CN211974722U - Mirror cabinet - Google Patents

Abstract

The application relates to the technical field of furniture, discloses a mirror cabinet, including the mirror door and the cabinet body, still include: the first hinged end is fixedly connected with the cabinet body, the second hinged end is movably connected with the mirror door along the back surface of the mirror door, and the mirror door is pivotally connected with the cabinet body through the hinged mechanism; the centering mechanism is elastically and telescopically arranged on two opposite sides of the periphery of the mirror door, and when the mirror door is closed, the centering mechanism is abutted against the inner wall of the cabinet body, and when the mirror door is not at the standard position, elastic force can be applied to the mirror door to enable the mirror door to move to the standard position; wherein, the clearance between the mirror door and the cabinet body is uniform when the mirror door is at the standard position. Under the action of elastic force, the gap between the mirror door and the cabinet body is automatically adjusted.

Description

Mirror cabinet

Technical Field

The application relates to the technical field of furniture, for example to a mirror cabinet.

Background

At present, the aging phenomenon of the population is gradually prominent, and the existing furniture and household products are mostly designed according to the middle-aged and young people, so that the use requirement of the special group of the old is difficult to meet. On mirror cabinet product, have the part to have adopted the rotatable design of mirror door in the current design, the part has satisfied old person's user demand, but because the mirror door is rotatable, consequently the in-process of product processing and installation to the required precision than higher, otherwise can appear the inhomogeneous condition in clearance of mirror door and the cabinet body, seriously influence daily use and aesthetic property.

SUMMERY OF THE UTILITY MODEL

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview nor is intended to identify key/critical elements or to delineate the scope of such embodiments but rather as a prelude to the more detailed description that is presented later.

The embodiment of the disclosure provides a mirror cabinet with a rotatable mirror door, which aims to solve the technical problem of uneven gap between the mirror door and a cabinet body.

In some embodiments, the mirror cabinet comprises a mirror door and a cabinet body, further comprising: the first hinged end is fixedly connected with the cabinet body, the second hinged end is movably connected with the mirror door along the back surface of the mirror door, and the mirror door is pivotally connected with the cabinet body through the hinged mechanism; the centering mechanism is elastically and telescopically arranged on two opposite sides of the periphery of the mirror door, and when the mirror door is closed, the centering mechanism is abutted against the inner wall of the cabinet body, and when the mirror door is not at the standard position, elastic force can be applied to the mirror door to enable the mirror door to move to the standard position; wherein, the clearance between the mirror door and the cabinet body is uniform when the mirror door is at the standard position.

The embodiment of the disclosure provides, can realize following technological effect: because the mirror door is movably connected with the hinge mechanism along the back of the mirror door, the degree of freedom between the mirror door and the hinge mechanism is not limited completely, and the mirror door can move to a standard position with uniform clearance under the action of the elastic force of the centering mechanism, so that the clearance between the mirror door and the cabinet body is automatically adjusted.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the application.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the accompanying drawings and not in limitation thereof, in which elements having the same reference numeral designations are shown as like elements and not in limitation thereof, and wherein:

FIG. 1 is a schematic view of a mirror cabinet provided by an embodiment of the present disclosure;

FIG. 2 is a schematic view of a mirror cabinet provided by an embodiment of the present disclosure;

fig. 3 is a schematic view of a centering mechanism of a mirror cabinet provided in the embodiment of the present disclosure.

Reference numerals:

1: a mirror door; 2: a cabinet body; 3: a hinge mechanism; 4: a centering mechanism; 31: a first hinge mechanism; 32: a second hinge mechanism; 311: a through hole; 321: a strip hole; 41: an abutting portion; 42: an elastic part.

Detailed Description

So that the manner in which the features and elements of the disclosed embodiments can be understood in detail, a more particular description of the disclosed embodiments, briefly summarized above, may be had by reference to the embodiments, some of which are illustrated in the appended drawings. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may be practiced without these details. In other instances, well-known structures and devices may be shown in simplified form in order to simplify the drawing.

Referring to fig. 1, the disclosed embodiment provides a mirror cabinet, including a mirror door 1 and a cabinet body 2, further including: the first hinged end of the hinge mechanism 3 is fixedly connected with the cabinet body 2, the second hinged end of the hinge mechanism is movably connected with the mirror door 1 along the back of the mirror door 1, and the mirror door 1 is pivotally connected with the cabinet body 2 through the hinge mechanism 3; the centering mechanisms 4 are elastically and telescopically arranged on two opposite sides of the periphery of the mirror door 1, when the mirror door 1 is closed, the centering structures abut against the inner wall of the cabinet body 2, and when the mirror door 1 is not at a standard position, elastic force can be applied to the mirror door 1 to enable the mirror door 1 to move towards the standard position; wherein, the clearance between the mirror door 1 and the cabinet body 2 is uniform when the mirror door is at the standard position.

The hinge mechanism 3 may be any mechanism provided with two hinge ends capable of pivoting around a pivot, and the two hinge ends are respectively connected with parts to realize relative rotation between the two parts, such as a hinge, and the like. The mirror door 1 is connected to the cabinet body 2 through the hinge mechanism 3, and can be opened and closed along the pivot of the hinge mechanism 3, and meanwhile, the mirror door 1 can be translated relative to the hinge mechanism 3. In order to achieve the movement of the mirror door 1 meeting the hinge mechanism 3, the mirror door back and the second hinge end can have various connection means.

Optionally, a sliding rail is arranged on the back of the mirror door, a sliding block is arranged at the second hinged end, and the second hinged end is communicated with the sliding block and slides along the sliding rail.

In some embodiments, the hinge mechanism 3 comprises a first hinge mechanism, a second hinge end of the first hinge mechanism 31 is connected to a first hinge mechanism 31 connection point on the back surface of the mirror door 1, and the mirror door 1 can rotate around the first hinge mechanism 31 connection point along the back surface of the mirror door 1.

The first hinge mechanism 31 is in point connection with the mirror door 1, and the mirror door 1 can rotate around the connection point, so when the installation of the mirror door 1 is not vertical, namely, when the gap between the edge of the mirror door 1 and the inner wall of the cabinet 2 is not consistent up and down: when the centering mechanisms 4 are respectively arranged on the left side and the right side of the mirror door 1, the elastic forces exerted on the two sides of the mirror door 1 are different, the mirror door 1 is driven to rotate around the connection point of the first hinge mechanism 31 through the difference of the elastic forces on the two sides, and finally the gap between the side of the mirror door 1 and the inner wall of the cabinet body 2 is kept consistent up and down; when at least two centering mechanisms 4 are arranged on one side of the mirror door 1, due to the fact that the gaps are not consistent up and down, the elastic forces generated by the centering mechanisms 4 arranged on the upper side and the centering mechanisms 4 arranged on the lower side are different, the mirror door 1 can be driven to rotate along the connection point of the first hinge mechanism 31, and finally the gaps between the side of the mirror door 1 and the inner wall of the cabinet body 2 are kept consistent up and down. Therefore, the mirror cabinet can adjust the working condition of the rotation of the mirror door 1 relative to the standard position.

Optionally, a bearing seat equipped with a bearing is arranged on the back of the mirror door, a shaft is arranged at the second hinged end and extends into the inner ring of the bearing, and the mirror door 1 rotates with the shaft of the second hinged end as an axis together with the bearing seat.

In some embodiments, the second hinge end of the first hinge mechanism 31 is provided with a through hole 311, and a fastener passes through the through hole 311 to rotatably connect the second hinge end to the back of the mirror door 1.

The through hole 311 is provided at the second hinge end of the first hinge mechanism 31, and then the first hinge mechanism 31 is fixed to the back surface of the mirror door 1 by a fastener (e.g. a screw), and the diameter of the through hole 311 is substantially the same as that of the fastener, so that the translational freedom of the mirror door 1 is completely limited and can only rotate around the fastener. Therefore, the normal opening and closing action of the mirror door 1 is not influenced, and the mirror door can rotate relative to the hinge mechanism 3, so that the automatic adjustment of the gap becomes possible.

In some embodiments, the hinge mechanism comprises a second hinge mechanism, and a second hinge end of the second hinge mechanism 32 is connected to at least one second hinge mechanism 32 connection point on the back of the mirror door 1 in a manner that the second hinge end is translatable along the back of the mirror door 1. When the mirror door 1 is installed, the mirror door 1 may deviate from the standard position in the up-down or left-right direction, and at this time, adjusting the gap between the mirror door 1 and the cabinet 2 requires translating the mirror door 1 in the up-down or left-right direction. Therefore, the connection of the second hinge end of the second hinge mechanism 32 to the back of the mirror door 1 requires that the freedom of translation of the mirror door 1 along the back is preserved.

In some embodiments, the second hinge end of the second hinge mechanism 32 is provided with an elongated aperture 321, and the second hinge mechanism 32 attachment point is capable of translating along the elongated aperture 321. The width of the elongated hole 321 is slightly larger than the diameter of the fastening element and smaller than the size of the head of the fastening element, so that the fastening element can fix the second hinged end to the back of the mirror door 1 and the fastening element can slide along the elongated hole.

Optionally, the elongated hole is an elongated hole with a linear axis, and the mirror door 1 and the fastener translate linearly along the elongated hole.

In some embodiments, elongated aperture 321 is an aperture having a circular arc centerline. Due to the shape characteristic of the arc, if the connection point of the second hinge mechanism 32 moves along the arc, the translation in the up-and-down direction and the translation in the left-and-right direction can be realized, that is, the mirror door 1 can move up and down or move left and right, and the adjustment range of the mirror door 1 is increased.

One or more than two hinge mechanisms 3 may be provided. When the hinge mechanism 3 is one, the hinge mechanism 3 is arranged on the vertical central line of the mirror door 1; when the number of the hinge mechanisms 3 is more than two, the hinge mechanisms 3 are symmetrically arranged relative to the vertical central line of the mirror door 1.

Referring to fig. 2, in some embodiments, when the first hinge mechanism 31 and the second hinge mechanism 32 are provided at the same time, the radius of the circular arc is equal to the distance between the first hinge mechanism 31 and the second hinge mechanism 32. The connecting point of the first hinge mechanism 31 is used as the center of a circle, the connecting point of the second hinge mechanism 32 moves along the arc-shaped long hole 321, and the radius of the arc is equal to the distance between the two hinge mechanisms 3, so that the motion track of the connecting point of the second hinge mechanism 32 is completely matched with the arc-shaped long hole 321, no redundant movement allowance exists when the mirror door 1 rotates, the mirror door moves according to the preset track, and the accuracy of gap adjustment is improved.

The centering mechanism 4 is an elastic mechanism, can elastically stretch and contract, and can generate an elastic force when being squeezed, and the larger the squeezing is, the larger the elastic force is.

Referring to fig. 3, in some embodiments, centering mechanism 4 comprises: an abutting portion 41, the abutting portion 41 being held against the inner wall of the cabinet 2 when the mirror door 1 is closed; and the elastic part 42 is elastically connected with the abutting part 41 and the mirror door 1 and provides elastic force to move the mirror door 1 to the standard position when the mirror door 1 is not at the standard position. Because the centering mechanism 4 abuts against the inner wall of the cabinet body 2 when the mirror door 1 is closed, if the inclination angle of the mirror door 1 is adjusted at this time, the centering mechanism 4 and the inner wall of the cabinet body 2 can move relatively, and if the elastic part 42 of the centering mechanism 4 is directly contacted with the inner wall of the cabinet body 2, the elastic part 42 can be worn and finally fails along with the increase of the use times. Therefore, the abutting part 41 is arranged to isolate the elastic part 42 from the inner wall of the cabinet body 2, and the service life is prolonged. The elastic portion 42 is usually made of a wear-resistant material, preferably a steel ball, so that sliding friction can be changed into rolling friction, the service life of the centering mechanism 4 is further prolonged, and the resistance for adjusting the inclination angle of the mirror door 1 is reduced.

Optionally, be provided with circular blind hole on the periphery of door 1 in the direction of perpendicular to door 1 thickness, be provided with elastomers such as spring or rubber stick along the axis direction of round hole, the one end of elastomer supports with the blind end of blind hole and supports, and the other end supports with the steel ball and supports to be provided with the apron that opens there is the circular port on the thickness face of door 1, prevent that the steel ball from droing from circular blind hole.

In some embodiments, the total of all the elastic forces to which the mirror door 1 is subjected in the standard position is zero. When the mirror door 1 is in a standard position, the gap between the mirror door 1 and the cabinet body 2 is uniform, the resultant force of the elastic force applied to the mirror door 1 by all the centering mechanisms 4 is equal to zero, so that the mirror door 1 is stressed in a balanced manner, has no movement trend and is kept static, and the mirror door 1 can keep the gap with the cabinet body 2 uniform.

The mirror cabinet has various shapes, such as rectangle, rhombus, ellipse and the like, and for convenience of description, the following rectangular mirror cabinet (the mirror door 1 and the cabinet body 2 are both rectangular when viewed from the front) is taken as an example to explain the working process of the embodiment of the disclosure.

The mirror door 1 is pivotally connected to the cabinet 2 through a hinge mechanism 3 and can be opened or closed relative to the cabinet 2, and the mirror door 1 can move relative to the hinge mechanism 3 along the back of the mirror door 1. The centering mechanisms 4 are respectively arranged on the left side and the right side of the mirror door 1, and when the mirror door 1 is in a closed state, the non-connecting ends of the centering mechanisms 4 are abutted against the inner wall of the cabinet body 2, so that the centering mechanisms 4 generate elastic force and are applied to the mirror door 1.

When the gap between the mirror door 1 and the cabinet body 2 is not uniform, namely, the gap between the two opposite sides of the mirror door 1 and the cabinet body 2 is not equal in size, therefore, the extrusion on the centering mechanism 4 arranged on the side with the small gap is larger than that on the centering mechanism 4 arranged on the side with the large gap, namely, the elastic force generated by the centering mechanism 4 arranged on the side with the small gap is larger than that generated by the centering mechanism 4 arranged on the side with the large gap, and the larger elastic force overcomes the smaller elastic force to drive the mirror door 1 to move towards the direction with the large gap. In the process of movement, the clearance between the side with small clearance and the cabinet body 2 is gradually increased, the extrusion amount of the centering mechanism 4 is gradually reduced, and the generated elastic force is also gradually reduced. The process of the change on the side with the large gap is reversed. Therefore, when the mirror door 1 moves to the same gap on both sides, the elastic force is the same, and the mirror door 1 is stressed in a balanced way and does not move any more. Thus, when the gap between the mirror door 1 and the cabinet 2 is not uniform, automatic adjustment can be achieved, and the mirror door stops when adjusted to the standard position.

The above description and drawings sufficiently illustrate embodiments of the disclosure to enable those skilled in the art to practice them. Portions and features of some embodiments may be included in or substituted for those of others. Each embodiment may be described with emphasis on differences from other embodiments, and like parts may be referred to each other between the respective embodiments. As used in this application, although the terms "first," "second," etc. may be used in this application to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another. For example, a first element could be termed a second element, and, similarly, a second element could be termed a first element, unless the meaning of the description changes, so long as all occurrences of the first element are renamed consistently and all occurrences of the second element are renamed consistently. The first and second elements are both elements, but may not be the same element.

Claims (9)

1. The utility model provides a mirror cabinet, includes mirror door and the cabinet body, its characterized in that still includes:

the first hinged end is fixedly connected with the cabinet body, the second hinged end is movably connected with the mirror door along the back surface of the mirror door, the mirror door is pivotally connected with the cabinet body through the hinged mechanism, a sliding rail is arranged on the back surface of the mirror door, a sliding block is arranged at the second hinged end, and the second hinged end is communicated with the sliding block and slides along the sliding rail;

the centering mechanism is elastically and telescopically arranged on two opposite sides of the periphery of the mirror door, the centering structure is abutted against the inner wall of the cabinet body when the mirror door is closed, and when the mirror door is not in a standard position, elastic force can be applied to the mirror door to enable the mirror door to move to the standard position;

wherein, the mirror door is in when the standard position with the clearance of the cabinet body is even.

2. A mirror cabinet according to claim 1, wherein the hinge mechanism comprises a first hinge mechanism, the second hinge end of which is connected to a first hinge mechanism connection point at the back of the mirror door, the mirror door being rotatable about the first hinge mechanism connection point along the back of the mirror door.

3. A mirror cabinet according to claim 2, wherein the second hinge end of the first hinge mechanism is provided with a through hole through which a fastener passes to rotatably connect the second hinge end to the rear side of the mirror door.

4. Mirror cabinet according to any of claims 1 to 3, wherein the hinge mechanism comprises a second hinge mechanism, the second hinge end of which is translatably connected along the mirror door back to at least one second hinge mechanism connection point at the mirror door back.

5. A mirror cabinet according to claim 4, wherein the second hinge end of the second hinge mechanism is provided with an elongated aperture along which the second hinge mechanism connection point is translatable.

6. A mirror cabinet according to claim 5, wherein the elongated hole is a hole with a circular arc centre line.

7. Mirror cabinet according to claim 6, wherein the radius of the circular arc is equal to the distance of the first and second hinge means.

8. A mirror cabinet according to claim 1, wherein the centering mechanism comprises:

the abutting part is kept abutting against the inner wall of the cabinet when the mirror door is closed;

the elastic part is elastically connected with the abutting part and the mirror door and provides elastic force to enable the mirror door to move towards the standard position when the mirror door is not at the standard position.

9. Mirror cabinet according to claim 1, characterized in that the total force of all the elastic forces to which the mirror door is subjected in the standard position is zero.

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