JP2017026169A - Electrical household appliance and refrigerator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electrical household appliance with a display panel which enables a user to view a display content from a position other than a side in front of the electrical household appliance.SOLUTION: A refrigerator 10, which is one example of an electrical household appliance of the invention, includes: a body door 11a; and a glass panel (a front panel) 22 provided on a surface of the body door 11a. A liquid crystal display panel (a display part) 21 for displaying information is attached to the glass panel 22. An orientation of the glass panel 22 can be changed relative to a surface of the body door 11a.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a home appliance including a display panel.

  On home appliances such as refrigerators, heating cookers, and washing machines, the state of the device can be displayed on the front or top surface of the apparatus body, and the user can input a predetermined instruction to the device. Some display panels are provided. For example, Patent Documents 1 and 2 disclose a refrigerator in which a liquid crystal display device is attached to a door.

JP-A-9-250868 JP 2005-61757 A

  The display panel mounted on the home appliance as described above is attached in a state of being fixed to the front door. Since a display panel such as a liquid crystal display device has a limited viewing angle, it is necessary for the person to move to the vicinity of the front of the home appliance in order to correctly confirm the display content. This is a factor that impairs the convenience of home appliances with display panels. For example, depending on the arrangement position of the refrigerator, it may be difficult to confirm the display content of the display panel of the refrigerator placed at a position away from the stove during cooking near the stove in the kitchen.

  In view of the above, an object of the present invention is to provide a home electric appliance with a display panel that allows the display contents to be visually recognized from a position other than the front.

  A home electric appliance according to one aspect of the present invention includes a main body door and a front panel that is provided on a surface of the main body door and includes a display unit that displays information. And in this household appliances, the said surface panel is provided so that the direction with respect to the surface of the said main body door can be changed.

  In the above-described home appliance of the present invention, the front panel may be openable and closable from two opposing end portions.

  The home appliance of the present invention may be a refrigerator. Moreover, when the household appliances of this invention are refrigerators, the said refrigerator may further be equipped with the member for raising the surface temperature of the said main body door. Furthermore, the member may have a heat conduction line for transferring heat from a condenser constituting a refrigeration cycle provided in the refrigerator.

  ADVANTAGE OF THE INVENTION According to this invention, the surface panel provided in the surface of the main body door of household appliances can be inclined with respect to a door. Therefore, the display unit provided in the front panel can be easily visually recognized from a position other than the front surface of the home appliance. Thereby, a more convenient home appliance can be obtained.

It is a front view of the refrigerator which concerns on one Embodiment of this invention. (A) is a top view of the refrigerator shown in FIG. (B) is a top view of the refrigerator with the door open. (A) is a cross-sectional schematic diagram which shows the structure of the door and glass panel of the refrigerator of FIG. (B)-(e) is a cross-sectional schematic diagram which shows the other structural example of the door of a refrigerator, and a glass panel. (A) is a top view which shows the state which opened the glass panel of the refrigerator shown in FIG. 1 from the right side. (B) is a top view which shows the state which opened the glass panel of the refrigerator shown in FIG. 1 from the left side. It is a schematic diagram which shows the structure of the glass panel which can be opened from right and left both sides. (A) is a top view which shows typically the state which opened the glass panel shown in FIG. 5 from the right side. (B) is a top view which shows typically the state which opened the glass panel shown in FIG. 5 from the left side. It is a schematic diagram which shows the structure of the glass panel with which the refrigerator concerning the 2nd Embodiment of this invention was equipped. (A) is a top view which shows typically the state which opened the glass panel shown in FIG. 7 from the right side. (B) is a top view which shows typically the state which opened the glass panel shown in FIG. 7 from the left side. It is a schematic diagram which shows the heat conductive line arrange | positioned inside the refrigerator shown in FIG. It is a schematic diagram which shows the heat conductive line arrange | positioned at the door of the refrigerator shown in FIG. (A) is a front view of the refrigerator which concerns on the 3rd Embodiment of this invention. (B) is a top view of the refrigerator shown in (a).

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are denoted by the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.

<First Embodiment>
In the first embodiment, a refrigerator having a display panel attached to a front door will be described as an example of the home appliance of the present invention. In FIG. 1, the external appearance of the front side of the refrigerator 10 concerning this embodiment is shown.

  As shown in FIG. 1, the refrigerator 10 includes a first refrigerator compartment 11, a second freezer compartment 12, an ice making chamber 13, a first refrigerator compartment 14, and a second refrigerator compartment 15 in order from the top. ing. The first refrigerator compartment 11 arranged at the top is provided with double doors (main body doors) 11a and 11b divided into left and right. The 2nd refrigerator compartment 15 arrange | positioned at the lowest stage plays the role of the vegetable compartment which mainly stores vegetables. The second refrigerator compartment 15 is provided with a drawer type door 15a.

  The first freezer compartment 14 is arranged in the second stage from the bottom. The first freezer compartment 14 is provided with a drawer-type door 14a. The second freezer compartment is arranged on the right side of the second stage from the top. The second freezer compartment is provided with a drawer-type door 12a. The ice making chamber 13 is arranged on the left side of the second stage from the top. The ice making chamber 13 is provided with a drawer-type door 13a. The configuration of each storage space of the refrigerator 10 described here is an example, and the present invention is not limited to this configuration.

  In addition, a refrigeration cycle (not shown) is provided inside the refrigerator 10. The refrigeration cycle is configured by connecting a compressor, a condenser, an expander, and a cooler via a refrigerant pipe through which a refrigerant flows.

  The door (main body door) 11a provided on the right side of the first refrigerator compartment 11 is provided with a liquid crystal display panel (display unit) 21 near the center. The liquid crystal display panel 21 is attached to a glass panel (surface panel) 22 provided on the front surface of the door 11 a and is integrated with the glass panel 22. The glass panel 22 is attached to the door 11a so that it can be opened and closed from the door 11a.

  In the present embodiment, the glass panel 22 having a surface that is slightly smaller than the surface area of the door 11a has a smaller area (for example, about 1/9 to 1/4 of the area of the door 11a). The liquid crystal display panel 21 is provided. However, the area ratio of the door 11a, the glass panel 22, and the liquid crystal display panel 21 is not limited to this. Moreover, the structure by which liquid crystal display panel 21 itself is attached with respect to the door 11a so that opening and closing is possible, without providing the glass panel 22 may be sufficient.

  In the present embodiment, the power supply of the liquid crystal display panel 21 attached to the glass panel 22 is supplied with power wirelessly from the main body side of the refrigerator 10. A known method may be applied for wireless power feeding. In addition, this invention is not limited to this structure, The liquid crystal display panel 21 may mount the battery, and may supply electric power with a wire from the main body side of the refrigerator 10. FIG.

  In addition, the liquid crystal display panel 21 includes a data communication unit that communicates information with a control unit provided in the refrigerator 10 body. The liquid crystal display panel 21 can receive information from the refrigerator 10 via the data communication unit and perform display based on the contents. Data communication between the data communication unit of the liquid crystal display panel 21 and the control unit of the refrigerator 10 is preferably performed wirelessly using, for example, Bluetooth (registered trademark), wireless LAN, or the like. However, wired data communication is also possible.

  Next, the opening and closing mechanism of the door 11a and the glass panel 22 will be described with reference to FIGS. Fig.2 (a) is the figure which looked at the refrigerator 10 from upper direction. Moreover, FIG.2 (b) is a figure which shows the state which opened the door 11a of the refrigerator 10 shown to Fig.2 (a).

  As shown to Fig.2 (a), the glass panel 22 is attached to the front surface of the door 11a. And the liquid crystal display panel 21 is attached to the back surface of the glass panel 22 in the state fixed with the adhesive agent, the double-sided tape, the screw, etc., for example. As shown in FIG. 2A, the liquid crystal display panel 21 exists between the refrigerator door 11 a and the glass panel 22.

  Note that when the refrigerator 10 is actually viewed from above, the liquid crystal display panel 21 is sandwiched between the door 11a and the glass panel 22 and cannot be seen. However, in FIG. A liquid crystal display panel attached to the back surface of the panel 22 is also illustrated. As shown in FIG. 2B, when the door 11a of the refrigerator 10 is opened, the glass panel 22 provided on the front surface is also integrated with the door 11a and released from the main body of the refrigerator 10.

  In the present embodiment, glass is used as the material for the panel provided on the surface of the door 11a. However, in the present invention, the material for the panel is not limited to glass. Any material that is transparent and has a certain degree of rigidity can be used without particular limitation.

  Fig.3 (a) shows an example of the more concrete structure of the glass panel 22 attached with respect to the door 11a. 3A is a cross-sectional view in the horizontal direction (left-right direction) of the door 11a where the liquid crystal display panel 21 is installed. FIG. 3A shows a state where the door 11a and the glass panel 22 are disassembled, and illustration of a movable support member for supporting the glass panel 22 so as to be openable and closable with respect to the door 11a is omitted.

  As shown to Fig.3 (a), the recessed part 11c for mounting the glass panel 22 inside is formed in the front surface of the door 11a. And the side wall 11d for forming the recessed part 11c is provided in the edge part of the door 11a. A movable support member is attached to the upper end and lower end of the glass panel 22, respectively, and is connected to the door 11a via the movable support member. Thereby, the glass panel 22 can be opened and closed with respect to the door 11a. The detailed configuration of the movable support member will be described later.

  FIG. 4A shows a state where the glass panel 22 is opened from the right side. Moreover, in FIG.4 (b), the state which opened the glass panel 22 from the left side is shown. As shown in these drawings, the refrigerator 10 of the present embodiment can open the glass panel 22 from both the left and right sides.

  Then, the structure of the movable support member which connects the glass panel 22 and the door 11a is demonstrated, referring FIG.5 and FIG.6. As shown in FIG. 5, movable support members 30 are attached to the upper end portion and the lower end portion of the glass panel 22, respectively.

  Here, the movable support member on the upper end side is 30a, and the support member on the lower end side is 30b. The movable support member 30 (30a, 30b) includes a support arm 31 and two hinges 32 and 33 provided at both ends of the support arm 31. In each of the movable support members 30a and 30b, the hinge 32 provided on the left side is rotatable with respect to the rotation axis A. In each of the movable support members 30a and 30b, the hinge 33 provided on the right side is rotatable with respect to the rotation axis B.

  The rotation axis A of the hinge 32 provided on the left side of the upper movable support member 30 a is connected to the upper left corner of the door 11 a of the refrigerator 10. In addition, the hinge 32 provided on the left side of the lower movable support member 30 b has a rotation axis A connected to the lower left corner of the door 11 a of the refrigerator 10. The hinge 32 may be attached to the side wall 11d (upper side wall and lower side wall) forming the recess 11c of the door 11a. Alternatively, it may be embedded in the door 11a.

  Further, the rotation axis B of the hinge 33 provided on the right side of the upper movable support member 30 a is connected to the upper right corner of the glass panel 22. Further, the hinge 33 provided on the right side of the lower movable support member 30 b has its rotation axis B connected to the lower right corner of the glass panel 22.

  The hinge 32 and the hinge 33 may be configured to be reversed left and right. That is, the rotation axis A of the hinge 32 is connected to the corners of the glass panel 22 (upper left corner and lower left corner), and the rotation axis B of the hinge 33 is connected to the corner of the door 11a (upper right corner). And a lower right corner). Thus, in the present invention, it is only necessary that one of the left and right hinges is connected to the glass panel and the other of the left and right hinges is connected to the door.

  With the configuration as described above, in the refrigerator 10 of the present embodiment, the glass panel 22 can be opened and closed from the left side and the right side while the door 11a is closed. FIG. 6A shows a state where the glass panel 22 is opened from the right side.

  As shown in this figure, in a state where the glass panel 22 is opened from the right side, the glass panel 22 rotates around the rotation axis A by the action of the hinge 32 arranged on the left side. At this time, the hinge 32 is in a fixed state, and the left end portion of the glass panel 22 is in a fixed state on the rotation axis A. Moreover, in the state which opened the glass panel 22 from the right side, as shown to Fig.6 (a), the support arm 31 rotates with the glass panel 22. As shown in FIG.

  FIG. 6B shows a state where the glass panel 22 is opened from the left side. As shown in this figure, in a state where the glass panel 22 is opened from the left side, the glass panel 22 rotates with the rotation axis B as a starting point by the action of the hinge 33 arranged on the right side. At this time, the hinge 32 is in a fixed state, and the support arm 31 is also fixed on the door 11a side.

<Effect of being able to open from both sides>
As described above, the refrigerator 10 according to the present embodiment has the glass panel 22 with respect to the door 11a so that the glass panel 22 can change the orientation with respect to the surface of the door 11a. Is attached. That is, the refrigerator 10 can tilt the liquid crystal display panel 21 with respect to the surface of the door 11a. Furthermore, the angle of the liquid crystal display panel 21 with respect to the surface of the door 11a can be changed. Therefore, it is possible to make the display content of the liquid crystal display panel 21 more easily visible to a person at a position other than the front side of the refrigerator 10 with the door 11a closed.

  Usually, the refrigerator is installed in the kitchen. Since the refrigerator is fixedly arranged in the kitchen, the user needs to move to the vicinity of the front of the refrigerator and look at the display panel in order to accurately view the contents of the display panel mounted on the front door. is there. This may impair the workability of the user who is cooking in the kitchen.

  In this respect, according to the refrigerator 10 according to the present embodiment, the orientation of the display surface of the liquid crystal display panel 21 can be changed by opening and closing the glass panel 22 to which the liquid crystal display panel 21 is attached from both the left and right sides. For example, in the state shown in FIG. 6A, the display content of the liquid crystal display panel 21 can be shown to the person on the left side of the refrigerator 10. On the other hand, in the state shown in FIG. 6B, the display content of the liquid crystal display panel 21 can be shown to the person on the right side of the refrigerator 10.

  Further, for example, the opening / closing operation of the glass panel 22 can be remotely controlled using an external terminal such as a remote controller. Thereby, the glass panel 22 can be opened and closed from a position away from the refrigerator 10. Thus, the workability | operativity in a kitchen can be improved more by using the refrigerator 10 of this embodiment.

  In the present embodiment, as an example of the openable and closable surface panel provided in the home appliance of the present invention, glass panel 22 that can be opened and closed from both the left and right sides is taken as an example. However, the present invention is not limited to this. The surface panel provided in the home electric appliance of the present invention only needs to be configured to be openable and closable from two opposing end portions of the panel. Therefore, for example, the glass panel 22 that can be opened from the upper end and the lower end of the glass panel 22 is also included in the scope of the present invention.

<Another configuration example of the present invention>
In the above-described embodiment, the configuration in which the glass panel 22 can be opened from both the left and right sides using a movable support member having two hinges has been described. However, the home appliance of the present invention is not limited to this configuration. The household electrical appliance of this invention should just be equipped with the front panel which has a display part in a main body door, and this front panel can be inclined with respect to the surface of a main body door. That is, the front panel should just be the structure which can be opened and closed from the at least one side of a main body door. According to this structure, the person who exists in positions other than the front surface of household appliances can also confirm the information of a display part.

  Further, when a liquid crystal display element is used for the display portion, a display portion with a wider viewing angle can be realized by appropriately changing the polarizing plate. Thereby, even if the inclination angle of the front panel is reduced, it is possible to realize a home electric appliance in which a wider range of people can confirm the display content.

<Modification of glass panel>
Subsequently, a modified example to which the first embodiment is applied will be described. In 1st Embodiment mentioned above, the recessed part 11c was formed in the front surface of the door 11a, and it demonstrated and demonstrated the structure (refer FIG. 3 (a)) by which the glass panel 22 is engage | inserted in this recessed part 11c. However, the present invention is not limited to such a configuration. FIG. 3B to FIG. 3E show a modified example of the glass panel 22. Similar to FIG. 3A, FIGS. 3B to 3E show a state in which the door and the glass panel are disassembled, and support the glass panel so that it can be opened and closed with respect to the door. Illustration of the movable support member is omitted. Here, only differences from the configuration shown in FIG.

  In the example shown in FIG. 3B, the glass panel 22 is provided on the front surface of the door 111a of the refrigerator 10 so as to be opened and closed from both the left and right sides. A liquid crystal display panel 21 is attached to the back surface of the glass panel 22. In the example shown in FIG. 3B, the door 111a is not provided with a recess. Therefore, the protrusion 23 is provided around the back surface of the glass panel 22 (the surface to which the liquid crystal display panel 21 is attached). Thereby, the space for mounting the liquid crystal display panel 21 can be secured.

  In the configuration shown in FIG. 3B, the movable support member having two rotation axes is attached to the upper end and the lower end of the glass panel 22. That is, one rotation axis A of the movable support member is located at a position indicated by A in FIG. 3B, and the other rotation axis B of the movable support member is indicated at a position indicated by B in FIG. Is located. One of these two rotation axes A and B is connected to the glass panel 22. A support member connected to the door 11a is attached to the other of the two rotation axes A and B so as to be rotatable with respect to the rotation axis.

  In the example shown in FIG. 3C, a glass panel 122 is provided on the front surface of the door 111a of the refrigerator 10 so as to be opened and closed from both the left and right sides. In the example shown in FIG. 3C, the liquid crystal display panel 121 is fitted into the glass panel 122. As shown in FIG. 3C, the front and back surfaces of the liquid crystal display panel 121 and the glass panel 122 are flush with each other. In the configuration shown in FIG. 3C, the movable support member having two rotation shafts is attached to the upper end and the lower end of the glass panel 122 as in the configuration example shown in FIG. That is, one rotation axis A of the movable support member is positioned at a position indicated by A in FIG. 3C, and the other rotation axis B of the movable support member is indicated at a position indicated by B in FIG. Is located.

  In the example shown in FIG. 3D, a glass panel 222 is provided on the front surface of the door 111a of the refrigerator 10 so as to be opened and closed from both the left and right sides. In the example illustrated in FIG. 3D, the liquid crystal display panel 221 is embedded in the glass panel 222. Other configurations are the same as the example shown in FIG.

  Moreover, in the example shown in FIG.3 (e), the glass panel 22 is provided in the front surface of the door 211a of the refrigerator 10 so that opening and closing is possible from both right and left sides. In the configuration shown in FIG. 3A, a recess 11c for mounting the glass panel 22 therein is formed in the door 11a. On the other hand, in the configuration shown in FIG. 3E, the door 211a is formed with a recess 211b into which only the liquid crystal display panel 21 is fitted.

  Thus, in the configuration shown in FIG. 3A, the door 11a is formed with a recess 11c corresponding to the size of the glass panel 22, whereas in the configuration shown in FIG. A recess 211b corresponding to the size of the liquid crystal display panel 21 is formed in the door 211a. According to the configuration shown in FIG. 3E, the space formed between the door 211a and the glass panel 22 can be made smaller.

  As a method for attaching the movable support member in the configuration of FIG. 3E, for example, a method similar to that shown in FIGS. 3B and 3C can be applied.

<Condensation prevention mechanism (heat conduction line)>
Then, the dew condensation prevention mechanism (member for raising the surface temperature of a main body door) of the back surface of the glass panel 22 with which the refrigerator 10 of this Embodiment was equipped is demonstrated. In FIG. 9, the heat conductive line provided in the main-body part of the refrigerator 10 is shown typically. Moreover, in FIG. 10, the heat conductive line in the door 11a provided corresponding to the heat conductive line of the main-body part of the refrigerator 10 is shown.

  In the refrigerator 10 of the present embodiment, a glass panel 22 is provided on the surface of the door 11a. Thereby, a certain amount of space is formed between the door 11a and the glass panel 22 (see FIG. 3). This space is not completely sealed, and a certain amount of ventilation is performed between the space and the outside. However, if the state in which the glass panel 22 is closed continues, air convection is inhibited between the outside and the outside. Then, in this space, a temperature difference with the outside air may occur, and condensation may occur. The occurrence of such dew condensation is not preferable because it may cause performance degradation and failure of the liquid crystal display panel 21 attached to the glass panel 22.

  For example, when the temperature in the first refrigerator compartment 11 of the refrigerator 10 is 3 ° C., the thickness of the door 11a (heat insulation thickness) is 30 mm, and the outside air temperature is 30 ° C., the surface temperature of the door 11a is about It is assumed that the temperature is lowered by about 3 ° C. That is, in this case, the temperature of the space between the door 11a and the glass panel 22 is considered to be about 27 ° C. On the other hand, if the environment in the kitchen where the refrigerator 10 is installed is a room temperature of 30 ° C. and a humidity of 85%, the dew point temperature in the kitchen is 27.2 degrees.

  Thus, when the temperature of the space between the door 11a and the glass panel 22 is lower than the dew point temperature, dew condensation occurs in the space. The environmental conditions in the kitchen as described above are likely to occur in summer. Therefore, in the refrigerator having the double structure of the door and the glass panel as in the present invention, it is desirable to take measures to suppress the occurrence of condensation in the double structure internal space. Therefore, the refrigerator according to the present embodiment is provided with a dew condensation prevention mechanism on the surface of the main body door.

  More specifically, the refrigerator 10 is provided with heat conduction lines 35 and 36 (members for increasing the surface temperature of the main body door) as shown in FIGS. 9 and 10 as a dew condensation prevention mechanism. Although not shown in FIG. 9, the heat conduction line 35 is connected to a condenser constituting the refrigeration cycle of the refrigerator 10. In the refrigeration cycle, the condenser radiates heat by condensing the refrigerant to receive heat. Therefore, the heat radiated from the condenser is transmitted to the heat conduction line 35 connected to the condenser. Thereby, heat is radiated from the heat conduction line 35.

  As shown in FIG. 9, on the main body side of the refrigerator 10, a heat conduction line 35 extends from the side wall 10b of the refrigerator to almost the entire front surface 10a of the refrigerator 10 (for example, a boundary wall that divides each storage space). Has been. Further, the door 11a of the refrigerator 10 is provided with a heat conduction line 36 at a position facing the heat conduction line 35 on the main body side. Further, the heat conduction line 36 is arranged to meander near the surface in the door 11a. The heat conduction line is formed of a metal having high heat conductivity such as aluminum or copper.

  With the above configuration, the heat conduction line 35 connected to the condenser first transfers heat to the side wall 10b of the refrigerator 10 to suppress condensation on the side wall 10b of the refrigerator. Furthermore, the heat conduction line 35 conducts heat to the boundary wall that partitions each storage space on the front surface 10 a of the refrigerator 10. Thereby, the contact part with each door of the front surface 10a of the refrigerator 10 is warmed, and the temperature difference with the exterior reduces. Therefore, the dew condensation at the contact portion between the boundary wall and the door of each storage space can be suppressed.

  Furthermore, heat is transmitted from the heat conduction line 35 disposed at the facing position to the heat conduction line 36 on the door 11 a side disposed at a position corresponding to the heat conduction line 35. And heat can be transmitted to the back surface of the glass panel 22 by the heat conduction line 36 extended to the area | region where the glass panel 22 is arrange | positioned. Thereby, the temperature difference between the space between the door 11a and the glass panel 22 and the outside air can be reduced, and the occurrence of condensation can be suppressed.

  In this embodiment, a condenser of a refrigeration cycle is used as a heat source for transferring heat to a heat conduction line (a member for increasing the surface temperature of the main body door), but the present invention is limited to this. Not done. The refrigerator of the present invention may include a heat conduction structure as a dew condensation prevention mechanism for transferring heat from the outside air as a heat source.

For example, by providing a heat conduction line extending from the surface of the glass panel 22 facing the outside of the apparatus to the back side of the glass panel 22 (the space between the refrigerator door and the glass panel), the heat of the outside air Can be efficiently transmitted to the inside of the double structure. Thereby, the difference between the temperature inside the double structure and the temperature outside can be reduced. The thermal conductivity of the heat conduction line at this time is equal to or higher than the thermal conductivity corresponding to forced convection of air (that is, α = 35 W / m ² · K (about 30 kcal / m ² · h · ° C.)). It is preferable.

<Application example of the present invention to household electrical appliances other than refrigerators>
In the above-described first embodiment, a refrigerator has been described as an example of the home appliance of the present invention. However, the present invention is not limited to application to a refrigerator. The present invention can be applied to home appliances in which a display panel for displaying some information is mounted on the door of the device body. Examples of such home appliances include a refrigerator, a heating cooker, and a washing machine.

  Moreover, in this embodiment, although the front panel which can open and close which installed the display part is installed in the door of the front of a refrigerator, the installation position of such a panel is not limited to a front door. In the present invention, it is only necessary that an openable / closable surface panel including a display unit is provided on the surface of the door of the main body of the home appliance. And the surface panel should just be able to be opened and closed from the right-and-left both sides or the up-and-down both sides.

  In the first embodiment, a liquid crystal display panel has been described as an example of a display unit that displays information. However, the display unit of the present invention is not limited to this. A thin display is suitably used as the display unit. Examples of the thin display include a liquid crystal display panel, a plasma display, and an organic EL display.

<Second Embodiment>
Subsequently, a second embodiment of the present invention will be described. In the second embodiment, a glass panel opening / closing mechanism for the refrigerator door is different from that of the first embodiment. About the other structure, the same structure as 1st Embodiment is fundamentally applicable. Therefore, in the second embodiment, only points different from the first embodiment will be described.

  In the refrigerator according to the second embodiment, a liquid crystal display panel 21 is provided on the door 11a on the right side of the first refrigerator compartment 11 as in the refrigerator 10 of the first embodiment (see FIG. 1). ). In FIG. 7, the glass panel 22 attached to the front surface of the door 11a of the refrigerator 10 which concerns on 2nd Embodiment is shown. As in the first embodiment, the liquid crystal display panel 21 is attached to the back surface of the glass panel 22. Moreover, similarly to 1st Embodiment, the glass panel 22 is attached with respect to the door 11a so that opening and closing is possible.

  Here, the structure of the movable support member that connects the glass panel 22 to the door 11a so as to be openable and closable will be described with reference to FIGS. As shown in FIG. 7, movable support members 130 are respectively attached to the upper end portion and the lower end portion of the glass panel 22. Here, the movable support member on the upper end side is denoted by 130a, and the movable support member on the lower end side is denoted by 130b.

  The movable support member 130 (130a and 130b) includes a support arm 131 and two hinges 132 and 133 provided at both ends of the support arm 131. In the first embodiment described above, the support arm 31 is disposed over the entire upper end or lower end of the glass panel 22 (that is, from the left end to the right end).

  On the other hand, in the second embodiment, the length of the support arm 131 is about half of the length of the support arm 31. The support arm 131 is attached so as to correspond to the left half of the upper end or the lower end of the glass panel 22 (that is, from the left end to the center).

  In each of the movable support members 130a and 130b, the hinge 132 provided on the left side is rotatable with respect to the rotation axis A. In each of the movable support members 130a and 130b, the hinge 133 provided on the right side is rotatable with respect to the rotation axis B.

  The hinge 132 provided on the left side of the upper movable support member 130 a has a rotation axis A connected to the upper left corner of the door 11 a of the refrigerator 10. Further, the hinge 132 provided on the left side of the lower movable support member 130 b has a rotation axis A connected to the lower left corner of the door 11 a of the refrigerator 10. The hinge 132 may be attached to the side wall 11d (see FIG. 3A) that forms the recess 11c of the door 11a. Alternatively, it may be embedded in the door 11a.

  Further, the hinge 133 provided on the right side of the upper movable support member 130 a has a rotation axis B connected to the center of the upper end of the glass panel 22. Further, the hinge 133 provided on the right side of the lower movable support member 130 b has a rotation axis B connected to the central portion of the lower end of the glass panel 22.

  In the present embodiment, the movable support member 130 is provided so as to correspond to the left half of the glass panel 22, but in the present invention, the movable support member 130 corresponds to the right half of the glass panel 22. May be provided. That is, the hinge 132 of the upper movable support member 130a is provided at the upper right corner of the door 11a of the refrigerator 10, and the hinge 132 of the lower movable support member 130a is the lower right corner of the door 11a of the refrigerator 10. It may be provided in the part. The rotation axis A of the upper hinge 132 is connected to the upper right corner of the door 11a of the refrigerator 10, and the rotation axis A of the lower hinge 132 is connected to the lower right corner of the door 11a of the refrigerator 10. It only has to be connected.

  With the above configuration, in the refrigerator 10 of the present embodiment, the glass panel 22 can be opened and closed from the left side and the right side.

  FIG. 8A shows a state where the glass panel 22 is opened from the right side. As shown in this figure, in a state where the glass panel 22 is opened from the right side, the glass panel 22 rotates from the rotation axis A as a starting point by the action of the hinge 132 arranged on the left side. At this time, the hinge 132 is in a fixed state, and the left end portion of the glass panel 22 is in a fixed state on the rotation axis A. When the glass panel 22 is opened from the right side, the support arm 131 rotates together with the glass panel 22 as shown in FIG.

  FIG. 6B shows a state where the glass panel 22 is opened from the left side. As shown in this figure, when the glass panel 22 is opened from the left side, the support arm 131 is rotated forward by the action of the hinge 132 arranged on the left side. In addition, the other hinge 133 connected to the central portion of the glass panel 22 also acts, and the glass panel 22 rotates relative to the support arm 131 with the rotation axis B as a starting point. As a result, the glass panel 22 slides on the surface of the door 11a while tilting with respect to the surface of the door 11a in a state where the right end of the glass panel 22 is in contact with the surface of the door 11a. Move to the left as In this manner, the surface of the glass panel 22 can be inclined rightward.

  The refrigerator 10 of this Embodiment can change the angle with respect to the door 11a surface of the liquid crystal display panel 21 as mentioned above. Therefore, it is possible to make the display content of the liquid crystal display panel 21 more visible to a person at a position other than the front side of the refrigerator 10.

  For example, in the state shown in FIG. 8A, the display content of the liquid crystal display panel 21 can be shown to the person on the left side of the refrigerator 10. On the other hand, in the state shown in FIG. 8B, the display content of the liquid crystal display panel 21 can be shown to the person on the right side of the refrigerator 10.

<Third Embodiment>
Subsequently, a third embodiment of the present invention will be described. In 3rd Embodiment, the structure of the glass panel attached to the door of the refrigerator differs from 1st Embodiment. About the other structure, the same structure as 1st Embodiment is fundamentally applicable. Therefore, in the third embodiment, only points different from the first embodiment will be described.

  FIG. 11A shows the appearance of the front side of the refrigerator 110 according to the present embodiment. As shown to Fig.11 (a), the refrigerator 110 is the 1st refrigerator compartment 11, the 2nd freezer compartment 12, the ice making room 13, the 1st freezer compartment 14, and the 2nd refrigerator compartment in order from an upper stage. 15 is provided. The first refrigerator compartment 11 arranged at the top is provided with double doors (main body doors) 11a and 11b divided into left and right. The second refrigerator compartment 15 arranged at the lowest level is provided with a drawer-type door 15a.

  The first freezer compartment 14 is arranged in the second stage from the bottom. The first freezer compartment 14 is provided with a drawer-type door 14a. The second freezer compartment is arranged on the right side of the second stage from the top. The second freezer compartment is provided with a drawer-type door 12a. The ice making chamber 13 is arranged on the left side of the second stage from the top. The ice making chamber 13 is provided with a drawer-type door 13a.

  The door 11a provided on the right side of the first refrigerator compartment 11 is provided with a liquid crystal display panel (display unit) 321 near the center. The liquid crystal display panel 321 is attached to a glass panel (surface panel) 322 provided on the front surface of the door 11a, and is integrated with the glass panel 322. The glass panel 322 is attached to the door 11a so that it can be opened and closed from the door 11a.

  In the first embodiment, the size of the glass panel 22 is substantially the same as or slightly smaller than the size of the door 11a, but in this embodiment, the size of the glass panel 322 is the size of the door 11a. It is much smaller than that. Specifically, the surface area of the glass panel 322 is, for example, about 30 to 50% of the area of the door 11a. A smaller liquid crystal display panel 321 is attached to the glass panel 322. Note that the size of the liquid crystal display panel 321 may be substantially the same as the glass panel 322 or slightly smaller than the glass panel 322.

  The glass panel 322 of this embodiment is provided with the movable support member described in the first embodiment. Thereby, it is possible to open the glass panel 322 from both left and right sides. FIG. 11B shows a state in which the glass panel 322 is opened from the left side of the door 11a. Although not shown, the glass panel 322 can be opened and closed from the right side. As the opening / closing mechanism of the glass panel 322 with respect to the door 11a, the opening / closing mechanism described in the first embodiment can be applied.

  As described above, the refrigerator 110 of the present embodiment has the glass panel 322 attached to the door 11a so that the glass panel 322 can change the orientation with respect to the surface of the door 11a. That is, the refrigerator 10 can tilt the liquid crystal display panel 21 with respect to the surface of the door 11a. Moreover, the refrigerator 110 of this Embodiment can change the angle with respect to the door 11a surface of the liquid crystal display panel 321. FIG. Therefore, it is possible to make the display content of the liquid crystal display panel 21 more visible to a person at a position other than the front side of the refrigerator 110 with the door 11a closed.

  For example, in the state shown in FIG. 11B, the display content of the liquid crystal display panel 321 can be shown to the person on the right side of the refrigerator 110. Moreover, when the glass panel 322 is opened from the right side, the display content of the liquid crystal display panel 321 can be shown to the person on the left side of the refrigerator 110.

  Moreover, as for the refrigerator 110 of this embodiment, the magnitude | size of the glass panel 322 is smaller than the magnitude | size of the door 11a. Thereby, the volume required for the opening / closing operation | movement of the glass panel 322 can be restrained small. Therefore, when the glass panel 322 is opened and when the glass panel 322 is opened and closed, the possibility that the glass panel 322 may interfere with other operations can be reduced. In addition, the risk of breakage of the glass panel 322 is reduced. In addition, the manufacturing cost can be reduced by reducing the area of the glass panel 322.

  In addition, it is preferable that the refrigerator 110 which concerns on this embodiment is provided with the dew condensation prevention mechanism similarly to the refrigerator 10 of 1st Embodiment. In the refrigerator 110 of this embodiment, a dew condensation prevention mechanism is realizable by arrange | positioning a heat conductive line to the whole surface of the door 11a of the refrigerator 110. FIG. For example, a heat conduction line 36 as shown in FIG. 10 is embedded near the surface of the door 11 a of the refrigerator 110.

  According to the above configuration, the heat conduction line 36 disposed on the outer peripheral portion of the door 11 a where the glass panel 322 is not provided takes in the heat of the outside air, and the heat is transferred to the glass panel 322 via the heat conduction line 36. Can be transmitted to the area where the is installed, and heat can be dissipated in the area. Thereby, the temperature difference between the space between the door 11a and the glass panel 322 and the outside air can be reduced, and the occurrence of condensation can be suppressed.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims. Further, configurations obtained by combining the configurations of the different embodiments described in this specification with each other are also included in the scope of the present invention.

10: Refrigerator 11: First refrigerator compartment 11a: Door (main body door)
21: Liquid crystal display panel (display unit)
22: Glass panel (surface panel)
30: Movable support member 36: Heat conduction line (member for raising the surface temperature of the main body door)
100: refrigerator 130: movable support member 211a: door (main body door)
321: Liquid crystal display panel (display unit)
322: Glass panel (surface panel)

Claims (5)

The body door,
A front panel provided on the surface of the main body door and having a display unit for displaying information,
The said surface panel is provided with the direction with respect to the surface of the said main body door so that change is possible.   The household electrical appliance according to claim 1, wherein the front panel can be opened and closed from two opposing end portions.   The household electrical appliance of Claim 1 or 2 which is a refrigerator.   The household appliance of Claim 3 further provided with the member for raising the surface temperature of the said main body door.   The household electrical appliance according to claim 4, wherein the member has a heat conduction line for transferring heat from a condenser constituting a refrigeration cycle provided in the refrigerator.

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