CN113704155A

CN113704155A - Docking station with camera

Info

Publication number: CN113704155A
Application number: CN202110951127.1A
Authority: CN
Inventors: 黎琴
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-18
Filing date: 2021-08-18
Publication date: 2021-11-26

Abstract

The invention relates to a docking station with a camera, which comprises a cylindrical shell, a supporting unit, a connecting unit, a control panel, an interface unit and a camera shooting unit, wherein the cylindrical shell is of a cylindrical structure with an opening at the upper end; the invention can solve the problems existing in the process that the desktop computer simultaneously uses the docking station and the camera: the planar space on the table top occupied by the camera and the docking station is large; the external device is easily not connected with the docking station due to the long distance between the external device and the docking station; the connection port is easy to enter dust when not in use; when water or beverage is sprinkled on the table-board, the water or beverage is easy to flow into the docking station without a base, and the like.

Description

Docking station with camera

Technical Field

The invention relates to the field of docking stations, in particular to a docking station with a camera.

Background

A docking station, also called a port replicator, is an external device of a computer. By copying or even expanding the port of the computer, the computer can be connected with a plurality of accessories or external devices (such as a power adapter, a network cable, a mouse, an external keyboard, a printer and an external display) at the same time. The conventional docking station is generally designed for a notebook computer, and the notebook computer basically has a camera shooting function, so the conventional docking station generally does not have the camera shooting function, but a docking station and a camera need to be connected under the condition that the conventional desktop computer needs the camera shooting function while using the docking station, so the following problems generally exist in the process of simultaneously using the docking station and the camera by the desktop computer.

1. Not only need place docking station but also need place the camera on the mesa, the area on the shared mesa when having increased its use, and the data line on the docking station also takes place the winding with the data line on the camera easily.

2. The length of the data line of the existing docking station and the camera is fixed, the connecting port in the docking station cannot extend outwards, and under some specific use environments, external equipment cannot be connected with the docking station easily due to the fact that the external equipment is far away from the docking station, so that the applicability of the docking station is reduced.

3. The connection port on the docking station is easily contaminated by dust due to its non-protection when not in use, so that the connection port is easily blocked by dust, and the sensitivity of the connection port is also affected, thereby reducing the service life of the docking station.

4. The existing docking station is usually placed on a table directly when in use, and water or beverage spills on the table easily flow into the docking station, so that the common docking station without a base is easy to damage the docking station and external connection equipment thereof due to water inflow.

Disclosure of Invention

In order to solve the problems, the invention provides a docking station with a camera, which comprises a cylindrical shell, a supporting unit, a connecting unit, a control panel, an interface unit and a camera unit, wherein the cylindrical shell is of a cylindrical structure with an opening at the upper end, the supporting unit is arranged on the lower end surface of the cylindrical shell, an installation groove and a control groove are sequentially formed between the lower end surface and the lower side wall of the cylindrical shell from bottom to top, the connecting unit is arranged in the installation groove, the control panel is arranged in the control groove, the interface unit is arranged on the outer side surface of the cylindrical shell, and the camera unit is arranged in the upper end of the cylindrical shell.

The interface unit comprises a joint groove, a first semicircular rod, a first data line, an L-shaped line passing groove, a first soft steel bar, a rectangular seat, a connecting component, a connecting port and an opening and closing component, wherein the outer side surface of a cylindrical shell is uniformly provided with the joint grooves distributed in an annular manner, the upper end of the joint groove is of a circular structure, the first semicircular rods are symmetrically arranged between two sides of the middle part of the upper end of the joint groove, a strip-shaped first data line is arranged between the first semicircular rods, the data line is wound on the outer side surfaces of the first two semicircular rods, the L-shaped line passing groove is formed in one side, positioned at the upper end of the first semicircular rod, of the upper end of the joint groove, the lower end of the L-shaped line passing groove is communicated with the control groove, the end, positioned between the first semicircular rods, of the data line penetrates through the L-shaped line passing groove and is connected with the control panel, the first soft steel bar is coated on the first data line wound on the outer side surface of the first semicircular rods, one end of the first soft steel bar is connected with the first semicircular rod, the other end of the first soft steel bar is positioned in the middle part of the first data line, the outer side end of the first data line is connected with a rectangular seat located on the lower side of the joint groove, the side face of the rectangular seat is attached to the side wall of the joint groove, a connecting assembly is arranged at the upper end of the rectangular seat, a connecting port connected with the first data line is formed in the lower end of the rectangular seat, and an opening and closing assembly is arranged on one side, close to the outer side face of the cylindrical shell, of the upper side wall of the joint groove.

The camera shooting unit comprises a limiting chute, a limiting assembly, a lifting sliding plate, a lifting circular plate, a rotating circular seat, a camera, supporting side plates, a circular top plate, a plate pinching groove and a sealing ring, wherein the limiting chute is symmetrically arranged on the inner wall of the upper end of the cylindrical shell, the limiting assembly is arranged on the side wall of the opposite side of the limiting chute, the lifting sliding plate is arranged in the limiting chute in a way of up-and-down sliding fit, the two lifting sliding plates are connected through the lifting circular plate, the rotating circular seat is arranged at the upper end of the lifting circular plate in a way of rotating fit, the camera is arranged in the middle of the upper end of the rotating circular seat, the supporting side plates are symmetrically arranged on the upper end surface of the rotating circular seat and the part far away from the camera, the upper ends of the supporting side plates at the left side and the right side are connected through the circular top plate, the plate pinching groove is symmetrically arranged in the middle of the upper end of the circular top plate, and the sealing ring made of rubber is arranged on the outer side surface of the circular top plate, the distance between the upper end face of the circular top plate and the lower end face of the lifting circular plate is equal to the distance between the lower side wall and the upper end face of the cylindrical shell.

As a preferred technical scheme of the invention, the connecting component comprises a reset tension spring rod, a mounting transverse plate, a dovetail slide block, a bidirectional tension spring rod, an L-shaped plate and a semicircular groove, the upper end of the rectangular seat is provided with the transverse plate groove, and tension spring grooves are symmetrically arranged in the transverse plate groove, a reset tension spring rod is arranged in the tension spring groove, the telescopic ends of the reset tension spring rod are connected through the mounting transverse plate, the installation transverse plate is positioned in the transverse plate groove, a dovetail groove is arranged on one side surface of the installation transverse plate close to the opening and closing assembly, dovetail slide blocks are symmetrically arranged in the dovetail groove in a sliding fit mode and are connected through a bidirectional tension spring rod, the fixed end of the bidirectional tension spring rod is connected with the installation transverse plate, the lower end of the dovetail slide block is oppositely provided with an L-shaped plate, and the opposite side surfaces of the lower end of the L-shaped plate are provided with semicircular grooves, and two adjacent semicircular grooves are oppositely arranged.

As a preferred technical scheme of the invention, the opening and closing assembly comprises a torsion spring groove, an installation rod, a torsion spring, an arc-shaped cover plate, a clamping line protrusion, a mark and a buckling plate groove, wherein the torsion spring groove is formed in one side of the upper side wall of the joint groove, which is close to the outer side surface of the cylindrical shell, the torsion spring is arranged in the torsion spring groove through the installation rod, the arc-shaped cover plate is arranged at the lower end of the torsion spring, the clamping line protrusion is arranged at the lower end of the arc-shaped cover plate, a clamping line groove corresponding to the clamping line protrusion is formed in the lower side wall of the joint groove, the clamping line protrusion is positioned in the clamping line groove, the mark corresponding to the model of the adjacent connecting port is arranged on one side of the arc-shaped cover plate, which is far away from the inner wall of the cylindrical shell, and the fan-shaped buckling plate groove is formed at the lower end of the mark.

As a preferred technical scheme of the invention, the limiting assembly comprises a cross plate, a limiting pressure spring rod and antifriction balls, a cross groove is formed between the side wall of the opposite side of the limiting sliding groove and the outer side surface of the cylindrical shell in a penetrating mode, the cross plate is arranged in the cross groove in a sliding fit mode, the opposite side surface of the cross plate is of a triangular pyramid structure, the upper end and the lower end of the middle part of the cross plate and one side close to the outer side surface of the cylindrical shell are connected with the side wall of the cross groove through the limiting pressure spring rod, and the antifriction balls for reducing friction force are arranged at one end of the lifting sliding plate, which is far away from the lifting circular plate.

As a preferred technical scheme of the invention, the upper end of the cylindrical shell is symmetrically provided with mounting blocks, opposite side surfaces of the mounting blocks are respectively provided with a pressing spring rod, a telescopic end of the pressing spring rod is provided with a limiting ball for limiting, and the outer side surface of the rotary round seat is uniformly provided with a hemispherical groove corresponding to the limiting ball.

As a preferred technical scheme of the invention, the supporting unit comprises supporting legs, supporting plates and rubber pads, a plurality of obliquely arranged supporting legs are annularly arranged on the lower end face of the cylindrical shell, the supporting plates for increasing the contact area are arranged at the lower ends of the supporting legs, the rubber pads are arranged on the lower end faces of the supporting plates, saw-tooth grooves for preventing skidding are arranged in the middle of the lower end faces of the rubber pads, and saw-tooth grooves which are vertically distributed with the saw-tooth grooves in the middle are arranged on two sides of the lower end faces of the rubber pads.

As a preferred technical scheme of the invention, the connecting unit comprises a second half-round rod, a second data line, a second soft steel strip, a USB joint, a limiting rotating rod and a dustproof assembly, the second half-round rod is symmetrically arranged between the upper wall and the lower wall of the mounting groove, the second strip-shaped data line is arranged between the second half-round rods and is wound on the outer side surfaces of the two second half-round rods, a connecting through groove is formed in the middle of the upper side wall of the mounting groove, the end head of the second data line, which is positioned between the second half-round rods, upwards penetrates through the connecting through groove and is connected with the control panel, the second soft steel strip is coated on the second data line wound on the outer side surfaces of the two half-round rods, one end of the second soft steel strip is connected with the second half-round rods, the other end of the second soft steel strip is positioned in the middle of the second data line, the USB joint is arranged on the end head of the outer side of the second data line, the limiting rotating rod is symmetrically arranged at the connecting position of the USB joint and the second data line between the upper side wall and the lower side wall of the mounting groove in a rotating fit manner, and a dustproof assembly corresponding to the USB joint is arranged on the side wall of the mounting groove.

According to a preferred technical scheme, the dustproof assembly comprises an arc-shaped baffle, a limiting baffle, clamping blocks, magnet blocks and a fan-shaped buckle groove, an arc-shaped through groove corresponding to the position of a USB connector is formed between the side wall of the mounting groove and the outer side surface of the cylindrical shell, an arc-shaped chute is formed in the right side wall of the arc-shaped through groove, the arc-shaped baffle is arranged in the arc-shaped chute in a sliding fit mode, the limiting baffle is arranged on the front side of one end, close to the arc-shaped through groove, of the arc-shaped baffle, the clamping blocks made of magnet materials are symmetrically arranged on the left side of the limiting baffle up and down, the distance between the clamping blocks on the upper side and the lower side is larger than the height of a data line II, the magnet blocks are arranged on the left side wall of the arc-shaped through groove, the clamping grooves corresponding to the clamping blocks are symmetrically formed in the upper side and the lower side of the magnet blocks, and the fan-shaped buckle groove is formed in the middle of the right side of the magnet blocks.

The invention has the beneficial effects that: the docking station can be connected with an external storage device through the interface unit, and the camera shooting unit has a camera shooting function, so that the functions of the docking port and the camera shooting function can be met under the condition that the docking station and the camera are not required to be placed, the occupied plane space on the table top is reduced, and the problem that a data line of the docking station is wound with a data line of the camera is avoided.

The connector connected with the computer can be folded and unfolded in an adjustable length through the connecting unit, and the connecting port can be folded and unfolded in an adjustable length through the interface unit, so that the problem that external equipment cannot be connected with the docking station due to the fact that the external equipment is far away from the docking station is solved, and the applicability of the connector is improved.

The connection port which is not in the use state can be sealed through the opening and closing assembly, and the USB joint which is not in the use state can be sealed through the dustproof assembly, so that dust can be prevented from entering the connection port and the inside of the USB joint, the problems that the connection port of the docking station is blocked by the dust and the sensitivity of the connection port is influenced are solved, and the service lives of the connection port and the USB joint are prolonged.

The distance between the round shell cylinder and the table top can be increased through the supporting units, water or beverage can flow through the supporting legs when being sprinkled on the table top and cannot flow into the round shell cylinder, and damage to the docking station and external connecting equipment caused by water inflow in the docking station is avoided.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view (viewed from below to above) of the present invention.

Fig. 3 is a schematic view of the structure between the connection unit and the cylindrical shell of the present invention.

Fig. 4 is a partial structural schematic diagram of the present invention.

Fig. 5 is a schematic diagram of the structure at a in fig. 4 according to the present invention.

Fig. 6 is a schematic diagram of the structure at B in fig. 4 according to the present invention.

Fig. 7 is a schematic diagram of the structure at C in fig. 4 according to the present invention.

Fig. 8 is a schematic structural view between the interface unit and the cylindrical shell of the present invention.

In the figure: 1. a cylindrical shell; 2. a support unit; 3. a connection unit; 4. a control panel; 5. an interface unit; 6. an image pickup unit; 21. supporting legs; 22. a support plate; 23. a rubber pad; 31. a second half-round rod; 32. a second data line; 33. a second mild steel strip; 34. a USB connector; 35. a limiting rotating rod; 36. a dust-proof assembly; 361. an arc-shaped baffle plate; 362. a limit baffle; 363. a clamping block; 364. a magnet block; 365. a fan-shaped buckle slot; 51. a joint groove; 52. a first semicircular rod; 53. a first data line; 54. an L-shaped wire passing groove; 55. a first soft steel strip; 56. a rectangular base; 57. a connecting assembly; 58. a connection port; 59. an opening and closing assembly; 571. a reset tension spring rod; 572. installing a transverse plate; 573. a dovetail slide block; 574. a bidirectional tension spring rod; 575. an L-shaped plate; 576. a semicircular groove; 591. a torsion spring groove; 592. mounting a rod; 593. a torsion spring; 594. an arc-shaped cover plate; 595. a wire clamping bulge; 596. identifying; 597. a buckle plate groove; 61. a limiting chute; 62. a limiting component; 63. a lifting slide plate; 64. a lifting circular plate; 65. rotating the round seat; 66. a camera; 67. supporting the side plates; 68. a circular top plate; 69. a kneading plate groove; 610. a seal ring; 611. mounting blocks; 612. the compression spring rod is pressed tightly; 613. limiting balls; 614. a hemispherical groove; 621. a cross plate; 622. a limiting compression spring rod; 623. antifriction balls.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

Referring to fig. 1 and 4, the docking station with the camera comprises a cylindrical shell 1, a supporting unit 2, a connecting unit 3, a control board 4, an interface unit 5 and a camera unit 6, wherein the cylindrical shell 1 is of a cylindrical structure with an open upper end, the supporting unit 2 is arranged on the lower end surface of the cylindrical shell 1, an installation groove and a control groove are sequentially formed between the lower end surface and the lower side wall of the cylindrical shell 1 from bottom to top, the connecting unit 3 is arranged in the installation groove, the control board 4 is arranged in the control groove, the interface unit 5 is arranged on the outer side surface of the cylindrical shell 1, and the camera unit 6 is arranged inside the upper end of the cylindrical shell 1; during specific work, the cylindrical shell 1 is placed in a use area on a table board through the supporting unit 2, the supporting unit 2 can support the cylindrical shell 1 at the moment, then the cylindrical shell is connected with a computer through the connecting unit 3, storage equipment needing to be expanded is connected with the interface unit 5, and when the camera shooting unit 6 needs to be used, the camera shooting unit can be moved upwards to the upper end of the cylindrical shell 1.

Referring to fig. 2, the supporting unit 2 includes supporting legs 21, a supporting plate 22 and a rubber pad 23, a plurality of supporting legs 21 arranged obliquely are annularly arranged on the lower end surface of the cylindrical shell 1, the supporting plate 22 for increasing the contact area is arranged at the lower end of the supporting legs 21, the rubber pad 23 is arranged on the lower end surface of the supporting plate 22, a sawtooth groove for skid resistance is arranged in the middle of the lower end surface of the rubber pad 23, and sawtooth grooves which are vertically distributed with the sawtooth groove in the middle are arranged on two sides of the lower end surface of the rubber pad 23; when the cylinder shell 1 is placed in a use area through the supporting unit 2, the rubber pad 23 made of flexible materials can increase the stability degree of the cylinder shell 1 supporting the cylinder shell, and the vertically distributed sawtooth grooves and the sawtooth grooves can increase the friction force between the rubber pad 23 and the upper end of the table top, so that the cylinder shell 1 is placed more stably, when liquid flows on the table top, the distance between the cylinder shell 1 and the upper end of the table top is increased due to the supporting legs 21, and therefore the phenomenon that the liquid flows into the cylinder shell 1 to damage parts inside the cylinder shell can be avoided.

Referring to fig. 1 and 3, the connection unit 3 includes two semicircular rods 31, two data lines 32, two flexible steel bars 33, a USB connector 34, a limiting rotation rod 35 and a dustproof assembly 36, the two semicircular rods 31 are symmetrically arranged between the upper and lower walls of the installation groove, two strip-shaped data lines 32 are arranged between the two semicircular rods 31, the two data lines 32 are wound on the outer side surfaces of the two semicircular rods 31, a connection through groove is formed in the middle of the upper side wall of the installation groove, the ends of the two data lines 32, which are located between the two semicircular rods 31, upwards penetrate through the connection through groove and are connected with the control panel 4, the two data lines 32 wound on the outer side surface of the two semicircular rods 31 are wrapped with the two flexible steel bars 33, one ends of the two flexible steel bars 33 are connected with the two semicircular rods 31, the other ends of the two flexible steel bars 33 are located in the middle of the two data lines 32, the USB connector 34 is arranged on the outer end of the two data lines 32, and the connection positions, which are located between the upper and the lower side walls of the USB connector 34 and the two data lines 32, are symmetrically arranged in a limited fit manner And a dustproof assembly 36 corresponding to the position of the USB connector 34 is arranged on the side wall of the installation groove of the rotating rod 35.

Referring to fig. 3, the dust-proof assembly 36 includes an arc-shaped baffle 361, a limit baffle 362, a clamping block 363, a magnet block 364 and a fan-shaped buckle slot 365, an arc-shaped through slot corresponding to the position of the USB connector 34 is disposed between the side wall of the installation slot and the outer side surface of the cylindrical shell 1, an arc-shaped sliding slot is disposed on the right side wall of the arc-shaped through slot, the arc-shaped baffle 361 for preventing dust and extruding the data line two 32 is disposed in the arc-shaped sliding slot in a sliding fit manner, the limit baffle 362 convenient for moving the arc-shaped baffle 361 is disposed on the front side of one end of the arc-shaped baffle 361 near the arc-shaped through slot, clamping blocks 363 made of magnet material are symmetrically disposed on the left side of the limit baffle 362 up and down, the distance between the clamping blocks 363 on the upper and lower sides is greater than the height of the data line two 32, a magnet block 364 is disposed on the left side wall of the arc-shaped through slot, clamping slots corresponding to the clamping blocks 363 are symmetrically disposed on the right side of the magnet block 364 up and down, and the middle part of the right side of the magnet block 364 is provided with a fan-shaped catching groove 365.

When the device works specifically, after the cylindrical shell 1 is placed in a use area on a table top through the supporting unit 2, the limiting baffle 362 and the arc baffle 361 are pushed to one side of the arc chute from the fan-shaped buckle groove 365, at the moment, the limiting baffle 362 is convenient to push the arc baffle 361, the fan-shaped buckle groove 365 is convenient to buckle the limiting baffle 362 by hand, then the USB connector 34 is pulled outwards and connected with a USB port on a computer, at the moment, the extension range of the USB connector 34 can be increased through the data line II 32, so that the USB connector 34 can be connected with computers at different positions, the applicability of the device is increased, the limiting baffle 362, the clamping block 363 and the arc baffle 361 are pushed to one side of the magnet block 364 in a manual mode, the magnet block 364 is inserted into the clamping groove, at the moment, the limiting baffle 362 and the arc baffle 361 can clamp the data line II 32 under the mutual adsorption of the magnet block 364 and the clamping block 363, thereby avoided being located the second 32 of partial data line in the cowl 361 outside and being in the state of tightening under the effect of second 33 of mild steel strip, cowl 361 has still avoided influencing the rolling effect of mild steel strip to second 32 of data line because of dust, foreign matter get into the mounting groove from the logical groove of arc simultaneously.

When the connection between the USB connector 34 and the computer needs to be disconnected, the USB connector 34 is pulled out from the computer, and then the limit baffle 362 and the arc baffle 361 are pushed to one side of the arc chute from the fan-shaped buckle groove 365 again, so that the data line two 32 is not clamped any more, at this time, the data line two 32 can be automatically wound into the mounting groove under the action of the soft steel bar, in the process, the limit rotating rod 35 limits and guides the data line two 32, the winding of the data line two 32 in a skew state is avoided, the winding effect of the data line two 32 is improved, the mounting groove can accommodate the data line two 32, the winding of the data line two 32 due to exposure outside is avoided, the problem that the data line two 32 and the USB connector 34 are damaged or crushed by outside objects when the USB connector is not in use is also avoided, the limit rotating rod 35 can also limit the USB connector 34, and the situation that the USB connector cannot be taken out again due to winding into an area far away from the arc chute is avoided, afterwards, limit baffle 362, joint piece 363 and cowl 361 are pushed to one side of magnet piece 364 through manual mode again for magnet piece 364 inserts the joint inslot, and cowl 361 can avoid external dust to get into the mounting groove this moment, thereby has increased USB and has connected 34's life.

Referring to fig. 4, 7 and 8, the interface unit 5 includes a joint groove 51, a first semi-circular rod 52, a first data line 53, an L-shaped wire passing groove 54, a first soft steel rod 55, a rectangular seat 56, a connecting assembly 57, a connecting port 58 and an opening and closing assembly 59, the outer side of the cylindrical shell 1 is uniformly provided with the joint grooves 51 distributed annularly, the upper end of the joint groove 51 is of a circular structure, the first semi-circular rods 52 are symmetrically arranged between two sides of the middle part of the upper end of the joint groove 51, a first strip data line 53 is arranged between the first semi-circular rods 52, the first data line 53 is wound on the outer side of the first two semi-circular rods 52, the upper end of the joint groove 51 is provided with the L-shaped wire passing groove 54 at one side of the first semi-circular rods 52, the lower end of the L-shaped wire passing groove 54 is communicated with the control groove, the end of the first data line 53 between the first semi-circular rods 52 passes through the L-shaped wire passing groove 54 and is connected with the control panel 4, the first soft steel rod 53 wound on the outer side of the first semi-circular rods 52, one end of a first mild steel bar 55 is connected with a first semicircular rod 52, the other end of the first mild steel bar 55 is located in the middle of a first data line 53, the outer end of the first data line 53 is connected with a rectangular seat 56 located on the lower side of the joint groove 51, the side face of the rectangular seat 56 is attached to the side wall of the joint groove 51, a connecting assembly 57 is arranged at the upper end of the rectangular seat 56, the lower end of the rectangular seat 56 is provided with a connecting port 58 connected with the first data line 53, and an opening and closing assembly 59 is arranged on one side, close to the outer side face of the cylindrical shell 1, of the side wall of the joint groove 51.

Referring to fig. 7 and 8, the connecting assembly 57 includes a reset spring rod 571, a mounting transverse plate 572, dovetail sliders 573, a two-way spring rod 574, an L-shaped plate 575 and a semi-circular groove 576, the upper end of the rectangular seat 56 is provided with the transverse plate groove, the transverse plate groove is symmetrically provided with the spring groove, the reset spring rod 571 is arranged in the spring groove, the telescopic end of the reset spring rod 571 is connected with the mounting transverse plate 572, the mounting transverse plate 572 is located in the transverse plate groove, one side surface of the mounting transverse plate 572 close to the opening and closing assembly 59 is provided with the dovetail groove, the dovetail sliders 573 are symmetrically arranged in the dovetail groove in a sliding fit manner, the dovetail sliders 573 are connected with each other through the two-way spring rod 574, the fixed end of the two-way spring rod 574 is connected with the mounting transverse plate 572, the lower end of the dovetail slider 573 is provided with the L-shaped plate 575 relatively, and the semi-circular groove 576 is arranged on the opposite side surfaces of the lower end of the L-shaped plate 575, and two adjacent semicircular grooves 576 are oppositely arranged.

Referring to fig. 7 and 8, the opening and closing assembly 59 includes a torsion spring groove 591, an installation rod 592, a torsion spring 593, an arc-shaped cover plate 594, a wire clamping protrusion 595, a mark 596 and a buckle groove 597, the torsion spring groove 591 is formed in one side, close to the outer side face of the cylindrical shell 1, of the upper side wall of the joint groove 51, the torsion spring 593 is arranged in the torsion spring groove 591 through the installation rod 592, the arc-shaped cover plate 594 is installed at the lower end of the torsion spring 593, the wire clamping protrusion 595 is arranged at the lower end of the arc-shaped cover plate 594, a wire clamping groove corresponding to the wire clamping protrusion 595 is formed in the lower side wall of the joint groove 51, the wire clamping protrusion 595 is located in the wire clamping groove, the mark 596 corresponding to the type of the adjacent connection port 58 is arranged in the middle of one side, far away from the inner wall of the cylindrical shell 1, and the fan-shaped buckle groove 597 is formed in the lower end of the mark 596.

When the connector is in specific work, after the connecting unit 3 is connected with a computer, the arc-shaped cover plate 594 with the corresponding type is turned upwards according to the connector type of external storage equipment, the mark 596 is convenient to find the required connecting port 58, the buckle groove 597 is convenient to manually turn the arc-shaped cover plate 594 upwards, then the rectangular seat 56 can be taken out or not taken out of the rectangular seat 56 according to use requirements, when the rectangular seat 56 is not required to be taken out, the rectangular seat 56 can be always positioned in the connector groove 51 under the action of the data line I53 coated with the soft steel bar I55, when the rectangular seat 56 is required to be taken out, the data line I53 can increase the extension range of the rectangular seat 56, so that the connecting port 58 on the rectangular seat 56 can be connected with external equipment at different positions, the applicability of the connector is increased, and then the arc-shaped cover plate 594 clamps the data line I53 through the wire clamping protrusion 595 under the action of the torsion spring 593, thereby preventing a portion of the data line one 53 positioned outside the arc-shaped cover plate 594 from being in a state of tension by the soft steel bar one 55.

Draw L shaped plate 575 to the one side of keeping away from rectangular seat 56 again and make it no longer cause the blocking to external storage equipment, when external storage equipment does not have the wire rod, L shaped plate 575 can carry out centre gripping spacing to external storage equipment's tail end, when external storage equipment is connected with connection port 58 through the joint of specific wire rod, external storage equipment's joint inserts in connection port 58, again with L shaped plate 575 to the one side removal of keeping away from two-way tension spring pole 574, and place the wire rod that connects the afterbody between the semi-circular groove 576 of both sides, make L shaped plate 575 centre gripping to external storage equipment's wire rod under two-way tension spring pole 574's effect, through carry out centre gripping spacing can avoid taking place not hard up problem between its and the connection port 58 to external storage equipment, the effect of carrying out the butt joint to external storage equipment has been improved.

When the connection between the connection port 58 and the external storage device needs to be disconnected, the L-shaped plate 575 is pushed manually so that the L-shaped plate is no longer clamped and limited at the tail end of the external storage device, then the joint of the external storage device is pulled out, at this time, the L-shaped plate 575 is reset under the action of the bidirectional tension spring rod 574, the installation transverse plate 572 is reset under the action of the reset tension spring rod 571, when the external storage device does not have a wire, the arc-shaped cover plate 594 is reset under the action of the torsion spring 593, when the external storage device has a wire, the arc-shaped cover plate 594 needs to be turned upwards so that the wire of the external storage device is no longer clamped, then the data wire one 53 is wound under the action of the soft steel rod one 55, the problem that the data wire one 53 is wound due to being exposed outside the winding groove 51 can be avoided by automatically carrying out on the data wire one 53, and meanwhile, the rectangular seat 56 can be driven by the data wire one 53 to move into the joint groove 51, at this moment, the connector slot 51 can be used for accommodating the first data line 53 and the rectangular base 56, the problems that the rectangular base 56 and the connecting port 58 are damaged by collision and pressure injury of other articles due to the fact that the rectangular base 56 and the connecting port 58 are exposed outside are avoided, then the arc-shaped cover plate 594 is not turned upwards any more, the arc-shaped cover plate 594 is turned downwards under the action of the torsion spring 593 to reset, and therefore the arc-shaped cover plate 594 can block the connector slot 51 again.

Referring to fig. 4, 5 and 6, the camera unit 6 includes a limiting chute 61, a limiting assembly 62, a lifting sliding plate 63, a lifting circular plate 64, a rotating circular seat 65, a camera 66, a supporting side plate 67, a circular top plate 68, a plate pinching groove 69 and a sealing ring 610, the limiting chute 61 is symmetrically formed on the inner wall of the upper end of the cylindrical shell 1, the limiting assembly 62 is disposed on the side wall of the opposite side of the limiting chute 61, the lifting sliding plate 63 is disposed in the limiting chute 61 in a vertical sliding fit manner, the two lifting sliding plates 63 are connected through the lifting circular plate 64, the rotating circular seat 65 is disposed at the upper end of the lifting circular plate 64 in a rotating fit manner, the camera 66 is disposed at the middle part of the upper end of the rotating circular seat 65, the supporting side plates 67 are symmetrically disposed at the part of the upper end face of the rotating circular seat 65 and away from the camera 66, the upper ends of the supporting side plates 67 at the left and right sides are connected through the circular top plate 68, the middle part of the upper end of the circular top plate 68 is symmetrically provided with a pinch plate groove 69, the outer side surface of the circular top plate 68 is provided with a rubber sealing ring 610, and the distance between the upper end surface of the circular top plate 68 and the lower end surface of the lifting circular plate 64 is equal to the distance between the lower side wall and the upper end surface of the interior of the cylindrical shell 1.

Referring to fig. 5, the limiting assembly 62 includes a cross plate 621, a limiting pressure spring rod 622 and antifriction balls 623, a cross groove is formed between the side wall of the opposite side of the limiting sliding groove 61 and the outer side surface of the cylindrical shell 1 in a penetrating manner, the cross plate 621 is arranged in the cross groove in a sliding fit manner, the opposite side surface of the cross plate 621 is of a triangular pyramid structure, the upper end and the lower end of the middle part of the cross plate 621 are connected with the side wall of the cross groove through the limiting pressure spring rod 622, and one end, away from the lifting circular plate 64, of the lifting sliding plate 63 is provided with the antifriction balls 623 used for reducing friction force.

Referring to fig. 4 and 6, the upper end of the cylindrical shell 1 is symmetrically provided with mounting blocks 611, opposite side surfaces of the mounting blocks 611 are provided with abutting compression spring rods 612, the telescopic ends of the abutting compression spring rods 612 are provided with limiting balls 613 for limiting, and the outer side surface of the rotating round seat 65 is uniformly provided with hemispherical grooves 614 corresponding to the limiting balls 613.

When the camera 66 needs to be used, the circular top plate 68 is pulled upwards by manually pinching the part between the plate pinching grooves 69 at the upper end of the circular top plate 68, the plate pinching grooves 69 can facilitate pinching the circular top plate 68, when the lifting sliding plate 64 is driven by the circular top plate 68 to move upwards, when the cross plate 621 is squeezed by the lifting sliding plate 63, the cross plate 621 moves towards the side far away from the lifting sliding plate 63 under the action of the limiting pressure spring rod 622, meanwhile, the friction force between the cross plate 621 and the lifting sliding plate 63 can be reduced by the antifriction balls 623, so that the lifting sliding plate 63 can move to the top end inside the limiting sliding groove 61, then the cross plate 621 moves towards the side close to the cross plate 621 under the action of the limiting pressure spring rod 622 and supports the lower end of the cross plate 621, so that the rotating circular seat 65 can be located at the upper end of the cylindrical shell 1, so that the limiting ball 613 can be clamped in the hemispherical groove 614 to lock the rotating round seat 65, thereby preventing the camera 66 from rotating when being used subsequently.

When the camera shooting direction needs to be adjusted, the rotating round seat 65 can be adjusted by manually rotating, so that the applicability of the invention is improved, then the limiting ball 613 can be clamped in the hemispherical groove 614 again under the telescopic action of the abutting compression spring rod 612 to lock the rotating round seat 65, when the camera 66 does not need to be used, the lifting round plate 64 is pressed downwards through the round top plate 68, so that the upper end face of the round top plate 68 can be flush with the upper end face of the cylindrical shell 1, meanwhile, the sealing ring 610 can plug a gap between the round top plate 68 and the inner wall of the cylindrical shell 1, so that liquid can be prevented from flowing into the cylindrical shell 1 from the upper end of the cylindrical shell 1, at the moment, the cylindrical shell 1 can accommodate and protect the camera 66, and the use space occupied by the camera 66 can be reduced.

During operation, the first step: first place rubber pad 23 in the use area on the mesa, then promote limit baffle 362 and cowl 361 to one side of arc spout from fan-shaped catching groove 365 department, outwards pull USB joint 34 and make it be connected with the USB port on the computer, promote limit baffle 362, joint piece 363 and cowl 361 to one side of magnet piece 364 through manual mode again for magnet piece 364 inserts the joint inslot, and limit baffle 362, cowl 361 can carry out the centre gripping to two 32 of data line under the mutual absorption of magnet piece 364 and joint piece 363 this moment.

The second step is that: will have the arc apron 594 that corresponds rather than the model upwards to overturn according to the joint model of external storage equipment, can select to take out rectangle seat 56 outwards or not take out rectangle seat 56 outwards according to the use needs, when need not taking out rectangle seat 56 outwards, rectangle seat 56 can be located the joint groove 51 all the time under the effect that has a data line 53 of a mild steel strip 55, when needs take out rectangle seat 56 outwards, arc apron 594 will carry out the centre gripping to a data line 53 through card line arch 595 under the effect of torsional spring 593.

The third step: draw L shaped plate 575 to the one side of keeping away from rectangular seat 56 again and make it no longer cause the stopping to external storage equipment, when external storage equipment does not have the wire rod, L shaped plate 575 can carry out centre gripping spacing to external storage equipment's tail end, when external storage equipment is connected with connection port 58 through the joint of specific wire rod, external storage equipment's joint inserts in connection port 58, move L shaped plate 575 to the one side of keeping away from two-way tension spring pole 574 again, and place the wire rod that connects the tail portion between the semi-circular groove 576 of both sides, make L shaped plate 575 carry out the centre gripping to external storage equipment's wire rod under two-way tension spring pole 574's effect.

The fourth step: when the camera 66 needs to be used, the circular top plate 68 is pulled upwards by manually pinching the part between the plate pinching grooves 69 at the upper end of the circular top plate 68, when the lifting sliding plate 63 extrudes the cross plate 621, the cross plate 621 moves towards the side far away from the lifting sliding plate 63 under the action of the limiting pressure spring rod 622, so that the lifting sliding plate 63 can move to the top end inside the limiting sliding groove 61, then the cross plate 621 moves towards the side close to the cross plate 621 under the action of the limiting pressure spring rod 622 and supports the lower end of the cross plate 621, at this time, the limiting ball 613 can be clamped in the hemispherical groove 614 to lock the rotary circular seat 65 under the action of the abutting pressure spring rod 612, and when the shooting direction needs to be adjusted, the rotary circular seat 65 can be adjusted by manually rotating.

The fifth step: when needing to break off being connected of USB joint 34 and computer, pull out USB joint 34 from the computer, then again from fan-shaped catching groove 365 with limit baffle 362 and cowl 361 to one side of arc spout promote and make it no longer carry out the centre gripping to two 32 of data line, two 32 of data line can be at the automatic rolling of installation inslot under the effect of mild steel strip this moment, later promote limit baffle 362, joint piece 363 and cowl 361 to one side of magnet piece 364 through manual mode again for magnet piece 364 inserts in the joint inslot.

And a sixth step: when needing disconnection port 58 and external storage device's connection, the manual L shaped plate 575 that promotes makes its tail end no longer carry out the centre gripping spacing to external storage device, outwards extract external storage device's joint again, arc apron 594 will reset under torsional spring 593's effect when external storage device does not have the wire rod, need upwards overturn arc apron 594 when external storage device has the wire rod and make its wire rod no longer carry out the centre gripping to external storage device, then data line 53 will carry out the rolling under the effect of mild steel strip 55, later no longer upwards overturn arc apron 594, make it overturn downwards under the effect of torsional spring 593 and reset.

The seventh step: when the camera 66 is not needed, the circular top plate 68 presses the lifting circular plate 64 downwards, so that the upper end face of the circular top plate 68 can be flush with the upper end face of the cylindrical shell 1, the cylindrical shell 1 can accommodate and protect the camera 66 at the moment, and the use space occupied by the camera 66 can be reduced.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A docking station with a camera comprises a cylindrical shell (1), a supporting unit (2), a connecting unit (3), a control board (4), an interface unit (5) and a camera shooting unit (6), and is characterized in that: the cylinder shell (1) is of a cylindrical structure with an opening at the upper end, a supporting unit (2) is arranged on the lower end face of the cylinder shell (1), an installation groove and a control groove are sequentially formed between the lower end face and the lower side wall of the cylinder shell (1) from bottom to top, a connecting unit (3) is arranged in the installation groove, a control panel (4) is arranged in the control groove, an interface unit (5) is arranged on the outer side face of the cylinder shell (1), and a camera shooting unit (6) is arranged inside the upper end of the cylinder shell (1), wherein;

the interface unit (5) comprises a joint groove (51), a first semi-circular rod (52), a first data line (53), an L-shaped wire passing groove (54), a first soft steel rod (55), a rectangular seat (56), a connecting component (57), a connecting port (58) and an opening and closing component (59), the outer side surface of the cylindrical shell (1) is uniformly provided with the joint grooves (51) which are distributed in an annular shape, the first semi-circular rods (52) are symmetrically arranged between two sides of the middle part of the upper end of the joint groove (51), a first strip-shaped data line (53) is arranged between the first semi-circular rods (52), the first data line (53) is wound on the outer side surfaces of the two first semi-circular rods (52), the upper end of the joint groove (51) is positioned on one side of the first semi-circular rods (52) and is provided with the L-shaped wire passing groove (54), the lower end of the L-shaped wire passing groove (54) is communicated with the control groove, and the end of the first data line (53) positioned between the first semi-circular rods (52) passes through the L-shaped wire passing groove (54) and is connected with the control plate (4), the flexible steel bar I (55) is coated on a data line I (53) wound on the outer side surface of the semi-circular rod I (52), one end of the flexible steel bar I (55) is connected with the semi-circular rod I (52), the other end of the flexible steel bar I (55) is located in the middle of the data line I (53), the outer end of the data line I (53) is connected with a rectangular seat (56) located on the lower side of the joint groove (51), the side surface of the rectangular seat (56) is attached to the side wall of the joint groove (51), a connecting assembly (57) is arranged at the upper end of the rectangular seat (56), a connecting port (58) connected with the data line I (53) is arranged at the lower end of the rectangular seat (56), and an opening and closing assembly (59) is arranged on one side, close to the outer side surface of the cylindrical shell (1), of the upper side wall of the joint groove (51);

the camera shooting unit (6) comprises a limiting sliding chute (61), a limiting assembly (62), a lifting sliding plate (63), a lifting circular plate (64), a rotary circular seat (65), a camera (66), a supporting side plate (67), a circular top plate (68), a plate pinching groove (69) and a sealing ring (610), wherein the limiting sliding chute (61) is symmetrically formed in the inner wall of the upper end of the cylindrical shell (1), the limiting assembly (62) is arranged on the side wall of the opposite side of the limiting sliding chute (61), the lifting sliding plate (63) is arranged in the limiting sliding chute (61) in a sliding fit mode, the two lifting sliding plates (63) are connected through the lifting circular plate (64), the rotary circular seat (65) is arranged at the upper end of the lifting circular plate (64) in a rotating fit mode, the camera (66) is arranged in the middle of the upper end of the rotary circular seat (65), the supporting side plate (67) is symmetrically arranged on the upper end face of the rotary circular seat (65) and far away from the camera (66), the upper ends of the supporting side plates (67) on the left side and the right side are connected through a circular top plate (68), plate pinching grooves (69) are symmetrically formed in the middle of the upper end of the circular top plate (68), and sealing rings (610) made of rubber are arranged on the outer side face of the circular top plate (68).

2. The docking station with a camera of claim 1, wherein: the connecting assembly (57) comprises a reset pull spring rod (571), a mounting transverse plate (572), dovetail sliding blocks (573), a two-way pull spring rod (574), an L-shaped plate (575) and a semi-circular groove (576), the upper end of the rectangular seat (56) is provided with a transverse plate groove, the pull spring grooves are symmetrically arranged in the transverse plate groove, the reset pull spring rod (571) is arranged in the pull spring groove, the telescopic ends of the reset pull spring rod (571) are connected through the mounting transverse plate (572), the mounting transverse plate (572) is positioned in the transverse plate groove, a dovetail groove is arranged on one side surface of the mounting transverse plate (572) close to the opening and closing assembly (59), the dovetail sliding blocks (573) are symmetrically arranged in the dovetail groove in a sliding fit mode, the dovetail sliding blocks (573) are connected through the two-way pull spring rod (574), the fixed end of the two-way pull spring rod (574) is connected with the mounting transverse plate (572), the lower end of the dovetail sliding block (573) is provided with the L-shaped plate (575), and the opposite side surfaces of the lower end of the L-shaped plate (575) are provided with semi-circular grooves (576), and two adjacent semi-circular grooves (576) are arranged oppositely.

3. The docking station with a camera of claim 1, wherein: the opening and closing assembly (59) comprises a torsion spring groove (591), a mounting rod (592), a torsion spring (593), an arc-shaped cover plate (594), a line clamping bulge (595), a mark (596) and a buckle plate groove (597), connect side wall to have seted up torsional spring groove (591) in (51) near one side of cylinder shell (1) lateral surface, be provided with torsional spring (593) through installation pole (592) in torsional spring groove (591), arc apron (594) is installed to torsional spring (593) lower extreme, arc apron (594) lower extreme is provided with card line arch (595), connect side wall to have seted up the card line recess corresponding with card line arch (595) under groove (51), card line arch (595) are located card line recess, one side that cylinder shell (1) inner wall was kept away from to arc apron (594) is provided with sign (596) corresponding with the model of its adjacent connection port (58), fan-shaped buckle plate groove (597) have been seted up to the lower extreme of sign (596).

4. The docking station with a camera of claim 1, wherein: spacing subassembly (62) include cross plate (621), spacing pressure spring pole (622) and antifriction ball (623), run through between the lateral surface of spacing spout (61) dorsal side mutually and cylinder shell (1) and seted up the cross recess, be provided with cross plate (621) through sliding fit's mode in the cross recess, the relative side of cross plate (621) is the triangular pyramid structure, both ends and one side that is close to cylinder shell (1) lateral surface all are connected with the cross recess lateral wall through spacing pressure spring pole (622) about cross plate (621) middle part, the one end that lift plectane (64) was kept away from in lift slide (63) all is provided with antifriction ball (623) that are used for reducing frictional force.

5. The docking station with a camera of claim 1, wherein: the upper end of the cylindrical shell (1) is symmetrically provided with mounting blocks (611), opposite side surfaces of the mounting blocks (611) are respectively provided with a pressing spring rod (612), a telescopic end of the pressing spring rod (612) is provided with a limiting ball (613) for limiting, and the outer side surface of the rotary round seat (65) is uniformly provided with a hemispherical groove (614) corresponding to the limiting ball (613).

6. The docking station with a camera of claim 1, wherein: support unit (2) including supporting leg (21), backup pad (22) and rubber pad (23), supporting leg (21) that a plurality of slants set up have been arranged to the annular on the terminal surface under cylinder shell (1), supporting leg (21) lower extreme is provided with backup pad (22) that are used for increasing area of contact, is provided with rubber pad (23) under backup pad (22) on the terminal surface, terminal surface middle part is provided with and is used for skid-proof sawtooth groove under rubber pad (23), and rubber pad (23) terminal surface both sides down be provided with the sawtooth groove of middle part for the sawtooth groove of vertical distribution.

7. The docking station with a camera of claim 1, wherein: the connecting unit (3) comprises two semicircular rods (31), two data lines (32), two soft steel bars (33), a USB connector (34), a limiting rotating rod (35) and a dustproof assembly (36), wherein the two semicircular rods (31) are symmetrically arranged between the upper wall and the lower wall of the mounting groove, the two strip-shaped data lines (32) are arranged between the two semicircular rods (31), the two data lines (32) are wound on the outer side surfaces of the two semicircular rods (31), a connecting through groove is formed in the middle of the upper side wall of the mounting groove, the ends, located between the two semicircular rods (31), of the two data lines (32) upwards penetrate through the connecting through groove and are connected with the control panel (4), the two data lines (32) wound on the outer side surfaces of the two semicircular rods (31) are coated with the two soft steel bars (33), one ends of the two soft steel bars (33) are connected with the two semicircular rods (31), the other ends of the two soft steel bars (33) are located in the middle of the two data lines (32), the outer end of the second data line (32) is provided with a USB connector (34), the connecting part between the upper side wall and the lower side wall of the mounting groove, which is positioned between the USB connector (34) and the second data line (32), is symmetrically provided with a limiting rotating rod (35) in a rotating fit mode, and the side wall of the mounting groove is provided with a dustproof assembly (36) corresponding to the position of the USB connector (34).

8. The docking station with a camera of claim 7, wherein: the dustproof assembly (36) comprises an arc-shaped baffle plate (361), a limiting baffle plate (362), clamping blocks (363), magnet blocks (364) and a fan-shaped buckle groove (365), an arc-shaped through groove corresponding to the position of the USB connector (34) is formed between the side wall of the mounting groove and the outer side surface of the cylindrical shell (1), an arc-shaped sliding groove is formed in the right side wall of the arc-shaped through groove, the arc-shaped baffle plate (361) is arranged in the arc-shaped sliding groove in a sliding fit mode, the limiting baffle plate (362) is arranged on the front side of one end, close to the arc-shaped through groove, of the arc-shaped baffle plate (361), the clamping blocks (363) made of magnet materials are symmetrically arranged on the left side of the limiting baffle plate (362) from top to bottom, the distance between the clamping blocks (363) on the upper side and the lower side is larger than the height of the data line two (32), the magnet blocks (364) are arranged on the left side wall of the arc-shaped through groove, the clamping grooves corresponding to the clamping blocks (363) are symmetrically arranged on the right side of the magnet blocks (364) from top to bottom, and the middle part of the right side of the magnet block (364) is provided with a fan-shaped buckle groove (365).