JP7424793B2 - refrigerator - Google Patents

Description

This embodiment relates to a refrigerator.

In recent years, systems have been provided that connect multiple home appliances, computers, smartphones, etc. in the home to an access point to build a home network, and remotely control various home appliances using the user's smartphone. ing. It has been proposed that a household refrigerator be provided with a communication module incorporating a communication board having an antenna section in order to perform wireless communication with the outside (see, for example, Patent Document 1). In this case, in order to prevent radio wave interference, the communication module is installed in a position where there are no magnets or metal parts, such as the upper surface of the ceiling of the refrigerator body.

Japanese Patent Application Publication No. 2005-140345

By the way, when installing a communication module in a refrigerator, it is necessary to connect the control board that controls each mechanism of the refrigerator and the communication module with a connection cable, but if it is installed at a location away from the control board, the connection cable This results in a longer time and higher costs. Note that in refrigerators, a high voltage power supply circuit is sometimes provided in a part of the control board, and it is necessary to suppress the adverse effect on the communication module due to noise generated in such a high voltage section.
Therefore, it is an object of the present invention to provide a refrigerator in which a communication module can be properly arranged when disposed in a refrigerator main body.

The refrigerator according to the present embodiment includes a control board that controls each mechanism of the refrigerator, a storage part provided in the main body of the refrigerator and in which the control board is stored, and a storage part provided in the storage part and configured to communicate wirelessly with the outside. It is equipped with a communication module that performs

A vertical sectional side view showing the first embodiment and schematically showing the overall configuration of the refrigerator. Vertical side view schematically showing the arrangement of the control board and communication module in the storage section A plan view schematically showing the arrangement of the control board and communication module in the storage section. Top view schematically showing the communication module Block diagram showing communication connections A plan view showing the second embodiment and schematically showing the arrangement of the control board and the communication module in the storage section. A plan view showing the third embodiment and schematically showing the arrangement of the control board and the communication module in the storage section. A plan view showing the fourth embodiment and schematically showing the arrangement of the control board and the communication module in the storage section. A plan view showing the fifth embodiment and schematically showing some examples of the arrangement of the control board and the communication module in the storage section. A plan view showing the sixth embodiment and schematically showing some examples of the arrangement of the control board and the communication module in the storage section. A plan view showing the seventh embodiment and schematically showing some examples of the arrangement of the control board and the communication module in the storage section. A plan view showing the eighth embodiment and schematically showing some examples of the arrangement of the control board and the communication module in the storage section. This shows the ninth embodiment, and is a front view of the upper part of the refrigerator body showing the refrigerator compartment door opened. This shows the tenth embodiment, and is a right side view of the upper part of the refrigerator main body. This shows the eleventh embodiment, and is a right side view of the upper part of the refrigerator main body. This shows the twelfth embodiment, and is a front view of the upper part of the refrigerator body.

Hereinafter, some embodiments applied to household refrigerators will be described with reference to the drawings. Note that the same parts are denoted by the same reference numerals in the plurality of embodiments, and detailed explanations and new illustrations are omitted in the description.

(1) First Embodiment The first embodiment will be described with reference to FIGS. 1 to 5. FIG. 1 schematically shows the configuration of a main body 1 of a refrigerator according to this embodiment. The refrigerator main body 1 is constructed by providing a plurality of storage chambers within an insulating box body 2 in the shape of a vertically long rectangular box with an open front. Specifically, in the heat insulating box 2, a refrigerator compartment 3, a vegetable compartment 4, an ice making compartment 5, and a freezing compartment 6 are provided in order from the top. Although not shown, the portion of the heat-insulating box 2 where the ice-making chamber 5 is installed is divided into two chambers, left and right, with the ice-making chamber 5 being installed on the left side and a second freezing chamber or switching chamber being installed on the right side. It is provided. A well-known automatic ice-making device 7 is provided within the ice-making compartment 5 .

The refrigerator compartment 3 and the vegetable compartment 4 are both storage compartments in a refrigeration temperature range, for example, 3 to 5° C., and are vertically partitioned by a plastic partition wall 8. A hinged heat insulating door 9 is provided at the front of the refrigerator compartment 3, and a pull-out heat insulating door 10 is provided at the front of the vegetable compartment 4. A storage container 11 is connected to the back side of the heat insulating door 10. The inside of the refrigerator compartment 3 is vertically divided into a plurality of stages by shelf boards 12 (only a portion of which is shown), and a chilled compartment 13 is provided at the lowest part thereof, that is, above the partition wall 8. The chilled chamber 13 has a temperature range of, for example, 0 to 2°C. An interior light 14 is provided on the ceiling inside the refrigerator compartment 3.

Furthermore, the ice making compartment 5, the freezing compartment 6, and the second freezing compartment are all storage rooms in a freezing temperature range, for example, -18°C or lower, and the vegetable compartment 4, the ice making compartment 5, and the second freezing compartment are The space is partitioned vertically by a heat insulating partition wall 15. A pull-out heat insulating door 16 is provided at the front of the ice making compartment 5, and an ice storage container 17 is connected to the back of the heat insulating door 16. A pull-out heat insulating door 18 to which a storage container 19 is connected is also provided at the front of the freezer compartment 6.

Inside this refrigerator body 1, although not shown in detail as a whole, there is a refrigerator compartment cooler 20 for cooling the refrigerator compartment 3 and the vegetable compartment 4, and a refrigerator compartment cooler 20 for cooling the ice making compartment 5 and the freezing compartment 6. A refrigeration cycle including two coolers including a freezer compartment cooler 21 is incorporated. A machine room 22 is provided on the back side of the lower end of the refrigerator main body 1. Although not shown in detail, in this machine room 22, a compressor 23 and a condenser constituting a refrigeration cycle are installed, as well as a cooling fan, a defrosting water evaporation plate 24, etc. for cooling them. It is arranged.

A freezer compartment cooler chamber 26 is provided on the back wall of the freezer compartment 6 in the refrigerator main body 1. In this freezer compartment cooler chamber 26, the freezer compartment cooler 21, a defrosting heater (not shown), etc. are located in the lower part, and the freezing air blower is located in the upper part. A fan 27 is provided. A cold air outlet 26a is provided in the middle of the front surface of the freezer compartment cooler chamber 26, and a return port 26b is provided in the lower end.

When the freezing fan 27 is driven, the cold air generated by the freezer compartment cooler 21 is supplied from the cold air outlet 26a into the ice making compartment 5 and the freezing compartment 6, and then returns to the Circulation is performed such that it is returned into the freezer compartment cooler chamber 26 through the port 26b. A water receiver 28 for receiving defrosting water is provided in the lower part of the freezer compartment cooler 21, and the defrosting water received by the water receiver 28 is transferred to the defrosting water in the machine room 22. It is guided to an evaporating dish 24 and evaporated.

The back wall of the refrigerator body 1 is provided with the refrigerator compartment cooler 20 and a blow-off duct for supplying cold air generated by the refrigerator compartment cooler 20 into the refrigerator compartment 3 and the vegetable compartment 4. 29. The blower fan 30 and the like for circulating the cold air are arranged as follows. That is, a refrigerator compartment cooler chamber 31 is provided on the back wall of the refrigerator body 1, located behind the chilled compartment 13 at the lowest stage of the refrigerator compartment 3. The refrigerator compartment cooler 20 is disposed in the refrigerator compartment.

The front wall portion 32 that constitutes the front wall of the cooler chamber 31 for the refrigerator compartment is made to have heat insulation properties, and constitutes the rear wall portion of the chilled chamber 13 . An air outlet 32 a is formed in an upper portion of the front wall portion 32 . The outlet 32 a opens at the upper portion of the chilled chamber 13 and supplies cold air into the chilled chamber 13 . The upper end of the refrigerator compartment cooler chamber 31 is connected to the lower end of a blow-off duct 29 provided so as to extend upwardly on the back wall of the refrigerator compartment 3 with a constant width. This blow-off duct 29 is provided with a plurality of blow-off ports 29a that open within the refrigerator compartment 3.

Further, a water receiver 33 is provided at the bottom of the refrigerator compartment cooler 31 to be located below the refrigerator compartment cooler 20 and to receive the defrosting water from the refrigerator compartment cooler 20. There is. At the rear of the vegetable compartment 4, a blower fan 30 is provided, as well as a blower duct 34 and a suction duct 35. The blower duct 34 is located on the back side of the vegetable compartment 4, and is connected to the air outlet so that the upper end bypasses the water receiver 33 and communicates with the front side of the lower end of the refrigerator compartment cooler chamber 31. It has the same width as the duct 29 and extends in the vertical direction.

A bell mouth 34a is provided on the front side of the lower end of the air duct 34, located at the center in the left-right direction, and the air blower fan 30 is provided such that the air blower blade is located within the bell mouth 34a. . In this case, the blower fan 30 is composed of a propeller fan that can be rotated forward and backward, and is configured to suck air from the front and discharge it to the rear by rotating in the forward direction, and to suck air from the rear and discharge it to the front by rotating in the reverse direction. has been done. As described later, this blower fan 30 is controlled by a control device 25.

When viewed from the side, the blower duct 34 extends almost straight upward, and then its upper end is bent slightly to connect to the front side of the lower end of the cooler chamber 31 for the refrigerator compartment. A suction duct 35 is provided on the front side of the air duct 34 so as to overlap in front and back. The suction duct 35 has the same width as the blow-off duct 29, and is provided extending from the ceiling of the vegetable compartment 4 to a point slightly below the blower fan 30. At this time, the upper end of the suction duct 35 communicates with a suction port 37 formed in an oblong shape on the back side of the bottom of the refrigerator compartment 3 , in this case the bottom of the chilled compartment 13 . Further, an opening 35a is provided at the bottom of the suction duct 35. Note that a cold air supply duct 8a for guiding a part of the cold air from the refrigerator compartment 3 into the vegetable compartment 4 is provided in a partition wall 8 portion that partitions the refrigerator compartment 3 and the vegetable compartment 4.

When the blower fan 30 is driven to rotate, the air in the refrigerator compartment 3 is sucked into the suction duct 35 from the suction port 37, as shown by the white arrow in FIG. The air in the refrigerator compartment 4 is sucked into the suction duct 35 through the opening 35a, and is guided into the refrigerator compartment cooler compartment 31 through the ventilation duct 34. Cold air is generated by the refrigerator compartment cooler 20, and the cold air is supplied into the chilled compartment 13 from the outlet 32a, and is also supplied into the refrigerator compartment 3 from each outlet 29a through the outlet duct 29. After the cold air supplied into the refrigerator compartment 3 contributes to cooling the stored items, a portion of the cold air is sucked into the suction duct 35 from the suction port 37, and the rest is supplied into the vegetable compartment 4 through the cold air supply duct 8a. After contributing to the cooling of vegetables and the like, the cycle of being sucked into the suction duct 35 from the opening 35a is repeated.

The refrigerator main body 1 is provided with a control board 25 including a control circuit section mainly composed of a computer. As shown in FIGS. 2 and 3, this control board 25 has a rectangular plate shape that is slightly elongated in the front-rear direction (left-right direction in the figure) as a whole, and has a front half (left half in the figure) of the upper surface thereof. It has a high voltage section 38 including a power supply circuit, and a control circuit section 39 as a low voltage section in the latter half (right half in the figure). In FIG. 3, the high voltage section 38 is shown hatched for convenience. The control circuit section 39 of the control board 25 controls each of the above-mentioned mechanisms, that is, the compressor 23, the freezing blower fan 27, the blower fan 30, the automatic ice making device 7, a damper (not shown), a defrosting heater, etc., to perform cooling operation. etc. As will be described in detail later, the control board 25 is provided, for example, in a storage section 36 provided near the rear end of the upper wall of the heat insulating box 2.

Further, as shown in FIG. 1, an operation panel 40 including a display section is provided on the front surface of the heat insulating door 9 for the refrigerator compartment 3. Although a detailed explanation will be omitted, by operating the operation panel 40, the user can set the temperature of each room, turn on and off functions such as quick freezing, and display the desired recipe on the display. You can also do so. Furthermore, although not shown, each part of the refrigerator main body 1 is provided with a plurality of temperature sensors. The control circuit section 39 of the control board 25 receives operation signals from the operation panel 40 and detection signals from each temperature sensor. 4. Each of the ice making compartment 5 and the freezing compartment 6 is maintained at a predetermined target temperature range.

Now, the refrigerator main body 1 is provided with a communication module 41 for performing wireless communication with the outside. In this embodiment, as shown in FIG. 5, the communication module 41 has a communication function with, for example, a smart speaker 42. Further, the communication module 41 is communicably connected to an external server 50 equipped with voice artificial intelligence. Although not shown, the external server 50 and the communication module 41 communicate via an access point. The smart speaker 42 can play music, read news, operate home appliances, etc. by voice input from the user. In this embodiment, the refrigerator main body 1 can be operated by voice input from the smart speaker 42. At this time, the voice input from the smart speaker 42 is once transmitted from the communication module 41 to the external server 50, and after being subjected to voice analysis by the artificial intelligence of the external server 50, it is converted into a control signal that corresponds to the voice, and is then communicated. The information is configured to be sent back to module 41.

As shown in FIG. 4, etc., this communication module 41 includes a control IC 43, a communication IC 44 compatible with Wi-Fi, and a communication antenna 45 on a rectangular board 41a that is slightly long in the front-rear direction (left-right direction in the figure). , a plurality of connectors 46, etc. are mounted. At this time, the communication IC 44 and the communication antenna 45 are mounted, for example, on one of the short sides of the board 41a, that is, on the rear side (a position close to the right side in the figure). Furthermore, an operation button 47 and a display lamp 48 made of an LED are provided side by side at the rear end of the left side of the board 41a. When the operation button 47 is operated, the communication module 41 is configured to enter a priority mode in which the input instruction content from the smart speaker 42 is determined to be an instruction to the refrigerator main body 1. Further, the display lamp 48 is turned on in the priority mode.

Here, the communication module 41 having the above configuration is provided in the storage section 36 in which the control board 25 is stored. More specifically, in this embodiment, as shown in FIG. are placed above and overlapping each other. At this time, as shown in FIGS. 2 and 3, the control board 25 has a high voltage section 38 almost in the front half (left side in the figure), and the communication module 41 is detached from the high voltage section 38. The control circuit section 39 is disposed at a position overlapping the upper part of the control circuit section 39 at a rearward position (on the right side in the figure).

Further, the direction of the communication module 41 when installed in the storage section 36 is such that the side near the communication IC 44 faces in a different direction from the high voltage section 38 side of the control board 25. . That is, of the four sides of the board 41a of the communication module 41, the side having the communication IC 44 is arranged so as to face rearward (to the right in the figure). Also, at this time, the mounting position is such that the side portion of the communication module 41 near the communication antenna 45 faces to the right in the figure, which is a different direction from the high voltage section 38 side of the control board 25.

Although not shown in detail, the control circuit section 39 of the control board 25 and the connector 46 of the communication module 41 are connected by a connection cable 49 (see FIG. 5). With this, as shown in FIG. 5, the input instruction signal from the smart speaker 42 is input to the communication module 41 via wireless communication, and is converted into an operation signal by the voice recognition function of the communication module 41 and the external server 50 for control. The signal is input to the control circuit section 39 of the board 25. The control circuit section 39 then controls the mechanism of the refrigerator main body 1 based on the operation signal, and realizes the user's input instruction. In this case, not only the refrigerator but also multiple types of other home appliances such as washing machines, microwave ovens, air conditioners, robot vacuum cleaners, televisions, audio devices, etc. can be connected to the smart speaker 42 to realize in-home IoT. It becomes possible.

Next, the functions and effects of the refrigerator of this embodiment having the above configuration will be described. In this embodiment, the device is equipped with a communication module 41 for performing wireless communication with the outside, and the communication module 41 is provided in the storage section 36 in which the control board 25 is stored. Thereby, the distance between the communication module 41 and the control board 25 is shortened, and the length of wiring when connecting them with the connection cable 49 can be shortened.

As a result, according to the present embodiment, it is possible to suppress the cost when disposing the communication module 41 in the refrigerator main body 1, and to achieve an excellent effect that the arrangement can be made appropriate in terms of cost. Obtainable. Furthermore, in this embodiment, the control board 25 is configured to include a high voltage section 38 including a power supply circuit in addition to the control circuit section 29, so the high voltage section 38 and the control circuit section 39 are separated from each other on separate boards. Compared to the case where the electrical components are provided in one place, the electrical components can be rationally arranged in one place.

Here, when the high voltage section 38 is provided in a part of the control board 25, there is a possibility that the noise generated in the high voltage section 38 may have an adverse effect on the communication module 41, and it is necessary to suppress the influence of such noise. There is a need. In this embodiment, the communication module 41 is arranged so as to overlap the control board 25 at a position away from the high voltage section 38 . Thereby, the communication module 41 is placed in a position where the noise generated from the high voltage section 38 is difficult to reach, so that the adverse effects of the noise can be suppressed. By arranging the communication module 41 so as to overlap the control board 25, the space in the planar direction of the storage section 36 can also be made relatively small.

Furthermore, in this embodiment, the communication module 41 is arranged so that the side closest to the mounted communication IC 44 faces in a different direction from the high voltage section 38 side of the control board 25, in this case facing the rear, which is the opposite side. has been done. The communication antenna 45 mounted on the communication module 41 is also arranged so that the side closest to the communication IC 44 faces rearward, which is the side opposite to the high voltage section 38 side of the control board 25. has been done. Thereby, it is possible to make it difficult for the noise of the high voltage section 38 to reach the communication IC 44 and the communication antenna 45, and the effect of suppressing the adverse effects of noise can be improved. In this embodiment, since the communication module 41 has a communication function with the smart speaker 42, the refrigerator main body 1 can be remotely controlled by voice input by the user, and convenience can be improved.

(2) Second to Fourth Embodiments FIG. 6 shows a second embodiment. This second embodiment differs from the first embodiment described above in the arrangement of the control board 51 and the communication module 41 within the storage section 36. That is, the control board 51 has a rectangular shape slightly elongated in the front-rear direction, and has a high voltage section 52 (shown with hatching for convenience) including a power supply circuit in the left half (upper half in the figure). A control circuit section 53 as a low voltage section is provided in the right half (lower half in the figure). The communication module 41 is provided above the control board 51 so as to overlap with it, but here, the communication module 41 is located at a right-hand side location away from the high voltage section 52 (lower side in the figure). ) is placed in such a position that it overlaps with and partially protrudes from the top of the control circuit section 53.

In this second embodiment, as in the first embodiment, the communication module 41 is provided in the storage section 36 in which the control board 51 is stored, so the length of the wiring can be shortened. , the cost can be suppressed and the arrangement can be made appropriate. Further, since the communication module 41 is arranged so as to overlap the control board 51 at a position away from the high voltage section 52, the adverse effect of noise on the communication module 41 can be suppressed.

FIG. 7 shows a third embodiment, which is also different from the first embodiment and the like in the arrangement relationship between the control board 55 and the communication module 41 within the storage section 36. That is, the control board 55 has a rectangular shape slightly elongated in the front-rear direction, and includes a high voltage section 56 (shown with hatching for convenience) including a power supply circuit, and a control circuit section 57 as a low voltage section. There is. In this case, the high voltage section 56 is provided at the front part of the control board 55, and is provided in such a manner that the rear left half thereof is convex toward the rear. Therefore, the control circuit section 57 is provided at the front part of the control board 55, and is provided in such a manner that the front right half thereof is convex forward. The communication module 41 is provided above the control board 55 so as to overlap with it, and the control circuit section 57 is located on the right side (lower side in the figure), which is located away from the high voltage section 56. It is placed in a position where it overlaps the top of the screen and partially protrudes from the top.

Also in this third embodiment, as in the first embodiment and the like, the communication module 41 is provided in the storage section 36 in which the control board 55 is stored, so that the length of the wiring can be shortened. This allows for cost reduction and appropriate placement. Further, since the communication module 41 is arranged so as to overlap the control board 55 at a position away from the high voltage section 56, the adverse effect of noise on the communication module 41 can be suppressed.

FIG. 8 shows a fourth embodiment. The fourth embodiment differs from the first embodiment described above in the configuration of a communication module 61 arranged in the storage section 36 so as to overlap the control board 25. Although not shown in detail, this communication module 61 includes a control IC, a communication IC compatible with Wi-Fi, a communication antenna, a plurality of connectors 62 (only one shown), and an operation device on a rectangular board 61a. It is configured with buttons, indicator lamps, etc. At this time, the connector 62 for connection to the outside, that is, the control board 25, is mounted on the rear side of the board 61a, that is, at a position close to the right side in the figure.

The communication module 61 having the above-mentioned configuration is disposed in the storage section 36 at a position that overlaps with the upper part of the control circuit section 39 at a rearward position away from the high voltage section 38 . The control circuit section 39 of the control board 25 and the connector 62 of the communication module 61 are connected by a connection cable 63, but the direction in which the connection cable 63 in the communication module 61 is led is The high voltage section 38 side of 25 is located at the rear in a direction different from the high voltage section 38 side.

In this fourth embodiment, as in the first embodiment, the communication module 61 is provided in the storage section 36 in which the control board 25 is stored, so the length of the wiring can be shortened. , the cost can be suppressed and the arrangement can be made appropriate. Furthermore, since the communication module 61 is arranged so as to overlap the control board 25 at a position away from the high voltage section 38, the adverse effect of noise on the communication module 61 can be suppressed. Moreover, in this embodiment, since the connecting cable 63 is configured to have a positional relationship in which the leading direction is different from the high voltage section 38 side, it is possible to suppress noise from acting on the connecting cable 63. The effect of suppressing the adverse effects of noise is excellent.

(3) Fifth to Eighth Embodiments Next, the fifth to eighth embodiments will be described in order with reference to FIGS. 9 to 12, respectively. Although not shown in detail, in these fifth to eighth embodiments, a communication module is disposed in the storage section 36 in which the control board 25 is stored. They are placed side by side in matching positions. The fifth to eighth embodiments described below are specific examples of various arrangement patterns. In addition, in FIGS. 9 to 12, multiple placement examples are shown in one drawing, and appropriate placements are marked with "○" and inappropriate placements are marked with "x". .

FIG. 9 shows a fifth embodiment. In the fifth embodiment, the communication module 41 is arranged in a plane adjacent to the side portion of the control board 25 excluding the high voltage section 38 . That is, the control board 25 as a whole has a rectangular shape that is slightly elongated in the front and rear directions (in the horizontal direction in the figure), and has a high voltage section 38 (shown with hatching for convenience) in the first half of its upper surface, and a high voltage section 38 in the second half (shown with hatching for convenience). It has a control circuit section 39 in the section.

On the other hand, the communication module 41 is located on the left side of the control circuit section 39 (the position indicated by (A) in the figure), which is a position away from the high voltage section 38 around the side of the control board 25. , or placed on either the rear side of the control circuit section 39 (the position indicated by (B) in the figure) or the right side of the control circuit section 39 (the position indicated by (C) in the figure). be done. In terms of noise, it is undesirable for the communication module 41 to be placed on the front side of the control board 25 (the position indicated by (D) in the figure), which is a position close to the high voltage section 38.

According to the fifth embodiment, by providing the communication module 41 in the storage section 36 in which the control board 25 is stored, the length of the connection cable 49 can be shortened, and the arrangement can be reduced in terms of cost. It is possible to obtain an effect that can be made appropriate. Since the communication module 41 is disposed at a position away from the high voltage section 38 on the side of the control board 25, it can be made less susceptible to noise generated in the high voltage section 38. There is also an advantage that the space for the storage section 36 in the thickness direction of the control board 25 can be reduced, that is, the storage section 36 can be made thin.

FIG. 10 shows a sixth embodiment. In the sixth embodiment as well, the communication modules 41 are arranged in a plane adjacent to one of the sides of the control board 25 in the storage section 36 . At this time, the communication module 41 is configured by mounting the communication IC 44 on one short side of the board 41a, and the side near the communication IC 44, in this case, one short side, The mounting position is such that it faces in a different direction from the control board 25, that is, it does not face the control board 25 side.

To give a specific example, as shown in (E) in the figure, the communication module 41 is provided at a position adjacent to the center of the right side of the control board 25, with the short side near the communication IC 44 facing right. Can be done. Alternatively, as shown in (F) in the figure, the communication module 41 can be provided at a position adjacent to the front portion of the right side of the control board 25, with the short side near the communication IC 44 facing forward. Alternatively, as shown in (G) in the figure, the communication module 41 can be provided at a position adjacent to the rearward portion of the right side of the control board 25, with the short side near the communication IC 44 facing backward. On the other hand, it is undesirable in terms of noise to install the communication module 41 in a direction in which the side near the communication IC 44 faces the control board 25. The short side near the communication IC 44 is not provided in a matching position with the short side facing forward.

According to the sixth embodiment, similarly to the fifth embodiment, the length of the connection cable 49 can be shortened by providing the communication module 41 in the storage section 36 in which the control board 25 is stored. It is possible to obtain the effect that the arrangement can be made appropriate in terms of cost. Further, there is an advantage that the storage section 36 can be made thin. Since the side of the communication module 41 that is close to the communication IC 44 faces in a different direction from the control board 25, the communication IC 44 is located away from the high voltage section 38, which helps to suppress the adverse effects of noise. Becomes excellent.

FIG. 11 shows a seventh embodiment. In the sixth embodiment, the side portion of the communication module 41 near the communication IC 44 is configured to face in a different direction from the control board 25, regardless of the position of the high voltage section 38 of the control board 25. On the other hand, in the seventh embodiment, the side portion of the communication module 41 near the communication IC 44 is located in a direction different from the high voltage section 38 (shown with hatching for convenience) side of the control board 25. In other words, as long as it is not facing the high voltage section 38 side, the mounting position is allowed.

Specifically, as illustrated by (I) in the figure, the communication module 41 is placed at a position adjacent to the control circuit section 39 on the right side of the control board 25, with the short side near the communication IC 44 facing left. In other words, it can be provided toward the control circuit section 39 side. On the other hand, as shown by (J) in the figure, the communication module 41 is placed at a position adjacent to the high voltage section 38 on the right side of the control board 25, with the short side near the communication IC 44 facing left, that is. The configuration provided toward the high voltage section 38 side is not appropriate in terms of noise and is not adopted.

According to the seventh embodiment, similarly to the sixth embodiment, the communication module 41 is provided in the storage section 36 in which the control board 25 is stored, so that the arrangement can be made appropriate in terms of cost. In addition, the housing section 36 can be made thinner. Since the side of the communication module 41 near the communication IC 44 faces in a different direction from the high voltage section 38 of the control board 25, the adverse effects of noise from the high voltage section 38 on the communication IC 44 are suppressed. can do.

Note that in the sixth and seventh embodiments described above, the "side part near the communication IC 44" of the communication module 41 is configured to face in a different direction from the control board 25 or the high voltage section 38 side. , this can also be implemented as a "side part near the communication antenna 45". This also makes it possible to suppress the adverse effects of noise on the communication antenna 45 of the communication module 41.

FIG. 12 shows an eighth embodiment. In the eighth embodiment as well, the communication modules 61 are arranged in a plane in a position adjacent to one of the sides of the control board 25, in this case, adjacent to the right side in the storage part 36. Ru. At this time, in the communication module 61, a connector 62 for connection with the control board 25 is mounted at a position along one side of the board 61a, and a connection cable 63 is routed from this connector 62 in the direction of the side. derived. The connection cable 63 is configured to be led out in a direction different from the high voltage section 38 side of the control board 25 (shown with hatching for convenience).

Specifically, as illustrated by (K) in the figure, the communication module 61 can be arranged so that the connection cable 63 is led out backward (to the right in the figure). Alternatively, as illustrated by (L) in the figure, the communication module 61 can be arranged so that the connecting cable 63 is led out to the left (upward in the figure). Alternatively, as illustrated by (M) in the figure, the communication module 61 can be arranged so that the connecting cable 63 is led out to the right (downward in the figure). On the other hand, as shown by (N) in the figure, it is not possible to configure the communication module 61 so that the connection cable 63 is directed toward the high voltage section 38 side of the control board 25, that is, the front (leftward in the figure). , this arrangement is undesirable in terms of noise and is not adopted.

In the eighth embodiment, by providing the communication module 61 in the storage section 36 in which the control board 25 is stored, it is possible to obtain the effect that the arrangement can be made appropriate in terms of cost. In addition, the storage section 36 can be made thin. Since the connection cable 63 of the communication module 61 is led out in a different direction from the high voltage section 38 side of the control board 25, the communication module 61 is effectively suppressed from the adverse effects of noise. Become something.

(4) Ninth to Twelfth Embodiments and Other Embodiments FIG. 13 shows the ninth embodiment, and shows the refrigerator main body 1 from the front with the door 9 of the refrigerator compartment 6 open. There is. Although not shown in detail, in the ninth embodiment, for example, a storage part in which a control board is stored is provided in a front part of the upper wall of the heat insulating box 2, and a communication module 71 is installed in the storage part. It is arranged. The communication module 71 is also assumed to have a communication function with the smart speaker 42, and although not shown in detail, it is equipped with a control IC equipped with voice artificial intelligence and a Wi-Fi compatible device on a rectangular board. It is configured by mounting a communication IC, a communication antenna, a plurality of connectors, an operation button 72, a display lamp 73 made of an LED, and the like.

Here, when the operation button 72 is operated, the communication module 71 is configured to enter a priority mode in which it is determined that the input instruction content from the smart speaker 42 is an instruction to the refrigerator main body 1, and In the priority mode, the display lamp 73 lights up. In this embodiment, the communication module 71 includes an operation button 72 and an indicator lamp 73 arranged side by side on the front side from the right to the left. It is provided at a position facing the upper front surface so that it can be operated by the user.

According to the ninth embodiment, the communication module 71 can be appropriately arranged as in the first embodiment and the like. In addition, by providing the operation button 72 for setting the priority mode on the communication module 71, convenience can be improved when a plurality of home appliances are connected to a network. Further, the operation button 72 and display lamp 73 of the communication module 71 can be provided at a position that is easy for the user to operate and see.

FIG. 14 shows a tenth embodiment, which differs from the ninth embodiment in the arrangement of the communication module 71 and the like. Here, an upper right hinge portion (not shown) is provided at the upper end portion of the refrigerator main body 1 and is located at the right end portion on the front side and supports the door 9 in an openable/closable manner. covered. At this time, the hinge cover 75 is configured to be large in the thickness direction and rearward, and forms a storage section in which the control board is stored.

The communication module 71 is arranged in the storage section, and the communication module 71 is provided so that the operation button 72 and the display lamp 73 are on the right side, and the operation button 72 and the display lamp 73 are located on the hinge cover. It is disposed on the right side of the refrigerator body 1 so that it can be operated by the user while facing the side of the refrigerator body 1 . The tenth embodiment also has the same effects as the ninth embodiment, such as being able to provide the operation button 72 and display lamp 73 of the communication module 71 at a position that is easy for the user to operate and see. Obtainable.

FIG. 15 shows an eleventh embodiment. In the eleventh embodiment, a communication module 71 and the like are provided in a heat insulating door 9 that opens and closes a refrigerator compartment 3 of a refrigerator main body 1. That is, the right heat insulation door 9 is provided with an operation panel 40 and, although not shown, is provided with a storage section in which a control board is stored. A communication module 71 is located near the lower right side of the heat insulating door 9 and is disposed within the storage section thereof.

The communication module 71 is provided so that the operation button 72 and the display lamp 73 are on the right side, and the operation button 72 and the display lamp 73 are arranged on the lower right side of the heat insulating door 9 so that they can be operated by the user. ing. The eleventh embodiment also has the same features as the ninth and tenth embodiments, such as being able to provide the operation button 72 and display lamp 73 of the communication module 71 at a position that is easy for the user to operate and see. effect can be obtained.

FIG. 16 shows a twelfth embodiment. In this twelfth embodiment, as in the eleventh embodiment, an operation panel 40 is provided on the right heat insulation door 9 of the refrigerator main body 1, and a control board is housed inside, although not shown. There is a storage section for storing. A communication module 71 is disposed in the storage section at the lower right portion of the heat insulating door 9. The communication module 71 is provided such that an operation button 72 and a display lamp 73 are arranged side by side on the right end of the lower side of the heat insulating door 9 so as to be operable by the user. This twelfth embodiment also has the same features as the ninth to eleventh embodiments, such as being able to provide the operation button 72 and display lamp 73 of the communication module 71 at a position that is easy for the user to operate and see. effect can be obtained.

In each of the above embodiments, a communication module having a communication function with a smart speaker is used as the communication module. It may be something. Various modifications are also possible in the arrangement positions when providing operation buttons and indicator lamps. In each of the above embodiments, the refrigerator is equipped with two coolers, the refrigerator cooler 20 and the freezer cooler 21. It can also be applied to a type of refrigerator that controls the flow of cold air into the room. In addition, for example, the configuration (arrangement) of each chamber within the refrigerator body may be such as a vegetable compartment at the bottom, and various changes are possible in the position of the cooler, etc., and the duct configuration. be.

The embodiments described above are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, substitutions, and changes can be made without departing from the gist of the invention. This embodiment and its modifications are included within the scope and gist of the invention, as well as within the scope of the invention described in the claims and its equivalents.

In the drawing, 1 is the refrigerator body, 2 is the insulation box body, 3 is the refrigerator compartment, 4 is the vegetable compartment, 9 is the insulation door (door), 13 is the chilled compartment, 25, 51, 55 are the control board, and 36 is the storage section. , 38, 52, and 56 are high voltage sections, 39, 53, and 57 are control circuit sections, 41, 61, and 71 are communication modules, 42 is a smart speaker, 43 is a control IC, 44 is a communication IC, and 45 is for communication. An antenna, 46 and 62 are connectors, 47 and 72 are operation buttons, 48 and 73 are display lamps, 49 and 63 are connection cables, 50 is an external server, and 75 is a hinge cover.

Claims (5)

A control board that controls each mechanism of the refrigerator,
a storage section provided in the main body of the refrigerator and housing the control board;
a communication module provided in the storage section and configured to perform wireless communication with the outside;
The control board is configured to have a high voltage section including a power supply circuit,
The communication module is disposed in a region of the control board in a plan view at a position away from the high voltage section and lined up with the high voltage section in the front-rear direction ,
The communication module and the control board are connected by a connection cable, and the communication module is configured such that the connection cable is directed backward. The communication module is configured by mounting a communication IC, and is mounted at a mounting position such that a side of the communication module near the communication IC faces in a direction different from the high voltage section side of the control board. The refrigerator according to claim 1, wherein: The communication module is configured by mounting a communication antenna, and is mounted at a mounting position such that a side of the communication module near the communication antenna faces in a different direction from the high voltage section side of the control board. The refrigerator according to claim 1 or 2, wherein: The communication module is capable of wireless communication with an external smart speaker,
The communication module has an operation unit that receives an operation for setting a priority mode in which input instruction content from the smart speaker is determined to be an instruction for the refrigerator,
The refrigerator according to any one of claims 1 to 3, wherein the operation section is located on a side of the communication module that is different from the high voltage section side. The communication module has a connector for connecting to the control board using the connection cable,
The refrigerator according to claim 4 , wherein the connector is arranged between the high voltage section and the operating section.

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