CN113589885A - Electronic device set and expansion seat - Google Patents

Abstract

The invention discloses an electronic device group and an expansion seat, wherein the expansion seat comprises a bottom plate, two first pivoting seats, two pushing pieces, a second pivoting seat, a clamping piece and two springs, wherein the two first pivoting seats are arranged on the bottom plate; each pushing and abutting piece is connected with each first pivoting seat; the second pivoting seat is arranged on the bottom plate; the clamping piece is connected with the second pivoting seat; the clamping piece comprises an operation part, a clamping part and two second connecting parts; the clamping part is used for clamping with an electronic device; the two second connecting parts and the two first connecting parts are fixed with each other; the operation part can be operated by a user to enable the clamping part to rotate relative to the bottom plate, so that the clamping piece can drive the two pushing pieces to rotate; one end of each spring is connected with each first pin joint seat, and the other end is fixed on the bottom plate. Therefore, the user can operate the clamping piece to enable the electronic device to be arranged on the expansion seat or to be detached from the expansion seat, so that the effect of convenient assembly and disassembly is achieved.

Description

Electronic device set and expansion seat

[ technical field ] A method for producing a semiconductor device

The present disclosure relates to docking stations, and particularly to an electronic device set and a docking station.

[ background of the invention ]

With the requirement of users for light weight of notebook computers, the number of external connectors of commercially available notebook computers is reduced in design, so as to reduce the number of electronic components inside the notebook computers, and make the notebook computers meet the requirement of light weight. When the user needs more external connectors during using the notebook computer, the expansion seat is additionally assembled to expand the number of the external connectors so as to meet the use requirement. In order to increase the reliability of the connection between the notebook computer and the docking station, a fixing structure is designed on the docking station and fixes the notebook computer through the fixing structure to prevent the notebook computer from separating from the docking station. However, the existing docking station still has room for improvement.

The present inventors have considered that the above-mentioned drawbacks can be improved, and have made intensive studies and use of scientific principles, and finally have proposed the present invention which is designed reasonably and effectively to improve the above-mentioned drawbacks.

[ summary of the invention ]

The present invention provides an electronic device set and an expansion seat, which can effectively overcome the possible defects of the existing expansion seat.

The embodiment of the invention discloses an expansion seat which is suitable for providing an electronic device, and the expansion seat comprises: a base plate; the two first pivoting seats are fixedly arranged on the bottom plate; each pushing and supporting piece is connected with each first pivoting seat and can rotate relative to the bottom plate through the first pivoting seat, and each pushing and supporting piece comprises a pushing and supporting part and a first connecting part; the second pivoting seat is fixedly arranged on the bottom plate; the clamping piece is connected with the second pivoting seat and can rotate relative to the bottom plate through the second pivoting seat; the clamping piece comprises an operation part, a clamping part and two second connecting parts; the clamping part is used for clamping with a device clamping part of the electronic device; the two second connecting parts and the two first connecting parts are fixed with each other; the operating part can be operated by a user so as to enable the clamping part to rotate relative to the bottom plate; when the clamping part rotates relative to the bottom plate, the clamping piece can link the two pushing pieces to rotate; one end of each spring is connected with each first pivoting seat, and the other end of each spring is fixed on the bottom plate; when the two pushing and abutting parts are pressed against each other and the two pushing and abutting pieces rotate relative to the base plate, the two pushing and abutting pieces are linked with the clamping piece, and the clamping piece linked by the two pushing and abutting pieces rotates relative to the base plate; the clamping part can be switched between a clamping position and a non-clamping position relative to the bottom plate; when the clamping part is positioned at the clamping position, the clamping part and the device clamping part are clamped with each other, and the elastic restoring force generated by the tension of the two springs keeps the clamping part at the clamping position; when the clamping part is positioned at the non-clamping position, the clamping part is not clamped with the device clamping part, and the elastic restoring force generated by the tension of the two springs keeps the clamping part at the clamping position.

Preferably, when the electronic device is disposed in the docking station and the engaging portion and the device engaging portion are engaged with each other, if the operating portion is operated and the engaging member rotates relative to the base plate, the two pushing members will be linked to rotate relative to the base plate, and the two pushing portions will push against the bottom of the electronic device; when the electronic device is arranged in the docking station, when the electronic device abuts against the two abutting parts and the two abutting parts rotate relative to the bottom plate, the clamping part is interlocked by the two abutting parts to rotate towards the direction close to the electronic device.

Preferably, each of the first pivoting bases includes: the first support is fixedly arranged on the bottom plate and comprises two first support walls, the two first support walls are arranged opposite to each other, and each first support wall is provided with a limiting groove; the two opposite ends of the first pivoting shaft are respectively pivoted with the limiting grooves of the two first supporting walls, the aperture of each limiting groove is larger than the outer diameter of the first pivoting shaft, and each first pivoting shaft can move in the two limiting grooves; each first pivot shaft and one end of each spring are fixed with each other; each pushing part is provided with two pushing walls, each pushing wall is provided with a closed guide groove and a protruding part, and the protruding part is positioned in the closed guide groove; each first pivot shaft penetrates through the two closed guide grooves of each pushing piece; when each pushing piece rotates relative to the bottom plate, each first pivoting shaft moves relative to the two closed guide grooves, and each first pivoting shaft passes through the protruding part in the process of moving relative to the two closed guide grooves; in the process that each first pivoting shaft moves relative to the two closed guide grooves and passes through the protruding parts, the first pivoting shafts move correspondingly to the limiting grooves, and the stretching amount of the spring is increased.

Preferably, the second pivot base has a second pivot shaft, the second pivot shaft has a shaft connecting portion, the engaging member has a fixing portion, and the fixing portion of the engaging member and the shaft connecting portion are detachably fixed to each other.

Preferably, each of the pushing pieces has an avoiding groove, the avoiding groove is located between the two pushing walls, and a part of each of the springs fixed to each of the first pivot shafts is correspondingly accommodated in the corresponding avoiding groove.

Preferably, the docking station further includes a lock head assembly, the lock head assembly includes a lock head and a limiting member, the lock head is fixed to the operating portion, the limiting member is connected to the lock head, and the limiting member can be driven by the lock head to change between a locking position and an unlocking position; when the limiting member is located at the locking position, the clamping member cannot rotate relative to the bottom plate; when the limiting part is located at the unlocking position, the clamping part can rotate relative to the bottom plate.

Preferably, the bottom plate is provided with a through hole and a limiting structure at a position corresponding to the operating part; when the limiting piece is located at the locking position, the limiting piece abuts against the limiting structure; when the limiting member is located at the unlocking position and the clamping member rotates relative to the expansion seat, the limiting member moves in the through hole.

The embodiment of the invention also discloses an electronic device group, which comprises: an electronic device; and an docking station adapted to provide an electronic device arrangement, the docking station comprising: a base plate; the two first pivoting seats are fixedly arranged on the bottom plate; each pushing and supporting piece is connected with each first pivoting seat and can rotate relative to the bottom plate through the first pivoting seat, and each pushing and supporting piece comprises a pushing and supporting part and a first connecting part; the second pivoting seat is fixedly arranged on the bottom plate; the clamping piece is connected with the second pivoting seat and can rotate relative to the bottom plate through the second pivoting seat; the clamping piece comprises an operation part, a clamping part and two second connecting parts; the clamping part is used for clamping with a device clamping part of the electronic device; the two second connecting parts and the two first connecting parts are fixed with each other; the operating part can be operated by a user so as to enable the clamping part to rotate relative to the bottom plate; when the clamping part rotates relative to the bottom plate, the clamping piece can link the two pushing pieces to rotate; one end of each spring is connected with each first pivoting seat, and the other end of each spring is fixed on the bottom plate; when the two pushing and abutting parts are pressed and the two pushing and abutting pieces rotate relative to the bottom plate, the two pushing and abutting pieces are linked with the clamping piece, and the clamping piece linked by the two pushing and abutting pieces rotates relative to the bottom plate; when the clamping part and the device clamping part are mutually clamped, the two springs are stretched; when the clamping parts are not mutually clamped with the device clamping parts, the two springs are stretched.

Preferably, when the electronic device is disposed in the docking station and the engaging portion and the device engaging portion are engaged with each other, if the operating portion is operated and the engaging member rotates relative to the base plate, the two pushing members will be linked to rotate relative to the base plate, and the two pushing portions will push against the bottom of the electronic device; when the electronic device is arranged in the docking station, when the electronic device abuts against the two abutting parts and the two abutting parts rotate relative to the bottom plate, the clamping part is interlocked by the two abutting parts to rotate towards the direction close to the electronic device.

Preferably, each of the first pivoting bases includes: the first support is fixedly arranged on the bottom plate and comprises two first support walls, the two first support walls are arranged opposite to each other, and each first support wall is provided with a limiting groove; the two opposite ends of the first pivoting shaft are respectively pivoted with the limiting grooves of the two first supporting walls, the aperture of each limiting groove is larger than the outer diameter of the first pivoting shaft, and each first pivoting shaft can move in the two limiting grooves; each first pivot shaft and one end of each spring are fixed with each other; each pushing part is provided with two pushing walls, each pushing wall is provided with a closed guide groove and a protruding part, and the protruding part is positioned in the closed guide groove; each first pivot shaft penetrates through the two closed guide grooves of each pushing piece; when each pushing piece rotates relative to the bottom plate, each first pivoting shaft moves relative to the two closed guide grooves, and each first pivoting shaft passes through the protruding part in the process of moving relative to the two closed guide grooves; in the process that each first pivoting shaft moves relative to the two closed guide grooves and passes through the protruding parts, the first pivoting shafts move correspondingly to the limiting grooves, and the stretching amount of the spring is increased.

Preferably, the second pivot base has a second pivot shaft, the second pivot shaft has a shaft connecting portion, the engaging member has a fixing portion, and the fixing portion of the engaging member and the shaft connecting portion are detachably fixed to each other.

Preferably, each of the pushing pieces has an avoiding groove, the avoiding groove is located between the two pushing walls, and a part of each of the springs fixed to each of the first pivot shafts is correspondingly accommodated in the corresponding avoiding groove.

Preferably, the docking station further includes a lock head assembly, the lock head assembly includes a lock head and a limiting member, the lock head is fixed to the operating portion, the limiting member is connected to the lock head, and the limiting member can be driven by the lock head to change between a locking position and an unlocking position; when the limiting member is located at the locking position, the clamping member cannot rotate relative to the bottom plate; when the limiting part is located at the unlocking position, the clamping part can rotate relative to the bottom plate.

Preferably, the bottom plate is provided with a through hole and a limiting structure at a position corresponding to the operating part; when the limiting piece is located at the locking position, the limiting piece abuts against the limiting structure; when the limiting member is located at the unlocking position and the clamping member rotates relative to the expansion seat, the limiting member moves in the through hole.

In summary, in the electronic device set and the docking station disclosed in the embodiments of the present invention, the operating portion of the docking station can drive the engaging portion to rotate relative to the bottom plate, so that the engaging member links the two pushing members to rotate, and a user can operate the engaging member to switch the engaging portion between the engaging position and the non-engaging position. Therefore, the user can operate the clamping piece to quickly detach the electronic device from the expansion seat or install the electronic device on the expansion seat, so that the electronic device set can achieve the effect of quick assembly and disassembly.

For a better understanding of the features and technical content of the present invention, reference should be made to the following detailed description and accompanying drawings, which are provided for purposes of illustration and description only and are not intended to limit the invention.

[ description of the drawings ]

Fig. 1 is a perspective view of an electronic device set according to a first embodiment of the invention.

Fig. 2 is a side view of fig. 1.

Fig. 3 is an exploded view of an electronic device set according to a first embodiment of the invention.

FIG. 4 is a cross-sectional view of the cross-section IV-IV of FIG. 3.

Fig. 5 is a schematic view illustrating a state of the bottom plate, the first pivot seat, the pushing member, the second pivot seat, the engaging member, and the spring of the electronic device assembly according to the first embodiment of the invention.

Fig. 6 is a schematic diagram illustrating a state of the bottom plate, the first pivot seat, the pushing member, the second pivot seat, the engaging member, and the spring of the electronic device set according to the first embodiment of the invention.

FIG. 7 is a schematic view illustrating a state of the engaging member of the electronic device set at the engaging position according to the first embodiment of the present invention.

FIG. 8 is a schematic view illustrating a state of the engaging member of the electronic device set at a non-engaging position according to the first embodiment of the present invention.

FIG. 9 is a schematic view illustrating another state of the engaging member of the electronic device set at the engaging position according to the first embodiment of the invention.

Fig. 10 is a schematic view illustrating a state of the bottom plate, the first pivot seat, the pushing member, the second pivot seat, the engaging member, and the spring of the electronic device set according to the second embodiment of the invention.

Fig. 11 is another view of fig. 10.

Fig. 12 is a schematic view illustrating a position-limiting member of an electronic device set according to a second embodiment of the invention in a locked position.

Fig. 13 is a schematic diagram illustrating a position of a limiting element of an electronic device set at an unlocking position according to a second embodiment of the invention.

[ detailed description ] embodiments

The embodiments of the present invention disclosed herein are described below with reference to specific embodiments, and those skilled in the art will understand the advantages and effects of the present invention from the disclosure of the present specification. The invention is capable of other and different embodiments and its several details are capable of modification and various other changes, which can be made in various details within the specification and without departing from the spirit and scope of the invention. The drawings of the present invention are for illustrative purposes only and are not intended to be drawn to scale. The following embodiments will further explain the related art of the present invention in detail, but the disclosure is not intended to limit the scope of the present invention.

It will be understood that, although the terms first, second, third, etc. may be used herein to describe various elements or signals, these elements or signals should not be limited by these terms. These terms are used primarily to distinguish one element from another element or from one signal to another signal. In addition, the term "or" as used herein should be taken to include any one or combination of more of the associated listed items as the case may be. Furthermore, the term "electrically coupled", as used herein, refers to one of "indirectly electrically connected" and "directly electrically connected".

As shown in fig. 1 to 9, which are first embodiments of the present invention, an electronic device assembly 1000 is disclosed in the present embodiment, where the electronic device assembly 1000 includes an electronic device 100 and an expansion base 200. Specifically, the electronic device 100 can be electrically connected to the docking station 200, and an external connector that can be used by the electronic device 100 can be extended through the docking station 200.

It should be noted that the electronic device 100 and the docking station 200 are defined as the electronic device set 1000 in the present embodiment. The present invention is not so limited. For example, in other embodiments not shown in the present disclosure, the docking station 200 may be used alone (e.g., sold) or in combination with other components. The following describes the structure of each element of the electronic device set 1000, and describes the connection relationship between the elements of the electronic device set 1000.

As shown in fig. 1 and 2, the electronic device 100 is detachably fixed to the docking station 200. Specifically, the electronic device 100 is a notebook computer (laptop) in the embodiment, but the invention is not limited to the laptop. For example, in other embodiments of the present invention not shown in the drawings, the electronic device 100 may also be a tablet computer. The electronic device 100 is substantially rectangular and has two long sides and two short sides, one of the long sides of the electronic device 100 has a handle 110 and a device engaging portion 120, a user can fix the electronic device 100 on the docking station 200 through the device engaging portion 120, and the handle 110 can be used for the user to pick up the electronic device 100.

Referring to fig. 2 to 4, the docking station 200 includes a housing 220, a bottom plate 210 disposed in the housing 220, two first pivot seats 230 disposed on the bottom plate 210, two pushing members 240 respectively connected to the two first pivot seats 230, a second pivot seat 250 disposed on the bottom plate 210, a locking member 260 connected to the second pivot seat 250, two springs 270 connecting the first pivot seats 230 and the bottom plate 210, and an electronic docking member (not shown) disposed between the housing 220.

The housing 220 includes two auxiliary fixing structures 221 and a plurality of protrusions 222. Specifically, the housing 220 has a narrow portion 223 and a wide portion 224, two auxiliary fixing structures 221 are disposed on the wide portion 224 of the housing 220, and the two auxiliary fixing structures 221 are disposed at a distance from each other. The housing 220 is provided with a plurality of the protrusions 222 at the wide portion 224, and each of the protrusions 222 is raised with respect to a mounting surface 2241 of the wide portion 224 such that each of the protrusions 222 is higher than the mounting surface 2241 of the wide portion 224.

In other words, when the electronic device 100 is disposed in the housing 220, the electronic device 100 correspondingly abuts against the two bumps 222, so that a heat dissipation gap HS (as shown in fig. 2) is formed between the electronic device 100 and the installation surface 2241 of the wide portion 224, and the electronic device 100 can obtain a better heat dissipation effect through the heat dissipation gap HS.

As shown in fig. 3, the narrow portion 223 of the housing 220 further has a groove 2231. Specifically, the groove 2231 is U-shaped and disposed around the narrow portion 223, and the groove 2231 communicates with the heat dissipation gap HS. Accordingly, when the electronic device 100 is disposed in the housing 220, the groove 2231 can be used for a user to insert between the electronic device 100 and the housing 220, so that the user can conveniently hold the electronic device 100.

Referring to fig. 4 to 6, the bottom plate 210 is disposed in an accommodating space 225 of the housing 220. The two first pivot bases 230 are respectively fixed to the bottom plate 210. Specifically, the two first pivot bases 230 are disposed at an interval on one side of the bottom plate 210 corresponding to the narrow portion 223 and located in the accommodating space 225.

As shown in fig. 5 and 6, each of the first pivot bases 230 includes a first bracket 231 and a first pivot shaft 232. Specifically, the first brackets 231 are fixedly disposed on the base plate 210 at intervals. Each of the first brackets 231 has two first supporting walls 2311, and the two first supporting walls 2311 are disposed to face each other and each have a stopper groove 2312.

Each of the first pivot shafts 232 is disposed on the corresponding first bracket 231, wherein opposite ends of each of the first pivot shafts 232 are respectively pivoted to the corresponding limiting grooves 2312 of the two first supporting walls 2311. The aperture of each of the limiting grooves 2312 is larger than the outer diameter of the first pivot shaft 232, and each of the first pivot shafts 232 can move in the two limiting grooves 2312.

Each of the pushing parts 240 is connected to each of the first pivot bases 230, and each of the pushing parts 240 can rotate relative to the base plate 210 through the first pivot base 230. That is, the two pushing components 240 are connected to the two first pivot bases 230 one by one.

Further, each of the pushing elements 240 is a block structure in the embodiment, and has a body 241, two pushing walls 242 connecting the body 241, an avoiding groove 243 located between the two pushing walls 242, a pushing portion 244 located on the top surface of the body 241, and a first connecting portion 245 located on one side of the body 241.

As shown in fig. 6 to 8, each of the pushing walls 242 has a closed guide groove 2421 and a protruding portion 2422, the protruding portion 2422 is located in the closed guide groove 2421, and each of the first pivot shafts 232 is disposed through the two closed guide grooves 2421 of each of the pushing elements 240, so that each of the pushing elements 240 can rotate relative to the base plate 210. In detail, when each of the pushing-against parts 240 rotates relative to the bottom plate 210, each of the first pivoting shafts 232 will move relative to the two closed guide grooves 2421, and each of the first pivoting shafts 232 will pass through the protruding part 2422 during the movement relative to the two closed guide grooves 2421. During the process that each of the first pivot shafts 232 moves relative to the two closed guide grooves 2421 and passes through the protrusions 2422, the first pivot shafts 232 move in the limiting grooves 2312 corresponding to the first pivot bases 230.

Referring to fig. 5 and 6 again, the second pivot base 250 is fixedly disposed on the bottom plate 210. Specifically, the second pivot bases 250 are disposed at an interval on one side of the bottom plate 210 corresponding to the narrow portion 223 and located in the accommodating space 225. The second pivot base 250 has a second pivot shaft 251, and the second pivot shaft 251 has a shaft connecting portion 252.

The engaging member 260 is connected to the second pivot base 250 and can rotate relative to the base plate 210 through the second pivot base 250. Specifically, the engaging member 260 is partially exposed outside the casing 220, and the engaging member 260 includes a fixing portion 261, an operating portion 262, an engaging portion 263 and two second connecting portions 264.

The fixing portion 261 is formed on the side of the engaging piece 260 facing the base plate 210, and the engaging piece 260 is detachably fixed to the shaft connecting portion 252 by the fixing portion 261. The operating portion 262 and the engaging portion 263 are integrally formed on the other side of the engaging piece 260 away from the fixing portion 261. That is, the engaging portion 263 and the operating portion 262 are protruded toward a side away from the bottom plate 210, and the engaging portion 263 is higher than the top surface of the narrow portion 223 (as shown in fig. 4). The engaging portion 263 is used to engage with the device engaging portion 120 of the electronic device 100.

As shown in fig. 7 and 8, the two second connecting portions 264 and the two first connecting portions 245 are fixed to each other. The operation portion 262 can be operated by a user to rotate the engaging portion 263 relative to the bottom plate 210. When the engaging portion 263 rotates relative to the bottom plate 210, the engaging member 260 will couple the two pushing members 240 to rotate.

One end of each of the springs 270 is connected to each of the first pivot bases 230, and the other end of each of the springs 270 is fixed to the base plate 210. Specifically, the two springs 270 are extension springs in the present embodiment, one end of each spring 270 is fixed to the corresponding first pivot shaft 232 of the first pivot seat 230, the other end of each spring 270 is fixed to a fixing plate 211 of the base plate 210, and a portion of each spring 270 is correspondingly received in the corresponding avoiding groove 243 (as shown in fig. 5).

In addition, during the process that each of the first pivot shafts 232 moves relative to the two closed guide grooves 2421 and passes through the protrusions 2422, the first pivot shafts 232 move correspondingly in the limiting grooves 2312, and the stretching amount of each of the springs 270 increases again (as shown in fig. 7 and 8).

In addition, the docking station 200 is provided with an electronic expansion piece (not shown) in the accommodating space 225, and the electronic expansion piece can be electrically connected with the electronic device 100 and is used for electrically connecting other devices. It should be noted that the manner of disposing the electronic expansion piece in the accommodating space 225 is a known technique in the art and is not a key point of the present application, so the details thereof are not described in detail herein.

The docking station 200 enables the electronic device 100 to be assembled to the docking station 200 or disassembled from the docking station 200 through the connection relationship among the bottom plate 210, the casing 220, the two first pivot seats 230, the two pushing members 240, the second pivot seats 250, the engaging members 260, and the two springs 270, and how to achieve the above-mentioned purpose will be described below.

As shown in fig. 7 and 8, the engaging portion 263 can be switched between an engaging position a and a non-engaging position B with respect to the bottom plate 210, so that the electronic device 100 can be assembled to the dock 200 or disassembled from the dock 200. Specifically, as shown in fig. 7 and 9, when the engaging portion 263 is located at the engaging position a, the engaging portion 263 and the device engaging portion 120 of the electronic device 100 are engaged with each other, and the elastic restoring force generated by the two springs is pulled to maintain the engaging portion 263 at the engaging position a.

When the engaging portion 263 is located at the non-engaging position B as shown in fig. 4 and 8, the engaging portion 263 is not engaged with the device engaging portion 120, and the elastic restoring force generated by the two springs 270 maintains the engaging portion 263 at the engaging position a.

It should be noted that, in the process that the engaging portion 263 moves between the engaging position a and the non-engaging position B, when the two first pivot shafts 232 move along the corresponding closed guide grooves 2421 and pass through the corresponding protrusions 2422, the stretching amount of the corresponding springs 270 increases again, and the protrusions 2422 can cooperate with the two springs 270 to force the two first pivot shafts 232 to move to one end of the closed guide grooves 2421. That is, the engagement portion 263 can be forcibly maintained at the engagement position a or the non-engagement position B by the arrangement relationship between the protrusion 2422 and the two springs 270.

Stated another way, when the electronic device 100 is disposed on the docking station 200 and the engaging portion 263 and the device engaging portion 120 are engaged with each other, if the operating portion 262 is operated and the engaging member 260 rotates relative to the bottom plate 210, the two pushing members 240 will be linked to rotate relative to the bottom plate 210, and the two pushing portions 244 will push against the bottom of the electronic device 100. That is, when the user presses (operates) the operation portion 262, the engaging member 260 moves to the non-engaging position, so that the docking station is no longer fixed (engaged) with the electronic device 100, and at the same time, the two pushing portions 244 push against the bottom of the electronic device 100, so that the electronic device 100 is bounced relative to the housing 220, and the user can conveniently take the electronic device 100.

In the process of disposing the electronic device 100 on the docking station 200, when the electronic device 100 presses the two pushing parts 244 and the two pushing parts 240 rotate relative to the bottom plate, the engaging part 263 is linked by the two pushing parts 240 to rotate in a direction approaching to the electronic device 100. That is to say, when the electronic device 100 is placed on the docking station 200, a user can apply an external force to the electronic device 100 in the direction of the docking station 200, so that the bottom of the electronic device 100 pushes against the pushing portions 244 of the two pushing members 240, and the engaging portion 263 of the engaging member 260 and the device engaging portion 120 of the electronic device 100 are engaged with each other, so that the electronic device 100 is fixed on the docking station 200.

As shown in fig. 10 to 13, which are second embodiments of the present invention, the present embodiment is similar to the first embodiment, and the same points of the two embodiments are not repeated, but the differences of the present embodiment compared to the first embodiment mainly lie in:

as shown in fig. 10 and 11, the docking station 200 further includes a locking assembly 280. The locking head assembly 280 includes a locking head 281 and a limiting member 282, the locking head 281 is fixed to the operating portion 262, the limiting member 282 is connected to the locking head 281, and the limiting member 282 can be driven by the locking head 281 to change between a locking position C (as shown in fig. 12) and an unlocking position D (as shown in fig. 13). In detail, referring to fig. 12, when the limiting member 282 is located at the locking position C, the engaging member 260 cannot rotate relative to the bottom plate 210, so that the operating portion 262 of the engaging member 260 cannot be operated. As shown in fig. 13, when the limiting member 282 is located at the unlocking position D, the engaging member 260 can rotate relative to the bottom plate 210.

That is, the electronic device set 1000 of the second embodiment further has the effect of preventing the electronic device 100 from being arbitrarily detached from the docking station 200 by an unauthorized person. The connection relationship between the lock cylinder assembly 280, the base plate 210 and the engaging member 260 will be described below.

Referring to fig. 11, the bottom plate 210 has a through hole 212 and a limiting structure 213 at a position corresponding to the operating portion 262. Specifically, the limiting structure 213 extends toward the outside of the base 210 to form two limiting ribs 2131, and the through hole 212 is located between the two limiting ribs 2131. The two ends of the limiting member 282 have two abutting walls 2821. Specifically, as shown in fig. 12, when the limiting member 282 is located at the unlocking position D and the engaging member 260 rotates relative to the docking station 200, the two abutting walls of the limiting member 282 are disposed parallel to the extending direction of the two limiting ribs 2131, so that the limiting member 282 can move in the through hole 212, and the engaging member 260 can rotate relative to the base plate 210. As shown in fig. 13, when the limiting member 282 is located at the locking position C, the two abutting walls 2821 of the limiting member 282 abut against top surfaces of the two limiting ribs 2131 of the limiting structure 213, so that the engaging member 260 cannot rotate relative to the base plate 210.

In summary, in the electronic device set 1000 and the docking station 200 disclosed in the embodiments of the present invention, the operating portion 262 of the docking station 200 can drive the engaging portion 263 to rotate relative to the bottom plate 210, so that the engaging member 260 can drive the two pushing members 240 to rotate, and a user can operate the engaging member 260 to switch the engaging portion 263 between the engaging position a and the non-engaging position B. Accordingly, a user can operate the engaging member 260 to quickly detach the electronic device 100 from the docking station 200 or mount the electronic device on the docking station 200, so that the electronic device assembly 1000 of the present invention can achieve the effects of quick assembly and disassembly.

The disclosure is only a preferred embodiment of the invention and should not be taken as limiting the scope of the invention, so that the invention is not limited by the disclosure of the specification and drawings.

Claims (14)

1. An docking station adapted for an electronic device, the docking station comprising:

a base plate;

the two first pivoting seats are fixedly arranged on the bottom plate;

each pushing and supporting piece is connected with each first pivoting seat and can rotate relative to the bottom plate through the first pivoting seat, and each pushing and supporting piece comprises a pushing and supporting part and a first connecting part;

the second pivoting seat is fixedly arranged on the bottom plate;

the clamping piece is connected with the second pivoting seat and can rotate relative to the bottom plate through the second pivoting seat; the clamping piece comprises an operation part, a clamping part and two second connecting parts; the clamping part is used for clamping with a device clamping part of the electronic device; the two second connecting parts and the two first connecting parts are fixed with each other; the operating part can be operated by a user so as to enable the clamping part to rotate relative to the bottom plate; when the clamping part rotates relative to the bottom plate, the clamping piece can link the two pushing pieces to rotate;

one end of each spring is connected with each first pivoting seat, and the other end of each spring is fixed on the bottom plate;

when the two pushing and abutting parts are pressed against each other and the two pushing and abutting pieces rotate relative to the base plate, the two pushing and abutting pieces are linked with the clamping piece, and the clamping piece linked by the two pushing and abutting pieces rotates relative to the base plate;

the clamping part can be switched between a clamping position and a non-clamping position relative to the bottom plate; when the clamping part is positioned at the clamping position, the clamping part and the device clamping part are clamped with each other, and the elastic restoring force generated by the tension of the two springs keeps the clamping part at the clamping position; when the clamping part is positioned at the non-clamping position, the clamping part is not clamped with the device clamping part, and the elastic restoring force generated by the tension of the two springs keeps the clamping part at the clamping position.

2. The docking station as claimed in claim 1, wherein when the electronic device is disposed in the docking station and the engaging portion and the device engaging portion are engaged with each other, if the operating portion is operated and the engaging member rotates relative to the base plate, the two pushing members will be linked to rotate relative to the base plate, and the two pushing members will push against the bottom of the electronic device; when the electronic device is arranged in the docking station, when the electronic device abuts against the two abutting parts and the two abutting parts rotate relative to the bottom plate, the clamping part is interlocked by the two abutting parts to rotate towards the direction close to the electronic device.

3. The docking station as recited in claim 1, wherein each of the first pivoting stations comprises:

the first support is fixedly arranged on the bottom plate and comprises two first support walls, the two first support walls are arranged opposite to each other, and each first support wall is provided with a limiting groove;

the two opposite ends of the first pivoting shaft are respectively pivoted with the limiting grooves of the two first supporting walls, the aperture of each limiting groove is larger than the outer diameter of the first pivoting shaft, and each first pivoting shaft can move in the two limiting grooves; each first pivot shaft and one end of each spring are fixed with each other;

each pushing part is provided with two pushing walls, each pushing wall is provided with a closed guide groove and a protruding part, and the protruding part is positioned in the closed guide groove; each first pivot shaft penetrates through the two closed guide grooves of each pushing piece;

when each pushing piece rotates relative to the bottom plate, each first pivoting shaft moves relative to the two closed guide grooves, and each first pivoting shaft passes through the protruding part in the process of moving relative to the two closed guide grooves; in the process that each first pivoting shaft moves relative to the two closed guide grooves and passes through the protruding parts, the first pivoting shafts move correspondingly to the limiting grooves, and the stretching amount of the spring is increased.

4. The docking station as claimed in claim 3, wherein the second pivot seat has a second pivot shaft, the second pivot shaft has a shaft connecting portion, the engaging member has a fixing portion, and the fixing portion of the engaging member and the shaft connecting portion are detachably fixed to each other.

5. The docking station according to claim 3, wherein each of the urging members has an avoiding groove, the avoiding groove is located between the two urging walls, and a portion of each of the springs fixed to each of the first pivot shafts is received in the corresponding avoiding groove.

6. The docking station as claimed in claim 1, wherein the docking station further comprises a locking head assembly, the locking head assembly comprises a locking head and a limiting member, the locking head is fixed to the operating portion, the limiting member is connected to the locking head, the limiting member can be moved by the locking head to change between a locking position and an unlocking position; when the limiting member is located at the locking position, the clamping member cannot rotate relative to the bottom plate; when the limiting part is located at the unlocking position, the clamping part can rotate relative to the bottom plate.

7. The docking station as claimed in claim 6, wherein the bottom plate has a through hole and a position-limiting structure corresponding to the operation portion; when the limiting piece is located at the locking position, the limiting piece abuts against the limiting structure; when the limiting member is located at the unlocking position and the clamping member rotates relative to the expansion seat, the limiting member moves in the through hole.

8. An electronic device set, comprising:

an electronic device; and

an docking station adapted to provide an electronic device arrangement, the docking station comprising:

a base plate;

the two first pivoting seats are fixedly arranged on the bottom plate;

each pushing and supporting piece is connected with each first pivoting seat and can rotate relative to the bottom plate through the first pivoting seat, and each pushing and supporting piece comprises a pushing and supporting part and a first connecting part;

the second pivoting seat is fixedly arranged on the bottom plate;

the clamping piece is connected with the second pivoting seat and can rotate relative to the bottom plate through the second pivoting seat; the clamping piece comprises an operation part, a clamping part and two second connecting parts; the clamping part is used for clamping with a device clamping part of the electronic device; the two second connecting parts and the two first connecting parts are fixed with each other; the operating part can be operated by a user so as to enable the clamping part to rotate relative to the bottom plate; when the clamping part rotates relative to the bottom plate, the clamping piece can link the two pushing pieces to rotate; and

one end of each spring is connected with each first pivoting seat, and the other end of each spring is fixed on the bottom plate;

when the two pushing and abutting parts are pressed and the two pushing and abutting pieces rotate relative to the bottom plate, the two pushing and abutting pieces are linked with the clamping piece, and the clamping piece linked by the two pushing and abutting pieces rotates relative to the bottom plate;

when the clamping part and the device clamping part are mutually clamped, the two springs are stretched; when the clamping parts are not mutually clamped with the device clamping parts, the two springs are stretched.

9. The electronic device set as claimed in claim 8, wherein when the electronic device is disposed in the docking station and the engaging portion and the device engaging portion are engaged with each other, if the operating portion is operated and the engaging member rotates relative to the base plate, the two pushing members will be linked to rotate relative to the base plate, and the two pushing portions will push against the bottom of the electronic device; when the electronic device is arranged in the docking station, when the electronic device abuts against the two abutting parts and the two abutting parts rotate relative to the bottom plate, the clamping part is interlocked by the two abutting parts to rotate towards the direction close to the electronic device.

10. The electronic device set according to claim 8, wherein each of the first pivoting bases comprises:

the first support is fixedly arranged on the bottom plate and comprises two first support walls, the two first support walls are arranged opposite to each other, and each first support wall is provided with a limiting groove;

the two opposite ends of the first pivoting shaft are respectively pivoted with the limiting grooves of the two first supporting walls, the aperture of each limiting groove is larger than the outer diameter of the first pivoting shaft, and each first pivoting shaft can move in the two limiting grooves; each first pivot shaft and one end of each spring are fixed with each other;

each pushing part is provided with two pushing walls, each pushing wall is provided with a closed guide groove and a protruding part, and the protruding part is positioned in the closed guide groove; each first pivot shaft penetrates through the two closed guide grooves of each pushing piece;

when each pushing piece rotates relative to the bottom plate, each first pivoting shaft moves relative to the two closed guide grooves, and each first pivoting shaft passes through the protruding part in the process of moving relative to the two closed guide grooves; in the process that each first pivoting shaft moves relative to the two closed guide grooves and passes through the protruding parts, the first pivoting shafts move correspondingly to the limiting grooves, and the stretching amount of the spring is increased.

11. The electronic device set as claimed in claim 10, wherein the second pivot base has a second pivot shaft, the second pivot shaft has a shaft connecting portion, the engaging member has a fixing portion, and the fixing portion of the engaging member and the shaft connecting portion are detachably fixed to each other.

12. The electronic device set according to claim 10, wherein each of the urging members has an avoiding groove, the avoiding groove is located between two of the urging walls, and a portion of each of the springs fixed to each of the first pivot shafts is received in the corresponding avoiding groove.

13. The set of electronic devices of claim 8, wherein the docking station further comprises a locking head assembly, the locking head assembly comprises a locking head and a limiting member, the locking head is fixed to the operating portion, the limiting member is connected to the locking head, and the limiting member can be moved by the locking head to change between a locking position and an unlocking position; when the limiting member is located at the locking position, the clamping member cannot rotate relative to the bottom plate; when the limiting part is located at the unlocking position, the clamping part can rotate relative to the bottom plate.

14. The electronic device set according to claim 13, wherein the bottom plate has a through hole and a position-limiting structure at a position corresponding to the operation portion; when the limiting piece is located at the locking position, the limiting piece abuts against the limiting structure; when the limiting member is located at the unlocking position and the clamping member rotates relative to the expansion seat, the limiting member moves in the through hole.

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