阅读说明：本技术 一种通讯线缆连接模块 (Communication cable connection module ) 是由 王平 于 2021-10-25 设计创作，主要内容包括：本发明公开了一种通讯线缆连接模块,包括接线盒、翻盖、信号处理机构以及线缆插头,所述接线盒的内部滑动设置有对接托架,所述对接托架的上侧滑动设置有定位架,所述定位架的内侧设置有对应线缆插头的定位块,所述定位架内设置有以限制定位块水平移动的部件,所述对接托架的上端固设有U型架。本发明中,首先,采用整体固定插接的方式,以实现对多个紧挨在一起的线缆插头的整体插接,既提高相应人员的工作效率,又提高接电工作的安全性,其次,通过对单个故障处理单元的紧急切断,实现对通讯设备安全防护的同时,也能够保障其部分功能的正常运行,避免通讯设备完全处于故障状态,对相应用户造成较大损失。(The invention discloses a communication cable connection module which comprises a junction box, a turnover cover, a signal processing mechanism and a cable plug, wherein a butt joint bracket is arranged in the junction box in a sliding mode, a positioning frame is arranged on the upper side of the butt joint bracket in a sliding mode, a positioning block corresponding to the cable plug is arranged on the inner side of the positioning frame, a component for limiting the horizontal movement of the positioning block is arranged in the positioning frame, and a U-shaped frame is fixedly arranged at the upper end of the butt joint bracket. According to the invention, firstly, an integral fixed plugging mode is adopted to realize integral plugging of a plurality of cable plugs which are closely connected together, so that the working efficiency of corresponding personnel is improved, and the safety of power connection work is improved.)

1. A communication cable connection module comprises a junction box (1), a flip cover (2) rotating on the junction box (1), a signal processing mechanism (6) installed inside the junction box (1), a cable plug (10) inserted with the signal processing mechanism (6), and a fault detector and a controller used in cooperation with the signal processing mechanism (6), and is characterized in that a butt joint bracket (8) is arranged inside the junction box (1) in a sliding manner, a component for driving the butt joint bracket (8) to move horizontally is arranged at the bottom of the junction box (1), a plurality of cable plugs (10) distributed horizontally at equal intervals are supported on the upper side of the butt joint bracket (8), a positioning frame (9) is arranged on the upper side of the butt joint bracket (8) in a sliding manner, and a positioning block (11) corresponding to the cable plugs (10) is arranged on the inner side of the positioning frame (9), the cable connector comprises a cable plug (10), a butt joint notch (1001) matched with a positioning block (11) in an inserted mode is formed in the cable plug (10), a component used for limiting the horizontal movement of the positioning block (11) is arranged in a positioning frame (9), a pressing component used for driving the positioning block (11) to move horizontally is arranged on the positioning frame (9), a U-shaped frame (18) is fixedly arranged at the upper end of a butt joint bracket (8), a support (16) is fixedly arranged at the bottom of the positioning frame (9), the support (16) is embedded in the U-shaped frame (18) in a sliding mode, a component used for driving the positioning frame (9) to move vertically is arranged on the U-shaped frame (18), a transverse plate (20) is fixedly arranged on the inner side of a junction box (1), a plurality of rotary sleeves (27) corresponding to the positioning block (11) are arranged in the transverse plate (20) in a sliding mode, a first sliding groove (2001) matched with the rotary sleeves (27) in a sliding mode is formed in the transverse plate (20), the bottom of the rotary sleeve (27) is fixedly provided with a magnetic sleeve (29), a horizontal frame plate (21) is arranged on the upper side of the transverse plate (20) in the junction box (1), and a part for controlling the rotary sleeve (27) to rotate is arranged on the horizontal frame plate (21).

2. The communication cable connection module according to claim 1, wherein the inside of the junction box (1) has an opening, a movable plate (4) adapted to the size of the opening is disposed outside the junction box (1), and the movable plate (4) is slidably connected to the junction box (1) through a sliding frame (5).

3. The communication cable connection module according to claim 1, wherein the component for driving the docking bracket (8) to move horizontally is a driving screw (7) rotatably connected to the bottom of the junction box (1), the driving screw (7) is rotatably connected to the docking bracket (8), and a motor for driving the driving screw (7) to rotate is installed inside the junction box (1).

4. The communication cable connection module according to claim 1, wherein the pressing member for driving the positioning block (11) to move horizontally comprises a ventilation cavity (14) fixed at a side end of the positioning frame (9) and an air pipe (15) communicated with a bottom of the ventilation cavity (14), and the other end of the air pipe (15) is fixed with the positioning block (11).

5. The communication cable connection module according to claim 4, wherein the component for limiting the horizontal movement of the positioning block (11) comprises a vertical rod (12) fixed at the upper end of the positioning block (11) and a butt-joint sliding sleeve (13) slidably disposed on the outer side of the vertical rod (12), the upper portion of the butt-joint sliding sleeve (13) is a semicircular opening structure, the component for limiting the horizontal movement of the positioning block (11) further comprises a positioning groove (901) formed in the positioning frame (9), the inner diameter of the positioning groove (901) is matched with the outer diameter of the butt-joint sliding sleeve (13), an outer extending groove (902) communicated with the positioning groove (901) is formed in the positioning frame (9), and the inner diameter of the outer extending groove (902) is matched with the outer diameter of the vertical rod (12).

6. The communication cable connection module according to claim 1, wherein the means for driving the positioning frame (9) to move vertically is a driving plate (19) slidably disposed outside the U-shaped frame (18) and a driving assembly for driving the driving plate (19) to move horizontally, and the means for driving the positioning frame (9) to move vertically further comprises a linkage rod (17) fixed at the outer end of the bracket (16).

7. The communication cable connection module according to claim 6, wherein the U-shaped frame (18) has a first strip-shaped groove (1801) inside which the coupling rod (17) slides, the first strip-shaped groove (1801) is vertically distributed, the transmission plate (19) has a second strip-shaped groove (1901) inside which the coupling rod (17) slides, and the second strip-shaped groove (1901) is obliquely distributed relative to the first strip-shaped groove (1801).

8. The communication cable connection module according to claim 1, wherein the component for controlling the rotation of the rotary sleeve (27) comprises an abutting block (24) slidably connected inside the horizontal frame plate (21), an abutting block (24) slidably connected on the top of the horizontal frame plate (21), a cam (23) rotatably connected on the top of the horizontal frame plate (21), and a shaft rod (26) fixedly arranged at the bottom of the abutting block (24), the horizontal frame plate (21) is internally provided with a second sliding groove (2101) matched with the abutting block (24) and used for sliding the abutting block (25), the abutting block (24) and the abutting end surface of the abutting block (25) are in an inclined slope structure matched with each other, and the bottom of the horizontal frame plate (21) is provided with a driving motor (22) for controlling the rotation of the cam (23).

9. The communication cable connection module according to claim 8, wherein the outer end of the shaft rod (26) is fixedly provided with a protrusion (2601), the inside of the rotating sleeve (27) is provided with a sliding rail (2701) which is matched with the protrusion (2601) to slide, the sliding rail (2701) is spirally distributed on the inner side of the rotating sleeve (27), and the outer side of the rotating sleeve (27) is sleeved with a compression spring (28) which acts on the butt-joint block (25).

10. The communication cable connection module according to claim 1, wherein a winding reel (30) for winding a cable is fixedly arranged at one side of the signal processing mechanism (6) inside the junction box (1), and a conduction groove (3) for the cable to pass through is further formed inside the junction box (1).

Technical Field

The invention relates to the technical field of communication cable wiring equipment, in particular to a communication cable connecting module.

Background

The wired communication equipment mainly solves the problems of serial port communication, professional bus type communication, industrial Ethernet communication and conversion equipment among various communication protocols in an industrial field.

The interface for plugging the cable plug in the communication equipment is designed more closely, and because the operation space in the communication equipment is limited, when workers perform cable plugging work in a crowded operating environment, it is often difficult to perform sequential plugging processing on a plurality of closely-connected interfaces, in the process of plugging, the hand part is close to the interface, certain potential safety hazard can be formed, the safe and efficient operation and treatment of workers are not facilitated, secondly, in the process of working and running of the existing communication equipment, if a certain communication processing unit has a fault, the processing unit continuously works and operates in the connection state of the cable, which can affect the normal operation of other communication units and lead to the breakdown of the equipment in a large range under severe conditions, in the case where all functions of the communication device are stopped, it causes a loss that is difficult to be compensated for by the corresponding user.

Disclosure of Invention

The invention aims to: in order to solve the above problems, a communication cable connection module is proposed.

In order to achieve the purpose, the invention adopts the following technical scheme: a communication cable connection module comprises a junction box, a flip cover rotating on the junction box, a signal processing mechanism installed inside the junction box, a cable plug inserted by the signal processing mechanism, a fault detector and a controller used in cooperation with the signal processing mechanism, wherein a butt joint bracket is arranged inside the junction box in a sliding manner, a part for driving the butt joint bracket to move horizontally is arranged at the bottom of the junction box, a plurality of cable plugs distributed in a horizontal and equidistant manner are supported on the upper side of the butt joint bracket, a positioning frame is arranged on the upper side of the butt joint bracket in a sliding manner, a positioning block corresponding to the cable plug is arranged on the inner side of the positioning frame, a butt joint notch inserted by the positioning block is arranged inside the cable plug, a part for limiting the horizontal movement of the positioning block is arranged in the positioning frame, and a pressing part for driving the positioning block to move horizontally is arranged on the positioning frame, the upper end of butt joint bracket has set firmly U type frame, the bottom of locating rack has set firmly the support, and the support cunning inlays in the inboard of U type frame, be provided with the part in order to order about the vertical removal of locating rack on the U type frame, the inboard of terminal box has set firmly the diaphragm, the inside slip of diaphragm is provided with the cover soon of a plurality of corresponding locating pieces, the inside of diaphragm has the cooperation and revolves the gliding first spout of cover, the bottom of revolving the cover has set firmly magnetism and has inhaled the cover, the inside of terminal box is located the upside of diaphragm and is provided with horizontal frame plate, be provided with the control on the horizontal frame plate and revolve cover pivoted part.

Preferably, the inside of the junction box is provided with an opening, the outside of the junction box is provided with a movable plate matched with the opening in size, and the movable plate is connected with the junction box in a sliding mode through a sliding connection frame.

Preferably, the component driving the docking bracket to move horizontally is a transmission screw rotatably connected to the bottom of the junction box, the transmission screw is rotatably connected with the docking bracket, and a motor driving the transmission screw to rotate is installed inside the junction box.

Preferably, the pressing component for driving the positioning block to move horizontally comprises a ventilation cavity fixedly arranged at the side end of the positioning frame and an air pipe communicated with the bottom of the ventilation cavity, and the other end of the air pipe is fixed with the positioning block.

Preferably, the part of restriction locating piece horizontal migration sets up the butt joint sliding sleeve in the montant outside including fixing the montant of locating piece upper end and sliding, the upper portion of butt joint sliding sleeve is semicircular open structure, the part of restriction locating piece horizontal migration still includes sets up the inside constant head tank of locating rack, and the internal diameter of constant head tank and the external diameter looks adaptation of butt joint sliding sleeve, the overhanging groove that is linked together with the constant head tank is still seted up to the inside of locating rack, and the internal diameter of overhanging groove and the external diameter looks adaptation of montant.

Preferably, the part for driving the positioning frame to vertically move is a transmission plate arranged outside the U-shaped frame in a sliding manner and a transmission assembly for driving the transmission plate to horizontally move, and the part for driving the positioning frame to vertically move further comprises a linkage rod fixedly arranged at the outer end of the support.

Preferably, the inside of U type frame has the gliding first bar groove of cooperation trace, and first bar groove is vertical distribution, the gliding second bar groove of even cooperation trace is seted up to the inside of driving plate, the slope of second bar groove relative to first bar groove distributes.

Preferably, the control revolves cover pivoted part includes the butt joint piece of sliding connection at horizontal frame plate inside, sliding connection at the butt joint piece at horizontal frame plate top, rotates the cam of connecting at horizontal frame plate top and sets firmly the axostylus axostyle in butt joint piece bottom, the inside of horizontal frame plate has cooperation butt joint piece and to the gliding second spout of butt joint piece, the butt joint piece is the slope surface structure of mutually supporting with the terminal surface that the butt joint piece was laminated, control cam pivoted driving motor is installed to the bottom of horizontal frame plate.

Preferably, the outer end of the shaft lever is fixedly provided with a convex block, the interior of the rotary sleeve is provided with a slide rail matched with the convex block to slide, the slide rail is spirally distributed on the inner side of the rotary sleeve, and the outer side of the rotary sleeve is sleeved with a compression spring acting on and abutting against the block.

Preferably, a winding reel for winding the cable is fixedly arranged on one side of the signal processing mechanism in the junction box, and a conduction groove for the cable to penetrate through is further formed in the junction box.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. this application is through being equipped with butt joint layer board and drive screw in the terminal box, be equipped with locating rack and U type frame on the butt joint layer board, be equipped with the locating piece in the locating rack, be equipped with the driving plate in the outside of U type frame, start drive assembly control driving plate horizontal migration, when the locating piece is detained in the butt joint notch, accomplish the fixed of a plurality of cable plugs, subsequently, the starter motor drives drive screw and rotates, drive screw will drive the butt joint bracket and remove along the horizontal direction, realize the grafting of cable plug and signal processing mechanism, adopt the mode of whole fixed grafting, in order to realize the whole grafting to a plurality of cable plugs that are close together, thereby avoid the staff to need to peg graft in proper order a plurality of cable plugs in narrow and small operating space, both improve corresponding personnel's work efficiency, can improve the security of connecing electric work again.

2. The utility model has the advantages that the vertical rod is arranged on the positioning block, the butt joint sliding sleeve is arranged on the outer side of the vertical rod, the ventilation cavity is arranged on the positioning frame, the air pipe is arranged between the ventilation cavity and the positioning block, when the fault detector detects that one signal processing unit of the junction box has a fault, the corresponding rotary sleeve is controlled to rotate by the controller, when the semicircular opening of the magnetic suction sleeve rotates to the opposite side of the butt joint sliding sleeve, the butt joint sliding sleeve slides upwards to be buckled with the magnetic suction sleeve, high-pressure air acts on the positioning block through the air pipe, so that the cable plug is quickly separated from the signal processing mechanism to complete the emergency cut-off of the fault signal processing unit, the emergency cut-off of the single fault processing unit is used to ensure that other signal processing units maintain normal work, the safety protection of the communication equipment is realized, meanwhile, the normal operation of partial functions of the cable plug can be ensured, and the communication equipment is prevented from being completely in a fault state, causing a large loss to the corresponding user.

3. This application is through being equipped with the fly leaf on the terminal box, be equipped with the bobbin and switch on the groove in the terminal box, connect the in-process of electric operation, pull open the fly leaf, for the staff provides great operating space, also can provide better operation field of vision for the user of service simultaneously, be favorable to the electric operation of connecing of staff, design through the bobbin, carry out the orderly arrangement to mixed and disorderly cable, concentrate the other end of cable simultaneously and run through the switch on groove, be favorable to the staff to the shutoff of switch on the groove, the leakproofness of guarantee terminal box, provide safety and stability's operational environment for communication equipment.

Drawings

FIG. 1 illustrates a perspective view provided in accordance with an embodiment of the present invention;

FIG. 2 illustrates a top view provided in accordance with an embodiment of the present invention;

FIG. 3 illustrates a cross-sectional view provided in accordance with an embodiment of the present invention;

FIG. 4 illustrates a cutaway perspective view provided in accordance with an embodiment of the present invention;

FIG. 5 illustrates an exploded view provided in accordance with an embodiment of the present invention

FIG. 6 illustrates a partial cross-sectional view of a spacer and cable plug provided in accordance with an embodiment of the present invention;

FIG. 7 illustrates a partial cross-sectional view of a connection of a shaft and a swivel sleeve provided in accordance with an embodiment of the present invention;

fig. 8 shows a partial enlarged view at a provided according to an embodiment of the present invention.

Illustration of the drawings:

1. a junction box; 2. a cover is turned; 3. a conduction groove; 4. a movable plate; 5. a sliding connection frame; 6. a signal processing mechanism; 7. a drive screw; 8. a docking cradle; 9. a positioning frame; 901. positioning a groove; 902. an overhanging groove; 10. a cable plug; 1001. a docking bay; 11. positioning blocks; 12. a vertical rod; 13. butting the sliding sleeves; 14. a vent lumen; 15. an air tube; 16. a support; 17. a linkage rod; 18. a U-shaped frame; 1801. a first bar-shaped groove; 19. a drive plate; 1901. a second strip groove; 20. a transverse plate; 2001. a first chute; 21. a horizontal shelf plate; 2101. a second chute; 22. a drive motor; 23. a cam; 24. a butting block; 25. a butt joint block; 26. a shaft lever; 2601. a bump; 27. screwing a sleeve; 2701. a slide rail; 28. a compression spring; 29. a magnetic sleeve; 30. a bobbin.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Referring to fig. 1-8, the present invention provides a technical solution: a communication cable connection module comprises a junction box 1, a flip cover 2 rotating on the junction box 1, a signal processing mechanism 6 installed inside the junction box 1, a cable plug 10 inserted by the signal processing mechanism 6, and a fault detector and a controller used in cooperation with the signal processing mechanism 6, wherein a butt-joint bracket 8 is slidably arranged inside the junction box 1, a component for driving the butt-joint bracket 8 to move horizontally is arranged at the bottom of the junction box 1, a plurality of cable plugs 10 distributed horizontally and equidistantly are arranged on the upper side of the butt-joint bracket 8, a positioning frame 9 is slidably arranged on the upper side of the butt-joint bracket 8, a positioning block 11 corresponding to the cable plug 10 is arranged on the inner side of the positioning frame 9, a butt-joint notch 1001 inserted by the positioning block 11 is arranged inside the cable plug 10, a component for limiting the positioning block 11 to move horizontally is arranged in the positioning frame 9, a pressing component for driving the positioning block 11 to move horizontally is arranged on the positioning frame 9, a U-shaped frame 18 is fixedly arranged at the upper end of the butt joint bracket 8, a support 16 is fixedly arranged at the bottom of the positioning frame 9, the support 16 is embedded in the U-shaped frame 18 in a sliding manner, a part for driving the positioning frame 9 to vertically move is arranged on the U-shaped frame 18, a transverse plate 20 is fixedly arranged on the inner side of the junction box 1, a plurality of rotary sleeves 27 corresponding to the positioning blocks 11 are slidably arranged in the transverse plate 20, a first sliding groove 2001 matched with the rotary sleeves 27 to slide is formed in the transverse plate 20, a magnetic sleeve 29 is fixedly arranged at the bottom of the rotary sleeves 27, a horizontal frame plate 21 is arranged on the upper side of the transverse plate 20 in the junction box 1, a part for controlling the rotary sleeves 27 to rotate is arranged on the horizontal frame plate 21, a plurality of cable plugs 10 are sequentially placed on the butt joint bracket 8, the part for driving the positioning frame 9 to vertically move is started to control the positioning frame 9 to drive the positioning blocks 11 to vertically move downwards, when the positioning blocks 11 are completely sunk into butt joint notches 1001 in the cable plugs 10, the integral fixation of the plurality of cable plugs 10 is completed, the butt-joint bracket 8 is driven to move towards the signal processing mechanism 6 by the part driving the butt-joint bracket 8 to move horizontally, so that the cable plugs 10 are connected with the signal processing mechanism 6, and the integral insertion of the plurality of cable plugs 10 which are close together is realized by adopting an integral fixed insertion mode, so that a worker is prevented from sequentially inserting the plurality of cable plugs 10 in a narrow operation space, the working efficiency of corresponding workers is improved, and the safety in power connection work can be improved; a fault detector for detecting the internal environment of the signal processing mechanism 6 is installed inside the junction box 1, a controller electrically connected to the fault detector is also installed inside the junction box 1, when the fault detector detects that a signal processing unit of the junction box 1 has a fault, fault information is transmitted to the controller, the controller sends out an electric signal to control the corresponding rotary sleeve 27 to rotate, when the semicircular opening of the magnetic attraction sleeve 29 fixed at the bottom of the rotary sleeve 27 rotates to the opposite side of the butt-joint sliding sleeve 13, the butt-joint sliding sleeve 13 made of metal iron slides upwards along the vertical rod 12 under the action of the magnetic attraction sleeve 29 to be buckled with the magnetic attraction sleeve 29, at this time, the positioning groove 901 slides out of the positioning groove 901, the locking of the position of the positioning block 11 is released, high-pressure gas in the ventilation cavity 14 acts on the positioning block 11 through the air pipe 15, so that the positioning block 11 drives the cable plug 10 to rapidly separate from the signal processing mechanism 6, the emergency cut-off of the fault signal processing unit is completed, and the emergency cut-off of a single fault processing unit is used for guaranteeing that other signal processing units can maintain normal work, so that the normal operation of partial functions of the communication equipment can be guaranteed while the safety protection of the communication equipment is realized, and the communication equipment is prevented from being completely in a fault state and causing great loss to the use of corresponding users.

Specifically, as shown in fig. 1, the inside of the terminal box 1 has an opening, the outside of the terminal box 1 is provided with a movable plate 4 matched with the opening in size, the movable plate 4 is slidably connected with the terminal box 1 through a sliding connection frame 5, and the movable plate 4 can be pulled open by a worker in the process of power connection operation, so that a larger operation space is provided for the worker, and meanwhile, a better operation view field can be provided for the user, which is beneficial to the power connection operation of the worker.

Specifically, as shown in fig. 1 to 5, the component for driving the positioning frame 9 to move vertically is a transmission plate 19 slidably disposed outside the U-shaped frame 18 and a transmission assembly for driving the transmission plate 19 to move horizontally, the component for driving the positioning frame 9 to move vertically further includes a linkage rod 17 fixedly disposed at an outer end of the support 16, the U-shaped frame 18 has a first bar-shaped groove 1801 therein for cooperating with the linkage rod 17 to slide, the first bar-shaped groove 1801 is vertically distributed, the transmission plate 19 has a second bar-shaped groove 1901 therein for cooperating with the linkage rod 17 to slide, the second bar-shaped groove 1901 is obliquely distributed relative to the first bar-shaped groove 1801, the component for driving the docking bracket 8 to move horizontally is a transmission screw 7 rotatably connected to a bottom of the junction box 1, the transmission screw 7 is rotatably connected to the docking bracket 8, a motor for driving the transmission screw 7 to rotate is installed inside the junction box 1, and the transmission assembly can use pneumatic power, Hydraulic pressure or current transmission methods such as electronic, start the 19 horizontal migration of transmission assembly control driving plate, driving plate 19 will drive trace 17 and slide along first bar-shaped groove 1801 and second bar-shaped groove 1901 simultaneously in the in-process that removes, support 16 fixed with trace 17 will drive locating rack 9 and move down along vertical direction this moment, when locating piece 11 detained in the inside butt joint notch 1001 of cable plug 10, can accomplish the fixed of a plurality of cable plugs 10, immediately, start the motor of installing in terminal box 1 bottom and drive screw 7 and rotate, drive screw 7 will drive rather than close the butt joint bracket 8 of being connected and move along the horizontal direction soon, realize the grafting of cable plug 10 and signal processing mechanism 6.

Specifically, as shown in fig. 3-6, the pressing component for driving the positioning block 11 to move horizontally includes a ventilation cavity 14 fixed at the side end of the positioning frame 9 and an air pipe 15 communicated with the bottom of the ventilation cavity 14, the other end of the air pipe 15 is fixed with the positioning block 11, the component for limiting the horizontal movement of the positioning block 11 includes a vertical rod 12 fixed at the upper end of the positioning block 11 and a docking sliding sleeve 13 slidably disposed outside the vertical rod 12, the upper portion of the docking sliding sleeve 13 is a semicircular opening structure, the component for limiting the horizontal movement of the positioning block 11 further includes a positioning groove 901 disposed inside the positioning frame 9, the inner diameter of the positioning groove 901 is adapted to the outer diameter of the docking sliding sleeve 13, an outward extending groove 902 communicated with the positioning groove 901 is further disposed inside the positioning frame 9, the inner diameter of the outward extending groove 902 is adapted to the outer diameter of the vertical rod 12, the positioning block 11 is in an inverted trapezoidal structure, the magnetic attraction sleeve 29 is in a semicircular opening structure matched with the docking sliding sleeve 13, the pump body for providing high-pressure gas is installed in the ventilation cavity 14, the high-pressure gas acts on the positioning block 11 through the gas pipe 15, after the cable plug 10 is in butt joint with the signal processing mechanism 6, the transmission plate 19 is controlled to move horizontally, so that the positioning frame 9 drives the positioning block 11 to move vertically upwards for a certain distance, at the moment, the right end face of the positioning block 11 is still in a state of being attached to the butt joint notch 1001, the butt joint sliding sleeve 13 is sleeved on the outer side of the vertical rod 12, the upper end face of the butt joint sliding sleeve 13 is attached to the lower end face of the magnetic suction sleeve 29, when the corresponding signal processing unit breaks down, the rotary sleeve 27 drives the magnetic suction sleeve 29 to rotate, the butt joint sliding sleeve 13 made of metal iron moves upwards and is separated from the positioning groove 901, at the moment, the positioning block 11 drives the vertical rod 12 to slide along the outward extending groove 902 under the action of the high-pressure gas, and pulls out the corresponding cable plug 10 from the signal processing mechanism 6.

Specifically, as shown in fig. 1 to 7, the component for controlling the rotation of the rotating sleeve 27 includes an abutting block 24 slidably connected inside the horizontal frame plate 21, an abutting block 24 slidably connected on the top of the horizontal frame plate 21, a cam 23 rotatably connected on the top of the horizontal frame plate 21, and a shaft rod 26 fixedly arranged at the bottom of the abutting block 24, the horizontal frame plate 21 has a second chute 2101 inside the horizontal frame plate 21 for cooperating with the abutting block 24 and for sliding against the abutting block 25, the abutting block 24 and the abutting block 25 are in a mutually cooperating inclined slope structure, the bottom of the horizontal frame plate 21 is provided with a driving motor 22 for controlling the rotation of the cam 23, the outer end of the shaft rod 26 is fixedly provided with a projection 2601, the rotating sleeve 27 has a sliding rail 2701 inside the rotating sleeve 27 for cooperating with the projection 2601, the sliding rail 2701 is spirally distributed inside the rotating sleeve 27, the outer side of the rotating sleeve 27 is provided with a compression spring 28 for cooperating with the abutting block 25, the driving motor 22 is electrically connected with the output end of the controller, when the fault detector detects that a certain unit of the signal processing mechanism has a fault, the controller controls the corresponding driving motor 22 to drive the cam 23 to rotate, when the head of the cam 23 pushes the abutting block 24 to move, the abutting block 24 presses the abutting block 25 to drive the shaft rod 26 to move downwards, the projection 2601 fixedly arranged at the outer end of the shaft rod 26 slides along the slide rail 2701, and the rotating sleeve 27 drives the magnetic attraction sleeve 29 to rotate.

Specifically, as shown in fig. 1-5, one side that the inside of terminal box 1 is located signal processing mechanism 6 sets firmly the bobbin 30 in order to the cable rolling, conduction groove 3 that so that the cable runs through has still been seted up to the inside of terminal box 1, cable plug 10 is after accomplishing the grafting, the staff can be around rolling up longer data cable on bobbin 30, and run through conduction groove 3 with the other end of data cable and stretch out terminal box 1, design through bobbin 30, the staff can carry out orderly arrangement to mixed and disorderly cable, concentrate the other end with the cable simultaneously and run through conduction groove 3, be favorable to the staff to the shutoff of conduction groove 3, guarantee terminal box 1's leakproofness, provide safety and stability's operational environment for communication equipment.

The previous description of the embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.