CN212840412U - Bearing seat - Google Patents

Abstract

The present disclosure relates to a bearing seat detachably mounted on a supporting frame for bearing an electronic device, the bearing seat includes a quick release structure. The quick release structure comprises a shell, a clamping plate, a clamping hook piece and at least one pushing piece. The housing has a receiving space, and the engaging plate has a slot. The clamping hook piece is positioned in the accommodating space and is provided with a hook part, and the pushing and abutting piece is arranged on the shell, partially extends into the accommodating space and abuts against the clamping hook piece. When the hook member is in a locked state, the hook portion extends out from the housing and is locked in the locking groove, and when an external force is applied to the pushing member, the hook member is pushed and converted into an unlocked state, the hook portion is separated from the locking groove, and the locking plate can be separated from the housing.

Description

Bearing seat

Technical Field

The present disclosure relates to a supporting base, and more particularly, to a supporting base disposed on a portable supporting frame for supporting an electronic device.

Background

According to different usage situations, a user may need to mount a portable electronic device such as a mobile phone, a camera, or a tablet on a support frame having a supporting member for use. Since the carriers that can hold a mobile phone, a camera, or a tablet are different in size (the size of the clamping jaw holding the tablet is large) or structure and cannot be shared, there are difficulties, such as inconvenience caused by carrying a plurality of supports when going out. Therefore, the present disclosure provides a quick release structure of a carrying seat, which can quickly change carrying members of different shapes for different portable electronic devices, so that the portable electronic devices and the carrying seat of different shapes can be quickly replaced on a supporting frame.

SUMMERY OF THE UTILITY MODEL

A primary objective of the present disclosure is to provide a supporting base detachably mounted on a supporting frame, which includes a quick-release structure, and an electronic device can be quickly detached from or assembled to the supporting frame through the quick-release structure after being mounted on the supporting base.

A primary objective of the present disclosure is to provide a rotation structure, which has a spherical joint, through which an electronic device can rotate in any direction relative to a supporting frame.

To achieve the above objective, the present disclosure provides a carrying seat detachably mounted on a supporting frame for carrying an electronic device, the supporting frame having a vertical column, the carrying seat including a base and a quick release structure. The base is arranged on the upright column, and the quick-release structure comprises a shell, a clamping plate, a clamping hook piece, at least one bearing piece and at least one pushing piece. The shell is connected with the base part and is provided with an accommodating space and a step groove; the clamping plate is used for the electronic device to be arranged and detachably connected with the shell, and is provided with a clamping groove; the bearing piece is arranged on the clamping plate and used for the arrangement of an electronic device; the clamping hook piece is positioned in the containing space, can be switched between a clamping state and an unlocking state, and is provided with a plate body and a hook part, and the hook part is formed on the plate body; the pushing and abutting piece is movably arranged on the shell, partially extends into the accommodating space and abuts against the clamping hook piece. When the hook member is in the engaging state, the hook portion extends out from the housing and is engaged with the engaging groove, and part of the engaging plate is accommodated in the stepped groove.

The plate body is provided with at least one first inclined surface, one end of the pushing and supporting piece is provided with a second inclined surface, the second inclined surface is abutted against the first inclined surface, when the pushing and supporting piece is pushed by applying the external force, the first inclined surface slides on the second inclined surface, and therefore the plate body moves towards the direction away from the clamping plate.

The quick release structure is provided with an elastic piece, the elastic piece is positioned in the accommodating space and is abutted between the plate body and the shell, the elastic piece constantly provides an elastic force, and when each first inclined plane slides on each second inclined plane, the elastic force provided by the elastic piece changes.

The elastic piece enables the clamping hook piece to be inclined to the clamping state.

The shell is provided with a front shell and a rear shell, the accommodating space is formed between the front shell and the rear shell, when the clamping hook piece is in the clamping state, the clamping hook piece abuts against the front shell, when the pushing piece pushes the clamping hook piece, the clamping hook piece is converted into the unlocking state, and the clamping hook piece moves towards the rear shell and compresses the elastic piece.

The front shell is provided with at least one convex column, the plate body is also provided with at least one through hole, the convex column extends towards the rear shell along an axis and penetrates through the through hole, and the clamping hook piece is switched between the unlocking state and the clamping state along the axis.

Each pushing part is provided with a pressing part which extends out from the shell, and when each pressing part is pressed, each pushing part pushes the clamping hook part.

The engaging plate has a step protrusion, which is adapted to fit into the step groove.

The stepped convex part is provided with a first step convex block and a second step convex block connected with the first step convex block, the stepped groove is provided with a first step groove body and a second step groove body extending from the first step groove body, when the clamping plate is arranged on the shell, the first step convex block is matched with the first step groove body, and the second step convex block is matched with the second step groove body.

The second-step lug is provided with a middle hole, a bottom edge and two side edges, the distance between the middle hole and the side edges is smaller than the distance between the middle hole and the bottom edge, the second-step groove body is provided with a middle section and two side sections, the groove depth of the second-step groove body is gradually increased from the side sections to the middle section, the middle section is contained in the bottom edge, and the side edges are correspondingly arranged on the side sections respectively.

The front shell is also provided with a through hole for the hook part to penetrate through.

In an embodiment of the present disclosure, the supporting member is a quick-release screw, the electronic device has a screw hole, and the quick-release screw is inserted through the engaging plate and screwed into the screw hole.

In another embodiment of the present disclosure, the carrier has a screw and a clamping jaw, the screw is inserted through the engaging plate and screwed to the clamping jaw, and the clamping jaw is used for clamping the electronic device.

The base part comprises a main body and a rotating structure, the rotating structure is arranged on the main body and is provided with a spherical joint, the spherical joint defines a spherical center, the spherical joint is connected with the shell, and the quick-release structure and the spherical joint can rotate in any direction relative to the main body and the upright post by taking the spherical center as the center.

The spherical joint is provided with a body and a connecting section extending from the body, and the connecting section is fixedly connected with the shell.

The rotating structure is also provided with a first pressing piece and a pressurizing piece, the first pressing piece is arranged on the pressurizing piece and covers part of the body, the body can rotate relative to the first pressing piece, and the pressurizing piece is abutted against the first pressing piece, so that the first pressing piece provides a first positive force for the body.

The pressing member has a stopper and a screw, the screw is locked to the main body and presses the stopper to make the stopper abut against the first pressing member.

The bearing seat also comprises an outer cover which is connected with the upright post and covers the rotating structure and the main body. The outer cover is provided with a cover body and a second pressing piece, the second pressing piece is abutted against an inner surface of the cover body and partially covers the body, a second positive force is provided for the body, and the body can rotate relative to the second pressing piece.

Drawings

Fig. 1 is a schematic perspective view of a supporting frame and an electronic device according to an embodiment of a bearing seat of the disclosure;

fig. 2 is a schematic perspective exploded view of a supporting frame according to an embodiment of the bearing seat of the present disclosure;

FIG. 3 is an exploded view of a quick release structure of an embodiment of a carrier according to the disclosure;

fig. 4 is a schematic cross-sectional view of a hook member in a fastening state according to an embodiment of the disclosed carrier seat;

FIG. 5 is a partially exploded view of a quick release structure of an embodiment of a carrier according to the disclosure;

fig. 6 is another schematic cross-sectional view of the hook member in a fastening state according to an embodiment of the carrier base of the disclosure;

fig. 7 is a schematic cross-sectional view of a hook member in an unlocked state according to an embodiment of the carrier base of the present disclosure;

fig. 8 is another schematic cross-sectional view of the hook member in an unlocked state according to an embodiment of the carrier base of the present disclosure;

FIG. 9 is an exploded perspective view of the base and the upright post of one embodiment of the disclosed susceptor; and

fig. 10 is a partially exploded perspective view of another embodiment of a carrier according to the present disclosure.

[ CALLING DEDICATION OF THE DRAWINGS ]

1000-bearing seat

2000-support frame

2001-upright post

3000-electronic device

3001 screw hole

2-quick release structure

21-outer cover

211-front case

2111-external surface

2112-inner surface

2113-convex column

2114-perforation

212-rear housing

213-accommodation space

214-step groove

2141 first-stage tank

2142 second-stage tank

21421 intermediate section

21422-side section

22-hook

221-plate body

2211-first inclined plane

2212-through hole

222-hook part

2221-pressing surface

23-snap plate

231-card slot

2311-groove wall

232-step convex part

2321 first-level bump

2322-second level bump

23221 mesopores

23222 bottom edge

23223-side edge

24-push-against piece

241-second inclined plane

242-pressing part

25-elastic member

26-bearing element

261-quick-release screw

262-clamping jaw

263-screw

3-base

31-main body

32-rotation structure

321-ball type joint

3211-ontology

3212-connecting segment

322-first urging member

323-pressure member

3231-screw

3232-stopping sheet

4-outer cover

41-cover body

411-inner surface

42-second urging member

A-axis

C-ball center

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, the present disclosure provides a carrying base 1000 detachably mounted on a supporting frame 2000 and used for carrying an electronic device 3000, where the electronic device 3000 of the present disclosure may be a portable electronic device such as a mobile phone and a camera. The supporting frame 2000 has a vertical column 2001, and the supporting base 1000 includes a quick release structure 2, a base 3 and a cover 4. The quick release structure 2 is connected with the base 3, the base 3 is disposed on the upright column 2001, and the cover 4 is connected with the upright column 2001 and covers the base 3.

First, the detailed relationship between the components of the quick release structure 2 will be described. The quick release structure 2 includes a housing 21, a hook 22, a locking plate 23, two pushing members 24, four elastic members 25, and a supporting member 26, wherein, as shown in fig. 3, 4, and 5, the housing 21 includes a front housing 211, a rear housing 212, a receiving space 213, and a step groove 214. The front housing 211 has an outer surface 2111, an inner surface 2112, four posts 2113 and a through hole 2114, the posts 2113 are disposed on the inner surface 2112 and extend toward the rear housing 212 along an axis a. The accommodating space 213 is formed between the front housing 211 and the rear housing 212, the stepped groove 214 is formed in the front housing 211, the stepped groove 214 has a first step groove 2141 and a second step groove 2142 extending from the first step groove 2141, in the present embodiment, the second step groove 2142 has a middle section 21421 and two side sections 21422, and the groove depth of the second step groove 2142 gradually increases from the side sections 21422 to the middle section 21421.

The hook 22 is disposed in the accommodating space 213, and can be switched between a locking state and an unlocking state along the axis a, and can be locked with or separated from the locking plate 23, and has a plate 221 and a hook 222, wherein the hook 222 is formed on the plate 221, can be movably inserted into the through hole 2114 along with the plate 221, and has a pressing surface 2221, and the plate 221 has two opposite first inclined surfaces 2211 and four through holes 2212. Each protruding column 2113 penetrates through each through hole 2212, and each elastic element 25 is correspondingly sleeved on each protruding column 2113 and located in the accommodating space 213, and abuts against between the plate 221 and the rear housing 212, and constantly provides an elastic force, in this embodiment, the elastic element 25 is a compression spring.

The engaging plate 23 is detachably connected to the front housing 211 and has a slot 231 and a step-up protrusion 232. The engaging groove 231 is used for selectively engaging the hook 222 and has a groove wall 2311, and the step protrusion 232 is adapted to be engaged in the step groove 214. The step protrusion 232 has a first step bump 2321 and a second step bump 2322 connected to the first step bump 2321. When the engaging plate 23 is disposed on the front housing 211, the first step protrusion 2321 is assembled to the first step groove 2141, and the second step protrusion 2322 is assembled to the second step groove 2142. In the present embodiment, the second step protrusion 2322 has a middle hole 23221, a bottom edge 23222 and two side edges 23223, a distance between each of the middle holes 23221 and the side edges 23223 is smaller than a distance between each of the middle holes 23221 and the bottom edge 23222, when the second step protrusion 2322 is assembled in the second step groove 2142, the bottom edge 23222 is accommodated in the middle section 21421, and the side edges 23223 are respectively disposed in the side sections 21422 correspondingly.

The carrier 26 is provided on the engaging plate 23, and is provided for the electronic device 3000. Referring to fig. 1 and fig. 2, in the embodiment, the supporting element 26 is a quick-release screw 261, the electronic device 3000 is a flat plate having a screw hole 3001, and the quick-release screw 261 is inserted through the central hole 23221 of the engaging plate 23 and screwed into the screw hole 3001. Referring to fig. 10, in another embodiment, the carrier 26 has a clamping jaw 262 and a screw 263, the electronic device 3000 is a mobile phone, the screw 263 is inserted through the middle hole 23221 of the engaging plate 23 and screwed to the clamping jaw 262, and the clamping jaw 262 is used for clamping the mobile phone. Therefore, the carrier 1000 can carry different types of electronic devices 3000 by different types of carriers 26.

As shown in fig. 6, the pushing elements 24 are movably disposed on the housing 21, one end of each pushing element 24 extends into the accommodating space 213 and forms a second inclined surface 241, and the second inclined surface 241 abuts against the first inclined surface 2211. A pressing portion 242 is formed at the other end of each pushing member 24, and the pressing portion 242 extends through the housing 21.

Now, referring to fig. 4 and 6, since the elastic element 25 pushes the hook 22 by its own elastic force, the hook 22 tends to be in the engaged state, the hook 222 passes through the through hole 2114 and is engaged with the slot 231, the plate 221 abuts against the front housing 211, and the pressing surface 2221 presses against the slot wall 2311, so that the engaging plate 23 cannot be disengaged from the front housing 211.

When an external force is applied to each pressing portion 242, each pushing member 24 pushes the hook 22, each first inclined surface 2211 slides on each second inclined surface 241 (in the process of switching from the state of fig. 4 and 6 to the state of fig. 7 and 8), the plate body 221 gradually moves away from the engaging plate 23 along the axis a and approaches the rear housing 212, and the elastic member 25 is compressed to generate a change of the elastic force. As shown in fig. 7 and 8, the plate 221 is adjacent to the rear housing 212, and the hook 222 is disengaged from the slot 231 (i.e., the pressing surface 2221 is disengaged from the slot wall 2311), at this time, the hook 22 is switched to the unlocking state, and the engaging plate 23 can be separated from the front housing 211.

If the engaging plate 23 is to be mounted on the front housing 211, an external force is applied to mount the stepped protrusion 232 corresponding to the stepped groove 214, at this time, the second-step protrusion 2322 pushes the hook 222, the hook 22 approaches the rear housing 212 along the axis a, when the second-step protrusion 2322 is mounted on the second-step groove 2142, the hook 222 corresponds to the engaging groove 231, the hook 22 is switched to the engaging state by the elastic force of the elastic element 25, and the hook 222 passes through the through hole 2114 again and engages with the engaging groove 231, thereby completing the assembly.

As described above, the user can quickly release the electronic device 3000 and the engaging plate 23 by pressing the pushing element 24 to quickly release the engaging plate 23 and the hook 22 from the unlocked state, and directly pick up the electronic device 3000 and the engaging plate 23 together with the supporting element 26, and after the electronic device is used, the engaging plate 23 can be combined with the front housing 211 to return to the engaged state again (the state is changed from fig. 7 and 8 to fig. 4 and 6 again). By means of quick release, different types of the supporting members 26 can be quickly replaced to clamp different electronic devices 3000. In addition, although the quick release structure 2 of the present embodiment is exemplified to have one carrying member 26, it may have a plurality of carrying members 26 at the same time, but only one of the carrying members 26 can be mounted during use.

Referring to fig. 8 and 9, the structure of the base 3 and the housing 4 will be described in detail, in which the base 3 has a main body 31 and a rotating structure 32, in order to achieve the function of the electronic device 3000 rotating relative to the supporting frame 2000, the rotating structure 32 is disposed on the main body 31 and has a spherical joint 321 defining a spherical center C, a first pressing member 322 and a pressing member 323. The ball joint 321 has a body 3211 and a connecting section 3212 extending from the body 3211, the connecting section 3212 is fixedly connected to the housing 21, so that the quick release structure 2 and the ball joint 321 can rotate in any direction with respect to the main body 31 and the upright post 2001 by using the center C as a center, in other words, the ball joint 321 can achieve universal rotation. The housing 4 covers the rotating structure 32 and the main body 31, and has a cover 41 and a second pressing member 42.

In order to adjust the friction force and the operation feel, the first pressing member 322 is disposed on the pressing member 323 and covers a part of the body 3211, the second pressing member 42 abuts against an inner surface 411 of the casing 41 and partially covers the body 3211, and the body 3211 can rotate relative to the first pressing member 322 and the second pressing member 42. The pressing member 323 has an abutting sheet 3232 and a screw 3231, the screw 3231 is locked to the main body 31, and presses the abutting sheet 3232 to make the abutting sheet 3232 abut against the first pressing member 322, so that the first pressing member 322 provides a first positive force to the main body 3211, and the second pressing member 42 provides a second positive force to the main body 3211. When the body 3211 rotates about the center C, the body 3211, the first pressing member 322, and the second pressing member 42 rub against each other, and the larger or smaller the first and second positive forces applied to the body 3211 by the first pressing member 322 and the second pressing member 42 are, the larger or smaller the friction between the body 3211, the first pressing member 322, and the second pressing member 42 is, so as to adjust the hand feeling of the rotating electronic device 3000.

In the process of rotating the electronic device 3000, if the hand feeling is light, the screw 3231 may be screwed into the main body 31 in a direction close to the main body 3211, the screw 3231 pushes the stopper 3232, the force of the stopper 3232 against the first pressing member 322 and the second pressing member 42 increases, the first forward force and the second forward force provided by the first pressing member 322 and the second pressing member 42 to the main body 3211 increase accordingly, and when the first forward force and the second forward force increase, the friction between the main body 3211 and the first pressing member 322 and the second pressing member 42 increases when the main body 3211 rotates, and the hand feeling of the rotating electronic device 3000 may become heavy. On the contrary, if the hand feeling is heavy, the screw 3231 can be screwed out of the main body 31 in a direction away from the main body 3211, the force of the holding piece 3232 against the first pressing piece 322 and the second pressing piece 42 is reduced, the first forward force and the second forward force provided by the first pressing piece 322 and the second pressing piece 42 to the main body 3211 are reduced, the friction between the main body 3211 and the first pressing piece 322 and the second pressing piece 42 during rotation is reduced, and the hand feeling of the rotating electronic device 3000 can be lightened.

The above embodiments are only used for illustrating the embodiments of the present disclosure and illustrating the technical features of the present disclosure, and are not used for limiting the scope of the present disclosure. Any modifications or equivalent arrangements which may occur to those skilled in the art and which fall within the spirit and scope of the present disclosure are to be considered within the purview of the claims appended hereto.

Claims (19)

1. A bearing seat is characterized in that the bearing seat is detachably arranged on a support frame for bearing an electronic device, the support frame is provided with a vertical column, and the bearing seat comprises:

a base part arranged on the upright post; and

a quick release structure, comprising:

a shell connected with the base, wherein the shell is provided with an accommodating space and a step groove;

a clamping plate detachably connected with the shell and provided with a clamping groove;

at least one bearing piece which is arranged on the clamping plate and used for the electronic device to be arranged;

a hook piece which is positioned in the containing space, can be switched between a clamping state and an unlocking state and is provided with a plate body and a hook part, wherein the hook part is formed on the plate body; and

at least one pushing and abutting piece which is movably arranged on the shell, partially extends into the accommodating space and abuts against the clamping hook piece;

when the hook member is in the engaged state, the hook portion extends out from the housing and is engaged with the engaging groove, and part of the engaging plate is accommodated in the stepped groove.

2. The carrier of claim 1, wherein the plate has at least a first inclined surface, and a second inclined surface is formed at one end of the pushing member and abuts against the first inclined surface, and when the pushing member is pushed by the external force, the first inclined surface slides on the second inclined surface, so that the plate moves away from the engaging plate.

3. The carrying seat according to claim 2, wherein the quick release structure has an elastic member, the elastic member is disposed in the accommodating space and abuts against the space between the plate and the housing, the elastic member constantly provides an elastic force, and when each of the first inclined surfaces slides on each of the second inclined surfaces, the elastic force provided by the elastic member changes.

4. The carrier as claimed in claim 3, wherein the resilient member biases the hook member to the engaged state.

5. The carrier according to claim 4, wherein the housing has a front housing and a rear housing, the receiving space is formed between the front housing and the rear housing, when the hook member is in the engaging state, the hook member abuts against the front housing, and when the pushing member pushes the hook member, the hook member is converted to the unlocking state, the hook member moves toward the rear housing and compresses the elastic member.

6. The carrier as claimed in claim 5, wherein the front housing has at least one protrusion, the plate further has at least one through hole, the protrusion extends toward the rear housing along an axis and passes through the through hole, and the hook is switched between the unlocking state and the locking state along the axis.

7. The carrier seat according to claim 6, wherein each of the pushing members has a pressing portion extending from the housing, and when the pressing portion is pressed, each of the pushing members pushes the hook member.

8. The carrier as claimed in claim 7, wherein the engaging plate has a step protrusion, and the step protrusion is adapted to fit into the step groove.

9. The carrier as claimed in claim 8, wherein the step protrusion has a first step protrusion and a second step protrusion connected to the first step protrusion, the step groove has a first step groove and a second step groove extending from the first step groove, when the engaging plate is disposed on the housing, the first step protrusion is engaged with the first step groove, and the second step protrusion is engaged with the second step groove.

10. The loading seat as claimed in claim 9, wherein the second step protrusion has a central hole, a bottom edge, and two side edges, a distance between the central hole and the side edges is smaller than a distance between the central hole and the bottom edge, the second step trough has a middle section and two side sections, a depth of the second step trough increases gradually from the side sections to the middle section, the bottom edge is received in the middle section, and the side edges are correspondingly disposed in the side sections.

11. The carrier as claimed in claim 10, wherein the front housing further has a through hole for the hook to pass through.

12. The carrying seat according to claim 11, wherein the carrying member is a quick-release screw, the electronic device has a screw hole, and the quick-release screw is inserted through the engaging plate and screwed into the screw hole.

13. The carrier as claimed in claim 11, wherein the carrier has a screw passing through the engaging plate and screwed to the clamping jaw, and the clamping jaw is used for clamping the electronic device.

14. The carrier according to any of claims 1-13, wherein the base comprises a main body and a rotating structure disposed on the main body and having a spherical joint defining a spherical center, the spherical joint being connected to the housing, the quick release structure and the spherical joint being capable of rotating in either direction with respect to the main body and the upright post about the spherical center.

15. The carrier of claim 14, wherein the ball joint has a body and a connecting portion extending from the body, the connecting portion being fixedly connected to the housing.

16. The carrier of claim 15, wherein the rotation structure further comprises a first pressing member and a pressing member, the first pressing member is disposed on the pressing member and covers a portion of the body, the body can rotate relative to the first pressing member, and the pressing member abuts against the first pressing member, such that the first pressing member provides a first positive force to the body.

17. The carrier as claimed in claim 16, wherein the pressing member has a stopper and a screw, the screw is locked to the main body and presses the stopper to make the stopper abut against the first pressing member.

18. The carrier of claim 17, further comprising a cover, the cover being connected to the upright post and covering the rotational structure and the main body.

19. The carrier of claim 18, wherein the cover has a cover body, a second urging member, the second urging member abuts against an inner surface of the cover body and partially covers the body and provides a second positive force to the body, and the body can rotate relative to the second urging member.

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