CN117691415A

CN117691415A - High-speed cable connector with pull belt unlocking structure

Info

Publication number: CN117691415A
Application number: CN202410116278.9A
Authority: CN
Inventors: 白宏伟; 钟仕斌; 李昱霖; 刘良军
Original assignee: Chengdu Suyi Lianxin Technology Co ltd
Current assignee: Chengdu Suyi Lianxin Technology Co ltd
Priority date: 2024-01-29
Filing date: 2024-01-29
Publication date: 2024-03-12
Anticipated expiration: 2044-01-29
Also published as: CN117691415B

Abstract

The invention relates to the field of high-speed cable connectors, in particular to a high-speed cable connector with a pull belt unlocking structure. The connector comprises a connector body, wherein one end of the connector body is provided with a connecting end, and the outer wall of the connector body is provided with a disassembly and assembly component; when the connecting end and the high-speed cable are required to be unlocked and separated, the electromagnetic block is disconnected from the magnetic attraction block after being powered off by pressing the degaussing switch, then the tension spring begins to rebound after sensing the pressure disappearance, the output force acts on the high-speed cable in the rebound process of the electromagnetic block, then the high-speed cable is driven to rebound and then is clamped and separated from the connecting end, the high-speed cable is protected through the limiting bag structure, the unlocking efficiency is accelerated, and when the uncontrollable situation occurs, the quick separation of the high-speed cable and the connecting end can be realized through the structure, so that the problem of secondary damage of the device is avoided, and meanwhile, the working effect of the connector is improved.

Description

High-speed cable connector with pull belt unlocking structure

Technical Field

The invention belongs to the technical field of high-speed cable connectors, and particularly relates to a high-speed cable connector with a pull belt unlocking structure.

Background

The cable connector is mainly suitable for signal transmission between various digital program controlled exchanges of transmission equipment bureau, internal connection of photoelectric transmission equipment and distribution frame, and is used for transmitting communication equipment such as data, audio frequency, video frequency and the like.

Through retrieval, in the prior art, chinese patent publication No. CN214044099U, the authorized publication date: 2021-08-24 discloses a draw tape unblock high-speed cable connector, including connector main part, shell fragment structure, connector back stopper and draw tape, shell fragment structure movably installs in the upper end of connector main part, connector back stopper movably installs in the connector main part of shell fragment structure rear end, the draw tape runs through and is fixed in shell fragment structure and connector back stopper, and above-mentioned embodiment reduces connector spare part quantity, simple structure, firm in connection, the unblock of locking is simple, convenient operation and easy manufacturing, and economic nature is good, and the reliability is high.

The device still has the following drawbacks: the connecting end of the connector and the high-speed cable cannot be quickly unlocked and separated during working, the high-speed cable after unlocking and separation cannot be protected, unlocking efficiency is low, the connecting end cannot be quickly separated from the high-speed cable in time when uncontrollable conditions occur to the device, and the device is easy to cause secondary damage, so that the working effect of the connector is reduced.

Disclosure of Invention

In view of the above, the present invention provides a high-speed cable connector with a pull-strap unlocking structure. The connector comprises a connector body, wherein a connecting end is arranged at one end of the connector body, a disassembly and assembly component is arranged on the outer wall of the connector body, a pull belt unlocking component is arranged at the top of the disassembly and assembly component, a positioning energy storage component is arranged at the edge of the top of the connector body, and a shading protection component is arranged at the top of the positioning energy storage component;

the draw tape unlocking assembly comprises a first mounting plate and a limiting bag structure, an electromagnetic block is mounted at the top of the first mounting plate, a demagnetizing switch is connected to the input end of the electromagnetic block in a transmission mode, a drawing rod is mounted on one side wall of the first mounting plate, a second mounting plate is mounted at the other end of the drawing rod, a drawing spring is mounted on one side wall, close to the first mounting plate, of the second mounting plate, a third mounting plate is mounted at the top of the second mounting plate, and a magnetic attraction block is mounted on one side wall, close to the electromagnetic block, of the third mounting plate.

Further, the dismouting subassembly includes the backup pad, two sets of fixed plates are installed to the bottom symmetry of backup pad, every group a set of smooth chamber has all been seted up on the corresponding lateral wall of fixed plate, every group equal symmetry sliding connection in the smooth chamber has two sets of grip blocks, every group the equal sliding connection of one end of grip block is on the outer wall of connector body, every group a set of joint hole has all been seted up on the outer wall of grip block.

Further, two groups of first electric push rods are symmetrically arranged on the outer wall of each group of fixing plates, a group of clamping plates are arranged at the output ends of each group of first electric push rods, and the clamping plates are movably clamped with the clamping holes.

Further, two groups of fixing blocks are symmetrically arranged at the edge of a corresponding side wall of each group of fixing plate, one group of compression springs are arranged on one side wall of each group of fixing blocks, and the other ends of the compression springs are arranged on the clamping blocks.

Further, the bottom of first mounting panel is installed on the top of backup pad, electronic slip table is installed to the top edge of electromagnetism piece, sliding connection has the rectangular plate on the output of electronic slip table, the push rod is installed to the bottom of rectangular plate, the output of push rod is located the demagnetization switch directly over, extension spring's the other end is installed on first mounting panel, the output of magnetism piece is inhaled and the output of electromagnetism piece is located same axis.

Further, a fourth mounting plate is mounted on a side wall, far away from the first mounting plate, of the second mounting plate, a limiting ring is mounted at the bottom of the fourth mounting plate, a limiting bag structure is mounted on the inner wall of the limiting ring, a plurality of groups of heating blocks are arranged in the limiting bag structure, a filling structure is mounted on the outer wall of the limiting ring, and an output end of the filling structure penetrates through the limiting ring and then is communicated with an input end of the limiting bag structure.

Further, the positioning energy storage assembly comprises a second electric push rod, the bottom of the second electric push rod is arranged at the top edge of the connector body, a fifth mounting plate is arranged at the output end of the second electric push rod, a sixth mounting plate is arranged right above the fifth mounting plate, a tail baffle is arranged on one side wall of the sixth mounting plate, and a plurality of groups of movable lantern rings are arranged at the top of the fifth mounting plate at equal intervals.

Further, the dwang is connected with in the rotation on the inner wall of movable lantern ring, equidistant fixed sleeve has cup jointed a plurality of fixed lantern rings on the outer wall of dwang, every group the outer wall of fixed lantern ring is all installed on the bottom of sixth mounting panel, first motor is installed at the top of fifth mounting panel, the output transmission of first motor is connected on the dwang.

Further, shading protection components includes the guard plate, the top at the sixth mounting panel is installed to the bottom of guard plate, solar panel is installed at the top of guard plate, two sets of installation pieces are installed to the symmetry on the both sides wall of guard plate, every group all offer a set of spout on the lateral wall that the guard plate was kept away from to the installation piece, every group all rotate in the spout and be connected with a set of threaded rod, every group all install a set of second motor on the top inner wall of guard plate, every group the output of second motor is all transmitted and is connected on one end of threaded rod.

Further, each group equal threaded connection has a set of sliding block on the threaded rod, every group the equal sliding connection of sliding block is in the spout, every group all install a set of first connecting block on the lateral wall that the guard plate was kept away from to the sliding block, every group all install a set of second connecting block on the lateral wall bottom that the guard plate is close to first connecting block, every group all be connected with a set of folding protection curtain between first connecting block and the second connecting block.

The beneficial effects of the invention are as follows:

1. when the connecting end and the high-speed cable need to be unlocked and separated, the electromagnetic block is disconnected from the magnetic attraction block after the electromagnetic block is powered off by pressing the degaussing switch, then the tension spring starts to rebound after sensing the pressure disappearance, the output force acts on the high-speed cable in the rebound process of the tension spring, then the high-speed cable is driven to rebound and then is blocked and separated from the connecting end, the high-speed cable is protected through the limiting bag structure, unlocking efficiency is accelerated, and when uncontrollable conditions occur, the quick separation of the high-speed cable and the connecting end can be realized through the structure, so that the problem of secondary damage of the device is avoided, and meanwhile, the working effect of the connector is improved.

2. The two groups of first electric push rods are started to drive the two groups of clamping plates to move in opposite directions, and because the clamping plates and the clamping holes are in a clamping state, the two groups of clamping blocks are driven to move in opposite directions in the clamping plate moving process, then the connector body is positioned between the two groups of clamping blocks, and then the two groups of clamping blocks are driven to move in opposite directions, the connector body is extruded and limited, protection and shock absorption are carried out through the two groups of compression springs, and the shock absorption and protection effects are achieved while the dismounting effect of the device is improved.

3. Because the connector body is in outdoor operation for a long time, the protection effect is low, the first motor is started to drive the rotating rod to rotate, the rotating rod drives the fixed sleeve ring to rotate, the fixed sleeve ring drives the sixth mounting plate to conduct angle adjustment in the rotating process, and the tail blocking plate is driven to rotate to a specified angle in the rotating process of the sixth mounting plate, so that the tail of the connector body is protected; the angle adjustment compatibility is improved, and meanwhile, the protection range of the device is improved.

4. When the protection plate moves to the appointed position, the solar panel is driven to store energy of the light source, the second motor is started to drive the threaded rod to rotate, the threaded rod drives the sliding block to slide in the sliding groove, the two groups of first connecting blocks are driven to extend forwards, the second connecting blocks are matched in the moving process of the first connecting blocks to enable the folding protection curtain to be unfolded, the light source irradiating the connector body is eliminated and shielded, the problem that the working effect of the connector is reduced due to high-temperature strong light is avoided, the service life of the device is prolonged, and the energy storage effect of the light source 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 may 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 of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 shows a schematic diagram of a high-speed cable connector according to an embodiment of the present invention;

FIG. 2 shows a schematic view of a shading protection component according to an embodiment of the present invention;

FIG. 3 shows a schematic diagram of the construction of a removable assembly according to an embodiment of the invention;

FIG. 4 shows a schematic view of a fixation plate structure according to an embodiment of the present invention;

FIG. 5 shows a schematic drawing of a pull strap unlocking assembly according to an embodiment of the present invention;

FIG. 6 shows a schematic diagram of a positioning energy storage assembly according to an embodiment of the invention;

fig. 7 shows a schematic view of a guard plate structure according to an embodiment of the present invention;

FIG. 8 illustrates a schematic cross-sectional view of a mounting block according to an embodiment of the invention.

In the figure: 1. a connector body; 2. a connection end; 3. disassembling and assembling the assembly; 301. a support plate; 302. a fixing plate; 303. a sliding cavity; 304. a clamping block; 305. a clamping hole; 306. a first electric push rod; 307. a clamping plate; 308. a fixed block; 309. a compression spring; 4. a pull strap unlocking assembly; 401. a first mounting plate; 402. an electromagnetic block; 403. a degaussing switch; 404. an electric sliding table; 405. a rectangular plate; 406. pressing a pressing rod; 407. a stretching rod; 408. a second mounting plate; 409. a tension spring; 410. a third mounting plate; 411. a magnetic suction block; 412. a fourth mounting plate; 413. a limiting ring; 414. a limit bag structure; 415. filling the structure; 5. a positioning energy storage component; 501. a second electric push rod; 502. a fifth mounting plate; 503. a rotating lever; 504. a movable collar; 505. a fixed collar; 506. a first motor; 507. a tail baffle; 508. a sixth mounting plate; 6. a shade protection assembly; 601. a protection plate; 602. a solar panel; 603. a mounting block; 604. a threaded rod; 605. a chute; 606. a sliding block; 607. a first connection block; 608. a second connection block; 609. folding a protective curtain; 610. and a second motor.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment of the invention provides a high-speed cable connector with a pull belt unlocking structure. Including connector body 1, exemplary, as shown in fig. 1 and 2, the one end of connector body 1 is provided with link 2, be provided with dismouting subassembly 3 on the connector body 1 outer wall, pull tape unblock subassembly 4 is installed at the top of dismouting subassembly 3, the position energy storage subassembly 5 is installed to connector body 1 top edge, shading protection subassembly 6 is installed at the top of position energy storage subassembly 5.

As shown in fig. 3 and fig. 4, the dismounting assembly 3 includes a supporting plate 301, two groups of fixing plates 302 are symmetrically installed at the bottom of the supporting plate 301, a group of sliding chambers 303 are respectively provided on a corresponding side wall of each group of fixing plates 302, two groups of fixing blocks 308 are respectively symmetrically installed at the edge of a corresponding side wall of each group of fixing plates 302, one end of each group of fixing blocks 304 is respectively and slidably connected to the outer wall of the connector body 1, a group of clamping holes 305 are respectively provided on the outer wall of each group of fixing blocks 304, two groups of first electric push rods 306 are respectively and symmetrically installed on the outer wall of each group of fixing plates 302, a group of clamping plates 307 are respectively and symmetrically installed on the edge of a corresponding side wall of each group of fixing plates 302, and a group of compression springs 309 are respectively installed on one side wall of each group of fixing blocks 308, and the other ends of each group of compression springs 304 are respectively and respectively installed on the fixing blocks 309.

In order to improve the convenient disassembly and assembly maintenance effect of the device, two groups of first electric push rods 306 are started to drive two groups of clamping plates 307 to move in opposite directions, and as the clamping plates 307 and the clamping holes 305 are in a clamping state, two groups of clamping blocks 304 are driven to move in opposite directions in the moving process of the clamping plates 307, then the connector body 1 is positioned between the two groups of clamping blocks 304, and then the two groups of clamping blocks 304 are driven to move in opposite directions, so that the connector body 1 is extruded and limited, protection and shock absorption are performed through the two groups of compression springs 309, and the shock absorption and protection effects are achieved while the disassembly and assembly effects of the device are improved.

The pull belt unlocking assembly 4 includes a first mounting plate 401, the bottom of the first mounting plate 401 is mounted on the top of the supporting plate 301, an electromagnetic block 402 is mounted on the top of the first mounting plate 401, a degaussing switch 403 is connected to the input end of the electromagnetic block 402 in a transmission manner, an electric sliding table 404 is mounted at the top edge of the electromagnetic block 402, a rectangular plate 405 is slidably connected to the output end of the electric sliding table 404, a pressing rod 406 is mounted at the bottom of the rectangular plate 405, the output end of the pressing rod 406 is located right above the degaussing switch 403, a stretching rod 407 is mounted on one side wall of the first mounting plate 401, a second mounting plate 408 is mounted at the other end of the stretching rod 407, the other end of the stretching spring 409 is mounted on the first mounting plate 401, a third mounting plate 410 is mounted on the top of the second mounting plate 408, a side wall of the third mounting plate 410, a magnet block 414 is mounted on the side wall of the third mounting plate 410, a limit stop block 412 is mounted on the second mounting plate, a plurality of limit stop block 413 is mounted on the side wall of the second mounting plate, a plurality of limit stop bags are mounted on the second mounting plate 413, a plurality of limit bags are mounted on the same side wall of the second mounting plate 413, a limit stop bags are mounted on the second mounting plate 413, and a plurality of limit bags are mounted on the second mounting plate 413 are mounted on the same side wall of the second mounting plate 413, and the limit bags are mounted on the limit structures.

Before the connector body 1 works, the connecting end 2 is driven to be connected with the high-speed cable in a movable clamping connection mode, then the high-speed cable is located in the limiting ring 413, the second mounting plate 408 is pushed to move towards the direction close to the first mounting plate 401, two groups of tension springs 409 are driven to compress, the magnetic attraction blocks 411 are driven to be magnetically connected with the electromagnetic blocks 402, the filling structure 415 is started to fill the limiting bag structure 414, the limiting bag structure 414 is expanded to limit and stabilize the high-speed cable, and the stabilizing effect of the device work is improved.

When the connecting end 2 and the high-speed cable need to be separated, the electric sliding table 404 drives the pressing rod 406 to descend and then presses the demagnetizing switch 403, so that the electromagnetic block 402 is disconnected from the magnetic attraction block 411 after being powered off, then the tension spring 409 begins to rebound after sensing the disappearance of pressure, output force acts on the high-speed cable in the rebound process of the electromagnetic block, then the high-speed cable is driven to rebound and then is clamped and separated from the connecting end 2, and then the high-speed cable continues to be protected through the limiting bag structure 414, unlocking efficiency is quickened, and when uncontrollable conditions occur, the quick separation of the high-speed cable and the connecting end 2 can be realized through the structure, so that the problem of secondary damage of the device is avoided, and meanwhile, the working effect of the connector is improved.

As shown in fig. 6, the positioning energy storage assembly 5 includes a second electric push rod 501, the bottom of the second electric push rod 501 is mounted on the top edge of the connector body 1, a fifth mounting plate 502 is mounted on the output end of the second electric push rod 501, a sixth mounting plate 508 is disposed right above the fifth mounting plate 502, a tail baffle 507 is mounted on a side wall of the sixth mounting plate 508, a plurality of groups of movable collars 504 are disposed at equal intervals on the top of the fifth mounting plate 502, a rotating rod 503 is connected on an inner wall of the movable collars 504 in a rotating manner, a plurality of groups of fixed collars 505 are fixedly sleeved on an outer wall of the rotating rod 503 at equal intervals, each group of fixed collars 505 are mounted on the bottom of the sixth mounting plate 508 on an outer wall of the fixed collars 505, a first motor 506 is mounted on the top of the fifth mounting plate 502, and the output end of the first motor 506 is connected on the rotating rod 503 in a transmission manner.

Because the connector body 1 is in outdoor operation for a long time, the protection effect is low, the first motor 506 is started to drive the rotating rod 503 to rotate, the rotating rod 503 drives the fixed sleeve ring 505 to rotate, the fixed sleeve ring 505 drives the sixth mounting plate 508 to perform angle adjustment in sequence in the rotating process, and the tail baffle 507 is driven to rotate to a specified angle in sequence when the sixth mounting plate 508 rotates to a specified position, so that the tail of the connector body 1 is protected; the angle adjustment compatibility is improved, and meanwhile, the protection range of the device is improved.

For example, as shown in fig. 7 and fig. 8, the light shielding assembly 6 includes a shielding plate 601, the bottom of the shielding plate 601 is mounted on the top of the sixth mounting plate 508, a solar panel 602 is mounted on the top of the shielding plate 601, two groups of mounting blocks 603 are symmetrically mounted on two side walls of the shielding plate 601, a group of sliding grooves 605 are respectively formed in a side wall, away from the shielding plate 601, of each group of mounting blocks 603, a group of threaded rods 604 are respectively rotatably connected in the sliding grooves 605, a group of second motors 610 are respectively mounted on the inner wall of the top of the shielding plate 601, the output end of each group of second motors 610 is respectively connected to one end of the threaded rods 604 in a driving manner, each group of threaded rods 604 is respectively provided with a group of sliding blocks 606, each group of sliding blocks 606 are respectively slidably connected in the sliding grooves 605, a group of first connecting blocks 607 are respectively mounted on one side wall, which is away from the shielding plate 601, a group of second connecting blocks 607 are respectively mounted on the bottom of a side wall, which is close to the first connecting blocks, and a group of second connecting blocks 607 are respectively connected with the first connecting blocks 609.

When the protection plate 601 moves to a designated position, the solar panel 602 is driven to store energy of a light source, the second motor 610 is started to drive the threaded rod 604 to rotate, the threaded rod 604 drives the sliding block 606 to slide in the sliding groove 605, two groups of first connecting blocks 607 are driven to extend forwards, the second connecting blocks 608 are matched in the moving process of the first connecting blocks to enable the folding protection curtain 609 to be unfolded, the light source irradiating the connector body 1 is eliminated and shielded, the problem that the working effect of the connector is reduced due to high-temperature strong light is avoided, the service life of the device is prolonged, and the energy storage effect of the light source is improved.

When the connecting end 2 and the high-speed cable need to be unlocked and separated, the electromagnetic block 402 is disconnected from the magnetic attraction block 411 after being powered off by pressing the degaussing switch 403, then the tension spring 409 begins to rebound after sensing the disappearance of pressure, the output force acts on the high-speed cable in the rebound process of the tension spring, then the high-speed cable is driven to rebound and then is clamped and separated from the connecting end 2, the high-speed cable is protected through the limiting bag structure 414, the unlocking efficiency is accelerated, and when the uncontrollable condition occurs, the quick separation of the high-speed cable and the connecting end 2 can be realized through the structure, so that the problem of secondary damage of the device is avoided, and meanwhile, the working effect of the connector is improved.

The two groups of first electric push rods 306 are started to drive the two groups of clamping plates 307 to move in opposite directions, and as the clamping plates 307 and the clamping holes 305 are in a clamping state, the two groups of clamping blocks 304 are driven to move in opposite directions in the moving process of the clamping plates 307, then the connector body 1 is positioned between the two groups of clamping blocks 304, and then the two groups of clamping blocks 304 are driven to move in opposite directions, the connector body 1 is extruded and limited, protection and shock absorption are carried out through the two groups of compression springs 309, and the shock absorption and protection effects are achieved while the dismounting and mounting effects of the device are improved.

Although the 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 scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. High-speed cable connector with stretching strap unblock structure, including connector body (1), its characterized in that: one end of the connector body (1) is provided with a connecting end (2), a disassembly and assembly component (3) is arranged on the outer wall of the connector body (1), a pull belt unlocking component (4) is arranged at the top of the disassembly and assembly component (3), a positioning energy storage component (5) is arranged at the edge of the top of the connector body (1), and a shading protection component (6) is arranged at the top of the positioning energy storage component (5);

the utility model provides a draw tape unblock subassembly (4) includes first mounting panel (401) and spacing bag structure (414), electromagnetism piece (402) are installed at the top of first mounting panel (401), the transmission is connected with degaussing switch (403) on the input of electromagnetism piece (402), install stretching rod (407) on the lateral wall of first mounting panel (401), second mounting panel (408) are installed to the other end of stretching rod (407), second mounting panel (408) are close to on the lateral wall of first mounting panel (401) and install extension spring (409), third mounting panel (410) are installed at the top of second mounting panel (408), magnetic attraction piece (411) are installed on the lateral wall that third mounting panel (410) are close to electromagnetism piece (402).

2. The high-speed cable connector with pull-strap unlocking structure of claim 1, wherein: the disassembly and assembly (3) comprises a supporting plate (301), two groups of fixing plates (302) are symmetrically arranged at the bottom of the supporting plate (301), a group of sliding cavities (303) are formed in one side wall corresponding to each fixing plate (302), two groups of clamping blocks (304) are symmetrically and slidingly connected in each sliding cavity (303), one end of each clamping block (304) is slidingly connected to the outer wall of the connector body (1), and a group of clamping holes (305) are formed in the outer wall of each clamping block (304).

3. The high-speed cable connector with pull-strap unlocking structure of claim 2, wherein: two groups of first electric push rods (306) are symmetrically arranged on the outer wall of each group of fixing plate (302), a group of clamping plates (307) are arranged at the output ends of each group of first electric push rods (306), and the clamping plates (307) are movably clamped with the clamping holes (305).

4. The high-speed cable connector with pull-strap unlocking structure of claim 2, wherein: two groups of fixing blocks (308) are symmetrically arranged at the edge of a corresponding side wall of each group of fixing plate (302), one side wall of each group of fixing blocks (308) is provided with a group of compression springs (309), and the other end of each group of compression springs (309) is arranged on the clamping block (304).

5. The high-speed cable connector with pull-strap unlocking structure of claim 2, wherein: the bottom of first mounting panel (401) is installed on the top of backup pad (301), electronic slip table (404) are installed at the top edge of electromagnetism piece (402), sliding connection has rectangular board (405) on the output of electronic slip table (404), push rod (406) are installed to the bottom of rectangular board (405), the output of push rod (406) is located directly over degaussing switch (403), the other end of extension spring (409) is installed on first mounting panel (401), the output of magnetism piece (411) is located same axis with the output of electromagnetism piece (402).

6. The high-speed cable connector with pull-strap unlocking structure of claim 1, wherein: the utility model discloses a spacing bag structure, including first mounting panel (401) and second mounting panel (408), install fourth mounting panel (412) on the side wall that first mounting panel (401) was kept away from to second mounting panel (408), spacing ring (413) are installed to the bottom of fourth mounting panel (412), spacing bag structure (414) are installed on the inner wall of spacing ring (413), be provided with a plurality of heating blocks of group in spacing bag structure (414), install filling structure (415) on the outer wall of spacing ring (413), the output of filling structure (415) runs through behind spacing ring (413) and communicates on the input of spacing bag structure (414).

7. The high-speed cable connector with pull-strap unlocking structure of claim 1, wherein: the positioning energy storage assembly (5) comprises a second electric push rod (501), the bottom of the second electric push rod (501) is arranged on the top edge of the connector body (1), a fifth mounting plate (502) is arranged at the output end of the second electric push rod (501), a sixth mounting plate (508) is arranged right above the fifth mounting plate (502), a tail baffle (507) is arranged on one side wall of the sixth mounting plate (508), and a plurality of groups of movable lantern rings (504) are arranged at the top of the fifth mounting plate (502) at equal intervals.

8. The high-speed cable connector with pull-strap unlocking structure of claim 7, wherein: the inner wall of the movable sleeve ring (504) is rotationally connected with a rotating rod (503), a plurality of groups of fixed sleeve rings (505) are fixedly sleeved on the outer wall of the rotating rod (503) at equal intervals, the outer wall of each group of fixed sleeve rings (505) is installed on the bottom of a sixth mounting plate (508), a first motor (506) is installed at the top of the fifth mounting plate (502), and the output end of the first motor (506) is in transmission connection with the rotating rod (503).

9. The high-speed cable connector with pull-strap unlocking structure of claim 8, wherein: the shading protection component (6) comprises a protection plate (601), the top of a sixth mounting plate (508) is mounted at the bottom of the protection plate (601), a solar panel (602) is mounted at the top of the protection plate (601), two groups of mounting blocks (603) are symmetrically mounted on two side walls of the protection plate (601), a group of sliding grooves (605) are formed in each group of mounting blocks (603) on one side wall of the protection plate (601), a group of threaded rods (604) are connected in each group of sliding grooves (605) in a rotating mode, a group of second motors (610) are mounted on the inner wall of the top of the protection plate (601), and the output ends of the second motors (610) are connected to one end of the threaded rods (604) in a transmission mode.

10. The high-speed cable connector with pull-strap unlocking structure of claim 9, wherein: every group equal threaded connection has a set of sliding block (606) on threaded rod (604), every group sliding block (606) all sliding connection is in spout (605), every group on the lateral wall that guard plate (601) were kept away from to sliding block (606) all install a set of first connecting block (607), every group on guard plate (601) is close to a lateral wall bottom of first connecting block (607) all install a set of second connecting block (608), every group all be connected with a set of folding protection curtain (609) between first connecting block (607) and second connecting block (608).