CN216619105U - Electronic equipment supporting structure - Google Patents

Abstract

The embodiment of the application discloses an electronic equipment supporting structure, wherein the electronic equipment supporting structure comprises a bracket and a foot pad; the support includes a support member and a holding member connected to each other, the support member configured to hold the holding member in a holding position, the holding member including a holding surface opposing a back surface of the electronic device; the callus on the sole be used for setting firmly in electronic equipment's the back, callus on the sole detachably fixed mounting in the bearing surface. The electronic equipment supporting structure can effectively prevent the electronic equipment from sliding off the bracket, and the raised supporting plate or other connecting parts are not required to be arranged at the bottom of the supporting part, so that the raised supporting plate can be effectively prevented from hurting hands and influencing the operation of a user.

Description

Electronic equipment supporting structure

Technical Field

The present disclosure relates to auxiliary devices, and particularly to a supporting structure for an electronic device.

Background

Electronic devices are becoming indispensable articles for modern people, and the types of electronic devices are increasing, such as notebook computers, tablet computers, mobile phones, readers, and the like. Auxiliary products for electronic equipment, such as electronic equipment stands for fixedly supporting electronic equipment, are also widely used.

Because electronic devices have a certain weight, current electronic device holders, especially laptop holders, usually have a tilted or protruding tray at the bottom of the supporting member for supporting the electronic devices and preventing the electronic devices from sliding off the holder. However, the support plate tilted up on the electronic device support can hinder the operation of the user, and the wrist of the user can be painful after the support plate is used for a long time, so that the user experience is affected.

The above is only for the purpose of assisting understanding of the technical solution of the present invention, and does not represent an admission that the above is the prior art.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, the present invention provides an electronic device supporting structure, which aims to solve the technical problems that a tray raised on an electronic device support affects user operation and hurts hands.

In order to achieve the above object, the present invention provides a supporting structure for electronic equipment, which comprises a bracket and a foot pad;

the support comprises a supporting part and a supporting part which are connected with each other, the supporting part is used for keeping the supporting part at a supporting position, and the supporting part comprises a supporting surface opposite to the back surface of the electronic equipment;

the foot pad is used for fixedly arranging on the back of the electronic equipment, and the foot pad is detachably and fixedly arranged on the bearing surface.

In an embodiment, the foot pad includes a first pad and a second pad, the first pad is used for being fixedly connected to the back surface of the electronic device, the second pad is used for being detachably fixed to the back surface of the electronic device, the foot pad has a folded state and an unfolded state, when the foot pad is in the folded state, the second pad is stacked on the first pad, and when the foot pad is in the unfolded state, the second pad and the first pad are relatively unfolded.

In one embodiment, the second head block is foldably connected to the first head block.

In an embodiment, the first cushion block and the second cushion block are connected through a flexible connecting piece, and the first cushion block, the second cushion block and the flexible connecting piece are integrally arranged.

In an embodiment, when the foot pad is in the unfolded state, a wall surface of the second cushion block, which faces away from the electronic device, is provided with a clamping structure, a wall surface of the first cushion block, which faces away from the electronic device, is provided with a clamping structure, and when the foot pad is in the folded state, the clamping structure and the clamping structure are clamped with each other.

In one embodiment, the first cushion block is embedded with a first magnetic attraction piece, and the second cushion block is embedded with a second magnetic attraction piece which is in magnetic attraction fit with the first magnetic attraction piece.

In an embodiment, the first cushion block and the second cushion block are made of elastic materials, a wall surface of the first cushion block facing the electronic device is higher than a wall surface of the second cushion block facing the electronic device, the foot pad further includes a metal sheet, the metal sheet is connected to the wall surface of the second cushion block facing the electronic device, and a thickness of the metal sheet is not larger than a height difference between the wall surface of the first cushion block facing the electronic device and the wall surface of the second cushion block facing the electronic device.

In an embodiment, a side wall surface of the second cushion block, which is far away from the first cushion block, is convexly provided with a fastener structure.

In an embodiment, a limiting structure is disposed on the foot pad, the limiting structure has a first downward limiting surface, a matching structure is disposed on the supporting surface, the matching structure has a second upward limiting surface, and the first limiting surface abuts against the second limiting surface.

In an embodiment, the matching structure is a groove arranged on the bearing surface, the groove is provided with an upper side wall and a lower side wall which are opposite, the lower side wall forms the second limiting surface, and the foot pad is embedded in the groove in a matching manner.

In an embodiment, a magnetic component is disposed in the groove, and a magnetic component magnetically coupled with the magnetic component is disposed in the foot pad.

In one embodiment, the depth of the groove is greater than or equal to half of the height of the foot pad protruding from the back surface of the electronic device.

In an embodiment, the foot pads are provided with at least two, at least two of the foot pads being arranged side by side in a transverse direction of the bearing surface.

According to the electronic equipment supporting structure, the foot pad is fixedly arranged on the back surface of the electronic equipment, so that the foot pad is detachably and fixedly arranged on the supporting surface of the bracket, and when the electronic equipment is directly placed on a table top for use, the foot pad can play a role of high anti-skid pad for the electronic equipment. When the electronic equipment is placed on the bracket for use, the foot pad of the electronic equipment can be fully utilized, so that the electronic equipment is directly and fixedly connected to the bearing component through the foot pad, and the electronic equipment can be effectively prevented from sliding off the bracket; and need not to set up the layer board of perk or other adapting unit in the bottom of bearing part, can effectively avoid the layer board of perk to press against the hand and influence user's operation. In addition, when electronic equipment is placed on the support and used, the supporting part is completely shielded by the electronic equipment and cannot be exposed out of the front of the electronic equipment, so that the overall consistency of products can be ensured, and the product quality and the user use experience are improved.

Drawings

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

Figure 1 shows a schematic structural view of an embodiment of the electronic device support structure of the present invention,

FIG. 2 is a partially exploded view of the electronic device support structure of FIG. 1;

FIG. 3 is a right side view of the electronic device support structure of FIG. 1;

FIG. 4 is a schematic view of the electronic device supporting structure of FIG. 1 with a laptop computer disposed thereon;

FIG. 5 is a partially exploded view of the electronic device support structure of FIG. 4;

FIG. 6 is a front view of the electronic device support structure of FIG. 4;

FIG. 7 is a cross-sectional view taken along line I-I of FIG. 6;

FIG. 8 is an enlarged view of a portion of FIG. 7 at A;

FIG. 9 is a schematic view of the electronic device support structure of FIG. 1 with a tablet PC disposed thereon;

FIG. 10 is a schematic view of a foot pad of an exemplary embodiment of a support structure for an electronic device;

FIG. 11 is an exploded view of the footpad of FIG. 10;

FIG. 12 is a front view of the footpad of FIG. 10;

FIG. 13 is a cross-sectional view taken along line II-II of FIG. 12;

FIG. 14 is a top view of the footpad of FIG. 12;

fig. 15 is a back side view of the footpad of fig. 10.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)	Reference numerals	Name (R)
						100	Foot pad	140	Magnetic suction assembly	220	Supporting part
110	First cushion block	141	First magnetic attraction piece	221	Bearing surface
						111	Clamping structure	142	Second magnetic attraction piece	222	Second limit surface
120	Second cushion block	150	Metal sheet	223	Groove
						121	Clamping structure	160	A first limit surface	300	Electronic device
122	Handle structure	200	Support frame
						130	Flexible connecting piece	210	Support member

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides an electronic equipment supporting structure which is used for fixedly supporting electronic equipment, wherein the electronic equipment can be a notebook computer, a tablet computer, a mobile phone, an electronic reader and the like. The following description is made by taking an electronic device supporting structure for supporting a notebook computer as an example.

In an embodiment of the present invention, referring to fig. 1 to 9, the supporting structure of the electronic device 300 includes a bracket 200 and a foot pad 100. The stand 200 includes a support member 210 and a holding member 220 connected to each other, the support member 210 holding the holding member 220 in a holding position, and the holding member 220 including a holding surface 221 facing a back surface of the electronic apparatus 300. The foot pad 100 is configured to be fixedly disposed on the back of the electronic device 300, and the foot pad 100 is detachably and fixedly disposed on the supporting surface 221, so that the electronic device 300 is fixedly connected to the supporting member 220 through the foot pad 100.

In the present embodiment, for convenience of description, the supporting structure of the electronic device 300 is mainly referred to as a reference orientation when facing the user, the front side of the electronic device 300 and the supporting member 220 is referred to as a side facing the user, the back side of the electronic device 300 and the supporting member 220 is referred to as a side away from the user, and the up-down direction and the left-right direction of the supporting structure of the electronic device 300 are also referred to as a reference orientation when the stand 200 faces the user.

The support member 210 is used to provide support for the entire cradling member 220 and the electronic device 300, such that the cradling member 220 is held in a cradled position, and the cradling member 220 is then able to hold the electronic device 300 at a particular angle, thereby facilitating the use of the electronic device 300 by a user. The supporting component 210 may have a plurality of structures and shapes, for example, the supporting component 210 may be a structure of a base and a column, or a structure in which a plurality of supporting rods are hinged, and of course, the supporting component 210 may also be an L-shaped structure or a structure similar to the L-shaped structure as a whole, or a cone structure, etc., and only needs to support the electronic device 300, and the shape and the structure of the supporting component 210 are not specifically limited herein. The supporting member 220 may be a supporting plate, a supporting rod, or the like, and the shape and structure of the supporting member 220 are not specifically limited, and only the supporting electronic device 300 may be implemented. The support surface 221 faces the back surface of the electronic apparatus 300, and the support surface 221 may be in contact with the back surface of the electronic apparatus 300 or may be spaced apart from the back surface of the electronic apparatus 300. The whole support 200 may be a telescopic support 200, a foldable support 200, an angularly adjustable support 200, or an angularly fixed support 200, and different forms of the support 200 may be selected according to different use requirements of users, and the structural form of the whole support 200 is not specifically limited herein.

The cross-sectional shape of the foot pad 100 may be various, for example, circular, oval, ellipse-like, rectangular, racetrack-like, elongated, etc., and may be selected and designed according to actual needs, which is not limited herein. The foot pad 100 may be a heightening foot pad 100 of a notebook computer, or may be an anti-slip foot pad 100 disposed on a notebook bracket 200. The foot pad 100 is fixedly arranged on the back of the electronic device 300, and the foot pad 100 can be fixedly arranged on the back of the electronic device 300 in a 3M adhesive bonding mode, a strong magnet magnetic attraction connection mode, a clamping connection mode and the like. Specifically, the foot pad 100 may be detachably and fixedly mounted on the supporting surface 221 through embedding, clamping, magnetic connection, and the like. The number of the foot pads 100 can be one or more, and can be selected according to the use requirement. The foot pad 100 may be made of elastic material such as rubber and silicone, or hard material such as plastic and resin.

According to the supporting structure of the electronic device 300, the foot pad 100 is fixedly arranged on the back of the electronic device 300, so that the foot pad 100 is detachably and fixedly arranged on the bearing surface 221 of the bracket 200, and when the electronic device 300 is directly placed on a table for use, the foot pad 100 can play a role of preventing the electronic device 300 from being high in skid. And when electronic equipment 300 placed on support 200 and used, callus on the sole 100 of electronic equipment 300 that can make full use of for electronic equipment 300 directly passes through callus on the sole 100 fixed connection in bearing part 220, can prevent effectively that electronic equipment 300 from sliding off from support 200, and need not to set up the layer board of perk or other adapting unit in bearing part 220's bottom, can effectively avoid the layer board of perk to press against the hand and influence user's operation. In addition, when the electronic device 300 is placed on the support 200 for use, the supporting member 220 is completely covered by the electronic device 300 and is not exposed on the front side of the electronic device 300, so that the overall consistency of the product can be ensured, and the product quality and the user experience can be improved.

Further, as shown in fig. 1 to 3 and 5 to 8, the foot pad 100 is provided with a limiting structure, the limiting structure has a downward first limiting surface 160, the supporting surface 221 is provided with a matching structure, the matching structure has an upward second limiting surface 222, and the first limiting surface 160 abuts against the second limiting surface 222.

In this embodiment, the limiting structure may be integrally formed on the foot pad 100, or the limiting structure may be additionally disposed on the foot pad 100. The matching structure on the supporting surface 221 may be a groove 223, and at this time, the whole foot pad 100 may be embedded in the groove 223, or a protrusion may be additionally disposed on the foot pad 100 and embedded in the groove 223. The engaging structure may also be a protrusion, and a corresponding groove 223 is disposed on the foot pad 100 to match the protrusion. It should be noted that the downward direction of the first position-limiting surface 160 may be a slant downward direction. The upward facing surface of the second limiting surface 222 may be inclined upward. When the supporting member 220 can rotate relative to the supporting member 210 to adjust the angle up and down, the orientations of the first limiting surface 160 and the second limiting surface 222 are dynamically changed. At this time, the orientations of the first limiting surface 160 and the second limiting surface 222 are exemplarily described with reference to a state that the supporting surface 221 is inclined upward away from the supporting member 210 (as shown in fig. 4), that is, when the electronic apparatus 300 is mounted on the supporting member 220, there is a tendency of moving downward. The first position-limiting surface 160 abuts against the second position-limiting surface 222, that is, the foot pad 100 is hung on the supporting surface 221, and the second position-limiting surface 222 on the matching structure can limit the downward movement of the foot pad 100.

Realize dismantling fixed connection through making callus on the sole 100 and bearing part 220 through the spacing complex mode of first spacing face 160 and second 222, it is lower to compare in the direct mode cost of fixing on support 200 through magnetism of electronic equipment 300, and the spacing cooperation structure of callus on the sole 100 and bearing part 220 is easier electronic equipment 300 the counterpoint installation on support 200, then need not the position that the user adjusted electronic equipment 300 many times, can greatly simplify the operation that the user placed electronic equipment 300 on support 200, and then promote user's use experience. In addition, the electronic device 300 is directly fixed on the bracket 200 by magnetic attraction, and is only suitable for the electronic device 300 with the embedded magnet, so that the universality of the bracket 200 is not high, the limit clamping of the electronic device 300 and the bearing part 220 is realized by the foot pad 100, and the electronic device 300 is not required to be provided with a magnetic attraction module, so that the universality is higher and the cost is lower.

Further, referring to fig. 1, fig. 2, fig. 5, fig. 7 and fig. 8, the matching structure is a groove 223 disposed on the supporting surface 221, the groove 223 has an upper sidewall and a lower sidewall opposite to each other, the lower sidewall forms a second limiting surface 222, and the foot pad 100 is fittingly embedded in the groove 223.

In the present embodiment, the footpad 100 is fitted into the groove 223, and the footpad 100 integrally forms the stopper. The lower wall of the footpad 100 forms the first limiting surface 160, and the lower side wall of the groove 223 forms the second limiting surface 222. The foot pad 100 is fittingly inserted into the groove 223, so that the foot pad 100 can be integrally inserted into the groove 223 when in use, thereby preventing the foot pad 100 from moving up and down in the groove 223. In this case, the groove 223 may be a through groove penetrating left and right, and the footpad 100 may move left and right in the groove 223. Optionally, the shape and size of the groove 223 is adapted to the footpad 100. As such, the foot pad 100 may also be simultaneously restrained from side-to-side movement within the groove 223.

Through making recess 223 have relative last lateral wall and lower lateral wall, the lower lateral wall of recess 223 forms the spacing face 222 of second, and callus on the sole 100 adaptation is embedded in recess 223 for electronic equipment 300 can install at support 200 more firmly, effectively avoids the unexpected landing of electronic equipment 300, and makes the counterpoint installation of electronic equipment 300 on bearing part 220 more accurate swift. Through making the cooperation structure for setting up the recess 223 on bearing surface 221, make the whole adaptation of callus on the sole 100 embed in recess 223, then need not to set up extra limit structure on callus on the sole 100, then can simplify overall structure, reduce overall cost, and make first spacing face 160 enough big, thereby make the spacing cooperation contact surface of callus on the sole 100 and support 200 enough big, then can be more effectual assurance callus on the sole 100 be connected with the firm of support 200. In addition, set up recess 223 on bearing surface 221, compare in setting up bellied mode on bearing surface 221, can guarantee bearing surface 221's roughness, can also avoid the arch to scrape colored electronic equipment 300 simultaneously.

Further, a magnetic component (not shown) is disposed in the groove 223, and a magnetic component 140 magnetically coupled with the magnetic component (not shown) is disposed in the foot pad 100. The magnetic component (not shown) may be a magnet, and the magnetic component 140 may be a magnet or a metal component. The magnetic member (not shown) may be attached to the inner wall surface of the groove 223, or may be directly fitted to the position of the supporting member 220 corresponding to the groove 223. Specifically, a magnetic member (not shown) may be disposed on the bottom wall surface of the groove 223. Through being equipped with magnetic component (not shown) in recess 223, be equipped with in callus on the sole 100 inhale the complex magnetism with magnetic component (not shown) and inhale subassembly 140, then inhale subassembly 140 and inhale subassembly 140 with magnetism and have the ascending magnetic attraction of bearing surface 221 normal direction, thereby make callus on the sole 100 can fix on bearing surface 221 more closely firmly, further guarantee electronic equipment 300 and bearing part 220's the steadiness of being connected, avoid external force to collide with and cause callus on the sole 100 to drop from bearing part 220's recess 223 by accident.

In addition to the above-described embodiment in which the engaging structure is the groove 223 provided on the holding surface 221, further, the depth of the groove 223 is greater than or equal to half of the height of the foot pad 100 protruding from the back surface of the electronic apparatus 300. When the depth of the groove 223 is less than half of the height of the foot pad 100 protruding from the back of the electronic device 300, the depth of the foot pad 100 embedded in the groove 223 is too shallow, and when the electronic device 300 is placed on the supporting member 220, the foot pad 100 is easily separated from the groove 223, so that the connection between the electronic device 300 and the supporting member 220 is unstable. The depth of the groove 223 is greater than or equal to half of the height of the foot pad 100 protruding out of the back of the electronic device 300, so that the depth of the foot pad 100 embedded in the groove 223 is ensured, the connection stability between the foot pad 100 and the supporting member 220 is further improved, and the electronic device 300 is prevented from accidentally sliding off the supporting surface 221. Preferably, the depth of the groove 223 is greater than or equal to the height of the footpad 100 projecting above the back of the electronic device 300. When the foot pad 100 is embedded in the groove 223, the back surface of the electronic device 300 is attached to the supporting surface 221, so that the contact area between the electronic device 300 and the supporting member 220 can be increased, and the connection stability between the electronic device 300 and the supporting member 220 can be further ensured.

Further, as shown in fig. 1 to 5, at least two foot pads 100 are provided, and at least two foot pads 100 are arranged side by side in the lateral direction of the supporting surface 221. The number of footpads 100 may be specifically two, four, six, etc. Optionally, four foot pads 100 are provided, and the four foot pads 100 are respectively located at four corners of the electronic device 300. Make two at least callus on the sole 100 set up side by side in the transverse direction of bearing face 221, also be that two at least callus on the sole 100 set up side by side in the transverse direction of electronic equipment 300, then can make both ends all can articulate at bearing part 220 through callus on the sole 100 about electronic equipment 300 for electronic equipment 300 is more firm reliable with being connected of support 200. In this case, embodiments in which the grooves 223 are provided on the bearing surface 221 are combined. The groove 223 may be made to penetrate the holding member 220 in the lateral direction. Thus, two transversely arranged foot pads 100 on the electronic device 300 can be mounted in the groove 223 at the same time, the placement operation of the user is simplified, and the electronic device 300 can be adjusted left and right relative to the bracket 200, so that different use requirements of the user can be met. Of course, two grooves 223 may also be provided, such that the two grooves 223 are adapted to the single footpad 100, respectively, such that the two footpads 100 arranged laterally are engaged in the corresponding grooves 223, respectively. In other embodiments, only one footpad 100 may be provided. The footpad 100 is now centrally located on the back of the electronic device 300.

In one embodiment, referring to fig. 10 to 14, the foot pad 100 includes a first pad 110 and a second pad 120, the first pad 110 is configured to be fixedly connected to a back surface of the electronic device 300, the second pad 120 is configured to be detachably fixed to the back surface of the electronic device 300, the foot pad 100 has a folded state and an unfolded state, the second pad 120 is stacked on the first pad 110 when the foot pad 100 is in the folded state, and the second pad 120 is unfolded relative to the first pad 110 when the foot pad 100 is in the unfolded state.

In this embodiment, the first pad 110 may be specifically adhered to the back surface of the electronic device 300 by a 3M adhesive, and has the advantages of being firmly adhered, reusable, traceless, residue-free, and the like. The second block 120 may be detachably attached to the back of the electronic device 300 by means of magnetic attraction or the like. It should be noted that when the footpad 100 is in the expanded state, the second cushion block 120 is expanded relative to the first cushion block 110, meaning that the second cushion block 120 is not laminated to the first cushion block 110. In this case, the second block 120 may be connected to the first block 110, or may not be connected. That is, the first block 110 and the second block 120 may be connected to each other or may be separated from each other. When the first cushion block 110 and the second cushion block 120 are split structures, the first cushion block 110 and the second cushion block 120 can be fixedly connected in a stacking mode through clamping, magnetic attraction connection and the like. It will be appreciated that the number of second pods 120 may be multiple, i.e., the footpad 100 may be formed from more than three pods stacked together. The foot pad 100 may be fixedly mounted on the supporting surface 221 in a folded state or an unfolded state, and only the whole foot pad 100 and the supporting surface 221 need to be fixedly connected.

The first block 110 and the second block 120 may be the same or different in shape and size. The shape of the first cushion block 110 and the second cushion block 120 may be circular, rectangular, semicircular, semi-circular-like, and the like, and may be specifically selected and designed according to actual requirements, and is not specifically limited herein. By making the foot mat 100 have the folded state and the unfolded state, when the electronic device 300 is directly placed on a table for use, the user can select to adjust the foot mat 100 to the folded state or the unfolded state according to actual needs. For example, if the foot pad 100 disposed at the rear side of the electronic device 300 is adjusted to be folded and the foot pad 100 disposed at the front side of the electronic device 300 is adjusted to be unfolded, the rear side of the electronic device 300 is raised, which is more convenient for the user to use the electronic device 300 and more beneficial to heat dissipation of the electronic device 300.

Further, as shown in fig. 10-15, the second head block 120 is foldably connected to the first head block 110. The second head block 120 and the first head block 110 may be foldably connected by a flexible connection 130, a pivot, or the like. By making the first cushion block 110 foldably connected to the second cushion block 120, the first cushion block 110 and the second cushion block 120 can be connected to each other when the footpad 100 is in the unfolded state, and the accidental loss of the second cushion block 120 can be avoided compared to a structure in which the first cushion block 110 and the second cushion block 120 are separated. Optionally, a side wall surface of the second block 120 away from the first block 110 is provided with a fastener 122. The handle structure 122 is convexly arranged on the side wall surface of the second cushion block 120 far away from the first cushion block 110, the first cushion block 110 is bonded on the back surface of the electronic device 300, and when the foot pad 100 is in the unfolding state, the user can more conveniently take the second cushion block 120 through the handle structure 122, so that the user can more conveniently switch the unfolding state and the folding state of the foot pad 100.

Further, referring to fig. 10 to 15 again, the first cushion block 110 is connected to the second cushion block 120 through a flexible connecting member 130, and the first cushion block 110, the second cushion block 120 and the flexible connecting member 130 are integrally disposed.

In this embodiment, the first cushion block 110, the second cushion block 120, and the flexible connecting member 130 are integrally disposed, so that the entire foot pad 100 may be made of elastic materials such as rubber and silicone. Through making first cushion 110, second cushion 120, flexible connectors 130 an organic whole set up, compare in making first cushion 110 and second cushion 120 realize folding joint through the mode of pivot, can simplify connection structure, reduce cost, whole callus on the sole 100 adopts flexible material simultaneously, makes the antiskid effect of callus on the sole 100 better to be favorable to promoting the stability of being connected of callus on the sole 100 and bearing part 220 more. Optionally, the first head block 110 and the second head block 120 are symmetrically disposed about the flexible connector 130. As such, when the footpad 100 is in a folded position, the first and second pods 110, 120 are substantially coincident and stacked to ensure complete conformance of the footpad 100 in the folded position.

Further, as shown in fig. 13 to 15, when the foot pad 100 is in the unfolded state, the wall surface of the second cushion block 120 away from the electronic device 300 is provided with a clamping structure 121, the wall surface of the first cushion block 110 away from the electronic device 300 is provided with a clamping structure 111, and when the foot pad 100 is in the folded state, the clamping structure 121 and the clamping structure 111 are clamped with each other.

In this embodiment, the wall surfaces of the first cushion block 110 and the second cushion block 120 departing from the electronic device 300 are provided with the clamping structure 121 and the clamping structure 111, so that when the foot pad 100 is in the folded state, the connection between the first cushion block 110 and the second cushion block 120 is more stable, and the first cushion block 110 and the second cushion block 120 can be prevented from being accidentally separated in the folded state, thereby ensuring the reliability of the product. The engaging structure 121 may be a protrusion/groove, and the engaging structure 111 may be a protrusion/groove, so that the groove and the protrusion are engaged with each other to realize the stable connection between the first pad 110 and the second pad 120.

With reference to fig. 11 to 13, in combination with the above-mentioned embodiment in which the second cushion block 120 is foldably connected to the first cushion block 110, a first magnetic attraction member 141 is embedded in the first cushion block 110, and a second magnetic attraction member 142 magnetically engaged with the first magnetic attraction member 141 is embedded in the second cushion block 120. Through embedding first magnetism piece 141 of inhaling in first cushion 110, embedding second magnetism piece 142 of inhaling in second cushion 120, then when callus on the sole 100 is in fold condition, first cushion 110 and second cushion 120 can inhale the magnetism through inhaling each other and be connected, then can further guarantee first cushion 110 and second cushion 120's the steadiness of being connected. In addition, when the foot pad 100 is in the unfolded position, the second cushion block 120 can be attracted to the electronic device 300 made of metal, so as to ensure the stable connection between the first cushion block 110, the second cushion block 120 and the electronic device 300.

Further, as shown in fig. 5 and 10 to 14, the first cushion block 110 and the second cushion block 120 are made of elastic materials, a wall surface of the first cushion block 110 facing the electronic device 300 is higher than a wall surface of the second cushion block 120 facing the electronic device 300, the foot pad 100 further includes a metal sheet 150, the metal sheet 150 is connected to a wall surface of the second cushion block 120 facing the electronic device 300, and a thickness of the metal sheet 150 is not greater than a height difference between the wall surface of the first cushion block 110 facing the electronic device 300 and the wall surface of the second cushion block 120 facing the electronic device 300.

In this embodiment, the first pad 110 and the second pad 120 may be made of an elastic material such as rubber or silicone. If the wall surface of the first block 110 facing the electronic device 300 is flush with the wall surface of the second block 120 facing the electronic device 300, when the first block 110 is bonded to the electronic device 300, the second block 120 is also easily bonded to the electronic device 300 due to temperature influence, which is not favorable for separating the second block 120 from the electronic device 300. Through making the first cushion block 110 face the wall of electronic device 300 to be higher than the wall of second cushion block 120 face electronic device 300, and set up the sheetmetal 150 additionally and connect in the wall of second cushion block 120 towards electronic device 300, so that the holistic height of second cushion block 120 plus sheetmetal 150 is basically parallel and level with first cushion block 110, so, sheetmetal 150 can reduce the frictional force between second cushion block 120 and electronic device 300 on the one hand, make second cushion block 120 separate with electronic device 300 more easily, and then be convenient for callus on the sole 100 to switch to folding position, on the other hand sheetmetal 150 can not influence the magnetism that the piece 142 is inhaled to the second magnetism in the second cushion block 120 and is connected with between electronic device 300, and then guarantee the inseparable laminating of second cushion block 120 and electronic device 300.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application 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 solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (12)

1. An electronic device support structure, comprising:

a support including a support member and a holding member connected to each other, the support member configured to hold the holding member in a holding position, the holding member including a holding surface opposing a back surface of the electronic device; and

the foot pad is used for being fixedly arranged on the back face of the electronic equipment, and the foot pad is detachably and fixedly arranged on the bearing face.

2. The electronic device support structure of claim 1, wherein the foot pad comprises a first pad for fixedly attaching to the back surface of the electronic device and a second pad for removably attaching to the back surface of the electronic device, the foot pad having a folded state in which the second pad is stacked on the first pad and an unfolded state in which the second pad is unfolded relative to the first pad.

3. The electronic device support structure of claim 2, wherein the second head block is foldably connected to the first head block.

4. The electronic device supporting structure of claim 3, wherein the first head block is connected to the second head block by a flexible connector, and the first head block, the second head block, and the flexible connector are integrally provided.

5. The electronic device supporting structure of claim 3, wherein the wall of the second cushion block facing away from the electronic device is provided with a locking structure when the foot pad is in the unfolded state, the wall of the first cushion block facing away from the electronic device is provided with a locking structure, and the locking structure are locked with each other when the foot pad is in the folded state.

6. The electronic device supporting structure of claim 3, wherein the first cushion block is embedded with a first magnetic attraction member, and the second cushion block is embedded with a second magnetic attraction member magnetically engaged with the first magnetic attraction member.

7. The electronic device supporting structure of claim 6, wherein the first cushion block and the second cushion block are made of elastic materials, a wall surface of the first cushion block facing the electronic device is higher than a wall surface of the second cushion block facing the electronic device, the foot pad further comprises a metal sheet, the metal sheet is connected to the wall surface of the second cushion block facing the electronic device, and a thickness of the metal sheet is not greater than a height difference between the wall surface of the first cushion block facing the electronic device and the wall surface of the second cushion block facing the electronic device.

8. The electronic device supporting structure according to any one of claims 1 to 7, wherein a limiting structure is disposed on the foot pad, the limiting structure has a first limiting surface facing downward, a matching structure is disposed on the supporting surface, the matching structure has a second limiting surface facing upward, and the first limiting surface abuts against the second limiting surface.

9. The electronic device supporting structure of claim 8, wherein the mating structure is a groove disposed on the supporting surface, the groove having opposite upper and lower sidewalls, the lower sidewall forming the second limiting surface, the foot pad being adapted to be embedded in the groove.

10. The electronic device supporting structure of claim 9, wherein a magnetic component is disposed in the groove, and a magnetic component magnetically engaged with the magnetic component is disposed in the foot pad.

11. The electronic device support structure of claim 9, wherein the depth of the recess is greater than or equal to half the height of the foot pad protruding above the back of the electronic device.

12. An electronic device support structure as in any one of claims 1-7 wherein the foot pads are provided in at least two, at least two of the foot pads being arranged side-by-side in a direction transverse to the bearing surface.

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