CN215423583U - Mirror cabinet - Google Patents

Abstract

The utility model discloses a mirror cabinet, which comprises a cabinet body, a mirror door, a lighting part, an energy storage unit and a power supply structure, wherein the mirror door is arranged on the cabinet body; the mirror door is suitable for translating relative to the cabinet body and is stopped at an opening position and a closing position; the lighting piece is fixedly arranged on the mirror door; the energy storage unit is fixedly arranged on the mirror door and used for supplying power to the lighting part; the power supply structure comprises an energy storage unit and a power supply unit, wherein the energy storage unit is used for respectively establishing and removing an electric connection relation when the mirror door is located at a closed position and an open position, and the energy storage unit is suitable for being charged by an external power supply when the mirror door is located at the closed position. According to the mirror cabinet, the mirror door is translated relative to the cabinet body to realize door opening and closing, and the lighting piece is arranged on the mirror door to supplement light, so that a user can conveniently take articles when looking into a mirror, and the mirror cabinet is good in use experience. In addition, no wired connection relation exists between the mirror door and the cabinet body, and the situation of wire breakage can not occur during the translation of the mirror door.

Description

Mirror cabinet

Technical Field

The utility model relates to the technical field of bathrooms, in particular to a mirror cabinet.

Background

The existing mirror cabinet comprises a cabinet body and a mirror door, wherein a storage cavity is formed in the cabinet body, and the mirror door is usually hinged with the cabinet body to open or close the mirror door through rotation. However, the mirror surface of the mirror door can be perpendicular to the mirror cabinet main body after the mirror door is opened, and a user needs to repeatedly open and close the mirror door for multiple times to take articles and look into a mirror, which is not favorable for the user to experience.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome at least one defect or problem in the background art and provide a mirror cabinet with higher user experience.

In order to achieve the purpose, the technical scheme of the utility model is as follows: the mirror cabinet comprises a cabinet body and a mirror door; the mirror door is suitable for translating relative to the cabinet body and is stopped at an opening position and a closing position; further comprising: the lighting piece is fixedly arranged on the mirror door; the energy storage unit is fixedly arranged on the mirror door and used for supplying power to the lighting piece; the power supply structure comprises a first electric connecting piece and a second electric connecting piece which are respectively and electrically connected with an external power supply and the energy storage unit, the first electric connecting piece and the second electric connecting piece are respectively arranged on the cabinet body and the mirror door, and respectively establish and remove electric connection relations when the mirror door is positioned at a closed position and an open position; wherein the first and second electrical connectors are electrically connected to adapt the energy storage unit to be charged by the external power source when the mirror door is in the closed position.

Further, the first electrical connector comprises a first conductive column electrically connected with the external power supply through a conductive wire; the second electric connector comprises a second conductive column corresponding to the first conductive column, and the second conductive column is electrically connected with the energy storage unit through a conducting wire; when the mirror door is located at the opening position, the second conductive column is separated from the corresponding first conductive column so that the first electric connector and the second electric connector are disconnected from each other.

Further, the power supply structure further includes: the first assembly part is fixedly arranged on the cabinet body and provided with a first assembly groove; the first conductive column part is inserted into the first assembling groove, partially extends out of the first assembling groove and is configured to slide along the extending direction of the first assembling groove relative to the first assembling part; a buffer configured as a spring and disposed in the first fitting groove; two ends of the first electric connector are respectively abutted against the groove bottom of the first assembling groove and one end of the first electric connector; the second assembly part is fixedly arranged on the mirror door and is provided with a second assembly groove; the second conductive column is at least partially inserted into the second assembling groove; the second mounting slot is configured and adapted to cause the second conductive post to abut the corresponding first conductive post when the mirror door is in the closed position.

Further, the method also comprises the following steps: the illumination control unit is powered by the energy storage unit and comprises a distance sensor which is fixedly arranged on the mirror door and the sensing direction of which is vertical to the mirror surface and outward; the illumination control unit controls the illumination piece to turn on illumination when the distance sensor senses that a shielding object exists in the preset distance, and controls the illumination piece to turn off illumination when the distance sensor does not sense that the shielding object exists in the preset distance.

Further, the distance sensor is a microwave inductive switch.

Further, the method also comprises the following steps: the opening and closing executing mechanism is arranged on the cabinet body and drives the mirror door to translate relative to the cabinet body when receiving an opening and closing instruction; the wireless communication unit comprises a wireless transmitting module and a wireless receiving module which are respectively arranged on the mirror door and the cabinet body and are in wireless signal connection with each other; the wireless transmitting module is powered by the energy storage unit, and the wireless receiving module is in signal connection with the starting and stopping executing mechanism to transmit the starting and stopping instruction; the operating piece is arranged on the mirror door and is powered by the energy storage unit; the wireless transmitting module is also in signal connection with the wireless transmitting module to send the opening and closing instruction.

Further, the wireless communication unit is an RF433 wireless radio frequency unit; the operating piece is a touch key.

Further, the mirror door is adapted to translate in a second direction with respect to the cabinet between the closed position and an intermediate position, and is further adapted to translate in a first direction with respect to the cabinet between the intermediate position and the open position; the second direction and the first direction are respectively vertical to and parallel to the mirror surface of the mirror door; the cabinet body is provided with a third slide rail extending along the first direction, and one end of the third slide rail is provided with a first limiting part; the opening and closing actuating mechanism comprises a motor, a driving wheel, a belt, a driven wheel, a bearing piece, a driving piece, an elastic piece, a first gear, a second gear, a driven piece and a mechanical connecting piece; the motor is arranged on the cabinet body and outputs rotary motion in a corresponding direction when receiving the opening and closing instruction; the driving wheel is in rotation stopping connection with an output shaft of the motor so as to be driven by the motor and rotate relative to the cabinet body, the driving wheel drives the driven wheel to synchronously rotate through the belt, and the belt moves along the first direction; the bearing piece is arranged on the third slide rail in a sliding manner, and is also provided with a first slide rail and a second slide rail which respectively extend along the first direction and the second direction; a second limiting part is arranged at the end part of the first sliding rail; the driving part is fixedly connected with a first rack which is fixedly connected with the belt to be arranged on the first slide rail in a sliding manner along the first direction and moves between a first position and a second position relative to the cabinet body; the driving piece moves relative to the bearing piece when moving from the second position to the first position and does not abut against the second limiting part; the driving piece drives the bearing piece to move synchronously when moving from the second position to the first position and abutting against the second limiting part; the driving piece drives the bearing piece to move synchronously when moving from a first position to a second position and the bearing piece does not abut against the first limiting part; the driving piece moves from a first position to a second position and moves relative to the bearing piece when the bearing piece abuts against the first limiting part; the elastic part is a tension spring, and two ends of the elastic part are respectively connected with the driving part and the bearing part so as to generate elastic deformation when the driving part moves from the first position to the second position and drive the bearing part to move along with the driving part; the first gear is adapted to engage the first rack; the second gear is in rotation stopping connection with the first gear so as to synchronously rotate along with the first gear; the driven part and the bearing part are relatively fixed in the first direction, a second rack suitable for being meshed with the second gear is fixedly connected to the driven part, and the driven part is driven by the driving part, the first gear and the second gear to be arranged on the second slide rail in a sliding mode along the second direction and move between a third position and a fourth position when the driving part moves relative to the bearing part; the driven piece moves from the third position to the fourth position when the driving piece slides relative to the bearing piece from the second position to the first position, and the driven piece moves from the fourth position to the third position when the driving piece slides relative to the bearing piece from the first position to the second position; the mechanical connecting piece is fixedly connected with the driven piece and the mirror door so as to drive the mirror door to move in a second direction relative to the cabinet body along with the driven piece between the closed position and the middle position and move in a first direction between the middle position and the open position; when the driving piece is located at the second position, the mirror door is located at the closed position; when the driving piece is located at the first position, the mirror door is located at the opening position; when the driven piece is located at the fourth position, the mirror door is located at the middle position.

Further, the illuminating piece is a lamp strip.

Further, the energy storage unit comprises a lithium battery and a charging management circuit; the charging management circuit is electrically connected with the second electric connector so as to be connected to the external power supply and perform charging management on the lithium battery.

Compared with the prior art, the utility model has the beneficial effects that:

(1) the relative cabinet body translation of mirror door realizes the switch door, and is equipped with the illumination piece on the mirror door, and the user can take article comparatively conveniently when looking into the mirror, need not the repetition switch mirror door, and the illumination piece can effective light filling, uses to experience better.

On this basis, to the power supply problem that the illumination piece relates, this application sets up the energy storage unit on the door of mirror and comes for the illumination piece power supply, and set up power supply structure and can charge for the energy storage unit when the door of mirror is closed, open at the door of mirror and remove the electrical connection relation, thereby need not to set up the electric wire and connect illumination piece and external power source respectively with the electric wire both ends, the cracked condition of electric wire can not appear when the door of mirror translation, thereby make to set up the illumination piece on the door of translation mode switch door and have actual meaning.

(2) The electric connector of the power supply structure is a conductive column adapted to establish and release an electric connection relationship by abutting and separating from each other, and is simple and stable in structure.

(3) First and second assembly parts are further provided to facilitate corresponding assembly of the first and second conductive posts. Set up the bolster to play the cushioning effect when the mirror door closes the first conductive pillar of second conductive pillar butt, reduce the mutual wearing and tearing of each first conductive pillar and second conductive pillar.

(4) Set up lighting control unit on the mirror door, it includes that distance sensor opens and close the illumination in order to open and close through the testing result to sheltering from the thing in the preset distance, applicable in whether be close to the mirror door according to the user and come the automatic switch-over illumination scene of opening and close.

(5) The distance sensor is a microwave inductive switch, and has simple structure and low cost.

(6) The operating piece is arranged on the mirror door, so that a user can conveniently operate the mirror door to open and close; the mirror door transmits an opening and closing instruction through the wireless communication unit, and wireless electric connection between the mirror door and the cabinet body is further achieved.

(7) The wireless communication unit is an RF433 wireless radio frequency unit, and has simple structure and low cost. The operating parts are touch buttons, and the aesthetic property is good.

(8) The mirror door is translated in closed position, intermediate position and opening position through the relative cabinet body of specific actuating mechanism of opening and close, and two segmentation translation modes make the user can not receive the mirror door interference when getting and put article, and are comparatively convenient, still are suitable for in addition to configure mirror door and the cabinet body towards user's surface into the parallel and level, and the aesthetic property is good.

(9) The energy storage unit comprises a lithium battery and a charging management circuit, and the lithium battery is stable in discharging and long in service life; the charging management circuit is suitable for performing charging management on the lithium battery, and the service life of the battery is prolonged.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a perspective view of a mirror cabinet with a mirror door in a closed position according to an embodiment of the present invention;

FIG. 2 is an exploded view of a mirror cabinet according to an embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of area A of FIG. 2;

FIG. 4 is a schematic view of a connection relationship of a first electrical connector, a first assembly member and a buffer member according to an embodiment of the present invention;

FIG. 5 is a perspective view of a mirror cabinet with a mirror door in an intermediate position according to an embodiment of the present invention;

FIG. 6 is a perspective view of a mirror cabinet with a mirror door in an open position according to an embodiment of the present invention;

FIG. 7 is an exploded view of the open/close actuator according to the embodiment of the present invention;

FIG. 8 is a top view of the mirror cabinet of the present invention with the top plate and mechanical connectors hidden.

Description of reference numerals:

a cabinet 100; a receiving chamber 100A; a mounting cavity 100B; a top plate 110; a third slide rail 120; a first stopper 121;

a mirror door 200; a mirror surface 200A;

an illuminating member 300; a distance sensor 310;

a lithium battery 400;

a first electrical connection 510; the first conductive pillar 511; a second electrical connection 520; a second conductive pillar 521; a first fitting 530; a buffer 540; a second fitting 550;

an operating member 600;

a wireless receiving module 700;

an on-off actuator 800; a motor 810; a driving wheel 821; a belt 822; a driven wheel 823; a carrier 830; a first slide rail 831; a second stopper portion 8311; a second slide 832; an active member 840; a first rack 841; an elastic member 850; a first gear 861; a second gear 862; a follower 870; a second rack 871; a mechanical connector 880.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are presently preferred embodiments of the utility model and are not to be taken as an exclusion of other embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In the claims, the specification and the drawings of the present invention, unless otherwise expressly limited, the terms "first", "second" or "third", etc. are used for distinguishing between different items and not for describing a particular sequence.

In the claims, the specification and the drawings, unless otherwise expressly limited, all directional or positional relationships, such as those indicated by the terms "center," "lateral," "longitudinal," "horizontal," "vertical," "top," "bottom," "inner," "outer," "upper," "lower," "front," "rear," "left," "right," "clockwise," "counterclockwise," and the like, are based on the directional or positional relationships indicated in the drawings and are for the purpose of simplifying the description of the application without indicating or implying that the device or element so indicated must have a particular orientation or be constructed and operated in a particular orientation, and therefore should not be construed as limiting the scope of the application.

In the claims, the description and the drawings of the present application, unless otherwise expressly limited, the terms "fixedly connected" or "fixedly connected" should be interpreted broadly, that is, any connection between the two that does not have a relative rotational or translational relationship, that is, non-detachably fixed, integrally connected, and fixedly connected by other devices or elements.

In the claims, the specification and the drawings of the present invention, the terms "including", "having" and their variants, if used, are intended to be inclusive and not limiting.

Referring to fig. 1-2, an embodiment of the present invention provides a mirror cabinet, which includes a cabinet body 100, a mirror door 200, a lighting device 300, an energy storage unit, and a power supply structure.

The cabinet 100 is adapted to be mounted on a wall, and a storage cavity 100A is formed therein for storing articles.

The mirror door 200 is a door with a mirror, and is movably connected to the cabinet 100 and located at an opening position for opening the storage cavity 100A and a closing position for closing the storage cavity 100A relative to the cabinet 100. In this embodiment, the door mirror 200 moves in a translational manner relative to the cabinet 100, in other words, the door mirror 200 translates relative to the cabinet 100 and rests in the open position and the closed position, so as to open and close the door.

It should be noted that the manner of the sliding movement of the mirror door 200 relative to the cabinet 100 and the specific movable connection structure therebetween will be described in detail below, but it should be understood that the sliding movement of the mirror door 200 relative to the cabinet 100 in the present invention may be a sliding movement in a direction perpendicular to the mirror surface 200A, a sliding movement in a direction parallel to the mirror surface 200A, or a combination of the two manners, as shown in fig. 1 and fig. 5-6. Correspondingly, the movable connection structure between the mirror door 200 and the cabinet 100 may be various and unlimited according to the different translation modes of the mirror door 200.

The lighting member 300 is fixedly installed on the mirror door 200, so as to supplement light for a user. In this embodiment, the illuminating device 300 is a lamp strip, which is embedded in the mirror door 200.

The energy storage unit is fixedly arranged on the mirror door 200 and is used for supplying power to the lighting element 300. In this embodiment, the energy storage unit is disposed inside the mirror door 200, and includes a lithium battery 400 and a charging management circuit (not shown). It should be understood that the charging management circuit is used to manage the charging of the lithium battery 400 during charging to prolong the life of the lithium battery 400, and a commercially mature charging management chip may be used, which is not limited in the present invention. And, with regard to the structure for charging the energy storage unit, it will be described in detail below.

The power supply structure comprises a first electric connector 510 and a second electric connector 520, and the first electric connector 510 and the second electric connector 520 are respectively arranged on the cabinet body 100 and the mirror door 200 and are respectively connected with the external power supply and the energy storage unit. The first electrical connector 510 and the second electrical connector 520 establish an electrical connection relationship when the mirror door 200 is in the closed position, so that the energy storage unit is suitable for being charged by the external power source; the first electrical connector 510 and the second electrical connector 520 are electrically disconnected when the mirror door 200 is in the open position. In this embodiment, the external power source is commercial power, and the second electrical connector 520 is electrically connected to the charging management circuit, so that the charging management circuit is electrically connected to the second electrical connector 520 to access the external power source.

It is understood that the establishment and the release of the electrical connection relationship between the first electrical connector 510 and the second electrical connector 520 may be a contact type electrical conduction manner as will be described later, or may be a non-contact type electrical conduction manner such as electromagnetic induction. In this embodiment, the first electrical connector 510 includes two first conductive pillars 511, and the two first conductive pillars 511 are electrically connected to the external power source through conductive wires (not shown in the figure). Correspondingly, the second electrical connector 520 includes two second conductive pillars 521 corresponding to the two first conductive pillars 511, and the two second conductive pillars 521 are also electrically connected to the energy storage unit through a conductive wire (not shown in the figure). Thus, when the mirror door 200 is located at the closed position, each second conductive pillar 521 abuts against the corresponding first conductive pillar 511 so as to establish an electrical connection relationship between the first electrical connector 510 and the second electrical connector 520; when the mirror door 200 is located at the open position, each second conductive pillar 521 is separated from the corresponding first conductive pillar 511 to electrically disconnect the first electrical connector 510 and the second electrical connector 520. In this way, the establishment and release of the electrical connection of the power supply structure are switched with the opening and closing of the mirror door 200.

Preferably, in conjunction with fig. 3-4, the power supply structure further includes a first assembly 530, two bumpers 540, and a second assembly 550.

The first assembly member 530 is fixed to the cabinet 100 by screws and has two first assembly grooves. The two first conductive posts 511 are partially inserted into the first assembling grooves and partially extend out of the first assembling grooves. The first conductive pillar 511 is configured to slide along the extending direction of the first fitting groove with respect to the first fitting part 530. Preferably, the first conductive pillar 511 should be engaged with the first assembling groove in a stopping manner after being assembled into the first assembling groove, so as to prevent the first conductive pillar 511 from being easily separated from the first assembling member 530 by sliding. The buffer 540 is a spring, and the number of the springs is two and the springs are respectively disposed in a first assembling groove. Both ends of the buffer 540 abut against the groove bottom of the first fitting groove and one end of the first electrical connector 510, respectively. The second fitting member 550 is also fixed to the mirror door 200 by screws and provided with two second fitting grooves. Two second conductive posts 521 are at least partially inserted into the second assembly slot, and the second assembly slot is located and configured to allow the second conductive posts 521 to abut against the corresponding first conductive posts 511 when the mirror door 200 is located at the closed position. It can be seen that the above structure facilitates the corresponding assembly of the first conductive pillar 511 and the second conductive pillar 521, and in addition, the buffer 540 is provided to play a role of buffering when the mirror door 200 closes the second conductive pillar 521 to abut against the first conductive pillar 511, so as to reduce the mutual abrasion between the first conductive pillar 511 and the second conductive pillar 521.

Therefore, the mirror door 200 of the embodiment of the utility model is translated relative to the cabinet body 100 to realize door opening and closing, and the lighting element 300 is arranged on the mirror door 200, so that a user can conveniently take and use articles when looking into a mirror without repeatedly opening and closing the mirror door 200, the lighting element 300 can effectively supplement light, and the use experience is good. On this basis, to the power supply problem that illumination piece 300 relates, this embodiment sets up the energy storage unit on mirror door 200 and comes the power supply for illumination piece 300 to set up power supply structure and can charge for the energy storage unit when mirror door 200 closes, open at mirror door 200 and remove the electrical connection relation, thereby need not to set up the electric wire and connect illumination piece 300 and external power source respectively with electric wire both ends, the condition that the electric wire is cracked can not appear when mirror door 200 translation, thereby make to set up illumination piece 300 on the mirror door 200 of translation mode switch door have practical meaning.

Returning to fig. 2, preferably, the mirror cabinet further includes an illumination control unit powered by the energy storage unit, and including a distance sensor 310 and an illumination control circuit (not shown) fixed to the mirror door 200 and having a sensing direction perpendicular to the mirror surface 200A. In this embodiment, the distance sensor 310 is a microwave inductive switch. The illumination control unit controls the illumination piece 300 to turn on illumination when the distance sensor 310 senses that a shield exists within a preset distance, and controls the illumination piece 300 to turn off illumination when the distance sensor 310 does not sense that a shield exists within the preset distance, and the illumination control unit is applicable to automatically switching an illumination on/off use scene according to whether a user approaches the mirror door 200.

Preferably, the mirror cabinet further comprises an opening and closing actuator 800, a wireless communication unit and an operating member 600. The opening and closing actuator 800 is disposed on the cabinet 100 and drives the mirror door 200 to translate relative to the cabinet 100 when receiving an opening and closing instruction. The wireless communication unit includes a wireless transmitting module (not shown) and a wireless receiving module 700 respectively disposed on the mirror door 200 and the cabinet body 100 and wirelessly connected with each other by signals. The wireless transmitting module is powered by the energy storage unit, and the wireless receiving module 700 is in signal connection with the opening and closing executing mechanism 800 to transmit the opening and closing instruction. In this embodiment, the wireless communication unit is an RF433 radio frequency unit. The operating member 600 is disposed on the mirror door 200 and powered by the energy storage unit. The operating element 600 is further in signal connection with the wireless transmitting module to send the opening and closing instruction. In this embodiment, the operating element 600 is a touch button embedded in the mirror door 200, and is good in appearance. Thus, the operation member 600 is provided on the mirror door 200, and the user can easily operate the opening and closing of the mirror door 200. In addition, the mirror door 200 transmits an opening and closing instruction through the wireless communication unit, so that wireless electrical connection between the mirror door 200 and the cabinet 100 is further realized.

Referring next to fig. 1-2 and 5-8, the manner of translation of the door 200 relative to the cabinet 100 and the specific articulation therebetween in this embodiment will be described.

In this embodiment, the door mirror 200 is adapted to translate in the second direction relative to the cabinet 100 between the closed position and an intermediate position, and is further adapted to translate in the first direction relative to the cabinet 100 between the intermediate position and the open position. The second direction and the first direction are perpendicular and parallel to the mirror surface 200A of the mirror door 200, respectively. Therefore, the two-stage translation manner described above enables the user to take and place articles without being interfered by the mirror door 200, which is convenient, and is suitable for configuring the mirror door 200 to be flush with the user-facing surface of the cabinet 100, which is good in aesthetic property.

In a specific structure, the top of the cabinet body 100 is provided with a mounting cavity 100B, the mounting cavity 100B is covered by a top plate 110, a third slide rail 120 extending along the first direction is fixedly arranged in the mounting cavity 100B, and one end of the third slide rail 120 is provided with a first limiting portion 121.

The opening and closing actuator 800 is installed in the installation cavity 100B and includes a motor 810, a driving wheel 821, a belt 822, a driven wheel 823, a bearing 830, a driving part 840, an elastic part 850, a first gear 861, a second gear 862, a driven part 870, and a mechanical connector 880.

The motor 810 is installed in the cabinet 100 and outputs a rotational motion in a corresponding direction when receiving the opening and closing command.

The driving wheel 821 is connected to the output shaft of the motor 810 in a rotation stopping manner to be driven by the output shaft and rotate relative to the cabinet 100, the driving wheel 821 further drives the driven wheel 823 to rotate synchronously through the belt 822, and the belt 822 moves along the first direction.

The bearing member 830 is plate-shaped, and is slidably disposed on the third slide rail 120, and further includes a first slide rail 831 and a second slide rail 832 extending along the first direction and the second direction, respectively, and a second limiting portion 8311 is disposed at an end of the first slide rail 831.

The driving member 840 is shaped like a slider and is fixedly connected with a first rack 841, which is fixedly connected to the belt 822 to slidably locate the first slide rail 831 along the first direction and move between a first position and a second position relative to the cabinet 100. When the driving member 840 moves from the second position to the first position and does not abut against the second limit portion 8311, the driving member 840 moves relative to the carrier 830; the driving part 840 drives the bearing part 830 to move synchronously when moving from the second position to the first position and abutting against the second limit part 8311; when the driving member 840 moves from the first position to the second position and the bearing member 830 does not abut against the first position-limiting part 121, the driving member 840 drives the bearing member 830 to move synchronously; the driving member 840 moves relative to the bearing member 830 when the driving member 840 moves from the first position to the second position and the bearing member 830 abuts against the first position-limiting portion 121.

The elastic member 850 is a tension spring, and two ends of the elastic member are respectively connected to the driving member 840 and the bearing member 830, so that when the driving member 840 moves from the first position to the second position, the elastic member is elastically deformed and drives the bearing member 830 to move along with the driving member 840.

The first gear 861 is adapted to engage the first rack 841.

The second gear 862 is non-rotatably connected to the first gear 861 for synchronous rotation therewith.

The follower 870 is shaped like a sliding block and is fixed relative to the carrier 830 in the first direction, and is fixedly connected with a second rack 871 adapted to engage with the second gear 862, and is driven by the driving member 840, the first gear 861 and the second gear 862 to slide along the second direction and be disposed on the second sliding rail 832 when the driving member 840 moves relative to the carrier 830, and moves between a third position and a fourth position. The driven member 870 moves from the third position to the fourth position when the driving member 840 slides relative to the carrier 830 from the second position to the first position, and the driven member 870 moves from the fourth position to the third position when the driving member 840 slides relative to the carrier 830 from the first position to the second position.

The mechanical connecting member 880 is an L-shaped connecting piece, which is fixedly connected to the follower 870 and the door mirror 200, so as to drive the door mirror 200 to move with the follower 870 relative to the cabinet 100 along the second direction between the closed position and the intermediate position, and to move along the first direction between the intermediate position and the open position.

It can be seen that when the active member 840 is in the second position, the mirror door 200 is in the closed position. When the active member 840 is located at the first position, the mirror door 200 is located at the open position. When the follower 870 is in the fourth position, the mirror door 200 is in the intermediate position.

The description of the above specification and examples is intended to be illustrative of the scope of the present invention and is not intended to be limiting. Modifications, equivalents and other improvements which may occur to those skilled in the art and which may be made to the embodiments of the utility model or portions thereof through a reasonable analysis, inference or limited experimentation, in light of the common general knowledge, the common general knowledge in the art and/or the prior art, are intended to be within the scope of the utility model.

Claims (10)

1. Mirror cabinet, its characterized in that: comprises a cabinet body and a mirror door; the mirror door is suitable for translating relative to the cabinet body and is stopped at an opening position and a closing position;

further comprising:

the lighting piece is fixedly arranged on the mirror door;

the energy storage unit is fixedly arranged on the mirror door and used for supplying power to the lighting piece; and

the power supply structure comprises a first electric connector and a second electric connector which are respectively and electrically connected with an external power supply and the energy storage unit, the first electric connector and the second electric connector are respectively arranged on the cabinet body and the mirror door, and respectively establish and remove electric connection relations when the mirror door is positioned at a closed position and an open position;

wherein the first and second electrical connectors are electrically connected to adapt the energy storage unit to be charged by the external power source when the mirror door is in the closed position.

2. The mirror cabinet of claim 1, wherein:

the first electric connector comprises a first conductive column which is electrically connected with the external power supply through a conducting wire;

the second electric connector comprises a second conductive column corresponding to the first conductive column, and the second conductive column is electrically connected with the energy storage unit through a conducting wire;

when the mirror door is located at the opening position, the second conductive column is separated from the corresponding first conductive column so that the first electric connector and the second electric connector are disconnected from each other.

3. The mirror cabinet of claim 2, wherein the power supply structure further comprises:

the first assembly part is fixedly arranged on the cabinet body and provided with a first assembly groove; the first conductive column part is inserted into the first assembling groove, partially extends out of the first assembling groove and is configured to slide along the extending direction of the first assembling groove relative to the first assembling part;

a buffer configured as a spring and disposed in the first fitting groove; two ends of the first electric connector are respectively abutted against the groove bottom of the first assembling groove and one end of the first electric connector; and

the second assembly part is fixedly arranged on the mirror door and is provided with a second assembly groove; the second conductive column is at least partially inserted into the second assembling groove; the second mounting slot is configured and adapted to cause the second conductive post to abut the corresponding first conductive post when the mirror door is in the closed position.

4. The mirror cabinet of claim 1, further comprising:

the illumination control unit is powered by the energy storage unit and comprises a distance sensor which is fixedly arranged on the mirror door and the sensing direction of which is vertical to the mirror surface and outward;

the illumination control unit controls the illumination piece to turn on illumination when the distance sensor senses that a shielding object exists in the preset distance, and controls the illumination piece to turn off illumination when the distance sensor does not sense that the shielding object exists in the preset distance.

5. The mirror cabinet of claim 4, wherein: the distance sensor is a microwave inductive switch.

6. The mirror cabinet of claim 1, further comprising:

the opening and closing executing mechanism is arranged on the cabinet body and drives the mirror door to translate relative to the cabinet body when receiving an opening and closing instruction;

the wireless communication unit comprises a wireless transmitting module and a wireless receiving module which are respectively arranged on the mirror door and the cabinet body and are in wireless signal connection with each other; the wireless transmitting module is powered by the energy storage unit, and the wireless receiving module is in signal connection with the starting and stopping executing mechanism to transmit the starting and stopping instruction; and

the operating piece is arranged on the mirror door and is powered by the energy storage unit; the wireless transmitting module is also in signal connection with the wireless transmitting module to send the opening and closing instruction.

7. The mirror cabinet of claim 6, wherein: the wireless communication unit is an RF433 wireless radio frequency unit; the operating piece is a touch key.

8. The mirror cabinet of claim 6, wherein:

the mirror door is suitable for translating between the closed position and an intermediate position along the second direction relative to the cabinet body, and is also suitable for translating between the intermediate position and the open position along the first direction relative to the cabinet body; the second direction and the first direction are respectively vertical to and parallel to the mirror surface of the mirror door;

the cabinet body is provided with a third slide rail extending along the first direction, and one end of the third slide rail is provided with a first limiting part;

the opening and closing actuating mechanism comprises a motor, a driving wheel, a belt, a driven wheel, a bearing piece, a driving piece, an elastic piece, a first gear, a second gear, a driven piece and a mechanical connecting piece;

the motor is arranged on the cabinet body and outputs rotary motion in a corresponding direction when receiving the opening and closing instruction;

the driving wheel is in rotation stopping connection with an output shaft of the motor so as to be driven by the motor and rotate relative to the cabinet body, the driving wheel drives the driven wheel to synchronously rotate through the belt, and the belt moves along the first direction;

the bearing piece is arranged on the third slide rail in a sliding manner, and is also provided with a first slide rail and a second slide rail which respectively extend along the first direction and the second direction; a second limiting part is arranged at the end part of the first sliding rail;

the driving part is fixedly connected with a first rack which is fixedly connected with the belt to be arranged on the first slide rail in a sliding manner along the first direction and moves between a first position and a second position relative to the cabinet body; the driving piece moves relative to the bearing piece when moving from the second position to the first position and does not abut against the second limiting part; the driving piece drives the bearing piece to move synchronously when moving from the second position to the first position and abutting against the second limiting part; the driving piece drives the bearing piece to move synchronously when moving from a first position to a second position and the bearing piece does not abut against the first limiting part; the driving piece moves from a first position to a second position and moves relative to the bearing piece when the bearing piece abuts against the first limiting part;

the elastic part is a tension spring, and two ends of the elastic part are respectively connected with the driving part and the bearing part so as to generate elastic deformation when the driving part moves from the first position to the second position and drive the bearing part to move along with the driving part;

the first gear is adapted to engage the first rack;

the second gear is in rotation stopping connection with the first gear so as to synchronously rotate along with the first gear;

the driven part and the bearing part are relatively fixed in the first direction, a second rack suitable for being meshed with the second gear is fixedly connected to the driven part, and the driven part is driven by the driving part, the first gear and the second gear to be arranged on the second slide rail in a sliding mode along the second direction and move between a third position and a fourth position when the driving part moves relative to the bearing part; the driven piece moves from the third position to the fourth position when the driving piece slides relative to the bearing piece from the second position to the first position, and the driven piece moves from the fourth position to the third position when the driving piece slides relative to the bearing piece from the first position to the second position;

the mechanical connecting piece is fixedly connected with the driven piece and the mirror door so as to drive the mirror door to move in a second direction relative to the cabinet body along with the driven piece between the closed position and the middle position and move in a first direction between the middle position and the open position;

when the driving piece is located at the second position, the mirror door is located at the closed position; when the driving piece is located at the first position, the mirror door is located at the opening position; when the driven piece is located at the fourth position, the mirror door is located at the middle position.

9. The mirror cabinet of any of claims 1-8, wherein: the illuminating piece is a lamp strip.

10. The mirror cabinet of any of claims 1-8, wherein: the energy storage unit comprises a lithium battery and a charging management circuit; the charging management circuit is electrically connected with the second electric connector so as to be connected to the external power supply and perform charging management on the lithium battery.

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