CN218275405U - Auxiliary mounting structure and electronic device - Google Patents

Abstract

The utility model discloses an auxiliary mounting structure and electronic equipment belongs to the assembly structure field. The auxiliary mounting structure comprises a first supporting part and a second supporting part; the first supporting part is connected with the second supporting part to form a through hole between the first supporting part and the second supporting part, the joint between the first supporting part and the second supporting part is bent and protruded, and the auxiliary mounting structure has elasticity. The present disclosure can improve structural strength.

Description

Auxiliary mounting structure and electronic device

Technical Field

The disclosure belongs to the field of assembly structures, and particularly relates to an auxiliary mounting structure and electronic equipment.

Background

Switches, sockets and the like are common electronic equipment and are used for realizing on-off control of circuits and distribution of power supplies.

In the related art, the above-mentioned electronic apparatus mainly includes a panel and an electric device, and the panel is connected to the electric device. When the panel is installed, the panel is attached to the wall surface, so that the electric device is located in the wiring cassette, and the screw penetrates through the panel to fixedly install the panel on the wiring cassette.

However, when electronic devices are arranged side by side, the electronic device located in the middle may lack support of a wall surface and may be easily deformed by the pressing of a screw.

Disclosure of Invention

The embodiment of the disclosure provides an auxiliary mounting structure and an electronic device, which can improve structural strength. The technical scheme is as follows:

in a first aspect, an embodiment of the present disclosure provides an auxiliary mounting structure, including: a first support portion and a second support portion;

the first supporting portion is connected with the second supporting portion so that a through hole is formed between the first supporting portion and the second supporting portion, the connecting portion between the first supporting portion and the second supporting portion is bent to be protruding, and the auxiliary mounting structure is elastic.

In one implementation of the present disclosure, the first support portion and the second support portion are both semi-annular structural members;

the semi-ring opening of the first supporting part is opposite to the semi-ring opening of the second supporting part so as to form the through hole.

In one implementation of the present disclosure, the semi-annular structural member includes a first resilient section, a support section, and a second resilient section;

one end of the first elastic section and one end of the second elastic section are respectively connected with one side edge of the supporting section, and the other ends of the first elastic section and the second elastic section are bent and extended towards the same side of the supporting section.

In one implementation manner of the present disclosure, a joint between the two first elastic segments and a joint between the two second elastic segments respectively have sharp corners;

one of said two cusps projects towards one of said support sections and the other of said two cusps projects towards the other of said support sections.

In one implementation of the present disclosure, a side surface of the supporting section away from the first elastic section is an arc surface.

In one implementation manner of the present disclosure, a side of the supporting section facing away from the first elastic section has a tilt angle;

the rake angle is bent and extended towards one side of the support section, so that the rake angle and the first elastic section are positioned on the same side of the support section.

In one implementation of the present disclosure, the rake angle extends along an arc of the support section.

In one implementation of the present disclosure, the rake angle has a notch;

the opening of the notch faces away from the support section.

In one implementation of the present disclosure, the auxiliary mounting structure is an integral structural member.

In a second aspect, an embodiment of the present disclosure provides an electronic device, including: a panel and the auxiliary mounting structure of the first aspect;

the panel is provided with an embedding hole, the auxiliary mounting structure is positioned in the embedding hole, and the first supporting part and the second supporting part of the auxiliary mounting structure are respectively abutted against the hole wall of the embedding hole.

The beneficial effects brought by the technical scheme provided by the embodiment of the disclosure at least comprise:

through the auxiliary installation structure provided by the embodiment of the disclosure, the installation of the electronic equipment can be assisted. During installation, the auxiliary installation structure is arranged in the embedding hole of the electronic equipment, so that the through hole of the auxiliary installation structure is opposite to the embedding hole, and the bent bulge at the joint between the first support part and the second support part protrudes towards the orifice of the embedding hole. The screw is penetrated through the through hole, so that the screw cap of the screw presses down the bending bulge between the first supporting part and the second supporting part, the first supporting part and the second supporting part generate elastic deformation along with the bending bulge, and the hole wall of the embedding hole is unfolded and supported, so that the structure of the embedding hole is effectively reinforced, and the screw cap of the screw is stably supported.

That is to say, through the supplementary mounting structure that this disclosed embodiment provided, can effectually improve the structural strength of the dress embedding hole of electronic equipment, can not produce the deformation by the screw extrusion when the installation.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present disclosure, 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 only some embodiments of the present disclosure, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an auxiliary mounting structure provided in an embodiment of the present disclosure;

FIG. 2 is an assembly schematic view of an auxiliary mounting structure provided by an embodiment of the present disclosure;

FIG. 3 is a top view of an auxiliary mounting structure provided by embodiments of the present disclosure;

fig. 4 is a schematic structural diagram of an electronic device provided in an embodiment of the present disclosure.

The symbols in the drawings represent the following meanings:

10. a first support section;

110. a first elastic section; 120. a support section; 121. a cambered surface; 122. raising the corner; 123. a notch; 130. a second elastic section; 140. sharp corners;

20. a second support portion;

30. perforating;

100. a panel;

1100. mounting an embedding hole;

200. an auxiliary mounting structure;

300. and (4) a screw.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more apparent, embodiments of the present disclosure will be described in detail with reference to the accompanying drawings.

Switches, sockets and the like are common electronic equipment and are used for realizing on-off control of circuits and distribution of power supplies.

In the related art, the above-mentioned electronic apparatus mainly includes a panel and an electric device, and the panel is connected to the electric device. During installation, the panel is attached to the wall surface, so that the electric device is located in the junction box, and the screw 3 penetrates through the embedding hole of the panel to fixedly install the panel on the junction box.

However, when electronic devices are arranged side by side, because the junction boxes are in a long strip shape, the panel of the electronic device in the middle can lack support of a wall surface, especially the embedding holes on the panel, and the hole walls of the embedding holes are easy to deform and even crack under the extrusion of the screws 3.

In order to solve the above technical problem, an auxiliary mounting structure is provided in an embodiment of the present disclosure, and fig. 1 is a schematic structural view of the auxiliary mounting structure, and referring to fig. 1, in the embodiment, the auxiliary mounting structure includes a first supporting portion 10 and a second supporting portion 20. The first supporting portion 10 is connected to the second supporting portion 20 to form a through hole 30 between the first supporting portion 10 and the second supporting portion 20, a connection portion between the first supporting portion 10 and the second supporting portion 20 is bent and protruded, and the auxiliary mounting structure has elasticity.

Fig. 2 is an assembly view of the auxiliary mounting structure, and in order to show an assembly relationship between the auxiliary mounting structure and the panel 100, a portion of the auxiliary mounting structure and the panel 100 is cut away in fig. 2.

With reference to fig. 2, the auxiliary mounting structure provided by the embodiment of the present disclosure can assist in mounting of the electronic device. When the auxiliary mounting structure is mounted, the auxiliary mounting structure is disposed in the mounting hole 1100 of the electronic device, such that the through hole 30 of the auxiliary mounting structure is opposite to the mounting hole 1100, and the bent protrusion at the connection between the first supporting part 10 and the second supporting part 20 protrudes toward the opening of the mounting hole 1100. The screw 300 penetrates through the through hole 30, so that the nut of the screw 300 presses the bent protrusion between the first supporting part 10 and the second supporting part 20, the first supporting part 10 and the second supporting part 20 elastically deform accordingly, and the hole wall of the embedding hole 1100 is unfolded and supported, so that the structure of the embedding hole 1100 is effectively reinforced, and the nut of the screw 300 is stably supported.

That is, with the auxiliary mounting structure provided in the embodiments of the present disclosure, the structural strength of the fitting hole 1100 of the electronic device can be effectively improved, and the screw 300 does not deform when being pressed.

The description of the auxiliary mounting structure is continued below.

Referring again to fig. 1, in the present embodiment, the first support portion 10 and the second support portion 20 are semi-annular structural members, and the semi-annular opening of the first support portion 10 is opposite to the semi-annular opening of the second support portion 20 to form the through hole 30.

In the above implementation, the first support portion 10 and the second support portion 20 are connected such that the half-ring opening of the first support portion 10 and the half-ring opening of the second support portion 20 enclose the through hole 30. In this way, when the screw of the screw 300 is inserted into the through hole 30, the nut of the screw 300 can contact with the first supporting portion 10 and the second supporting portion 20 at the same time, so as to uniformly transmit the downward pressure to the first supporting portion 10 and the second supporting portion 20, thereby better supporting the hole wall of the embedding hole 1100 and avoiding the problem of stress concentration.

Fig. 3 is a top view of the auxiliary mounting structure, and in some examples, in conjunction with fig. 3, the outer profile of the auxiliary mounting structure is approximately elliptical and the perforations 30 are corresponding elliptical holes. By the design, the common oval embedding hole 1100 can be matched, so that the first supporting part 10 and the second supporting part 20 can be better matched with the hole wall, and a better supporting effect is achieved. Of course, in other examples, the outer profile of the auxiliary mounting structure and the through hole 30 can be other shapes, such as circular, etc., to match the circular mounting hole 1100, which the present disclosure does not limit.

In the present embodiment, the first support 10 and the second support 20 are symmetrical with respect to the axis center of the through hole 30, that is, the semi-annular structural members of the first support 10 and the second support 20 are the same.

Referring again to fig. 1, in the present embodiment, the semi-annular structure includes a first resilient segment 110, a support segment 120, and a second resilient segment 130. One end of each of the first elastic segment 110 and the second elastic segment 130 is connected to one side of the supporting segment 120, and the other end of each of the first elastic segment 110 and the second elastic segment 130 extends toward the same side of the supporting segment 120.

In the above implementation manner, the supporting section 120 abuts against the bottom of the embedding hole 1100, and the first elastic section 110 and the second elastic section 130 have good elasticity, and can generate elastic deformation under the extrusion of the bottom of the embedding hole 1100 and the nut of the screw 300 after being subjected to the downward pressure of the screw 300, so as to push the supporting section 120 to abut against the hole wall of the embedding hole 1100, thereby playing a role in supporting the hole wall of the embedding hole 1100.

If excessive torque is applied to the screw 300 while the screw 300 is being screwed, it will result in the screw 300 applying excessive downward force to the auxiliary mounting structure. To avoid this, in the present embodiment, the junction between the two first elastic segments 110 and the junction between the two second elastic segments 130 respectively have a sharp corner 140, one of the two sharp corners 140 protrudes toward one support segment 120, and the other of the two sharp corners 140 protrudes toward the other support segment 120.

As the screw 300 is turned, the cap of the screw 300 will abut the pointed corner 140. At this time, if the screw 300 is further screwed, the sharp corner 140 applies a large frictional force to the nut of the screw 300, so that it is difficult to screw the screw 300, and the sharp corner can play a role of warning an operator to prevent the operator from over-screwing the screw 300.

It should be noted that, in general, turning the screw 300 clockwise enables the screw 300 to be tightened, i.e., the nut of the screw 300 to move toward the auxiliary mounting structure. In this case, if friction is to be applied to the nut of the screw 300 by the cusp 140, the orientation of the cusp 140 should be in a counterclockwise direction.

Of course, if the direction in which the screw 300 is tightened is counterclockwise, then the orientation of the sharp corner 140 should be clockwise, which is not limited by this disclosure.

With continued reference to fig. 1, in the present embodiment, a side of the supporting section 120 facing away from the first elastic section 110 is an arc 121.

In the process of assembling the auxiliary mounting structure to the mounting and embedding hole 1100, one side surface of the supporting section 120 departing from the first elastic section 110 faces the mounting and embedding hole 1100, the side surface is designed to be the arc surface 121, the auxiliary mounting structure can be conveniently placed into the mounting and embedding hole 1100, and the assembling convenience is improved.

In contrast, in order to avoid the auxiliary mounting structure from accidentally coming out of the mounting hole 1100, in the present embodiment, a side of the supporting section 120 facing away from the first elastic section 110 has a tilt angle 122, and the tilt angle 122 extends toward a side of the supporting section 120 in a bending manner, so that the tilt angle 122 and the first elastic section 110 are located on the same side of the supporting section 120.

In the above implementation manner, since the raised angle 122 extends toward one side of the support section 120 in a bending manner, when the auxiliary mounting structure is installed in the installation and embedding hole 1100, the raised angle 122 faces the aperture of the installation and embedding hole 1100, and under the effect of the raised angle 122, the friction force applied to the auxiliary mounting structure when the auxiliary mounting structure moves toward the aperture can be effectively increased, so that the auxiliary mounting structure is prevented from being accidentally taken out of the installation and embedding hole 1100.

To avoid interference of the rake 122 with the secondary mounting structure entering the mounting aperture 1100, the rake 122 illustratively extends along the arcuate surface 121 of the support section 120. So design, at the in-process of assembling supplementary mounting structure to dress and inlaying hole 1100, rake 122 also can play the effect similar with cambered surface 121, is convenient for put into dress and inlays hole 1100 with supplementary mounting structure, has improved the assembly convenience.

In some examples, the rake 122 has a notch 123, the opening of the notch 123 facing away from the support section 120.

Through designing breach 123 in rake 122 department, can effectual reduction rake 122 and the area of contact between the pore wall of dress embedding hole 1100 to reduce the influence that rake 122 probably produced when putting into dress embedding hole 1100 to supplementary mounting structure.

In this embodiment, the auxiliary mounting structure is a one-piece structure, that is, the first support 10 and the second support 20 are a single body.

By the design, the integrity and the structural strength of the auxiliary mounting structure are ensured, and the manufacturing efficiency of the auxiliary mounting structure is improved.

Be applied to two switches with this supplementary mounting structure, through the palm test of drawing a design, obtain table one:

watch 1

As can be seen from table one, after the auxiliary mounting structure provided by the embodiment of the present disclosure is used, both the left side deformation amount and the right side deformation amount of the electronic device are effectively reduced.

Fig. 4 is a schematic structural diagram of an electronic device provided in an embodiment of the present disclosure, and in conjunction with fig. 4, in the embodiment, the electronic device includes a panel 100 and an auxiliary mounting structure 200 shown in fig. 1 to 3. The panel 100 has an embedding hole 1100, the auxiliary mounting structure 200 is located in the embedding hole 1100, and the first supporting portion 10 and the second supporting portion 20 of the auxiliary mounting structure 200 respectively abut against the hole wall of the embedding hole 1100.

When the electronic device is mounted on the wall surface, the auxiliary mounting structure 200 is disposed in the mounting hole 1100 of the panel 100, such that the through hole 30 of the auxiliary mounting structure 200 is opposite to the mounting hole 1100, and the bent protrusion at the connection between the first supporting part 10 and the second supporting part 20 protrudes toward the opening of the mounting hole 1100. With screw 300 running through perforation 30 and with the interior otic placode screw-thread fit of connection magazine, along with screwing screw 300, the nut of screw 300 can push down the arch of buckling between first supporting part 10 and the second supporting part 20 gradually, first supporting part 10 and second supporting part 20 produce elastic deformation thereupon to expand the pore wall that supports dress and inlay hole 1100, thereby make the structure of dress and inlay hole 1100 carry out effectual enhancement, and then provide firm support to the nut of screw 300.

That is, the electronic device provided by the embodiment of the present disclosure can avoid deformation caused by the pressing of the screw 300 even if the support of the wall surface is lacked.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The terms "first," "second," "third," and the like, as used in the description and in the claims of the present disclosure, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. Also, the use of the terms a, an, etc. do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprising" or "comprises", and the like, means that the element or item appearing in front of the word "comprising" or "comprises" includes the element or item listed after the word "comprising" or "comprises" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, which may also change accordingly when the absolute position of the object being described changes.

The above description is intended to be exemplary only and not to limit the present disclosure, and any modification, equivalent replacement, or improvement made without departing from the spirit and scope of the present disclosure is to be considered as the same as the present disclosure.

Claims (10)

1. An auxiliary mounting structure, comprising: a first support (10) and a second support (20);

the first supporting part (10) is connected with the second supporting part (20) so that a through hole (30) is formed between the first supporting part (10) and the second supporting part (20), the connecting part between the first supporting part (10) and the second supporting part (20) is bent and protruded, and the auxiliary mounting structure has elasticity.

2. The auxiliary mounting structure according to claim 1, wherein the first support (10) and the second support (20) are each a semi-annular structural member;

the semi-ring opening of the first support (10) is opposite to the semi-ring opening of the second support (20) to form the through hole (30).

3. The auxiliary mounting structure of claim 2, wherein the semi-annular structure comprises a first resilient section (110), a support section (120), and a second resilient section (130);

one end of each of the first elastic section (110) and the second elastic section (130) is connected with one side of the support section (120), and the other end of each of the first elastic section (110) and the second elastic section (130) bends and extends towards the same side of the support section (120).

4. The auxiliary mounting structure according to claim 3, wherein a junction between the two first resilient segments (110) and a junction between the two second resilient segments (130) have sharp corners (140), respectively;

one of the two cusps (140) is convex towards one of the support sections (120) and the other of the two cusps (140) is convex towards the other support section (120).

5. The auxiliary mounting structure according to claim 3, wherein a side of the supporting section (120) facing away from the first resilient section (110) is an arc (121).

6. The auxiliary mounting structure of claim 3, wherein a side of the supporting section (120) facing away from the first resilient section (110) has a rake angle (122);

the rake angle (122) extends towards one side of the support section (120) in a bending way, so that the rake angle (122) and the first elastic section (110) are positioned on the same side of the support section (120).

7. The auxiliary mounting structure of claim 6, wherein the rake angle (122) extends along an arc surface (121) of the support section (120).

8. The auxiliary mounting structure of claim 6, wherein the rake angle (122) has a notch (123);

the opening of the recess (123) faces away from the support section (120).

9. An auxiliary mounting structure according to any one of claims 1 to 8, wherein the auxiliary mounting structure is a unitary structural member.

10. An electronic device, comprising: -a panel (100) and an auxiliary mounting structure (200) according to any one of claims 1 to 9;

the panel (100) is provided with an embedding hole (1100), the auxiliary mounting structure (200) is positioned in the embedding hole (1100), and the first supporting part (10) and the second supporting part (20) of the auxiliary mounting structure (200) are respectively abutted against the hole wall of the embedding hole (1100).

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