the ice maker (1) is effectively reduced by significantly reducing the can be used.

In the cooling device of the invention, the joint (7) is located at the opposite ends of the arms (5, 6). a channel (8) that receives a channel and a channel that moves along the channel (8) with the rotational movement of the second arm (6). It contains the ear (9). The joint (7) is at the opposite ends of the first arm (5) and the second arm (6). It ensures connection. The said ends include the ear (9) and the canal (8), and the ear (9) It moves along the channel (8). When the second arm (6) starts to rotate, the ear (9) canal (8) It starts to move along. The channel (9) is in concave form and the rotation of the second arm (6) determines the angle. In a preferred embodiment of the invention, the rotation angle is 30 degrees. is being adjusted. In another preferred embodiment of the invention, the rotation angle is 45 degrees. is being adjusted. In another preferred embodiment of the invention, the rotation angle is 60 degrees. is being adjusted. The length of the channel (8) determines the maximum downward position of the second arm (6).

By changing the length of the channel (8), the second arm (6) can be moved deeper into the ice tank (2). It is provided to reach and detect the ice stored in smaller amounts.

In this invention cooling device, the joint (7) contains a screw and a washer. Second arm (6) one It can be rotated over the joint (7) to the first arm (5) by means of a washer and a screw. is attached.

In the cooling device of the invention, the depth of the joint (7) can be changed along the axis.

The ice cubes stored in the ice tank (2) accumulate on top of each other in the form of a pyramid and the deepest The part extends along the length and midpoint of the ice tank (2). In this way, ice The level lever (3) touches the top of the ice cube stack, while the ice tank (2) A significant amount of volume remains empty towards the edges. Depth of joint (7) By changing it, the second arm (6) is enabled to reach the edges of the ice tank (2).

As a result, more ice can be stored in the ice tank (2). of the second arm (6), replacing the second arm (6) with another second arm (6) where the joint (7) part is deeper This situation can be realized. This situation also includes a telescopic joint (7) section. It can also be realized by using

In another embodiment of the invention, the second arm (6) contacts the ice cubes, It is attached to the first arm (5) by means of a joint (7) whose depth can be increased. In this way, The second arm (6) slides along the surface of the ice cubes. Ice cubes with second arm (6) reaching a current peak detected by the contact control unit. It provides. In this way, the depth of ice cubes can be detected and modeled.

In the cooling device of the invention, the triggering means (4) is a pair of locking ribs of the first arm (5). It contains a pair of discharges (10) into which it is placed through (11). Locking federations (11) It is placed flush with the discharges (10). In this way, ease of assembly and robustness A structure is provided.

In another embodiment of the invention, the cooling device has three or four or five arms instead of two arms (5, 6). It includes an ice level lever (3) having a lever. Increasing the number of arms and Reducing their length reduces the volume occupied by the arms. More than one Another advantage of using an arm is that the last arm in contact with the ice makes point contact. By doing this, the detection efficiency of the ice level arm (3) is increased.

In another embodiment of the invention, the second arm (6) has a sawtooth form at its end in contact with the ice. has. Thanks to the sawtooth-shaped protrusion, ice cubes are prevented from slipping.

Thanks to the ice level lever (3) of the invention, the dimensions of the ice level lever (3) are reduced. and the internal volume of the ice tank (2) is used effectively.

Claims (5)

l. An ice making device (1) that produces ice by means of supplied water; an ice tank (2) where the ice produced by the ice making device (1) is stored; 5. An ice level arm (3) attached to the ice making device (1) to rotate up and down inside the ice tank (2) and a trigger means (4) that allows the ice level arm (3) to rotate. A cooling device characterized by an ice level arm (3) comprising a first arm (5) connected to the ice making device (1) and a second arm (6) attached to one end of the first arm (5) to rotate around an axis through a joint. . 2. Claim 15, characterized by a joint (7) containing a channel (8) located at opposite ends of the said arms (5, 6) and an ear (9) moving along the channel (8) with the rotational movement of the second arm (6). A cooling device as in l. 3. A cooling device as in any of the above claims, characterized by a joint (7) containing a screw and a washer. 4. A cooling device as in any of the above claims, characterized by a joint (7) whose depth can be changed along the axis. 20 5. A cooling device as in any of the above claims, characterized by a triggering means (4) comprising a double discharge (10) into which the first arm (5) is seated by means of a pair of locking ribs (11).