CN114597708A - Docking station with interface protection function for mobile terminal - Google Patents

Abstract

The invention relates to the technical field of docking stations, in particular to a docking station with an interface protection function for a mobile terminal. The invention provides a docking station with an interface protection function for a mobile terminal, which comprises a docking station body, wherein a plurality of groups of port grooves are formed in the edge of one side of the top of the docking station body, one end of each port groove is communicated with an equipment clamping groove, and the other end of each equipment clamping groove is of an open structure; and each group of port grooves is movably provided with a group of wiring units, each wiring unit comprises an interface mechanism and an angle adjusting mechanism, a port groove side cavity is formed in one side of each port groove, and each interface mechanism comprises an interface disc body. The invention protects both the mobile terminal and the wiring port, thereby prolonging the service life of the whole docking station.

Description

Docking station with interface protection function for mobile terminal

Technical Field

The invention belongs to the technical field of docking stations, and particularly relates to a docking station with an interface protection function for a mobile terminal.

Background

The docking station is provided with a plurality of different types of data input interfaces, and when the docking station is connected with the intelligent device, the intelligent device can be in signal connection with a plurality of different types of mobile terminals through the docking station so as to expand the port function of the intelligent device.

The integrated design is usually carried out with the casing with the kneck on traditional docking station to docking station overall structure's limitation leads to mobile terminal to be connected the back with docking station, can't fix between its casing and the docking station, can only put at will. Not only lead to the clean and tidy degree of job site to descend to some extent, also can't protect the kneck simultaneously, when external force was dragged mobile terminal, very easily caused breaking away from of mobile terminal and docking station to all cause the harm to docking station and mobile terminal.

Disclosure of Invention

In order to solve the problems, the invention provides a docking station with an interface protection function for a mobile terminal, which comprises a docking station body, wherein a plurality of groups of port grooves are formed in the edge of one side of the top of the docking station body, one end of each port groove is communicated with an equipment clamping groove, the other end of each equipment clamping groove is of an open structure, and a group of wiring units are movably arranged in each group of port grooves;

the wiring unit comprises an interface mechanism and an angle adjusting mechanism, a port groove side cavity is formed in one side of the port groove, the interface mechanism shell is located in the port groove, and the angle adjusting mechanism is installed on the interface mechanism shell; the angle adjusting mechanism comprises angle adjusting rods, the two angle adjusting rods are respectively and fixedly installed on central axes of two side walls of the interface mechanism shell, one end of one angle adjusting rod is rotatably connected to the inner wall of the port groove side cavity, the other angle adjusting rod is rotatably connected to the inner wall of one side of the port groove, the angle adjusting rods are positioned on a section of rod body of the port groove side cavity, a plurality of groups of limiting holes are distributed in an annular array manner, the top of the port groove side cavity is provided with an internal thread hole, a limiting threaded rod is in threaded connection in the internal thread hole, one end of the limiting threaded rod extends into the port groove side cavity, and the limiting threaded rod is movably clamped in any one group of limiting holes; the interface mechanism comprises an interface disc body; the connector disc body is of a disc-shaped structure, a wiring port is formed in the top of the connector disc body, two groups of side guard plates are symmetrically installed at edges of two sides of the wiring port, and a plurality of groups of anti-slip rods are distributed on one side wall, close to the wiring port, of the side guard plates at equal intervals.

Furthermore, two groups of clamping groove side cavities are symmetrically formed in two sides of the equipment clamping groove, and a second spring is installed on one side wall, far away from the equipment clamping groove, of each clamping groove side cavity.

Further, every group equal movable mounting has a set of equipment fixing unit in the equipment draw-in groove, equipment fixing unit includes two sets of telescopic link bodies, second spring other end fixed mounting has the telescopic link chuck, telescopic link chuck other end fixed mounting has the telescopic link body, in the telescopic link body other end extended to the equipment draw-in groove, and fixed mounting has the hinge bar body.

Further, fixed mounting has the spring anticreep board on the telescopic link body, articulated rod body both ends are fixed with a set of spring loop pole respectively, and are two sets of the spring loop pole other end all rotates and is connected with a set of articulated mounting panel, and is two sets of all cup jointed a set of torque spring on the spring loop pole.

Furthermore, an equipment clamping mechanism is fixedly mounted at one end, far away from the side cavity of the clamping groove, of the hinged mounting plate; and two ends of the torsion spring are respectively and fixedly connected to the spring anti-falling plate and the shell of the equipment clamping mechanism.

Further, equipment clamping mechanism includes the joint board body, the joint board body is fan ring shape structure, just this convex surface of joint board and articulated mounting panel fixed connection, the joint board inner chamber has been seted up in the joint board body.

Further, a plurality of groups of third springs are equidistantly distributed on the inner wall of one side, close to the hinged mounting plate, of the inner cavity of the clamping plate, an elastic plate is fixedly mounted at the other end of each third spring, a silica gel pad is fixedly mounted on the other side wall of each elastic plate, and the other side of each silica gel pad penetrates through the outer portion of the clamping plate body.

Furthermore, a plurality of groups of corner clamping grooves are distributed on one side wall of the silica gel pad, which is far away from the elastic plate, at equal intervals from top to bottom, and two ends of each corner clamping groove are of an open structure.

Further, the symmetry is provided with two sets of body spacing units on docking station body both sides wall, body spacing unit includes tensile pole, two sets of body side channels have been seted up to docking station body both sides outer wall bottom edge symmetry, the body side channel is kept away from and is equipped with the through hole on one side inner wall of opening part, two sets of side spouts have been seted up to the symmetry on the through hole both sides wall, sliding connection has the slider in the side spout, just install the fourth spring on the slider, fourth spring other end fixed mounting is in on the one end inner wall of side spout.

Further, the activity of tensile pole one end runs through in the through-hole, the tensile pole other end extends to in the body side groove, and install the limiting plate, the limiting plate lower extreme articulates there is the articulated slab, and is two sets of the one end symmetry that the side spout was kept away from to the slider is installed on the both sides wall of tensile pole.

The invention has the beneficial effects that:

1. through setting up the port of docking station into independent discoid wiring mechanism, after the joint of mobile terminal and the port of docking station are pegged graft, rotatable wiring mechanism makes the junction that connects and the port just in time be located the junction of port groove and equipment draw-in groove, reduces its and external contact probability, effectively guarantees the stability that mobile terminal connects. Meanwhile, the equipment card slot can be designed into different widths to adapt to different clamping and fixing objects according to requirements, the mobile terminal can be fixedly clamped in the equipment card slot, and for the mobile terminal with a larger size, the data line of the mobile terminal can also be fixedly clamped through the equipment card slot. The mobile terminal and the wiring port are prevented from being separated from each other due to pulling of external force, the wiring port breaks down due to overhigh instant load, the mobile terminal and the wiring port are protected, and the service life of the whole docking station is prolonged. The mobile terminal and the data line thereof are prevented from being placed randomly, and the smoothness of the dock expansion work site is improved.

2. The cross-section of joint board body is fan ring structure, and is provided with flexible construction silica gel pad, therefore no matter mobile terminal's casing shape is how, all can form the fixed action to mobile terminal through the joint board, has improved the compatibility of equipment. A plurality of groups of corner clamping grooves are distributed on the silica gel pad at equal intervals from top to bottom, so that the friction force between the equipment clamping mechanism and the mobile terminal can be further increased, and the stability of clamping and fixing is improved.

3. When the job site space of docking station is less or when there is not the platform of horizontal placing, can fix the docking station body on the plate body or the casing of perpendicular setting through two sets of limiting plates for the docking station body can effectively be fixed, the plug that the mobile terminal of being convenient for connects. And utilize the type of falling U structure that extension board, diaphragm and anti-pinch plate constitute still can hang the docking station body wholly on the body of rod, richened the functional of the spacing unit of body.

4. After mobile terminal pegged graft in the wiring port, two sets of side guards the board and will follow both sides and protect mobile terminal's output and connect, has not only played the effect of dustproof anticollision, has also increased the frictional force between connecting and the side guards the board simultaneously through equidistant a plurality of groups of skid resistant bars that distribute. The connector is prevented from loosening and sliding due to long-time use, and the safety of the equipment is improved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 shows a schematic structural diagram of a docking station according to an embodiment of the present invention;

fig. 2 shows a schematic cross-sectional view of a docking station according to an embodiment of the invention;

FIG. 3 shows an enlarged schematic view within circle A of FIG. 2 according to an embodiment of the present invention;

FIG. 4 shows a schematic structural diagram of a wire connection mechanism according to an embodiment of the present invention;

fig. 5 shows a rear cross-sectional schematic view of a docking station according to an embodiment of the present invention;

FIG. 6 shows an enlarged schematic view within circle B of FIG. 5 according to an embodiment of the invention;

FIG. 7 illustrates a schematic structural diagram of a device clamping mechanism according to an embodiment of the present invention;

FIG. 8 shows an enlarged schematic view within circle C of FIG. 7 according to an embodiment of the invention;

FIG. 9 shows a left side cross-sectional schematic view of a device clamping mechanism according to an embodiment of the present invention;

FIG. 10 illustrates a schematic bottom view of a body limiting unit according to an embodiment of the present invention;

fig. 11 shows a schematic structural view of the body limiting unit according to the embodiment of the invention in use.

In the figure: 100. a docking station body; 110. a port slot; 120. a port slot side cavity; 130. a port slot through hole; 140. an equipment card slot; 200. a wiring unit; 210. an angle adjusting rod; 211. a limiting hole; 220. an internally threaded bore; 221. a limit threaded rod; 230. an interface mechanism; 231. an interface disc body; 232. a wiring port; 233. a side guard plate; 234. an anti-slip bar; 300. an equipment fixing unit; 310. a clamping groove side cavity; 311. a telescopic rod body; 312. a spring anti-drop plate; 320. a telescopic rod chuck; 330. a second spring; 340. a hinged mounting plate; 341. a hinge rod body; 342. a torsion spring; 343. a spring loop bar; 350. a device clamping mechanism; 351. a clamping and connecting plate body; 352. the inner cavity of the clamping plate; 353. a third spring; 354. an elastic plate; 355. a silica gel pad; 356. corner clamping grooves; 400. a body limiting unit; 410. a body side groove; 411. a through hole; 420. a side chute; 430. a stretch rod; 440. a limiting plate; 441. a hinge plate; 450. a slider; 460. a fourth spring; 470. an extension plate; 471. a transverse plate; 472. a reverse buckle plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention provides a docking station with an interface protection function for a mobile terminal. Including a docking station body 100. Illustratively, as shown in fig. 1, a general control module is provided in the docking station body 100.

The docking station body 100 has a plurality of sets of port slots 110 formed at an edge of a top side thereof, and port slot through holes 130 formed at a bottom of the port slots 110.

One end of the port groove 110 is communicated with an equipment clamping groove 140, and the other end of the equipment clamping groove 140 is of an open structure.

Every group equal movable mounting has a set of wiring unit 200 in the port groove 110, the output terminal wiring of wiring unit 200 passes through in the cavity of docking station body 100 through port groove through-hole 130, and electric connection is in on the master control module. The wiring unit 200 is used for signal connection work with the mobile terminal.

Each set of the equipment slots 140 is movably installed with a set of equipment fixing units 300. The device fixing unit 300 is used to fix the mobile terminal or the data line of the mobile terminal with which the signal connection is successful.

Two sets of body limiting units 400 are symmetrically arranged at the edges of two sides of the bottom of the docking station body 100. The body limiting unit 400 is used to fix the docking station body 100 as a whole.

The wiring connection unit 200 includes an interface mechanism 230 and an angle adjustment mechanism. Illustratively, as shown in fig. 2 and 3, the port slot 110 has a port slot side cavity 120 formed therein. The interface mechanism 230 housing is located in the port slot 110 and the angle adjustment mechanism is mounted on the interface mechanism 230 housing. The angle adjusting mechanism comprises angle adjusting rods 210, and the two angle adjusting rods 210 are respectively and fixedly installed on the central axis of the two side walls of the shell of the interface mechanism 230. One end of one angle adjusting rod 210 is rotatably connected to the inner wall of the port groove side cavity 120, and the other angle adjusting rod 210 is rotatably connected to the inner wall of one side of the port groove 110. The angle adjusting rod 210 is located on a section of the rod body of the port slot side cavity 120, and a plurality of groups of limiting holes 211 are distributed in an annular array. An internal threaded hole 220 is formed in the top of the port slot side cavity 120, a limit threaded rod 221 is connected in the internal threaded hole 220 in a threaded manner, the bottom of the limit threaded rod 221 extends into the port slot side cavity 120, and the limit threaded rod can be movably clamped in any one set of limit holes 211.

The interface mechanism 230 includes an interface disc body 231. For example, as shown in fig. 4, the interface disc body 231 is a disc-shaped structure, and the two angle adjusting rods 210 are symmetrically installed on a central axis of two side walls of the interface disc body 231. The top of the interface disc body 231 is provided with a wiring port 232, and the other end of the wiring port 232 is electrically connected with the master control module. Two sets of side guard plates 233 are symmetrically installed at two side edges of the wiring port 232, and a plurality of sets of anti-slip rods 234 are distributed on one side wall of the side guard plates 233 close to the wiring port 232 at equal intervals from top to bottom.

When the docking station body 100 is used, the limit threaded rod 221 is first rotated to disengage from the corresponding set of limit holes 211, and then the interface disc body 231 is rotated so that the connection port 232 is in a position convenient for plugging. The output of the mobile terminal is then plugged into the wiring port 232. After the signal connection between the mobile terminal and the master control module is confirmed to be successful, the interface disc body 231 and the mobile terminal are rotated along the central axis of the angle adjusting rod 210, so that the wiring port 232 faces the device card slot 140, and the mobile terminal or a data line thereof can be placed in the device card slot 140 conveniently. Then, the limit screw rod 221 is rotated in the opposite direction, so that the bottom of the limit screw rod can be clamped in the corresponding set of limit holes 211.

After the mobile terminal or the data line thereof is placed in the device card slot 140, the joint of the mobile terminal and the wiring port 232 is just positioned at the joint of the port slot 110 and the device card slot 140, so that the contact probability with the outside is reduced. Prevent in signal transmission process, pull through external force and make mobile terminal and wiring port 232 break away from to this leads to wiring port 232 to break down because of loading is too high in the twinkling of an eye, all played the guard action to mobile terminal and wiring port 232, and with this the holistic life of docking station has been prolonged. The random placement of the mobile terminal or the data line of the mobile terminal is avoided, and the tidiness of the dock expansion work site is improved.

After the mobile terminal is plugged into the wiring port 232, the two sets of side guard plates 233 protect the output terminal of the mobile terminal from both sides, so that the dustproof and anti-collision effects are achieved, and meanwhile, the friction force between the terminal and the side guard plates 233 is increased through the plurality of sets of anti-slip rods 234 distributed at equal intervals. The connector is prevented from loosening and sliding due to long-time use, and the safety of the equipment is improved.

The device fixing unit 300 includes two sets of telescopic rod bodies 311. Exemplarily, as shown in fig. 5, fig. 6, fig. 7 and fig. 8, two sets of card slot side cavities 310 are symmetrically formed in two sides of the device card slot 140, a second spring 330 is fixedly installed on a side wall of the card slot side cavity 310 away from the device card slot 140, an expansion link chuck 320 is fixedly installed at the other end of the second spring 330, and an expansion link body 311 is fixedly installed at the other end of the expansion link chuck 320. The other end of the telescopic rod body 311 extends into the equipment clamping groove 140, a hinged rod body 341 is fixedly mounted on the other end of the telescopic rod body 311, and an included angle between the hinged rod body 341 and the telescopic rod body 311 is 90 degrees. The telescopic rod body 311 is fixedly provided with a spring anti-dropping plate 312. Two groups of spring sleeve rods 343 are symmetrically installed at two ends of the hinge rod body 341, and the other ends of the two groups of spring sleeve rods 343 are rotatably connected with a group of hinge mounting plates 340 respectively. The end of the hinged mounting plate 340 far away from the card slot side cavity 310 is fixedly provided with a device clamping mechanism 350. A set of torsion spring 342 is sleeved on each of the two sets of spring loop bars 343, and two ends of the torsion spring 342 are respectively and fixedly connected to the spring anti-falling plate 312 and the housing of the device clamping mechanism 350.

The device clamping mechanism 350 includes a clamping plate body 351. Illustratively, as shown in fig. 9, the clamping plate body 351 has a fan-shaped annular structure, and the convex surface of the clamping plate body 351 is fixedly connected with the hinge mounting plate 340. A clamping plate inner cavity 352 is formed in the clamping plate body 351, a plurality of groups of third springs 353 are distributed on the inner wall of one side, close to the hinged mounting plate 340, of the clamping plate inner cavity 352 at equal intervals, an elastic plate 354 is fixedly mounted at the other end of each third spring 353, and a silica gel pad 355 is fixedly mounted on the other side wall of each elastic plate 354. The other side of the silicone pad 355 penetrates to the outside of the clamping plate body 351. And a plurality of groups of corner clamping grooves 356 are equidistantly distributed on one side wall of the silica gel pad 355 away from the elastic plate 354 from top to bottom, and two ends of each corner clamping groove 356 are of an open structure.

Before the mobile terminal or the data line thereof is placed in the device card slot 140, the card board body 351 is firstly pulled to both sides to provide a placing space for the mobile terminal or the data line thereof. After mobile terminal gets into in the equipment draw-in groove 140, unclamp joint board body 351 for two sets of joint board bodies 351 can contradict simultaneously on mobile terminal or its data line from both sides, simultaneously because joint board body 351's cross-section is fan annular structure, consequently no matter mobile terminal's casing shape is how, all can form the fixed action to mobile terminal through joint board body 351, has improved the compatibility of equipment. And a plurality of groups of corner clamping grooves 356 are distributed on the silica gel pad 355 at equal intervals from top to bottom, so that the clamping plate body 351 is prevented from scratching the mobile terminal due to excessively hard surface, and meanwhile, the friction force between the equipment clamping mechanism 350 and the mobile terminal is increased.

The device card slot 140 may be designed with different widths as needed to accommodate different clamping fixtures.

The body limiting unit 400 includes a stretching rod 430. For example, as shown in fig. 10 and 11, a set of body side grooves 410 are formed at bottom edges of outer walls of two sides of the docking station body 100, a through hole 411 is formed on an inner wall of one side of the body side groove 410, which is far away from the opening, and two sets of side sliding grooves 420 are symmetrically formed on two side walls of the through hole 411. A sliding block 450 is slidably connected in the side sliding groove 420, a fourth spring 460 is fixedly mounted on the sliding block 450, and the other end of the fourth spring 460 is fixedly mounted on the inner wall of one end of the side sliding groove 420. One end of the stretching rod 430 movably penetrates through the through hole 411, the other end of the stretching rod 430 extends into the body side groove 410 and is fixedly provided with a limiting plate 440, the lower end of the limiting plate 440 is hinged with a hinged plate 441, the limiting plate 440 and the hinged plate 441 form an L-shaped structure in a storage state, and the hinged plate 441 is folded by 90 degrees and is positioned on the same plane with the limiting plate when in use. Two sets of the sliding blocks 450 are symmetrically installed on two side walls of the stretching rod 430 at the end far away from the side sliding groove 420. An extension plate 470 is installed at the top of one group of the limiting plate 440, a transverse plate 471 is fixedly installed at the other end of the extension plate 470, and a reverse plate 472 is installed at the other end of the transverse plate 471. The extension plate 470, the transverse plate 471 and the reverse plate 472 are combined to form an inverted U-shaped structure.

When the work site space of the docking station body 100 is small or there is no horizontally placed platform, two groups of limiting plates 440 can be pulled out to both sides simultaneously, and two groups of hinged plates 441 are respectively turned over by 90 degrees to be clamped on both sides of the plate body or the shell, and under the elastic action of the fourth spring 460, the hinged plates 441 can firmly abut against the edges of the vertically arranged plate body or the vertically arranged shell, so that the docking station body 100 can be effectively fixed, and the plugging and unplugging of the mobile terminal connector are facilitated. And the inverted U-shaped structure formed by the extension plate 470, the transverse plate 471 and the reverse buckling plate 472 can directly hang the docking station body 100 on the external rod body, and the functionality of the body limiting unit 400 is enriched.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A docking station with interface protection function for mobile terminal is characterized in that: the docking station comprises a docking station body (100), wherein a plurality of groups of port grooves (110) are formed in one edge of the top of the docking station body (100), one end of each port groove (110) is communicated with an equipment clamping groove (140), the other end of each equipment clamping groove (140) is of an open structure, and a group of wiring units (200) are movably mounted in each group of port grooves (110);

the wiring unit (200) comprises an interface mechanism (230) and an angle adjusting mechanism, one side of the port groove (110) is provided with a port groove side cavity (120), the interface mechanism (230) shell is positioned in the port groove (110), and the angle adjusting mechanism is installed on the interface mechanism (230) shell; the angle adjusting mechanism comprises angle adjusting rods (210), the two angle adjusting rods (210) are respectively and fixedly installed on central axes of two side walls of a shell of the interface mechanism (230), one end of one angle adjusting rod (210) is rotatably connected to the inner wall of the port groove side cavity (120), the other angle adjusting rod (210) is rotatably connected to the inner wall of one side of the port groove (110), the angle adjusting rods (210) are positioned on a section of rod body of the port groove side cavity (120) and are distributed with a plurality of groups of limiting holes (211) in an annular array manner, an internal threaded hole (220) is formed in the top of the port groove side cavity (120), a limiting threaded rod (221) is in threaded connection in the internal threaded hole (220), one end of the limiting threaded rod (221) extends into the port groove side cavity (120), and is movably clamped in any one group of limiting holes (211); the interface mechanism (230) comprises an interface disc body (231); the connector disc comprises an interface disc body (231) of a disc-shaped structure, a wiring port (232) is formed in the top of the interface disc body (231), two sets of side guard plates (233) are symmetrically installed at edges of two sides of the wiring port (232), and a plurality of sets of anti-skidding rods (234) are equidistantly distributed on one side wall, close to the wiring port (232), of the side guard plates (233).

2. A docking station with interface protection for a mobile terminal according to claim 1, characterized in that: two groups of clamping groove side cavities (310) are symmetrically formed in two sides of the equipment clamping groove (140), and a second spring (330) is installed on one side wall, far away from the equipment clamping groove (140), of each clamping groove side cavity (310).

3. A docking station with interface protection for a mobile terminal according to claim 2, characterized in that: every group equal movable mounting has a set of fixed unit of equipment (300) in equipment draw-in groove (140), fixed unit of equipment (300) includes two sets of telescopic link bodies (311), second spring (330) other end fixed mounting has telescopic link chuck (320), telescopic link chuck (320) other end fixed mounting has telescopic link body (311), telescopic link body (311) other end extends to in equipment draw-in groove (140), and fixed mounting has hinge bar body (341).

4. A docking station with interface protection for a mobile terminal according to claim 3, characterized in that: the telescopic link body (311) is fixedly provided with a spring anti-falling plate (312), two ends of the hinged link body (341) are respectively fixed with a group of spring loop rods (343), the other ends of the two groups of spring loop rods (343) are respectively and rotatably connected with a group of hinged mounting plates (340), and the two groups of spring loop rods (343) are respectively sleeved with a group of torsion springs (342).

5. A docking station with interface protection for a mobile terminal according to claim 4, wherein: articulated mounting panel (340) keep away from the one end fixed mounting in draw-in groove side chamber (310) has equipment clamping mechanism (350), torque spring (342) both ends difference fixed connection is on the casing of spring anticreep board (312) and equipment clamping mechanism (350).

6. A docking station with interface protection for a mobile terminal according to claim 5, characterized in that: equipment clamping mechanism (350) is including joint plate body (351), joint plate body (351) are fan ring structure, just joint plate body (351) convex surface and articulated mounting panel (340) fixed connection, it has joint plate inner chamber (352) to have seted up in joint plate body (351).

7. A docking station with interface protection for a mobile terminal according to claim 6, characterized in that: the clamping plate is characterized in that a plurality of groups of third springs (353) are equidistantly distributed on the inner wall of one side, close to the hinged mounting plate (340), of the clamping plate inner cavity (352), elastic plates (354) are fixedly mounted at the other ends of the third springs (353), silica gel pads (355) are fixedly mounted on the other side walls of the elastic plates (354), and the other sides of the silica gel pads (355) penetrate through the outside of the clamping plate body (351).

8. A docking station with interface protection for a mobile terminal according to claim 7, wherein: a plurality of groups of corner clamping grooves (356) are distributed on one side wall, away from the elastic plate (354), of the silica gel pad (355) at equal intervals from top to bottom, and two ends of each corner clamping groove (356) are of an open structure.

9. The docking station with interface protection function for mobile terminal according to claim 2, characterized in that: the docking station is characterized in that two groups of body limiting units (400) are symmetrically arranged on two side walls of the docking station body (100), each body limiting unit (400) comprises a stretching rod (430), two groups of body side grooves (410) are symmetrically arranged at the bottom edges of the outer walls of two sides of the docking station body (100), a through hole (411) is formed in one side inner wall, away from an opening, of each body side groove (410), two groups of side sliding grooves (420) are symmetrically arranged on two side walls of the through hole (411), a sliding block (450) is connected in the side sliding grooves (420) in a sliding mode, a fourth spring (460) is installed on the sliding block (450), and the other end of the fourth spring (460) is fixedly installed on one end inner wall of each side sliding groove (420).

10. A docking station with interface protection for a mobile terminal according to claim 9, characterized in that: stretching pole (430) one end activity runs through in through hole (411), stretching pole (430) other end extends to in body side groove (410), and installs limiting plate (440), limiting plate (440) lower extreme articulates there is articulated board (441), two sets of slider (450) keep away from the one end symmetry of side spout (420) and install on the both sides wall of stretching pole (430).

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