CN217714222U - Article support structure - Google Patents

Abstract

An article support structure comprising a base plate, one side of which is couplable to an article in a non-permanent manner or in a permanent manner; one end of the supporting body is connected with the base plate, so that the supporting body can be folded relative to the base plate; the supporting body further comprises a sub-supporting body, one end of the sub-supporting body is connected with one part of the supporting body, so that the sub-supporting body can be turned over relative to the supporting body, one end of the sub-supporting body is provided with a first friction portion, the first friction portion can be turned over relative to the sub-supporting body, a connecting portion is arranged between the connecting portion of the sub-supporting body and the first friction portion, the other side of the substrate, which is coupled with the object, is provided with a second friction portion, the first friction portion and the second friction portion can be attached to each other, and the first friction portion and the second friction portion are respectively provided with magnetism so that the first friction portion and the second friction portion can be attracted to each other.

Description

Article support structure

Technical Field

The present application relates to the field of article storage racks, and more particularly, to a support frame that can be folded and unfolded to assume a plurality of upright positions so that a user can place a mobile device and stand the mobile device.

Background

In recent years, with the progress of mobile communication technologies, there are various technologies such as: mobile devices such as mobile phones, tablet computers, and notebook computers have become indispensable and commonly used articles in daily life. However, these mobile devices are often used for watching movies or inquiring data or managing social websites, and most of the mobile devices are often operated or viewed in a handheld manner, which is inconvenient.

Generally, when holding the mobile device with one hand, the user can only use the other hand to operate and use the mobile device, which is inconvenient, and at the same time, the user's hands are limited. Therefore, if the user can use the mobile device indoors, the following methods are used: the mobile device is placed on a plane such as a desk, so that the user can use the mobile device with two free hands, but in this case, the mobile device can only be placed on the desktop, so that the user cannot easily view the contents of the screen, or the screen is operated and controlled at an angle inconvenient to operate, and the use of the mobile device is inconvenient and needs to be improved.

In view of the above, the applicant of the present invention has accumulated the abundant experience in related industries for many years, conceived and proposed a foldable article supporting structure to solve the disadvantages of the existing using method.

SUMMERY OF THE UTILITY MODEL

An article support structure includes a substrate having a face that can be coupled to an article in a non-permanent manner or in a permanent manner; and one end of the supporting body is connected with the substrate, so that the supporting body can be folded relative to the substrate. The supporting body also comprises a sub-supporting body, one end of the sub-supporting body is connected with one part of the supporting body, so that the sub-supporting body can be turned over relative to the supporting body, one end of the sub-supporting body is provided with a first friction part, the first friction part can be turned over relative to the sub-supporting body, and a connecting part is arranged between the joint of the sub-supporting body and the first friction part. Wherein, the other side of the substrate coupled with the object is provided with a second friction part. The first friction part and the second friction part can be mutually attached, and the first friction part and the second friction part respectively have magnetism so that the first friction part and the second friction part can be mutually attracted. The first friction part is attached to one surface of the second friction part through one surface of the first friction part.

In some embodiments, the coefficient of friction of the second friction portion is different from the coefficient of friction of other portions of the substrate; in particular, the friction coefficient of the second friction portion is larger than that of the other portion of the substrate. The friction coefficient of the first friction part is different from that of the other parts of the support body; in particular, the coefficient of friction of the first friction portion is larger than the coefficient of friction of the other portions of the support body.

In the supporting state, the first friction part and the second friction part are mutually abutted and the first friction part can be attached to any position of the second friction part. When the article supporting structure is in a supporting state and the article is abutted against the article supporting structure, the article supporting structure is kept in the supporting state through the friction force between the first friction force part and the second friction force part. The first friction part and the second friction part are attached to each other through magnetic attraction, and the sub-support body is attached to the support body. The gravity of the article is guided to the first friction part and the second friction part through the connecting part so as to increase the friction force between the first friction part and the second friction part.

In some embodiments, the substrate further comprises a receiving space for receiving other objects such as credit cards therein.

Drawings

Fig. 1 is a front view of the preferred embodiment of the present application.

Fig. 2 is a perspective view (i) of the preferred embodiment of the present application after bending.

Fig. 3 is a perspective view (two) of the preferred embodiment of the present application after bending.

Fig. 4 is a perspective view (iii) of the preferred embodiment of the present application after bending.

Fig. 5 is a usage state diagram of the present application.

Fig. 6 is another usage state diagram of the present application.

Fig. 7 is a perspective view (one) of the storage state of the preferred embodiment of the present application.

Fig. 8 is a rear view of the preferred embodiment of the present application.

Description of the reference numerals

1 an article support structure; 10 a substrate; 11 a second friction portion; 15 an accommodating space; 151 accommodating space window; 20 a support body; 21 a sub-support; 211 a first friction portion; 212, and a connection part.

Detailed Description

Non-permanent fixation means as referred to in this application means by means such as: the two objects can be fixed, connected, jointed or connected with each other by means of magnetism, devil's felt (or called magic tape), a detachable clamping mechanism, or repeated adhesive tape, and the mutual fixing, connection, jointing or connection of the two objects can be released at any time. Permanent attachment means as used herein means that two objects are secured, connected, joined or connected to each other by means such as non-repetitive gluing, sewing or stapling.

Coupling in this application means the fixation, connection, joining, or connection of two objects to each other through the aforementioned non-permanent fixation or permanent fixation. Magnetic, as used herein, includes permanent magnetic, non-permanent magnetic, or ferromagnetic properties.

Although the terms "first," "second," "third," etc. may be used herein to describe various elements, components, regions, or sections, these elements, components, regions, and/or sections should not be limited by these terms. The terms are only used to distinguish one element, component, region, or section from another element, component, region, layer, or section. Thus, the "first …" described below may be interpreted as "second …" or "third …" without departing from the teachings herein.

Referring to fig. 1 and 2, an article support structure 1 provided in the present application mainly includes a substrate 10 and a supporting body 20. The substrate 10 can be coupled to an article on one side in a non-permanent manner or in a permanent manner. One end of the supporting body 20 is connected to the base plate 10, so that the supporting body 20 can be folded with respect to the base plate 10.

Referring to fig. 2 and 3, the present application is characterized in that the supporting body 20 further includes a sub-supporting body 21, and one end of the sub-supporting body 21 is connected to a portion of the supporting body 20, so that the sub-supporting body 21 can be folded with respect to the supporting body 20. One end of the sub-supporting body 21 has a first friction portion 211, the first friction portion 211 can be folded relative to the sub-supporting body 21, and a connection portion 212 is disposed between the connection portion of the sub-supporting body 21 and the supporting body 20 and the first friction portion 211. The substrate 10 has a second friction portion 11 opposite to the other surface that can be coupled to the object. Referring to fig. 3, the first friction portion 211 and the second friction portion 11 can be attached to each other, and the first friction portion 211 and the second friction portion 11 have magnetism respectively so that they can be attracted to each other.

By bending the supporting member 20 and the sub-supporting member 21, the present application can assume a storage state (as shown in fig. 1 and 7) and a supporting state (as shown in fig. 3-6). The present application mainly utilizes the friction force between the first friction part 211 and the second friction part 11 to achieve the supporting state of the fixed article supporting structure 1. And the first friction portion 211 and the second friction portion 11 are both planar, so that the first friction portion 211 and the second friction portion 11 can be attached to each other through one surface thereof. In the accommodated state, the first frictional force portion 211 and the second frictional force portion 11 are attached to each other by magnetic attraction, and the sub-support 21 is attached to the support 20.

In order to increase the friction between the first friction part 211 and the second friction part 11, the friction coefficient of the second friction part 11 may be different from the friction coefficient of other portions of the substrate 10. For example, the friction coefficient of the second friction portion 11 is larger than that of the other portion of the substrate 10, so that the friction is increased, the supporting state of the article support structure 1 can be stabilized, and a heavier article can be supported. However, in other embodiments, the friction coefficient of the first friction portion 211 may be changed to achieve this effect, for example, the friction coefficient of the first friction portion 211 is different from that of other portions of the supporting body 20, and further, the friction coefficient of the first friction portion 211 may be larger than that of other portions of the supporting body 20. The first friction portion 211 and the second friction portion 11 may be made of a material different from other portions, or a material with a higher friction coefficient may be adhered to the first friction portion 211 and the second friction portion 11 to increase the friction. Since the friction force is proportional to the vertical force, in some embodiments, the effect of increasing the friction force between the first friction portion 211 and the second friction portion 11 can be achieved by increasing the attractive force of the magnetic force.

Referring to fig. 3 and 4, another feature of the present application is that in the supporting state, the first friction portion 211 and the second friction portion 11 abut against each other and the first friction portion 211 can be attached to any position of the second friction portion 11. Therefore, the user can arbitrarily adjust the relative position of the first friction part 211 on the second friction part 11, and further arbitrarily adjust the supporting height of the supporting state of the article supporting structure 1 without limitation. In addition, when the article supporting structure 1 is in a supporting state and the article abuts against the article supporting structure 1, the frictional force between the first frictional force portion 211 and the second frictional force portion 11 maintains the article supporting structure 1 in the supporting state, and the first frictional force portion 211 does not slide relative to the second frictional force portion 11. The gravity of the article is guided to the first frictional portion 211 and the second frictional portion 11 through the connecting portion 212 to increase the frictional force between the first frictional portion 211 and the second frictional portion 11.

Referring to fig. 5 and 6, when in use, the article and the article support structure 1 can be laid horizontally or vertically to provide different use angles for users.

Referring to fig. 7 and 8, the substrate 10 may further include a receiving space 15. The receiving space 15 can be used for receiving certificates, credit cards, transportation cards, for example. The accommodating space 15 further includes an accommodating space window 151, so that the user can push out the certificates, credit cards and transportation cards stored in the accommodating space 15 through the accommodating space window 151.

In another embodiment, the first friction part 211 and the second friction part 11 may be respectively provided with velcro tapes, but not be fixed to each other by magnetism. Therefore, the friction coefficient of the first friction part 211 and the second friction part 11 does not need to be different from the friction coefficient of other parts of the article support structure 1, and the article support structure 1 can still achieve the effect of supporting. In this embodiment, the user can also arbitrarily adjust the relative position of the first friction portion 211 on the second friction portion 11, and further arbitrarily adjust the supporting height of the supporting state of the article supporting structure 1 without limitation.

To sum up, the article supporting structure 1 of the present application can be positioned and fixed after being folded and unfolded to form an article for placing a mobile phone, so that a user can use the article simply and conveniently, and the article can be placed according to a desired angle or direction of the user for watching or operating, thereby greatly improving the life convenience of the user. Further, this application can be folded when not using and accomodate, facilitates the use and accomodates and carry.

However, the above description is only a preferred embodiment of the present application, and is not intended to limit the scope of the present application; therefore, all equivalent changes and modifications made without departing from the spirit and scope of the present application should be covered by the claims of the present application.

Claims (16)

1. An article support structure, comprising:

a substrate, one side of which can be coupled to an article in a non-permanent manner or in a permanent manner; and

one end of the supporting body is connected with the base plate, so that the supporting body can be turned over relative to the base plate;

wherein, the support body also comprises a sub-support body, one end of the sub-support body is connected with one part of the support body, so that the sub-support body can be turned over relative to the support body, one end of the sub-support body is provided with a first friction part which can be turned over relative to the sub-support body, a connecting part is arranged between the joint of the sub-support body and the first friction part,

wherein the other side of the substrate, which is coupled with the article, is provided with a second friction part,

the first friction part and the second friction part can be mutually attached, and the first friction part and the second friction part respectively have magnetism so that the first friction part and the second friction part can be mutually attracted.

2. The article support structure of claim 1, wherein the first frictional feature is attached to a face of the second frictional feature by a face thereof.

3. The article support structure of claim 1, wherein the second friction portion has a coefficient of friction that is different from a coefficient of friction of other portions of the base plate.

4. The article support structure of claim 1, wherein the second friction portion has a coefficient of friction that is greater than a coefficient of friction of other portions of the base plate.

5. The article support structure of claim 1, wherein the first frictional portion has a coefficient of friction that is different from a coefficient of friction of other portions of the support body.

6. The article support structure of claim 1, wherein the first frictional portion has a coefficient of friction that is greater than a coefficient of friction of other portions of the support body.

7. The article support structure of claim 1, wherein in the support state, the first frictional portion and the second frictional portion abut against each other and the first frictional portion can be attached to any one of the second frictional portion.

8. The article support structure of claim 2, wherein the article support structure is in a support state and is maintained in the support state by friction between the first and second friction portions when the article is abutted against the article support structure.

9. The article support structure of claim 1, wherein in the stowed state, the first frictional portion and the second frictional portion are engaged by magnetic attraction, and the sub-support is engaged with the support.

10. The article support structure of claim 8, wherein the weight of the article is directed to the first frictional portion and the second frictional portion through the connecting portion to increase the frictional force between the first frictional portion and the second frictional portion.

11. The article support structure of claim 1, wherein the base plate further comprises a receiving space.

12. An article support structure, comprising:

a substrate, one side of which can be coupled to an article in a non-permanent manner or in a permanent manner; and

one end of the supporting body is connected with the base plate, so that the supporting body can be turned over relative to the base plate;

wherein, the support body also comprises a sub-support body, one end of the sub-support body is connected with one part of the support body, so that the sub-support body can be turned over relative to the support body, one end of the sub-support body is provided with a first friction part which can be turned over relative to the sub-support body, a connecting part is arranged between the joint of the sub-support body and the first friction part,

wherein the substrate has a second friction portion opposite to the other surface coupled with the article,

the first friction part and the second friction part can be mutually attached, and the first friction part and the second friction part are respectively provided with a devil felt so that the first friction part and the second friction part can be mutually fixed.

13. The article support structure of claim 12, wherein the first frictional feature is attached to a face of the second frictional feature by a face thereof.

14. The article support structure of claim 12, wherein in the support state, the first frictional portion and the second frictional portion abut against each other and the first frictional portion can be attached to any one of the second frictional portion.

15. The article support structure of claim 12, wherein the base plate further comprises a receiving space.

16. The article support structure of claim 12, wherein the article support structure is in a supporting state and when the article is abutted against the article support structure, the article support structure is maintained in the supporting state by the velcro between the first friction portion and the second friction portion and the first friction portion does not move relative to the second friction portion.

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