JP2016536560A - Refrigerator thawing device - Google Patents

Abstract

The present invention relates to a refrigerator, and more particularly to a refrigerator thawing device. A refrigerator thawing device comprising a thawing chamber comprising a thawing chamber housing, a thawing chamber liner, and a thawing chamber door, wherein the thawing chamber includes an electromagnetic wave excitation module, an electromagnetic high voltage oscillation module, and a monitoring control module. The monitoring control module is for monitoring the food temperature, and the electromagnetic wave excitation module is electrically connected to the electromagnetic high voltage oscillation module and the monitoring control module, and the thawing chamber is connected to the food. A first electrode and a second electrode for contact are provided, and the first electrode and the second electrode are electrically connected to the electromagnetic high voltage oscillation module, and the thawing chamber is electrically connected to the monitoring control module. There is further provided a temperature sensor connected to the. The first electrode and the second electrode in the thawing chamber emit high-frequency electromagnetic waves to the food in contact therewith, thereby rapidly and uniformly thawing the frozen food. [Selection] 2

Description

  The present invention relates to a refrigerator, and more specifically to a refrigerator thawing device.

  In general, a refrigerator has a refrigerator compartment that stores food at a low temperature of zero degrees or more and a freezer room that stores food at a low temperature of zero degrees or less. Freezer rooms typically freeze food for long-term storage of food. However, the user must remove the food from the freezer and thaw before cooking and eating. How to thaw frozen foods and how to return them to a fresh state before freezing is a daily problem in many homes.

  The conventional thawing method is to create an appropriate temperature and electric field in the refrigerator, and the frozen food can be thawed rapidly, but the thawing temperature cannot be controlled. For example, it is considered that microwave heating technology is adopted in the refrigerator, and the frozen food is thawed by radiating high-frequency electromagnetic waves to the thawing space by a microwave radiation head arranged on the wall of the freezer. In the high frequency electromagnetic wave radiation by, the inside and outside temperatures become non-uniform during thawing of the food, and the temperature after thawing cannot be controlled, which affects the quality of the food after thawing.

  In the present invention, in order to overcome at least one problem related to the above-described prior art, a first electrode and a second electrode for contacting food are provided in the thawing chamber, and the first electrode The electrode and the second electrode are electrically connected to the electromagnetic high voltage oscillation module, so that the electromagnetic wave excitation module is electrically connected to the electromagnetic high voltage oscillation module to generate a high frequency electromagnetic wave, The first electrode and the second electrode connected to the refrigerator emit high-frequency electromagnetic waves into the box body, thereby heating the food by contact type so that the food can be thawed rapidly and uniformly. A decompression device is provided. The temperature sensor transmits the temperature signal of the food in the thawing box to the monitoring control module, the monitoring control module controls the electromagnetic excitation module electrically connected to it, and the electromagnetic excitation module is electrically connected to it. The first and second electrodes, which are excited to generate a high-frequency electromagnetic wave in the electromagnetic high-pressure oscillation module and are electrically connected to the electromagnetic high-voltage oscillation module, emit the high-frequency electromagnetic wave to the thawing chamber, By installing to defrost, the food temperature can be controlled while the food is thawed quickly and uniformly, and the temperature is too high and the nutrition and freshness of the food are impaired, or the temperature is too low and the food is thawed. It is avoiding that.

In order to solve the above technical problem, the present invention adopts the following technical scheme.
A refrigerator thawing device comprising a thawing chamber comprising a thawing chamber housing, a thawing chamber liner, and a thawing chamber door, wherein the thawing chamber includes an electromagnetic wave excitation module, an electromagnetic wave high voltage oscillation module, a monitoring control module, The monitoring control module is for monitoring food temperature, and the electromagnetic wave excitation module is electrically connected to the electromagnetic high voltage oscillation module and the monitoring control module, and the thawing chamber Are provided with a first electrode and a second electrode for contacting the food, and the first electrode and the second electrode are electrically connected to an electromagnetic high voltage oscillation module, There is further provided a temperature sensor electrically connected to the monitoring control module,
After the temperature signal of the food in the thawing chamber is detected by the temperature sensor, the temperature signal is transmitted to the monitoring control module, and the monitoring control module controls to operate the electromagnetic wave excitation module electrically connected to the monitoring control module. The excitation module excites the electromagnetic high voltage oscillation module electrically connected to the electromagnetic high voltage oscillation module to generate a high frequency electromagnetic wave, and the first electrode and the second electrode electrically connected to the electromagnetic high voltage oscillation module are the thawing chamber. Disclosed is a refrigerator thawing device for thawing food by emitting high frequency electromagnetic waves.

  In the refrigerator thawing device of the present invention, the first electrode and the second electrode for contacting food are installed in the thawing chamber, and the first electrode and the second electrode are provided in the electromagnetic high voltage oscillation module. By being electrically connected, the electromagnetic wave excitation module is electrically connected to the electromagnetic high voltage oscillation module to generate a high frequency electromagnetic wave, and is electrically connected to the electromagnetic high voltage oscillation module. The electrode emits high-frequency electromagnetic waves into the box body, so that the food can be heated by contact, so that the food can be thawed rapidly and uniformly. The temperature sensor transmits the temperature signal of the food in the thawing box to the monitoring control module, the monitoring control module controls the electromagnetic excitation module electrically connected to it, and the electromagnetic excitation module is electrically connected to it. The first and second electrodes, which are excited to generate a high-frequency electromagnetic wave in the electromagnetic high-pressure oscillation module and are electrically connected to the electromagnetic high-voltage oscillation module, emit the high-frequency electromagnetic wave to the thawing chamber, By thawing, the food temperature can be controlled while thawing the food quickly and uniformly, and the temperature is too high and the nutrition and freshness of the food are impaired, or the temperature is too low and the food can be thawed. It is avoiding.

  In order to perform a soft thaw on the food so as to maintain the food as it was before freezing, the monitoring control module has a temperature range after thawing of the food in the thawing chamber of -5 ° C to 0 ° C. Control to be at ℃. The reason why the monitoring control module controls the temperature range of the food in the thawing chamber to be −5 ° C. to 0 ° C. is because the food can maintain the taste before freezing during thawing, and the method of soft thawing By using this, it is avoided that the temperature is too high and the freshness of the food is lost and the previous taste is lost, or the temperature is too low and the food is not completely thawed.

  In order to receive the temperature signal acquired by the temperature sensor, compare the received temperature signal with the set temperature signal, and control the on / off of the operation of the electromagnetic wave excitation module, the monitoring control module is an electromagnetic wave excitation module And a temperature controller for controlling on / off of the operation, both of which are electrically connected to the temperature sensor and the electromagnetic wave excitation module. The temperature controller is installed to receive the temperature signal of the temperature sensor and compare it with the set temperature signal to determine the operating state of the electromagnetic wave excitation module. The electromagnetic wave excitation module is controlled by the temperature controller in a normal form, for example, a semiconductor relay.

  It is preferable that the thawing apparatus further includes a thawing box for placing food, and the thawing box is placed in the thawing chamber and is detachably connected to the thawing chamber.

  It is preferable that the first electrode and the second electrode are provided in a thawing box and their positions can be adjusted. In order to facilitate opening and closing of the thawing box, the thawing box is composed of a box body and a box lid body, one end of the box body is connected to the box lid body by a hinge, and the other end is the box lid body. And locked by a buckle. The buckle structure is installed in order to avoid that opening and closing by a structure such as screwing is not easy and to improve the opening and closing convenience of the thawing box.

  In order to maintain the temperature in the thawing box and avoid a decrease in thawing effect due to leakage of high frequency electromagnetic waves, an electromagnetic shield layer and a heat insulating layer are provided outside the box body of the thawing box. The heat insulating layer is provided to avoid leakage of energy from the thawing box, improve the thawing effect and efficiency, and shorten the thawing time.

  The food is placed between the first electrode and the second electrode to be in direct contact and thawed, and the positions of the first electrode and the second electrode are adjusted at any time according to the shape of the food and the situation of thawing To facilitate this, the first electrode and the second electrode have a sheet structure or a needle-like structure, and are movably installed on both the left and right sides in the box body. The first electrode and the second electrode are movably installed on the left and right sides of the box body, so that the food to be thawed placed in the thawing box is interposed between the first electrode and the second electrode. This is for facilitating rapid thawing of food by high-frequency electromagnetic waves sandwiched and emitted. Further, the first electrode and the second electrode have various structures, and may have a sheet structure or a needle-like structure.

Compared with the prior art, the advantageous effects of the present invention are as follows.
In the refrigerator thawing device of the present invention, the first electrode and the second electrode for contacting food are installed in the thawing chamber, and the first electrode and the second electrode are electrically connected to the electromagnetic high voltage oscillation module. The electromagnetic wave excitation module is electrically connected to the electromagnetic high voltage oscillation module to generate a high frequency electromagnetic wave, and the first electrode and the second electrode electrically connected to the electromagnetic high voltage oscillation module. By releasing high-frequency electromagnetic waves into the box body, the food can be heated by contact, and the food can be thawed rapidly and uniformly. The temperature sensor transmits the temperature signal of the food in the thawing box to the supervisory control module, the supervisory control module controls to operate the electromagnetic excitation module electrically connected thereto, and the electromagnetic excitation module electrically The first and second electrodes, which are excited to generate a high-frequency electromagnetic wave in the connected electromagnetic high-voltage oscillation module and are electrically connected to the electromagnetic high-voltage oscillation module, emit the high-frequency electromagnetic wave to the thawing chamber, and the food. By thawing the food, the food temperature can be controlled while thawing the food quickly and uniformly, the temperature is too high and the nutrition and freshness of the food are impaired, or the temperature is too low and the food can be thawed. To avoid that.

FIG. 1 is a schematic configuration diagram of a refrigerator thawing device of the present invention. FIG. 2 is a schematic diagram showing the operating principle of the refrigerator thawing device of the present invention.

  Hereinafter, the present invention will be further described according to specific embodiments. It should be understood, however, that the attached drawings are used for illustrative purposes only and are only schematic and not physical, and are not to be construed as limiting this patent. In order to better describe the embodiments of the present invention, some parts are omitted, enlarged or reduced in the attached drawings, and do not represent actual product sizes. It will be understood by those skilled in the art that some known configurations and descriptions thereof may be omitted in the accompanying drawings.

  The same or similar reference numerals in the accompanying drawings according to the embodiments of the present invention correspond to the same or similar elements. In the description of the present invention, if there is an orientation or positional relationship indicated by terms such as “upper”, “lower”, “left”, and “right”, it is based on the orientation and positional relationship shown in the accompanying drawings, It is not expressly indicated or implied that such devices or elements shall have a specific orientation and be constructed or operate in a specific orientation, merely to facilitate the description or simplify the description of the invention. Therefore, the terms describing the positional relationship in the accompanying drawings are used only for illustrative purposes and should not be understood as limiting the present patent, and those skilled in the art will recognize the specific meanings of the above terms according to the specific circumstances. Note that it is understandable.

(Example)
1 to 2 show an embodiment of a thawing apparatus for a refrigerator according to the present invention, the thawing chamber 1 includes a thawing chamber housing 11, a thawing chamber liner 12, and a thawing chamber door body 13. 1 includes an electromagnetic wave excitation module 141, an electromagnetic high voltage oscillation module 142, and a monitoring control module 143. The monitoring control module 143 is for monitoring the food temperature. Both the electromagnetic high voltage oscillation module 142 and the monitoring control module 143 are electrically connected, and the thawing chamber 1 is provided with a first electrode 21 and a second electrode 22 for contacting food, The first electrode 21 and the second electrode 22 are electrically connected to the electromagnetic high voltage oscillation module 142, and the thawing chamber 1 is electrically connected to the monitoring control module 143. And further provided a temperature sensor 23 connected,
After the temperature signal of the food in the thawing chamber 1 is detected by the temperature sensor 23, the temperature signal is transmitted to the monitoring control module 143, and the monitoring control module 143 operates the electromagnetic wave excitation module 141 electrically connected thereto. The electromagnetic wave excitation module 141 excites the electromagnetic high voltage oscillation module 142 electrically connected thereto to generate high frequency electromagnetic waves, and is electrically connected to the electromagnetic high voltage oscillation module 142. And the 2nd electrode 22 is a thawing | decompression apparatus of the refrigerator which thaws | emits food by releasing a high frequency electromagnetic wave to the thawing chamber 1. FIG.

  Among them, the monitoring control module 143 performs control so that the temperature range after thawing of the food in the thawing chamber 1 is −5 ° C. to 0 ° C. In this example, the setting is made so that the food can maintain its taste before freezing during thawing. By adopting the soft thawing method, the temperature is too high and the food is fresh. It avoids losing the previous taste at a loss, and preventing the food from being completely thawed because the temperature is too low.

  Specifically, the monitoring control module 143 has a temperature controller 144 for controlling on / off of the operation of the electromagnetic wave excitation module 141, and the temperature controller 144 includes both the temperature sensor 23 and the electromagnetic wave excitation module 141. Electrically connected. The temperature controller 144 receives the temperature signal of the temperature sensor 23 and compares it with the set temperature signal, determines the operation state of the electromagnetic wave excitation module 141, determines the operation on / off, and better and effectively supplies the food. It was set up for thawing. The electromagnetic wave excitation module 141 is controlled by the temperature controller 144 in a normal form, for example, a semiconductor relay or an on / off switch. As a specific action, the temperature controller 144 receives the temperature signal detected by the temperature sensor 23, compares it with the temperature signal preset by the temperature controller 144, and controls on / off of the electromagnetic wave excitation module. Is installed. When the temperature sensor 23 detects that the temperature of the food is lower than the temperature preset by the temperature controller 144, the electromagnetic wave excitation module 141 enters an operating state and raises the temperature of the food, while the temperature of the food increases. When the temperature sensor 23 detects that the temperature is higher than the preset temperature, the electromagnetic wave excitation module 141 is stopped.

  Among them, the thawing device in this embodiment further includes a thawing box 2 for placing food, and the thawing box 2 is placed in the thawing chamber 1 and is detachably connected to the thawing chamber 1. Note that the thawing box 2 is installed for placing food, and provides a variety of thawing devices, and the user attaches the thawing box 2 as necessary and installs the thawing box 2. Or the thawing box 2 can be removed and directly thawed in the thawing chamber 1 to enhance the usability of the thawing apparatus. That is, the thawing box 2 may be taken out from the thawing chamber 1 when necessary.

  Further, the first electrode 21 and the second electrode 22 are provided in the thawing box 2 and their positions can be adjusted. This is to make it easy to adjust the positions of the first electrode and the second electrode at any time according to the shape of the food and the situation of thawing. When the first electrode 21 and the second electrode 22 are thawed, the food When the thawing is completed, the food is removed so that it can be easily taken out. By installing in such a manner, the first electrode 21 and the second electrode 22 can easily come into contact with food and improve the thawing efficiency.

  The thawing box 2 includes a box body 24 and a box lid body 25. One end of the box body 24 is connected to the box lid body 25 by a hinge, and the other end is locked by the box lid body 25 and a buckle. The In the present embodiment, the installation is performed for the normal opening and closing of the box lid 25 of the thawing box. However, an electromagnetic shield layer and a heat insulating layer are provided outside the box body 24 of the thawing box 2. In a normal case, the electromagnetic shielding layer is a metal layer, and the electromagnetic shielding layer is provided to prevent leakage of electromagnetic waves from the thawing box 2. The heat insulating layer is installed to prevent the energy consumption from increasing due to the long-term operation of the refrigerator compressor due to the temperature rise in the thawing chamber 1 due to heat leak from the thawing box 2. is there.

  Among them, in the normal case, the electromagnetic wave excitation module 141, the electromagnetic high voltage oscillation module 142, and the monitoring control module 143 are installed in the thawing body 14 of the thawing chamber 1, and the switch button 15 is provided outside the thawing body 14. . The switch button 15 is provided for manually controlling on / off of the refrigerator thawing device.

  The first electrode 21 and the second electrode 22 have a sheet structure or a needle-like structure, and are movably installed on both the left and right sides in the box body 24. This is because the food to be thawed placed in the thaw box 2 is sandwiched between the foods to facilitate rapid thawing of the food by the emitted high frequency electromagnetic wave. A first bracket 26 and a second bracket 27, which are two brackets parallel to each other, are provided at the bottom of the box body 24. The first bracket 26 and the second bracket 27 are respectively provided in the box body 24. Fixedly connected to the bottom of the. The first bracket 26 and the second bracket 27 are each provided with a slot, and the pitch between adjacent slots is 5 mm to 10 mm. The distance between the first electrode 21 and the second electrode 22 is adjusted by positioning the first electrode 21 and the second electrode 22 in different slots of both brackets. By adjusting the distance between the first electrode 21 and the second electrode 22, the first electrode 31 and the second electrode 32 are brought into contact with both ends of the food placed therebetween, respectively.

  It will be appreciated that the foregoing examples of the invention are not intended to limit the embodiments of the invention, but are only examples given to clearly illustrate the invention. Those skilled in the art can make different types of changes or variations based on the foregoing description. It is not necessary or possible to list all embodiments here. All modifications, equivalents, improvements and the like made within the spirit of the present invention should be included in the technical scope of the present invention.

Claims (8)

A refrigerator thawing device comprising a thawing chamber (1) comprising a thawing chamber housing (11), a thawing chamber liner (12), and a thawing chamber door (13),
The thawing chamber (1) is provided with an electromagnetic wave excitation module (141), an electromagnetic high voltage oscillation module (142), and a monitoring control module (143). The monitoring control module (143) controls the food temperature. The electromagnetic wave excitation module (141) is electrically connected to the electromagnetic high voltage oscillation module (142) and the monitoring control module (143), and the thawing chamber (1) is connected to the thawing chamber (1). A first electrode (21) and a second electrode (22) for contacting food are provided, and the first electrode (21) and the second electrode (22) are electromagnetic high voltage oscillation modules (142). ), And the thawing chamber (1) is further provided with a temperature sensor (23) electrically connected to the monitoring control module (143),
After the temperature signal of the food in the thawing chamber (1) is detected by the temperature sensor (23), the temperature signal is transmitted to the monitoring control module (143), and the monitoring control module (143) is electrically connected thereto. The electromagnetic wave excitation module (141) is controlled to operate, and the electromagnetic wave excitation module (141) excites the electromagnetic wave high voltage oscillation module (142) electrically connected thereto so as to generate a high frequency electromagnetic wave. A refrigerator characterized in that the first electrode (21) and the second electrode (22) electrically connected to the module (142) emit high-frequency electromagnetic waves to the thawing chamber (1) to defrost food. Thawing device. The said monitoring control module (143) controls so that the temperature range after the thawing | decompression of the foodstuff in a thawing room (1) may be -5 degreeC-0 degreeC, The refrigerator thawing | decompression apparatus of Claim 1 characterized by the above-mentioned. . The monitoring control module (143) has a temperature controller (144) for controlling on / off of the operation of the electromagnetic wave excitation module (141). The temperature controller (144) includes a temperature sensor (23), an electromagnetic wave The thawing device for a refrigerator according to claim 1, wherein both are electrically connected to the excitation module (141). The thawing device further includes a thawing box (2) for placing food, and the thawing box (2) is placed in the thawing chamber (1) and is detachably connected to the thawing chamber (1). The thawing | decompression apparatus of the refrigerator of any one of Claims 1-3 characterized by the above-mentioned. The thawing device for a refrigerator according to claim 4, wherein the first electrode (21) and the second electrode (22) are provided in a thawing box (2) and the positions thereof are adjustable. . The thawing box (2) includes a box body (24) and a box lid (25). The box body (24) has one end connected to the box lid (25) by a hinge and the other end. 6. The refrigerator thawing device according to claim 5, wherein the refrigerator is locked by the box lid (25) and a buckle. The thawing device for a refrigerator according to claim 6, wherein an electromagnetic shield layer and a heat insulating layer are provided outside the box body (24) of the thawing box (2). The first electrode (21) and the second electrode (22) have a sheet structure or a needle-like structure, and are movably installed on the left and right sides in the box body (24). The refrigerator thawing device according to claim 7.

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