CN110953807B - Bracket with self-locking structure and small refrigeration equipment - Google Patents

Abstract

The invention discloses a bracket with a self-locking structure and small refrigeration equipment, which comprises a bracket body, wherein two ends of the bracket body are respectively provided with a rotating shaft, the periphery of the rotating shaft is sleeved with a rotating shaft sleeve, the bracket body is connected with the rotating shaft sleeve, the inner side of the rotating shaft sleeve is provided with the self-locking structure, and the self-locking structure is provided with an inclined plane which is obliquely upwards arranged. When the rotating shaft rotates anticlockwise, the rotating shaft is abutted with the inclined surface and is limited by the inclined surface to stop rotating, so that self-locking in the anticlockwise direction is realized; when the rotary shaft rotates clockwise, the rotation of the rotary shaft is not limited by the inclined surface. The support body can play a role in supporting the cabinet body, can serve as a handle when carrying refrigeration equipment, and is convenient to move. Through the self-locking structure of support, realize that the inclination of the cabinet body is adjustable, the user of being convenient for uses the mirror glass on the small-size refrigeration plant, improves user experience. The bracket also has the advantages of simple structure, low cost, convenient installation and small occupied space.

Description

Bracket with self-locking structure and small refrigeration equipment

Technical Field

The invention relates to a bracket applied to small-sized refrigeration equipment, in particular to a bracket with a self-locking structure and the small-sized refrigeration equipment.

Background

Along with the development of economy and the continuous promotion of the living standard of people, small-sized household appliances are more and more favored by people, and have good market prospect, wherein the cosmetic fresh-keeping cabinet is used as small-sized refrigeration equipment and has high user demands. Mirror glass is arranged outside the door body of the cosmetic fresh-keeping cabinet for users to make up. Most of the existing cosmetic fresh-keeping cabinets have no support structure, and the cosmetic fresh-keeping cabinets are directly placed on a tabletop during use, and the cabinet body needs to be integrally moved during movement, so that the movement is inconvenient; and the angle of the mirror glass on the door body is not adjustable, so that the door is inconvenient for users to use and has poor experience.

Disclosure of Invention

The invention aims to solve the technical problems and the defects, and provides a bracket with a self-locking structure and small refrigeration equipment, which are convenient to move, can realize the adjustable inclination angle of the small refrigeration equipment, and improve the user experience.

The technical scheme provided by the invention is that the bracket with the self-locking structure comprises a U-shaped bracket body, wherein two ends of the bracket body are respectively provided with a rotating shaft, the periphery of the rotating shaft is sleeved with a rotating shaft sleeve, the bracket body is connected with the rotating shaft sleeve, the inner side of the rotating shaft sleeve is provided with the self-locking structure, the self-locking structure is provided with an inclined plane which is obliquely arranged upwards, and the self-locking structure, the rotating shaft sleeve and the rotating shaft are configured as follows: when the rotating shaft rotates anticlockwise, the rotating shaft is abutted with the inclined surface and limited by the inclined surface to stop rotating; when the rotation shaft rotates clockwise, the rotation of the rotation shaft is not limited by the inclined surface.

Further, the rotary shaft sleeve is provided with a mounting cavity for mounting the self-locking structure, and a certain interval is reserved between the bottom of the mounting cavity and the bottom of the self-locking structure.

Further, a certain distance is reserved between the top of the mounting cavity and the top of the self-locking structure, a button is arranged on the self-locking structure, a button mounting hole is correspondingly arranged on the support body, and the button penetrates out of the button mounting hole.

Further, a compression spring is arranged between the top of the mounting cavity and the top of the self-locking structure.

Further, the self-locking structure is provided with a first step surface, a second step surface and a third step surface which are sequentially connected at one side far away from the inclined surface, the installation cavity is correspondingly provided with a first step surface ', a second step surface' and a third step surface 'which are sequentially connected, one side of the installation cavity, which is close to the rotating shaft, is provided with a notch, the inclined surface is close to the notch and is in contact with the rotating shaft, the first step surface is in sliding contact with the first step surface', the compression spring is arranged between the second step surface and the second step surface ', and a certain interval is reserved between the third step surface and the third step surface'.

Further, the first step surface ', the third step surface and the third step surface ' are respectively and vertically arranged, and the second step surface ' are respectively and horizontally arranged.

Further, rubber is arranged on the inclined plane.

Further, the support body includes the perpendicular support of relative setting and connects two perpendicular support's horizontal support portion, horizontal support portion includes the relative first horizontal support that sets up and connects two the second horizontal support of first horizontal support, first horizontal support with perpendicular support connection.

The invention also provides small refrigeration equipment, which comprises a cabinet body and a door body hinged with the cabinet body, wherein the cabinet body is provided with the bracket with the self-locking structure, and the rotating shaft is connected with the cabinet body.

Furthermore, the small refrigeration equipment is a cosmetic fresh-keeping cabinet, and the door body is provided with mirror glass.

Compared with the prior art, the invention has the advantages and positive effects that:

The invention provides a bracket with a self-locking structure and small refrigeration equipment, which comprises a bracket body, wherein two ends of the bracket body are respectively provided with a rotating shaft, the periphery of the rotating shaft is sleeved with a rotating shaft sleeve, the bracket body is connected with the rotating shaft sleeve, the inner side of the rotating shaft sleeve is provided with the self-locking structure, and the self-locking structure is provided with an inclined plane which is obliquely upwards arranged. When the rotating shaft rotates anticlockwise, the rotating shaft is abutted with the inclined surface and is limited by the inclined surface to stop rotating, so that self-locking in the anticlockwise direction is realized; when the rotary shaft rotates clockwise, the rotation of the rotary shaft is not limited by the inclined surface. The support body can play a role in supporting the cabinet body, can serve as a handle when carrying refrigeration equipment, and is convenient to move. Through the self-locking structure of support, realize that the inclination of the cabinet body is adjustable, the user of being convenient for uses the mirror glass on the small-size refrigeration plant, improves user experience. The bracket also has the advantages of simple structure, low cost, convenient installation and small occupied space.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it will be obvious that the drawings in the following description are some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

FIG. 1 is a schematic diagram of an assembly structure of a bracket with a rotary self-locking structure according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a support with a rotation self-locking structure according to an embodiment of the present invention;

Fig. 3 is a schematic structural view of a small refrigeration apparatus equipped with a bracket having a rotation self-locking structure according to an embodiment of the present invention;

Fig. 4 is a schematic structural diagram II of a small-sized refrigeration apparatus equipped with a bracket having a rotation self-locking structure according to an embodiment of the present invention;

fig. 5 is a schematic diagram III of a small refrigeration device with a bracket with a rotation self-locking structure according to an embodiment of the present invention;

FIG. 6 is a schematic view of a rotary sleeve according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a self-locking structure according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a bracket body according to an embodiment of the invention.

The self-locking type rotary shaft comprises a rotary shaft 100-a rotary shaft 200-a rotary shaft sleeve 210-a mounting cavity 211-a first step face ', 212-a second step face ', 213-a third step face ', 214-a notch 300-a self-locking structure 310-the first step face, 320-the second step face, 330-the third step face, 340-an inclined plane, 350-a button, 400-a bracket body, 410-a vertical bracket 411-a rotary shaft sleeve mounting cover 412-a button mounting hole, 420-a first transverse bracket 430-a second transverse bracket, 500-a compression spring, 600-a cabinet body, 700-a door body and 710-mirror glass.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of 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, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

First, technical terms related to the specific embodiments will be briefly described: the following references to front or rear of each structural member are defined in terms of the position of the structural member relative to the user in normal use; the arrangement position of the plurality of structural members is described before or after, and is defined as the position of the device formed by the plurality of structural members with respect to the user in a normal use state.

The invention discloses a bracket with a self-locking structure, which is mainly applied to small refrigeration equipment, such as a cosmetic fresh-keeping cabinet, and the small refrigeration equipment comprises a cabinet body 600 and a door body 700 hinged with the cabinet body 600. Referring to fig. 1 and 2, the bracket with a self-locking structure includes a bracket body 400 of a U shape, both ends of the bracket body 400 are respectively provided with a rotation shaft 100, and the rotation shaft 100 is fixedly connected with a cabinet 600. The outer circumference of the rotation shaft 100 is sleeved with a rotation shaft sleeve 200, the rotation shaft 100 can rotate relative to the rotation shaft sleeve 200, and the rotation shaft sleeve 200 is fixedly connected with the end part of the bracket body 400. The inner side of the rotating shaft sleeve 200 is provided with a self-locking structure 300, and the self-locking structure 300 is provided with an inclined surface 340 which is obliquely arranged upwards. The self-locking structure 300, the rotating sleeve 200 and the rotating shaft 100 are configured as follows: when the rotating shaft 100 rotates anticlockwise, the rotating shaft 100 abuts against the inclined surface 340 and stops rotating due to the limitation of the inclined surface 340, so that the rotating shaft 100 is self-locked in the anticlockwise direction; when the rotation shaft 100 rotates clockwise, the rotation of the rotation shaft 100 is not limited by the inclined surface 340, and the rotation shaft 100 may be arbitrarily rotated in the clockwise direction.

Referring to fig. 8, the stand body 400 includes opposite vertical stands 410 and a lateral stand portion connecting the two vertical stands 410, the lateral stand portion including opposite first lateral stands 420 and a second lateral stand 430 connecting the two first lateral stands 420, the first lateral stands 420 being connected with the vertical stands 410. The end of the vertical bracket 410 is provided with a rotating shaft sleeve mounting cover 411, the rotating shaft sleeve mounting cover 411 is fixedly connected with the rotating shaft sleeve 200, and covers the rotating shaft sleeve 200 and the rotating shaft 100, thereby improving the aesthetic property of the product.

The support with self-locking structure is applied to small-size refrigeration plant, can realize the adjustable of cabinet 600 inclination, specifically does: when the stand is in the initial state, referring to fig. 3, the stand body 400 functions as a support. The transverse support part is contacted with the ground or the table top, and the small refrigeration equipment is not directly contacted with the ground or the table top, so that the small refrigeration equipment is more sanitary to use. The contact area between the U-shaped cross bracket part enclosed by the first cross bracket 420 and the second cross bracket 430 and the ground or the table top is larger, and the support is more stable.

When the inclination angle of the cabinet 600 needs to be adjusted, referring to fig. 4, the cabinet 600 is pushed clockwise at the rear side of the cabinet 600, so that the cabinet 600 rotates clockwise, and the rotating shafts 100 fixedly installed at both sides of the cabinet 600 are driven to rotate clockwise, and at this time, the inclined surfaces 340 of the self-locking structure 300 do not affect the rotation of the rotating shafts 100. When the cabinet 600 rotates to a required inclination angle, the cabinet 600 is loosened, at this moment, the cabinet 600 has a tendency of anticlockwise rotation under the action of gravity, the rotating shaft 100 is driven to anticlockwise rotate, at this moment, the inclined surface 340 of the self-locking structure 300 is abutted with the rotating shaft 100 and limits the rotating shaft 100 to anticlockwise rotate, so that self-locking of the rotating shaft 100 in the anticlockwise direction is realized, namely, hovering of the cabinet 600 at the inclination angle is realized. Since the inclined surface 340 is a continuous inclined surface, it can achieve hovering of the cabinet 600 at any inclination angle within the allowable angle range within an angle range in which the inclined surface 340 restricts the counterclockwise rotation of the rotation shaft 100. The mirror glass 710 is mounted on the door body 700, and the inclination of the cabinet body 600 means the inclination of the door body 700, and the mirror glass 710 is also inclined, so that the user can conveniently use the mirror glass 710 to perform the works such as make-up, and the user experience is improved.

When the small-sized refrigerating apparatus needs to be moved, referring to fig. 5, the bracket body 400 is rotated counterclockwise, which drives the rotating shaft sleeve 200 to rotate counterclockwise, that is, the rotating shaft 100 rotates clockwise with respect to the rotating shaft sleeve 200, the inclined surface 340 does not limit the rotation of the rotating shaft 100 in the clockwise direction, and when the transverse bracket portion rotates to the upper side of the cabinet 600, the second transverse bracket 430 can serve as a handle, so that a user can conveniently carry the small-sized refrigerating apparatus.

The rotary shaft sleeve 200 is provided with a mounting cavity 210 for mounting the self-locking structure 300, and a certain interval is arranged between the bottom of the mounting cavity 210 and the bottom of the self-locking structure 300. When the rotation shaft 100 rotates anticlockwise, the inclined surface 340 abuts against the rotation shaft 100, and as the rotation shaft 100 continues to rotate anticlockwise, the rotation shaft 100 pushes the inclined surface 340 to have a downward force, so that the abutting between the inclined surface 340 and the rotation shaft 100 is tighter, and the self-locking reliability of the rotation shaft 100 is improved. The space between the bottom of the mounting cavity 210 and the bottom of the self-locking structure 300 reserves a certain amount of space for the downward movement of the self-locking structure 300 with the counterclockwise rotation of the rotation shaft 100.

A certain interval is arranged between the top of the mounting cavity 210 and the top of the self-locking structure 300, a button 350 is arranged on the self-locking structure 300, a button mounting hole 412 is correspondingly arranged on the rotary shaft sleeve mounting cover 411, and the button 350 penetrates out of the button mounting hole 412. The button 350 is moved upwards, and the button 350 drives the self-locking structure 300 to move upwards, so that the inclined surface 340 is separated from the rotating shaft 100, and a user can freely rotate the bracket body 400 clockwise or anticlockwise. The spacing between the top of the mounting cavity 210 and the top of the self-locking structure 300 reserves a certain amount of space for the self-locking structure 300 to move upward.

A compression spring 500 is provided between the top of the installation cavity 210 and the top of the self-locking structure 300, and the compression spring 500 provides a downward force to the self-locking structure 300 for making the inclined surface 340 move downward to contact with the rotating shaft 100, thereby improving the self-locking reliability of the structure.

In order to increase the friction between the inclined surface 340 and the rotating shaft 100 and enhance the self-locking effect, the friction increasing treatment can be performed on the contact surface of the inclined surface 340 and the rotating shaft 100, and in this embodiment, a rubber contact surface is adopted, and rubber is arranged on the inclined surface 340.

The self-locking structure 300 has a first step surface 310, a second step surface 320, and a third step surface 330 connected in sequence on a side away from the inclined surface 340, see fig. 7. The installation cavity 210 is correspondingly provided with a first step surface '211, a second step surface '212 and a third step surface '213 which are sequentially connected, one side of the installation cavity 210, which is close to the rotating shaft 100, is provided with a notch 214, and the inclined surface 340 is close to the notch 214 and contacts with the rotating shaft 100, referring to fig. 6. The first step surface 310 is in sliding contact with the first step surface '211, and the compression spring 500 is disposed between the second step surface 320 and the second step surface '212, with a certain distance between the third step surface 330 and the third step surface ' 213. By providing the stepped structure, the compression spring 500 is located in the enclosed space enclosed by the first step surface '211, the second step surface' 212, the second step surface 320 and the third step surface 330, so that the compression spring 500 can be prevented from falling off, and the function of the compression spring is disabled.

Further, the first step surface 310, the first step surface '211, the third step surface 330, and the third step surface' 213 are respectively and vertically disposed, so that frictional resistance between the self-locking structure 300 and the installation cavity 210 can be reduced. The second stepped surface 320 and the second stepped surface' 212 are respectively and horizontally arranged, so that the compression spring 500 is convenient to install, the compression spring 500 applies a vertical downward acting force to the self-locking structure 300, and the response speed and the reliability of the structure are improved.

The invention also discloses small-sized refrigeration equipment, which comprises a cabinet body 600 and a door body 700 hinged with the cabinet body 600, wherein the cabinet body 600 is provided with the bracket with the self-locking structure disclosed by the embodiment, and the rotating shafts 100 are arranged at two sides of the cabinet body 600. The small refrigeration equipment is especially a cosmetic fresh-keeping cabinet, and the door body 700 is provided with mirror glass 710. The motion of the bracket with the self-locking structure and the cosmetic fresh-keeping cabinet are the same as those described above, and will not be described again here.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (7)

1. The utility model provides a small-size refrigeration plant, includes the cabinet body and with the cabinet body articulated door body, its characterized in that, be equipped with the support that has the auto-lock structure on the cabinet body, the support includes the support body of U type, the both ends of support body are equipped with the rotation axis respectively, the rotation axis with the cabinet body coupling, the peripheral cover of rotation axis is equipped with rotatory axle sleeve, the support body with rotatory axle sleeve connection, the inboard of rotatory axle sleeve is equipped with the auto-lock structure, the auto-lock structure has the inclined plane that sets up in the slant, the auto-lock structure rotatory axle sleeve reaches the configuration of rotation axis is: when the rotating shaft rotates anticlockwise, the rotating shaft is abutted with the inclined surface and limited by the inclined surface to stop rotating; when the rotating shaft rotates clockwise, the rotation of the rotating shaft is not limited by the inclined plane;

friction force increasing treatment is carried out on the contact surface of the inclined surface and the rotating shaft;

The rotary shaft sleeve is provided with a mounting cavity for mounting the self-locking structure, a certain distance is reserved between the bottom of the mounting cavity and the bottom of the self-locking structure, and a certain distance is reserved between the top of the mounting cavity and the top of the self-locking structure;

a compression spring is arranged between the top of the mounting cavity and the top of the self-locking structure;

when the inclination angle of the cabinet body needs to be adjusted, the cabinet body is pushed to rotate clockwise, the rotating shafts fixedly arranged on the two sides of the cabinet body are driven to rotate clockwise, and at the moment, the inclined surfaces of the self-locking structures do not influence the rotation of the rotating shafts;

when the cabinet body rotates to a required inclination angle, the cabinet body is loosened, the cabinet body has a tendency of anticlockwise rotation under the action of gravity and drives the rotating shaft to anticlockwise rotate, at the moment, the inclined plane of the self-locking structure is abutted with the rotating shaft and limits the rotating shaft to anticlockwise rotate, so that self-locking on the anticlockwise direction of the rotating shaft is realized, and hovering of the cabinet body at the inclination angle is realized.

2. The small-sized refrigeration device according to claim 1, wherein the self-locking structure is provided with a button, the bracket body is correspondingly provided with a button mounting hole, and the button penetrates out of the button mounting hole.

3. The small-sized refrigeration device according to claim 1, wherein the self-locking structure is provided with a first step surface, a second step surface and a third step surface which are sequentially connected on one side far away from the inclined surface, the installation cavity is correspondingly provided with a first step surface ', a second step surface' and a third step surface 'which are sequentially connected, one side of the installation cavity, which is close to the rotating shaft, is provided with a notch, the inclined surface is close to the notch and is in contact with the rotating shaft, the first step surface is in sliding contact with the first step surface', the compression spring is arranged between the second step surface and the second step surface ', and a certain interval is arranged between the third step surface and the third step surface'.

4. A small sized refrigeration device according to claim 3, wherein said first step surface, said first step surface ', said third step surface, and said third step surface ' are each provided vertically, and said second step surface ' are each provided horizontally.

5. A compact refrigeration device as recited in any of claims 1-4, characterised in that said ramp is provided with rubber.

6. The small refrigeration device as recited in any one of claims 1 to 4, wherein the bracket body includes a vertical bracket disposed opposite to each other and a lateral bracket portion connecting the two vertical brackets, the lateral bracket portion includes a first lateral bracket disposed opposite to each other and a second lateral bracket connecting the two first lateral brackets, and the first lateral bracket is connected to the vertical bracket.

7. The small refrigeration device according to claim 1, wherein the small refrigeration device is a cosmetic fresh-keeping cabinet, and the door body is provided with mirror glass.