JP2017018326A - Mirror cabinet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mirror cabinet capable of inhibiting lowering of aesthetic appearance even when a frame is installed in front of a cabinet body in such a manner as to project forward from the front face of the cabinet body having a larger coefficient of linear expansion than that of the frame.SOLUTION: The mirror cabinet includes: an illumination part including a metal frame that supports a light-emitting device as a light source, with the light emitting device facing forward, is connected to the front face of the cabinet body in the horizontal direction at a plurality of connection parts so as to project forward from the front face of the cabinet body, and radiates the light to the forward; and thermal expansion allowable means that, when the cabinet body is thermally expanded with resect to the frame, allows thermal expansion of the cabinet body among the plurality of connection parts.SELECTED DRAWING: Figure 5

Description

  Aspects of the invention generally relate to a mirror cabinet.

  A mirror cabinet having a cabinet body having a storage space, a door for opening and closing the storage space, and a mirror provided in front of the door is known. A mirror cabinet is used for a vanity, for example. The mirror cabinet is attached to, for example, a wash basin or a faucet device in a vanity. Thereby, while a user can confirm a face at the time of washing, accessories etc. required for washing can be stored in a main part.

In the mirror cabinet, an illuminating unit that emits light in front is provided. The illumination unit is provided on the upper part of the resin cabinet body and extends in the left-right direction (width direction). At this time, the illumination unit is stably fixed by being connected to the cabinet body at a plurality of locations (connection units) in the left-right direction.

  In recent years, a light emitting element such as an LED (Light Emitting Diode) is used as a light source in an illumination unit. The light emitting element is supported by a frame (supporting member) installed in the cabinet body. The frame that supports this light emitting element should be made of metal that has higher heat dissipation performance than that of resin in order to prevent the light emitting element from being broken by heat generated when the light emitting element emits light. Is preferred. In order to efficiently dissipate the generated heat, it is preferable to arrange the frame so as to be exposed to the outside as much as possible.

  In view of this, the applicant has considered a structure in which the frame is exposed to the outside as much as possible by installing it on the front surface of the cabinet body so that the frame projects forward from the front surface of the cabinet body.

However, with such a structure, the connecting portion between the cabinet body and the frame is provided at a position where it can be easily seen on the front surface of the cabinet body.
In addition, the portion of the cabinet body that is connected to the frame easily propagates heat transmitted to the frame by the light emitting element, but at this time, the thermal expansion coefficient (linear expansion coefficient) of the metal frame and the resin cabinet body is different. For this reason, the heat propagated from the light emitting element to the frame and the cabinet body may cause the cabinet body to expand larger than the frame, resulting in a deviation between the horizontal length of the frame and the horizontal length of the cabinet body. Due to the occurrence of such a shift, stress is generated in the cabinet body between the plurality of connection portions, and as a result, the cabinet body between the plurality of connection portions may be deformed or damaged. There is. At that time, since the connection part between the cabinet body and the frame is provided at a position that is easy to visually recognize as described above, if the cabinet body between the plurality of connection parts is deformed or damaged, the user It will be very unsightly for you.

Japanese Unexamined Patent Publication No. 2014-113501

  The present invention has been made based on recognition of such a problem, and is a case where the frame is installed on the front surface of the cabinet body so as to protrude forward from the front surface of the cabinet body having a linear expansion rate larger than that of the frame. Another object of the present invention is to provide a mirror cabinet that can suppress a decrease in appearance.

  1st invention is the door provided in the said cabinet main body so that it could move to the resin-made cabinet main body which has the storage space opened ahead, the position which closes the said storage space, and the position which opens the said storage space And a mirror provided on the front surface of the door, and a light emitting element that is a light source, supported forward and laterally relative to the front surface of the cabinet body so as to protrude forward from the front surface of the cabinet body A metal frame installed on the front surface of the cabinet body by being connected by a plurality of connection sections, and an illumination section that irradiates light forward, and when the cabinet body is thermally expanded with respect to the frame And a thermal expansion permitting means for permitting thermal expansion of the cabinet body between the plurality of connecting portions.

  According to this mirror cabinet, even when the resin cabinet body is larger than the metal frame and the thermal length of the frame is shifted, the horizontal length of the frame and the horizontal length of the cabinet are shifted. The thermal expansion permitting means for allowing thermal expansion of the cabinet body between the sections can prevent the cabinet body from being deformed or damaged by the stress generated in the cabinet body between the plurality of connecting portions. . Therefore, even if it is a case where it installs in the front of a cabinet main body so that it may protrude ahead from the front of the cabinet main body with a linear expansion rate larger than a frame, the fall of appearance can be suppressed.

  According to a second invention, in the first invention, the plurality of connection portions include a first connection member and a second connection member connected to the frame and the cabinet body, respectively. At least one of the member and the second connecting member is provided with a horizontally long hole, and one of them is connected to the left side in the left-right direction of the cabinet body, and the other is connected to the right side in the left-right direction of the cabinet body. The thermal expansion permitting means fixes at least one of the first connection member and the second connection member to one of the frame and the cabinet body, and the frame and the cabinet body. The frame and the cabinet can be obtained by inserting a first protrusion provided integrally or separately on either side into the laterally long hole. A mirror cabinet, characterized in that the connection without fixing to the other of bets body.

  According to this mirror cabinet, the thermal expansion allowing means fixes at least one of the first connection member and the second connection member to either the frame or the cabinet body, and either the frame or the cabinet body. That is, the first protrusion provided on the other side is inserted into the horizontally long hole to be connected to either the frame or the cabinet body without being fixed. For this reason, it is easy to assemble while allowing thermal expansion of the cabinet body between a plurality of connecting portions by a simple configuration in which the first protrusion provided on the other of the frame and the cabinet body is inserted into the horizontally long hole. Can provide mirror cabinet.

  According to a third invention, in the first invention, the plurality of connection portions include a first connection member and a second connection member connected to the frame and the cabinet body, respectively. At least one of the member and the second connecting member is provided with a horizontally long hole, and one of them is connected to the left side in the left-right direction of the cabinet body, and the other is connected to the right side in the left-right direction of the cabinet body. And the thermal expansion permitting means is configured to fix at least one of the first connection member and the second connection member to one of the frame and the cabinet body, and is inserted into the horizontally elongated hole. By connecting a protruding member to the other of the frame and the cabinet body, either the frame or the cabinet body A mirror cabinet, characterized in that the connection without fixing or the other.

  According to this mirror cabinet, the thermal expansion allowing means fixes at least one of the first connection member and the second connection member to either the frame or the cabinet body, and is a protrusion inserted into the horizontally long hole. By connecting the member to either the frame or the cabinet body, the member is connected without being fixed to either the frame or the cabinet body. For this reason, a mirror cabinet that is easy to assemble while allowing thermal expansion of the cabinet body between a plurality of connecting portions by a simple configuration in which the protruding member inserted into the horizontally long hole is connected to either the frame or the cabinet body. Can be provided.

  4th invention is 2nd or 3rd invention. WHEREIN: A said 1st connection member is fixed to any one of the said frame and the said cabinet main body among these connection parts, The said frame and the said cabinet main body The first protrusion provided on the other is inserted into the horizontally long hole without being fixed to the other of the frame and the cabinet body, and the first of the plurality of connections is The connecting member 2 is a mirror cabinet that is fixed to both the frame and the cabinet body.

  According to this mirror cabinet, the first connecting member of the plurality of connecting portions is fixed to one of the frame and the cabinet body, and the first protrusion provided on the other of the frame and the cabinet body is horizontally long. By being inserted into the hole, the frame and the cabinet body are connected without being fixed to the other, and the second connection member of the plurality of connection portions is fixed to both the frame and the cabinet body. Thus, after the resin-made cabinet main body is greatly expanded with respect to the metal frame, when the temperature is lowered and the cabinet main body is thermally contracted to the original size, the cabinet main body is fixed to the second frame. Since the contraction is based on the position of the connecting member, the positional relationship between the cabinet body and the illumination unit having the frame does not change even after the cabinet body is thermally expanded or contracted. Therefore, it is possible to prevent the appearance from deteriorating due to the position of the cabinet body and the lighting unit being shifted after the cabinet body is thermally expanded or contracted. Moreover, since the 2nd connection member is being fixed with respect to both a flame | frame and a cabinet main body, an illumination part does not rattle with respect to a cabinet main body, and can fix stably.

  According to a fifth aspect, in the fourth aspect, the first connection member and the second connection member each have a positioning hole, and the cabinet body is inserted into the positioning hole, thereby A lateral length of the positioning hole formed in the first connection member, each having a second protrusion for attaching the first connection member and the second connection member in parallel to the cabinet body. The mirror cabinet is characterized in that it is larger than the length of the second protrusion in the lateral direction.

  According to this mirror cabinet, since the first connecting member and the second connecting member can be attached in parallel to the cabinet body by inserting the second protrusion into the positioning hole, the first connecting member And the lighting unit connected to the second connecting member can be easily attached in parallel to the cabinet body, and the lateral length of the positioning hole formed in the first connecting member is the second length. Since it is larger than the length in the lateral direction of the protrusion, it is possible to prevent the positioning hole from interfering with the thermal expansion allowing means.

  According to the aspect of the present invention, even when the frame is installed on the front surface of the cabinet body so as to protrude forward from the front surface of the cabinet body having a larger linear expansion rate than the frame, it is possible to suppress a decrease in appearance. A mirror cabinet can be provided.

FIG. 1A and FIG. 1B are perspective views schematically showing a mirror cabinet according to the first embodiment of the present invention. It is a perspective view which represents typically the illumination part which concerns on the 1st Embodiment of this invention. It is a side view which represents typically the illumination part which concerns on the 1st Embodiment of this invention. It is an exploded perspective view showing typically a part of lighting part concerning a 1st embodiment of the present invention. It is a fragmentary perspective view which represents typically the illumination part which concerns on the 1st Embodiment of this invention. FIG. 6A to FIG. 6C are front views schematically showing the attachment member according to the first embodiment of the present invention. It is a schematic diagram showing a part of illumination part which concerns on the 1st Embodiment of this invention. It is a front view which represents typically the vanity table which concerns on the 2nd Embodiment of this invention. It is a fragmentary sectional view showing typically the mirror cabinet concerning the modification of the 1st and 2nd embodiment of the present invention. It is a front view which represents typically the attachment member which concerns on the 3rd Embodiment of this invention. It is a fragmentary sectional view which represents typically the mirror cabinet which concerns on the 3rd Embodiment of this invention.

Embodiments of the present invention will be described below with reference to the drawings. In addition, in each drawing, the same code | symbol is attached | subjected to the same component and detailed description is abbreviate | omitted suitably.
FIG. 1A and FIG. 1B are perspective views schematically showing a mirror cabinet according to the first embodiment of the present invention.
As shown in FIG. 1A and FIG. 1B, the mirror cabinet 10 includes a cabinet body 11, a door 12, a mirror 13, an illumination unit 14, and a power supply unit 15. The mirror cabinet 10 is used for a vanity table, for example. The mirror cabinet 10 is used by being disposed above a wash basin or a faucet device in a vanity. The mirror cabinet 10 is not limited to the vanity, and may be used for other purposes.

  The cabinet body 11 has a storage space 11a that opens forward. The cabinet body 11 has, for example, a rectangular parallelepiped shape. In other words, the cabinet body 11 has a substantially rectangular parallelepiped box shape with the front surface opened. The shape of the cabinet body 11 is not limited to a rectangular parallelepiped shape, and may be any shape. A resin material is used for the cabinet body 11.

  For example, the cabinet body 11 is attached to the wall surface of the washroom with the back surface in contact with the cabinet body 11 and is disposed above the washbasin or the faucet device. That is, the cabinet body 11 is attached to the wall surface of the washroom with the storage space 11a facing the user.

  The door 12 is provided in the cabinet body 11 so as to be movable between a closed position for closing the storage space 11a and an open position for opening the storage space 11a. The door 12 is rotatably attached to the cabinet body 11 via a hinge, and moves between a closed position and an open position by rotating about the hinge. That is, in this example, the door 12 is a so-called hinged door. For example, the door 12 may be a sliding door (so-called sliding door).

  In this example, three doors 12 are provided in the cabinet body 11 side by side in the left-right direction, and the storage space 11 a is closed by the three doors 12. The number of doors 12 provided in the cabinet body 11 may be one or two, or four or more.

  The mirror 13 is provided on the front surface of the door 12. In this example, three mirrors 13 are provided in front of each of the three doors 12. When a plurality of doors 12 are provided, the number of mirrors 13 is, for example, the same as the number of doors 12. The number of mirrors 13 may be smaller than the number of doors 12. For example, when three doors 12 are provided side by side in the left-right direction, the mirror 13 may be provided only on the central door 12.

  The illumination part 14 has the light emitting element 25 (refer FIG. 3), and irradiates light ahead. The illumination part 14 is provided in front of the cabinet body 11, for example. Moreover, the illumination part 14 is provided in the upper part of the cabinet main body 11, for example. The lateral width (length in the left-right direction) of the illumination unit 14 is substantially the same as the lateral width of the cabinet body 11. The mounting position of the illuminating unit 14 is not limited to the front upper part of the cabinet body 11 and may be an arbitrary position where light can be irradiated forward.

  The power supply unit 15 is provided in front of the cabinet body 11. The power supply unit 15 is provided, for example, in an illumination unit 14 provided in front of the cabinet body 11. The power supply unit 15 may be provided separately from the illumination unit 14.

  The power supply unit 15 converts input power into DC power corresponding to the light emitting element 25 and supplies the DC power to the light emitting element 25. The illumination unit 14 emits light according to the supply of DC power from the power supply unit 15. The input power input to the power supply unit 15 is, for example, AC power supplied from a commercial power source. The power supply unit 15 is, for example, an AC-DC converter that converts AC power into DC power. The input power may be DC power. The power supply unit 15 may be a DC-DC converter that converts DC power into another DC power having a different absolute value.

FIG. 2 is a perspective view schematically showing the illumination unit according to the first embodiment of the present invention.
FIG. 3 is a side view schematically showing the illumination unit according to the first embodiment of the present invention.
As illustrated in FIGS. 2 and 3, the illumination unit 14 includes a frame 20, a cover 21 (light distribution control unit), a pair of caps 22 and 23, a wiring board 24, and a light emitting element 25 (light source). Have. FIG. 3 is a side view of the illumination unit 14 as viewed from the right side. In FIG. 3, one cap 22 is omitted for convenience.

  The frame 20 extends in the left-right direction and has a hollow shape with both side ends open. The frame 20 supports the light emitting element 25 in a state of facing forward. The light emitting element 25 is mounted on the wiring substrate 24 and supported by the frame 20 via the wiring substrate 24. The frame 20 is also used for attaching the illumination unit 14 to the cabinet body 11. The frame 20 accommodates the power supply unit 15 in a hollow internal space. Thereby, the power supply unit 15 is provided in the illumination unit 14.

  The cover 21 extends in the left-right direction, and has a half-tubular shape with both side ends and the rear opened. The cover 21 slides in the left-right direction and is attached to the front of the frame 20 and covers the light emitting element 25. The cover 21 protects the light emitting element 25, for example. The cover 21 is light transmissive with respect to the light emitted from the light emitting element 25. The light emitted from the light emitting element 25 passes through the cover 21 and is irradiated outside the illumination unit 14.

  The cap 22 is attached to one side end of the cover 21 and covers one side end of the frame 20 and the cover 21. The cap 23 is attached to the other side end of the cover 21 and covers the other side end of the frame 20 and the cover 21. In addition, the caps 22 and 23 restrict the movement of the cover 21 in the left-right direction, and suppress the removal of the cover 21 from the frame 20. For the caps 22 and 23, for example, a resin material is used.

  The frame 20 includes a front plate portion 30, an upper plate portion 31, and a bottom plate portion 32. The front plate portion 30 extends in the up-down direction and the left-right direction. The front plate portion 30 faces the front surface 11 b of the cabinet body 11. The upper plate portion 31 extends forward and backward from the upper end of the front plate portion 30. The bottom plate part 32 extends forward and backward from the lower end of the front plate part 30. In other words, the frame 20 is a member having a substantially H-shaped cross section. The frame 20 accommodates the power supply unit 15 in a space surrounded by the front plate portion 30, the upper plate portion 31, and the bottom plate portion 32.

  A metal material such as aluminum or stainless steel is used for the frame 20. The frame 20 is reflective to light emitted from the light emitting element 25 (hereinafter referred to as emitted light).

  The frame 20 is attached to the front surface 11 b in a state where the rear end of the upper plate portion 31 and the rear end of the bottom plate portion 32 are in contact with the substantially vertical front surface 11 b of the cabinet body 11. The bottom plate portion 32 is practically parallel to the top plate portion 31. The length from the front plate portion 30 to the rear end of the bottom plate portion 32 is substantially the same as the length from the front plate portion 30 to the rear end of the upper plate portion 31. Thus, the upper plate portion 31 and the bottom plate portion 32 are substantially perpendicular to the front surface 11b when the rear end is brought into contact with the front surface 11b of the cabinet body 11.

  The cover 21 has a front plate portion 40, an upper plate portion 41, and a bottom plate portion 42. The front plate portion 40 extends in the up-down direction and the left-right direction. The front plate portion 40 faces the front plate portion 30 of the frame 20. For example, the front plate portion 40 is substantially parallel to the front plate portion 30 and the front surface 11b. Further, the length of the front plate portion 40 in the vertical direction is substantially the same as the length of the front plate portion 30 in the vertical direction. In other words, the thickness of the cover 21 is substantially the same as the thickness of the frame 20. The upper plate portion 41 extends rearward from the upper end of the front plate portion 40. The bottom plate portion 42 extends rearward from the lower end of the front plate portion 40. In other words, the cover 21 is a member having a substantially U-shaped cross section.

  The cover 21 is light transmissive with respect to the light emitted from the light emitting element 25 and has light scattering properties. The cover 21 scatters the emitted light. Thereby, the cover 21 widens the light distribution angle of the emitted light. For example, a resin material is used for the cover 21. For the cover 21, for example, a milky white resin material is used. Thereby, in the cover 21, light transmittance and light scattering property can be obtained. The material of the cover 21 is not limited to resin and may be glass or the like.

  The transmittance of the cover 21 is 100% or less. The transmittance of the cover 21 is 60% or less, for example. Thereby, the cover 21 can have appropriate light scattering properties. For example, it can be suppressed that light having strong directivity is transmitted through the cover 21 and the emitted light is observed in a granular form. Further, the transmittance of the cover 21 is 40% or more, for example. Thereby, the fall of the light intensity by the cover 21 can be suppressed. Therefore, the transmittance of the cover 21 is 40% or more and 60% or less, for example.

  Engaging portions 31 a and 32 a for attaching the cover 21 to the frame 20 are provided at the front end of the upper plate portion 31 of the frame 20 and the front end of the bottom plate portion 32. On the other hand, at the rear end of the upper plate portion 41 of the cover 21 and the rear end of the bottom plate portion 42, engaged portions 41a and 42a that engage with the engaging portions 31a and 32a are provided. The cover 21 is attached to the front of the frame 20 by sliding the left and right directions by engaging the engaged portions 41a and 42a with the engaging portions 31a and 32a. The engaging portions 31a and 32a regulate the position of the cover 21 in the front-rear direction and the vertical direction by engaging with the engaged portions 41a and 42a.

  The frame 20 further includes a support portion 33. The support portion 33 extends obliquely upward and forward from the front surface of the front plate portion 30. A part of the support portion 33 enters the internal space of the cover 21 in a state where the cover 21 is attached to the frame 20.

  The wiring board 24 is attached to the front surface of the support portion 33. As a result, the frame 20 supports the light emitting element 25 obliquely downward and forward. The illumination part 14 irradiates light toward the front diagonally downward direction. As described above, the direction of the light emitted from the illuminating unit 14 only needs to have at least a forward component. The optical axis of the light emitting element 25 is not necessarily parallel to the front-rear direction.

  The frame 20 supports the light emitting element 25 in front of the front plate portion 30 and accommodates the power supply portion 15 in a space behind the front plate portion 30. Therefore, the power supply unit 15 is disposed between the light emitting element 25 and the cabinet body 11.

  For example, the wiring board 24 contacts the support portion 33. As a result, the wiring board 24 is thermally coupled to the frame 20. The light emitting element 25 is thermally coupled to the frame 20 via the wiring substrate 24. Therefore, a material having high thermal conductivity such as a metal material is used for the frame 20. Thereby, the heat dissipation of the heat | fever which generate | occur | produces with light emission of the light emitting element 25 can be improved, for example. For example, the wiring board 24 may be thermally coupled to the frame 20 via a heat conductive sheet or the like.

  The wiring board 24 is electrically connected to the power supply unit 15 via the cable 35. The power supply unit 15 supplies DC power to the wiring board 24 via the cable 35. The wiring board 24 has a wiring layer (not shown), and electrically connects the light emitting element 25 and the cable 35 via the wiring layer. As a result, the DC power output from the power supply unit 15 is supplied to the light emitting element 25 via the cable 35 and the wiring board 24, and light is emitted from the light emitting element 25 in response to the supply of DC power.

  The light emitting element 25 emits light having a predetermined light distribution angle. The light distribution angle of the light emitting element 25 is, for example, 120 ° (90 ° or more and 150 ° or less). The light emitting element 25 emits light toward the front obliquely downward, and makes the light incident on the front plate portion 40 and the bottom plate portion 42 of the cover 21. Accordingly, the illumination unit 14 emits light from the front plate unit 40 and the bottom plate unit 42. Thus, in the illumination part 14, the front board part 40 and the bottom board part 42 become the light emission surface part LF which irradiates light. The illumination unit 14 irradiates light forward and downward, for example.

  For the light emitting element 25, for example, an LED is used. The light emitting element 25 may be, for example, an LD (Laser Diode), an organic EL (Electro-Luminescence), or an OLED (Organic light-emitting diode). In this example, a light emitting element 25 is shown as a light source of the illumination unit 14. The light source is not limited to the light emitting element, and may be, for example, an incandescent bulb or a fluorescent lamp. The power supplied from the power supply unit 15 to the light source is not limited to DC power, and may be any power corresponding to the light bulb.

FIG. 4 is an exploded perspective view schematically showing a part of the illumination unit according to the first embodiment of the present invention.
As illustrated in FIG. 4, the cap 23 includes a cap body 50, a first insertion portion 51, and a second insertion portion 52. The other cap 22 has substantially the same shape that is symmetrical with the cap 23. Similar to the cap 23, the cap 22 includes a cap body 50, a first insertion portion 51, and a second insertion portion 52. Therefore, hereinafter, the cap 23 will be described, and a detailed description of the cap 22 will be omitted.

  The shape of the cap body 50 corresponds to the shape of the frame 20 and the cover 21 in the combined state. The cap main body 50 faces each of one side end of the frame 20 and one side end of the cover 21 in a state where the cover 21 is attached to the frame 20.

  The first insertion portion 51 protrudes inward from the cap body 50 and is inserted into the internal space of the hollow frame 20. The outer shape of the first insertion portion 51 is substantially the same as the opening shape at one side end of the frame 20. The first insertion portion 51 is inserted along the inner wall of the frame 20. Accordingly, the first insertion portion 51 closes one open end of the frame 20 in a state where the first insertion portion 51 is inserted into the internal space of the frame 20.

  The second insertion portion 52 protrudes inward from the cap body 50 and is inserted into the internal space of the hollow cover 21. Similarly to the first insertion portion 51, the second insertion portion 52 closes one open end of the cover 21 in a state of being inserted into the internal space of the cover 21.

  The second insertion part 52 is provided with a screw hole 52a formed upward. The upper plate portion 41 of the cover 21 is provided with a through hole 41b at a position facing the screw hole 52a when the second insertion portion 52 is inserted into the internal space of the cover 21. With the first insertion portion 51 and the second insertion portion 52 inserted into the frame 20 and the cover 21, respectively, the screws 54 are attached to the screw holes 52a from the outside. Thereby, the cap 23 is attached to the cover 21.

  As described above, each of the caps 22 and 23 is attached to the cover 21 by the screw 54. At this time, the movement of the cover 21 in the left-right direction is restricted by the cap main body 50 and the first insertion portion 51 of each of the caps 22 and 23, and the falling of the cover 21 from the frame 20 is suppressed.

  The 1st insertion part 51 is a cylinder shape centering on the left-right direction. The first insertion part 51 is provided with a notch 51a. The notch 51a extends from the end of the first insertion portion 51 opposite to the cap body 50 toward the cap body 50. Further, the notch 51 a is disposed on the front side of the first insertion portion 51. Thereby, the notch 51 a allows the internal space of the cylindrical first insertion portion 51 to communicate with the internal space of the cover 21.

  The notch 51 a forms a path from the internal space of the frame 20 to the internal space of the cover 21 through the internal space of the first insertion portion 51. This route is used as a wiring route for passing the cable 35. The cable 35 is inserted into the notch 51 a and enters the internal space of the cover 21 from the internal space of the frame 20. The cable 35 is inserted into the notch 51a, and connects the power supply unit 15 disposed behind the front plate 30 of the frame 20 and the light emitting element 25 disposed in front of the front plate 30 (see FIG. 3). . The notch 51a may be provided in each first insertion part 51 of each of the caps 22 and 23, or may be provided only in one first insertion part 51 of each of the caps 22 and 23.

  As shown in FIG. 3, when viewed in the left-right direction, the outer shape of the cap body 50 is substantially the same as the outer shape of the frame 20 and the cover 21 in the combined state. The upper surface 50u of the cap body 50 is substantially flush with the upper surface 20u of the frame 20 (the outer surface of the upper plate portion 31). The lower surface 50b of the cap body 50 is substantially flush with the lower surface 20b of the frame 20 (the outer surface of the bottom plate portion 32). Further, the upper surface 50u of the cap body 50 is substantially flush with the upper surface 21u (the outer surface of the upper plate portion 41) of the cover 21. The lower surface 50b of the cap body 50 is substantially flush with the lower surface 21b of the cover 21 (the outer surface of the bottom plate portion 42). The front surface 50f of the cap body 50 is substantially flush with the front surface 21f (the outer surface of the front plate portion 40) of the cover 21.

  Here, “substantially flush” refers to, for example, a state in which two adjacent members have a level difference of 2 mm or less between the surface of one member and the surface of the other member. The level | step difference which arises between the cap main body 50 and the flame | frame 20 is 1.5 mm or less, for example. The level | step difference which arises between the cap main body 50 and the cover 21 is 1.0 mm or less, for example.

  The frame 20 and the cover 21 are prevented from protruding at least from the cap body. In other words, the outer shape of the cap main body 50 when viewed in the left-right direction is slightly larger than the outer shape of the frame 20 and the cover 21 in a combined state without exceeding the above range. Thereby, it can suppress that the end surface of the flame | frame 20 and the cover 21 is exposed and the beauty | look of the illumination part 14 is impaired, for example.

FIG. 5 is a partial perspective view schematically showing the illumination unit according to the first embodiment of the present invention.
As shown in FIG. 5, the length of the cover 21 in the left-right direction is longer than the length of the frame 20 in the left-right direction. Each cap 22, 23 has a gap CL between the cap body 50 and the frame 20. Each cap 22, 23 is provided with a gap CL between the cap body 50 and the frame 20 at least at room temperature (for example, 15 ° C. or more and 25 ° C. or less). Thereby, the deformation | transformation of the illumination part 14 by the difference in the thermal expansion coefficient (linear expansion coefficient) of the flame | frame 20 and the cover 21 can be suppressed, for example.

  The length of the gap CL in the left-right direction is, for example, not less than 0.5 mm and not more than 2 mm. The left and right length of the gap CL is set to 0.5 mm or more. Thereby, the shift | offset | difference of the length of the left-right direction of the flame | frame 20 and the cover 21 by the difference in a thermal expansion coefficient can be absorbed appropriately, for example. The length of the gap CL in the left-right direction is set to 2 mm or less. Thereby, the position shift of the left-right direction with respect to the cabinet main body 11 of the illumination part 14 can be suppressed, for example.

  Each cap 22, 23 inserts the first insertion part 51 into the internal space of the frame 20 and closes one open end of the frame 20 with the first insertion part 51. Thereby, even when the gap CL is provided between the cap body 50 and the frame 20, it is possible to suppress dust and the like from entering the internal space of the frame 20. For example, a decrease in the aesthetic appearance of the illumination unit 14 can be suppressed.

  As shown in FIGS. 3 and 5, a substantially L-shaped attachment member (connecting portion) 28 is used for attaching the illumination portion 14 to the cabinet body 11. The attachment member 28 is attached to the front surface 11 b of the cabinet body 11. The attachment member 28 is attached to the front surface 11b via attachment tools (projection members) 28n such as screws and rivets, for example. The attachment member 28 is composed of, for example, two members, a first connection member 28c and a second connection member 28d. The frame 20 and the cabinet body 11 are connected via the first connection member 28c and the second connection member 28d, respectively. More specifically, the frame 20 is connected to the first connection member 28c and the second connection member 28d connected in the left-right direction with respect to the front surface of the cabinet body 11 so as to protrude forward from the front surface of the cabinet body 11. It is installed on the front surface of the cabinet body 11 by being fixed. The first connection member 28 c is connected to the left side in the left-right direction of the cabinet body 11, and the second connection member 28 d is connected to the right side in the left-right direction of the cabinet body 11. In addition, you may be comprised not only from the two members of the 1st connection member 28c and the 2nd connection member 28d but in three or more members.

  In attaching the illumination unit 14, for example, the attachment member 28 is inserted into the internal space of the frame 20, and the frame 20 and the attachment member 28 are screwed from below. Thereby, the illumination part 14 is fixed and attached to the front of the cabinet main body 11 via the attachment member 28. In order to release the fixed state of the illumination unit 14 with respect to the cabinet body 11, the screws connecting the frame 20 and the attachment member 28 may be removed. Thus, in the mirror cabinet 10, the illumination unit 14 and the power supply unit 15 can be integrally attached to and detached from the cabinet body 11.

  A pair of horizontally elongated holes 28 a and 28 b extending in the left-right direction are provided in a portion of each mounting member 28 facing the front surface 11 b of the cabinet body 11. The horizontally long holes 28a and 28b are arranged side by side in the left-right direction. The horizontally long holes 28a and 28b are disposed symmetrically with respect to the center in the left-right direction of the mounting member 28, for example. Further, the horizontally long holes 28a and 28b extend, for example, in a substantially horizontal direction. The laterally long hole 28a is a positioning hole for attaching each attachment member 28 in parallel to the cabinet body 11, which will be described in detail later.

  A front surface 11b of the cabinet body 11 is provided with a pair of protrusions (second protrusions) 11c and 11d that protrude forward. The protrusion 11 c is provided at a position facing the horizontally long hole 28 a of one attachment member 28. The protrusion 11d is provided at a position facing the horizontally long hole 28a of the other mounting member 28. The protrusions 11 c and 11 d are inserted through the horizontally long holes 28 a of the respective attachment members 28.

  Thus, one of the horizontally long holes 28a is used for inserting the protrusions 11c and 11d. The other laterally long hole 28b is used for insertion of the attachment tool 28n. The length in the left-right direction of the portion inserted through the horizontally long hole 28b of the attachment 28n is shorter than the length in the left-right direction of the horizontally long hole 28b.

FIG. 6A to FIG. 6C are front views schematically showing the attachment member according to the first embodiment of the present invention.
As shown in FIGS. 6A to 6C, the protrusion 11c extends in the left-right direction. The length in the left-right direction of the protrusion 11c is substantially the same as the length in the left-right direction of the laterally long hole 28a. The shape seen from the front of the protrusion 11c is substantially the same as the shape seen from the front of the horizontally long hole 28a. Thereby, the protrusion 11c restricts the position of the second connecting member 28d in the left-right direction. Thus, the second connecting member 28d is fixed to both the frame 20 and the cabinet body 11.

  On the other hand, the length of the protrusion 11d in the left-right direction is shorter than the length of the laterally long hole 28a in the left-right direction. Accordingly, the protrusion 11d is movable in the left-right direction within the laterally long hole 28a. Thus, one attachment member 28 is attached to the front surface 11b in a state where movement in the left-right direction is restricted by the protrusion 11c. And the 1st connection member 28c is attached to the front surface 11b so that it can move to the left-right direction along the horizontal long holes 28a and 28b with the protrusion 11d and the attachment tool 28n. Thus, the first connection member 28 c is fixed to the frame 20 and connected without being fixed to the cabinet body 11. Specifically, the first connecting member 28 c is fixed to the frame 20 with screws. Further, the first connecting member 28c can be connected without being fixed to the cabinet body 11 by inserting the fixture 28n through the horizontally long hole 28b and fixing the fixture 28n inserted through the horizontally long hole 28b to the cabinet body 11. To do. As a result, when thermal expansion of the cabinet body 11 occurs, the fixture 28n can move inside the horizontally long hole 28b. In this way, the simple configuration of inserting the attachment tool 28n into the horizontally long hole 28b allows easy assembly while allowing thermal expansion of the cabinet body 11 between the first connection member 28c and the second connection member 28d. A mirror cabinet 10 can be provided. In the present invention, “to be connected without being fixed” means, for example, that the screw head of the screw that is the attachment tool 28n does not move the first connecting member 28c in the front-rear direction. It is defined as not including that the fixture 28n cannot move inside the horizontally long hole 28b when the thermal expansion of the cabinet body 11 occurs due to contact with and fixed to the connecting member 28c.

  By moving the mounting member 28 engaged with the protrusion 11d in the left-right direction, for example, a shift in the length in the left-right direction between the frame 20 and the cabinet body 11 due to a difference in thermal expansion coefficient (linear expansion coefficient) can be absorbed. . That is, when the cabinet body 11 is thermally expanded with respect to the frame 20, thermal expansion of the cabinet body 11 between the mounting members 28 can be allowed. In other words, the mirror cabinet 10 is thus provided with thermal expansion allowing means for allowing thermal expansion of the cabinet body 11 between the mounting members 28 when the cabinet body 11 is thermally expanded with respect to the frame 20. From this, for example, it is possible to suppress deformation of the cabinet body 11 and the illumination unit 14 due to a difference in thermal expansion coefficient. In addition, for example, it is possible to suppress a gap from being formed between the cabinet body 11 and the illumination unit 14. Then, the second connecting member 28d engaged with the protrusion 11c makes the positional relationship between the cabinet body 11 and the illuminating unit 14 having the frame 20 appropriate even after the cabinet body 11 is thermally expanded or contracted. The position of the illumination unit 14 in the left-right direction can be determined appropriately. From the above, it is possible to suppress the lateral displacement of the lighting unit 14 with respect to the cabinet main body 11 while suppressing deformation due to thermal expansion of the cabinet main body 11 and the lighting unit 14.

  The horizontally long holes 28a are positioning holes for attaching the attachment members 28 to the cabinet body 11 in parallel. In one embodiment of the present invention, the horizontally long hole 28 a is provided at the same height with respect to the lower end surface of each mounting member 28, for example. And it is provided in the position parallel to the horizontally long hole 28b in each attachment member 28 so that it may become parallel to the lower end surface of each attachment member 28. FIG. On the other hand, the protrusions 11c and 11d are provided in a horizontal position in the cabinet body 11 with respect to an attachment portion (not shown) for attaching the attachment tool 28n. Therefore, by inserting the protrusions 11c and 11d into the horizontally long holes 28a, the first connection member 28c and the second connection member 28d can be arranged in parallel to the cabinet at the targeted positions. . As a result, the illumination unit 14 connected to the first connection member 28c and the second connection member 28d can be easily attached in parallel to the cabinet body 11. Further, the lateral length of the laterally long hole 28b formed in the first connecting member 28c is larger than the lateral length of the projection 11d inserted into the laterally long hole 28b. It can prevent obstruction.

  FIG. 6B shows a state where the cabinet body 11 is at room temperature. FIG. 6A shows a state in which the cabinet body 11 becomes hot and extends more than at room temperature. And FIG.6 (c) represents the state which the cabinet main body 11 became low temperature and contracted rather than the normal temperature.

FIG. 7 is a schematic diagram showing a part of the illumination unit according to the first embodiment of the present invention.
As illustrated in FIG. 7, the illumination unit 14 includes a plurality of light emitting elements 25. In FIG. 7, the support portion 33 and the wiring board 24 inclined obliquely upward are illustrated in a horizontal orientation. In FIG. 7, for convenience, a part of the cover 21 is notched and the caps 22 and 23 are omitted.

  The light emitting elements 25 are provided on the wiring board 24 side by side in the left-right direction. For example, the light emitting elements 25 are arranged in a straight line on the wiring board 24 at a predetermined interval in the left-right direction. The light emitting elements 25 are electrically connected to each other through the wiring layer of the wiring board 24. When each light emitting element 25 is LED, each light emitting element 25 is connected in series, for example. Thus, light is emitted from each of the light emitting elements 25 in response to the supply of DC power from the power supply unit 15.

  The cover 21 is disposed in front of each light emitting element 25. The cover 21 covers each of the light emitting elements 25. As described above, the cover 21 has light scattering properties. The cover 21 widens the light distribution angle of the light emitted from each of the light emitting elements 25. In other words, the cover 21 diffuses the incident light. Thus, in this example, the cover 21 functions as a light distribution control unit.

  The cover 21 scatters light by refraction, for example. When a milky white resin material is used for the cover 21, for example, incident light is scattered by refraction of light by a large number of light diffusing agents dispersed inside. The cover 21 may scatter light by a fine uneven structure such as a microlens array. In this case, the cover 21 may be substantially transparent. The cover 21 may scatter incident light by, for example, reflection or diffraction.

  In this example, the cover 21 is used as a light distribution control unit. The light distribution control unit may be, for example, another optical member disposed between the cover 21 and the light emitting element 25 or in front of the cover 21. For example, the light distribution control unit may be an optical sheet attached to the front surface or the back surface of the cover 21.

  The front plate portion 40 and the bottom plate portion 42 which are the light emitting surface portions LF of the cover 21 are arranged at positions where the light emitted from the two adjacent light emitting elements 25 overlaps. More specifically, the front plate portion 40 and the bottom plate portion 42 are arranged at a position where a part of the light emitted from one of the two adjacent light emitting elements 25 overlaps a part of the light emitted from the other.

  Thereby, for example, it is possible to suppress a portion where light is not substantially incident between the two adjacent light emitting elements 25 from being generated on the light emitting surface portion LF. For example, it is possible to suppress the light emitted from each of the light emitting elements 25 from being observed in granular form. Moreover, in the part where the intensity | strength fell apart from the optical axis of the light emitted from each light emitting element 25, the overlap with the light of the adjacent light emitting element 25 arises. Thereby, for example, variation in the intensity of light incident on the light emitting surface portion LF and light emitted from the light emitting surface portion LF can be suppressed.

  For example, according to the light distribution angle of each light emitting element 25, the space | interval of each light emitting element 25 and the distance between each light emitting element 25 and the light emission surface part LF are set. Accordingly, the light emitting surface portion LF can be disposed at a position where the light emitted from the two adjacent light emitting elements 25 overlaps.

  The length of the cover 21 in the left-right direction is longer than the length in the left-right direction of the light emitting area EA in which the light emitting elements 25 of the frame 20 are arranged. The length in the left-right direction of the light transmission area TA that is not covered by the caps 22, 23 of the light-emitting surface portion LF is longer than the length in the left-right direction of the light-emitting area EA. Thereby, for example, the light of the light emitting element 25 spreading at a predetermined light distribution angle can be effectively used. For example, the length of the metal frame 20 can be shortened, and the manufacturing cost of the illumination unit 14 can be suppressed.

  For example, the light transmission area TA is longer than the light emission area EA by the length corresponding to the light distribution angle of the light emitting element 25 located at the end of each light emitting element 25 arranged in the left-right direction. Thereby, for example, substantially the entire left and right direction of the light transmission region TA can be emitted substantially uniformly while effectively using the light of each light emitting element 25. In addition, for example, the intensity of light can be gradually reduced at the left and right ends of the light transmission region TA. Thereby, for example, it is possible to suppress sudden darkening in the portions covered by the caps 22 and 23 of the light emitting surface portion LF. For example, the illumination unit 14 can be light that is gentle on the eyes of the user.

  As described above, in the mirror cabinet 10, the caps 22 and 23 are substantially flush with the frame 20 and the cover 21. Therefore, the level | step difference which arises between the flame | frame 20 and the caps 22 and 23 and between the cover 21 and the caps 22 and 23 is suppressed, and the beauty | look and cleaning property of the illumination part 14 can be improved. Further, the shift in the horizontal length between the frame 20 and the cover 21 due to the difference in thermal expansion can be absorbed by the gap CL between the cap body 50 and the frame 20. Accordingly, it is possible to suppress a decrease in the aesthetic appearance of the illumination unit 14 due to a shift in the length in the left-right direction between the frame 20 and the cover 21.

  In the mirror cabinet 10, the first insertion portion 51 closes the open end of the frame 20. Thereby, even when the gap CL is provided between the cap body 50 and the frame 20, it is possible to prevent dust and the like from entering the internal space of the hollow frame 20.

  In the mirror cabinet 10, an increase in the outer dimension of the first insertion portion 51 due to thermal expansion can be absorbed by the notch 51a. Thereby, for example, the frictional force between the first insertion portion 51 and the inner wall of the frame 20 increases due to the thermal expansion of the first insertion portion 51, and it becomes impossible to absorb the deviation of the length in the left-right direction between the frame 20 and the cover 21. Can be suppressed.

  In the mirror cabinet 10, the cable 35 is inserted into the notch 51 a and enters the internal space of the cover 21 from the internal space of the frame 20. Thereby, the cap 23 can be attached in a state where the power supply unit 15 and the light emitting element 25 are electrically connected by the cable 35, and the assembling property of the illumination unit 14 can be improved. Moreover, when a malfunction etc. generate | occur | produce in the illumination part 14, only the cap 23 can be removed and the maintainability of the illumination part 14 can also be improved.

  In the mirror cabinet 10, a power supply unit 15 is provided in front of the cabinet body 11. Thereby, also when the light emitting element 25 is used for the light source of the illumination part 14, it can suppress that the capacity | capacitance of the storage space 11a reduces by the power supply part 15. FIG. Moreover, compared with the case where the power supply part 15 is attached to a back wall etc., the power supply part 15 can be removed easily and favorable maintenance property can also be acquired.

  In the mirror cabinet 10, a power supply unit 15 is provided in the illumination unit 14. Thereby, for example, the power supply unit 15 can be removed more easily, and the maintainability can be further improved. In addition, the external appearance of the power supply unit 15 can be suppressed and the appearance of the mirror cabinet 10 can be improved.

  In the mirror cabinet 10, the power supply unit 15 is disposed between the light emitting element 25 and the cabinet body 11. Thereby, it is possible to suppress the light emitted from the light emitting element 25 from being blocked by the power supply unit 15. Moreover, since the power supply unit 15 is hidden behind the light emitting element 25 and the like, the appearance of the mirror cabinet 10 can be further improved.

  In the mirror cabinet 10, the illumination unit 14 includes a plurality of light emitting elements 25 and a cover 21, and the cover 21 widens the light distribution angle of light emitted from each of the plurality of light emitting elements 25. Thereby, in the light irradiated from the illumination part 14, it can suppress that a light intensity becomes partially high. Variations in the intensity of light emitted from the illumination unit 14 can be suppressed. For example, it is possible to suppress the light emitted from each light emitting element 25 from being observed in a granular form. For example, light that is gentle to the user's eyes can be irradiated.

  In the mirror cabinet 10, the cover 21 has a light emitting surface portion LF arranged at a position where light emitted from two adjacent light emitting elements 25 overlaps. Accordingly, it is possible to prevent the light emitted from the two adjacent light emitting elements 25 from entering the light emitting surface portion LF in a state where the light is overlapped, and generating a low light intensity portion between the two adjacent light emitting elements 25. be able to. Variations in the intensity of light emitted from the illumination unit 14 can be further suppressed.

  In the mirror cabinet 10, the cover 21 scatters the transmitted light. Thereby, the variation in the intensity | strength of the light irradiated from the illumination part 14 can be suppressed more appropriately. It can suppress more appropriately that the light discharge | released from each light emitting element 25 is observed in granular form.

FIG. 8 is a front view schematically showing a vanity according to the second embodiment of the present invention.
As shown in FIG. 8, the vanity table 100 includes a mirror cabinet 10, a support table 102, a washbasin 104, and a faucet device 106. The bathroom vanity 100 is used in a state where it is attached to a predetermined wall surface in an installation space such as a bathroom.

  The support base 102 is, for example, a floor cabinet. In this example, the support base 102 is a drawer-type cabinet. The support table 102 may be, for example, a double door cabinet. The support table 102 may have any configuration that can support the washbasin 104.

  The basin 104 is provided on the support table 102. The basin 104 has a concave wash bowl 104a that is recessed downward. The wash bowl 104 a receives water discharged from the faucet device 106.

  The faucet device 106 is provided on the basin 104. The faucet device 106 includes a water discharge port 106a and an operation unit 106b. The water discharge port 106a discharges water toward the wash bowl 104a. The operation unit 106b adjusts the flow rate and temperature of water discharged from the water discharge port 106a. In this example, the operation unit 106b is a lever handle. The operation unit 106b is not limited to this and may be a rotary handle or the like. The operation unit 106b only needs to adjust at least the flow rate.

  The mirror cabinet 10 is provided on the faucet device 106. The mirror cabinet 10 is fixed to the wall surface with screws or the like while being placed on the faucet device 106.

  As described above, the vanity table 100 includes the mirror cabinet 10. Therefore, the vanity 100 can obtain the same effects as those of the first embodiment.

FIG. 9 is a partial cross-sectional view schematically showing a mirror cabinet according to a modification of the first and second embodiments of the present invention.
As shown in FIG. 9, the attachment tool (projection member) 28 n is not limited to one having a screw head like a screw. In other words, in the present invention, the attachment member 28 is “connected without being fixed” to the cabinet body 11 even in such an attachment structure.

FIG. 10 is a front view schematically showing an attachment member according to the third embodiment of the present invention.
FIG. 11 is a partial cross-sectional view schematically showing a mirror cabinet according to the third embodiment of the present invention.
As shown in FIGS. 10 and 11, in the third embodiment of the present invention, the first protrusion 28 z formed so as to protrude from the cabinet body 11 is inserted into the horizontally elongated hole 28 b, so that the first The connecting member 28c is connected to the cabinet body 11 without being fixed.
That is, in the third embodiment of the present invention, the thermal expansion permitting means fixes each mounting member 28 to the frame 20 and inserts the first protrusion 28z provided on the cabinet body 11 into the horizontally elongated hole 28b. That is, the cabinet body 11 is connected without being fixed. Therefore, a mirror cabinet that is easy to assemble while allowing thermal expansion of the cabinet body 11 between the mounting members 28 by a simple configuration in which the first protrusion 28z provided on the cabinet body 11 is inserted into the horizontally long hole 28b. 10 can be provided.

  The embodiment of the present invention has been described above. However, the present invention is not limited to these descriptions.

  In one embodiment of the present invention, the first connecting member 28c is connected to the left side of the cabinet body 11 in the left-right direction, and the second connecting member 28d is connected to the right side of the cabinet body 11 in the left-right direction. However, the present invention is not limited thereto, and the first connecting member 28c may be connected to the right side in the left-right direction of the cabinet body 11, and the second connecting member 28d may be connected to the left side in the left-right direction of the cabinet body 11. . Further, one of the first connection member 28 c and the second connection member 28 d may be connected to the approximate center in the left-right direction of the cabinet body 11.

  In one embodiment of the present invention, the first connecting member 28c is fixed to the frame 20, and the fixture 28n is inserted into the horizontal slot 28b and the fixture 28n inserted into the horizontal slot 28b is fixed to the cabinet body 11. The first connecting member 28c is connected to the cabinet body 11 without being fixed. However, the present invention is not limited thereto, and for example, the first connecting member 28c is fixed to the cabinet body 11 while the attachment tool 28n is attached. The first connecting member 28c may be connected without being fixed to the frame 20 by being fixed to the frame 20 with the fixture 28n inserted through the horizontally long hole 28b and inserted into the horizontally long hole 28b.

  In one embodiment of the present invention, the first connecting member 28 c is not fixed to the cabinet body 11 by inserting the first protrusion 28 z formed so as to protrude from the cabinet body 11 into the horizontally elongated hole 28 b. However, the present invention is not limited to this, and the first connection member 28c is inserted into the frame 20 by inserting an attachment protrusion (first protrusion) formed so as to protrude from the frame 20 into the horizontally elongated hole 28b. It may be connected without being fixed to.

As long as the features of the present invention are provided, those skilled in the art appropriately modified the design of the above-described embodiments are also included in the scope of the present invention. For example, the shape, size, material, arrangement, and the like of each element included in the mirror cabinet 10 and the bathroom vanity 100 are not limited to those illustrated, but can be changed as appropriate.
Moreover, each element with which each embodiment mentioned above is provided can be combined as long as technically possible, and the combination of these is also included in the scope of the present invention as long as it includes the features of the present invention.

  DESCRIPTION OF SYMBOLS 10 Mirror cabinet, 11 Cabinet main body, 12 Door, 13 Mirror, 14 Illumination part, 15 Power supply part, 20 Frame, 21 Cover (light distribution control part), 22, 23 Cap, 24 Wiring board, 25 Light emitting element, 28 Mounting member (Connection part), 30 front plate part, 31 upper plate part, 32 bottom plate part, 33 support part, 35 cable (power transmission line), 40 front plate part, 41 upper plate part, 42 bottom plate part, 50 cap body, 51 first 1 insertion portion, 52 second insertion portion, 54 screw, 100 vanity table, 102 support stand, 104 washbasin, 106 faucet device

Claims (5)

A resin cabinet body having a storage space opened forward;
A door provided in the cabinet body movably to a position for closing the storage space and a position for opening the storage space;
A mirror provided in front of the door;
The cabinet is configured to support a light emitting element as a light source toward the front and to be connected to the front surface of the cabinet body at a plurality of connection portions in the left-right direction so as to protrude forward from the front surface of the cabinet body. An illumination unit that has a metal frame installed on the front surface of the main body and emits light forward;
A mirror cabinet comprising thermal expansion allowing means for allowing thermal expansion of the cabinet body between the plurality of connecting portions when the cabinet body is thermally expanded with respect to the frame. The plurality of connection portions have a first connection member and a second connection member connected to the frame and the cabinet body, respectively.
The first connecting member and the second connecting member are provided with at least one horizontally elongated hole, and one of the first connecting member and the second connecting member is connected to the left side in the left-right direction of the cabinet body, and the other is the left and right sides of the cabinet body. Connected to the right side in the direction,
In the thermal expansion allowing means, at least one of the first connecting member and the second connecting member is fixed to either the frame or the cabinet body, and the frame and the cabinet body The first protrusion provided on one of the other sides is inserted into the horizontally long hole so that the other of the frame and the cabinet body is connected without being fixed. Bathroom vanity. The plurality of connection portions have a first connection member and a second connection member connected to the frame and the cabinet body, respectively.
The first connecting member and the second connecting member are provided with at least one horizontally elongated hole, and one of the first connecting member and the second connecting member is connected to the left side in the left-right direction of the cabinet body, and the other is the left and right sides of the cabinet body. Connected to the right side in the direction,
In the thermal expansion allowing means, at least one of the first connecting member and the second connecting member is fixed to either the frame or the cabinet body, and the frame and the cabinet body The other of the frame and the cabinet body is fixed by connecting the projection member that can be connected to the other to the other of the frame and the cabinet body in a state where the projection member is inserted into the horizontally long hole. 2. The vanity according to claim 1, wherein the vanity is connected without any problems. Of the plurality of connection portions, the first connection member is fixed to one of the frame and the cabinet body, and the first protrusion provided on the other of the frame and the cabinet body is It is connected without being fixed to either the frame or the cabinet body by inserting it into a horizontally long hole,
4. The vanity according to claim 2, wherein the second connecting member of the plurality of connecting portions is fixed to both the frame and the cabinet body. 5. The first connection member and the second connection member are each formed with a positioning hole,
The cabinet body has second protrusions that are inserted in the positioning holes to attach the first connection member and the second connection member in parallel to the cabinet body, respectively.
The bathroom vanity according to claim 4, wherein a lateral length of the positioning hole formed in the first connecting member is larger than a lateral length of the second protrusion.

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