CN117594941A

CN117594941A - Emergency power supply facility for communication equipment

Info

Publication number: CN117594941A
Application number: CN202410077364.3A
Authority: CN
Inventors: 张宇飞; 刘晨亮
Original assignee: Shanxi Haoyuan Communication Co ltd
Current assignee: Shanxi Haoyuan Communication Co ltd
Priority date: 2024-01-19
Filing date: 2024-01-19
Publication date: 2024-02-23
Anticipated expiration: 2044-01-19
Also published as: CN117594941B

Abstract

The invention discloses an emergency power supply facility for communication equipment, and relates to the technical field of power supply facilities. The invention comprises a facility main body and a cover plate, wherein the front surface and the back surface of the facility main body are respectively fixed with a clamping groove plate, the front surface and the back surface of the cover plate are respectively fixed with a buckle, the cover plate is arranged at the top of the facility main body through the buckles and the clamping groove plates, the bottom of the cover plate is fixedly provided with a mounting frame, the inside of the mounting frame is fixedly provided with a power supply module, the invention further comprises a conjoined device which comprises four L-shaped baffle plates, sliding grooves are respectively formed in four sides of the facility main body, one ends of the four L-shaped baffle plates are respectively fixed at the outer walls of the four sides of the cover plate, and the other ends of the four L-shaped baffle plates are respectively and slidably arranged in the four sliding grooves of the facility main body. According to the invention, the L-shaped baffle plate limits the upward moving position of the cover plate through the arrangement of the integrated device, so that the problem that the cover plate is easy to lose after the cover plate is separated from the facility main body is avoided.

Description

Emergency power supply facility for communication equipment

Technical Field

The invention relates to the technical field of power supply facilities, in particular to an emergency power supply facility for communication equipment.

Background

Along with the development of social economy, the living standard of people is continuously improved, communication equipment is an indispensable tool in people's life, and when outdoor work is carried out, the power supply is a problem that is difficult to solve, and during work, the power supply is needed to be carried out to the communication equipment through the power supply that removes to keep the normal work of emergency communication equipment.

Patent bulletin number CN 211127249U's patent discloses a power supply unit for outdoor emergency communication, the power distribution box comprises a box body, the box top is equipped with sealed lid, sealed lid top has been seted up the U-shaped groove, the U-shaped inslot side is equipped with movable handle, the inside protective component that is equipped with of box, protective component includes limiting plate, fixed plate and second knob, the inside battery that is equipped with of box, the quantity of limiting plate and fixed plate all sets up to four, fixed plate top both sides all are equipped with the buffer board, the equal fixedly connected with spring in buffer board one side both ends, the equal fixedly connected with sliding plate in limiting plate both sides. The beneficial effect of this patent is: the storage battery is protected by the protective component, so that the situation that normal power supply cannot be performed due to the fact that the storage battery is unstable in fixation and easy to damage is avoided, the stability of the storage battery in the shell is improved, the damage probability of the storage battery is reduced, and the service life of the emergency communication power supply device is prolonged.

However, the above power supply device has the following problems: this power supply unit can open the apron when needs emergent use and use, but because be emergent use, after the apron is opened, the user can not notice the position of placing of apron to lead to the loss of apron easily, also can lead to its and personnel to produce the collision when the apron is not stably placed simultaneously, lead to the apron to damage, consequently, we have proposed an emergent power supply facility of communication equipment.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an emergency power supply facility for communication equipment, which solves the problems that the power supply device provided in the background art can open the cover plate for use when emergency use is needed, but because of emergency use, after the cover plate is opened, a user can not pay attention to the placement position of the cover plate, so that the cover plate is easy to lose.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a communication equipment emergency power supply facility, includes facility main part and apron, the front and the back of facility main part all are fixed with the draw-in groove board, the front and the back of apron all are fixed with the buckle, and the apron passes through buckle and draw-in groove board to be installed at the top of facility main part, the bottom of apron is fixed with the mounting bracket, the inside of mounting bracket is fixed with power module, still includes disjunctor device, dehydrating unit, sealing device and anti-dragging device;

the integrated device comprises four L-shaped baffles, sliding grooves are formed in four sides of a facility main body, one ends of the four L-shaped baffles are respectively fixed at the outer walls of four sides of a cover plate, the other ends of the four L-shaped baffles are respectively slidably installed inside the four sliding grooves of the facility main body, the cover plate drives a mounting frame and a power supply module to move upwards, the power supply module moves out of the facility main body, a user inserts wires on the power supply module to supply power to communication equipment, meanwhile, the cover plate drives the L-shaped baffles to move upwards along the sliding grooves of the facility main body, the position of the upward movement of the cover plate is limited by the L-shaped baffles, and therefore the problem that the cover plate is easy to lose after the cover plate is separated from the facility main body is avoided;

the integrated device further comprises four through groove plates, four rotating rods and a plurality of plugboards, wherein the four rotating rods are respectively rotatably arranged at the bottoms of the inner walls of the four sliding grooves of the facility main body, the rotating rods penetrate through the facility main body and the cover plate, the four through groove plates are respectively fixed at the inner walls of the four L-shaped baffle plates, the plurality of plugboards are uniformly and equidistantly fixed at the outer walls of the four rotating rods, chamfer angles are respectively arranged on two sides of the plugboards, the width of the through groove plates is equal to that of the plugboards, the rotating rods are rotated through the bottoms of the rotating rods after the L-shaped baffle plates move, the plugboards drive the plugboards to rotate, the plugboards are inserted into the through groove plates, and the positions of the L-shaped baffle plates are limited through the through groove plates, so that the cover plate can be subjected to the gravity action to drive a power supply module to move into the facility main body when a user does not lift the cover plate, and the power supply module can be used.

According to the technical scheme, the dehumidification device comprises two net face boxes and two dehumidification blocks, wherein the two net face boxes are respectively fixed on the left side and the right side of the inner wall of the facility main body, the two dehumidification blocks are respectively fixed on the inner wall of one side opposite to the two net face boxes, and when the power supply module is stored in the facility main body, the dehumidification blocks can absorb moisture in the facility main body, so that the problem that the power supply module is damaged by damp corrosion when the power supply module is stored in the facility main body is avoided, and the service life of the power supply module is prolonged.

According to the technical scheme, dehydrating unit still includes a plurality of saw tooth pole, lug board, U-shaped pole, conflict post, the one end of U-shaped pole runs through and slidable mounting is in the front of net face box, the lug board is fixed at the other end back of U-shaped pole, a plurality of the saw tooth pole is even equidistant to be fixed in the U-shaped pole one side that is close to the dehumidification piece, and the saw tooth pole contacts with the outer wall of dehumidification piece, the conflict post is fixed in the outer wall department of mounting bracket, the back of lug board is fixed with the lug, and the lug of lug board is located the cambered surface motion orbit of touching the post, and simultaneously when the mounting bracket upwards moves, the mounting bracket drives the conflict post upwards to move, and the lug that the conflict post promoted the lug board drives the U-shaped pole and moves along with the net face box, and when the lug that the conflict post does not promote the lug of lug board, and the U-shaped pole can be reset by corresponding spring, and the U-shaped pole drives the pole and resets, and reciprocates like, and the saw tooth pole scrapes the dehumidification piece surface to the dehumidification piece, through scraping the efficiency that can increase between dehumidification piece and the air around to improve.

According to the technical scheme, sealing device includes U-shaped slide bar and U-shaped rubber pad, U-shaped slide bar slidable mounting is in the inside top of facility main part, and is equipped with the spring between the inner wall of U-shaped slide bar and facility main part, the top at the U-shaped slide bar is fixed to the U-shaped rubber pad, when the apron is closed at facility main part top, under the effect of the spring elasticity that the U-shaped slide bar corresponds, the U-shaped slide bar promotes the U-shaped rubber pad and upwards moves to make the U-shaped rubber pad hug closely the clearance between apron and the facility main part, thereby improved the sealing performance of facility main part, reduced the probability that external moisture invaded the facility main part through the clearance between apron and the facility main part, thereby avoided the problem that power module is corroded by the moisture.

According to the technical scheme, sealing device still includes four ejector pins, two U-shaped cavity pipes, two straight tubes, two cock stems, two U-shaped cavity pipes are fixed respectively in the inner wall bottom left side and the inner wall bottom right side of facility main part, two the straight tubes are embedded respectively in the top surface middle part of two U-shaped cavity pipes, two the cock stems slidable mounting respectively is in the inside of two straight tubes, and is equipped with the spring between the bottom of cock stem and the inner wall bottom of U-shaped cavity pipe, the top of cock stem and the bottom contact of touching the post, four the one end of ejector pin slidable mounting respectively in the front side inside and the rear side inside of two U-shaped cavity pipes, four the other end of ejector pin is all fixed in the outer wall department of U-shaped slide bar, and the apron drives through the mounting bracket and supports the plunger stem extrusion simultaneously, and the cock stem moves down along the straight tube inside, and the air in the cock stem promotes the ejector pin and upwards moves along U-shaped cavity pipe inside, promotes the air in the U-shaped cavity pipe to promote the ejector pin to further to press the U-shaped rubber pad that makes between the U-shaped rubber pad and the further to hug closely to the facility.

According to the technical scheme, prevent dragging device includes U-shaped frame, clamp plate, the bottom front side at the apron is fixed to the U-shaped frame, clamp plate slidable mounting is in the inside of U-shaped frame, and be equipped with the spring between the top of clamp plate and the inner wall of U-shaped frame, when inserting the line on power module, the apron is pressed down, the apron drives U-shaped frame and clamp plate and moves down, the clamp plate can with communication equipment's line contact, under the spring force effect that the clamp plate corresponds, the clamp plate suppresses communication equipment's line to avoided communication equipment's line to drag by external force and appear with the problem of power module separation, thereby ensure that power module can effectually supply power to communication equipment.

According to the technical scheme, prevent dragging device still includes hollow post, screw rod, cock plate, the hollow post is inlayed and is solid at the top of clamp plate, and the top of hollow post runs through U-shaped frame and apron, screw rod threaded connection is in the inside of hollow post, cock plate slidable mounting is in the inside of hollow post, and the top of cock plate rotates with the bottom of screw rod and is connected, simultaneously after the line contact of clamp plate and communication equipment, rotates the screw rod, the screw rod receives the screw thread restriction of hollow post, the screw rod upwards moves, the screw rod drives the cock plate and upwards moves along the inside of hollow post, the air in the hollow post of cock plate extraction to make hollow post department produce the suction and adsorb communication equipment's line, thereby improved communication equipment's line stability in the use.

The invention provides an emergency power supply facility for communication equipment. The beneficial effects are as follows:

(1) The invention makes the L-shaped baffle limit the upward moving position of the cover plate through the arrangement of the conjoined device, thereby avoiding the problem that the cover plate is easy to lose after the cover plate is separated from the facility main body, and simultaneously, the cover plate is stably placed at the top of the facility main body when being opened, so that the damage of the cover plate caused by collision between the cover plate and a walking person can be avoided; simultaneously bull stick, picture peg and logical frid cooperation are restricted the position of L shape baffle to avoided when the user does not carry the apron, the apron can receive the gravity effect to drive power module and move into the problem in the facility main part, thereby do benefit to power module's use.

(2) According to the invention, through the arrangement of the dehumidifying device, the dehumidifying block absorbs moisture in the facility main body, so that the problem that the power supply module is damaged by moisture corrosion when the power supply module is stored in the facility main body is avoided, and the service life of the power supply module is prolonged; meanwhile, the mounting frame, the supporting contact column, the lug plate and the U-shaped rod are matched to drive the sawtooth rod to move, the sawtooth rod scrapes the surface of the dehumidifying block, and the contact area between the dehumidifying block and surrounding air can be increased through scraping, so that dehumidifying efficiency is improved.

(3) According to the invention, through the arrangement of the sealing device, under the action of the spring force corresponding to the U-shaped sliding rod, the U-shaped sliding rod pushes the U-shaped rubber pad to move upwards, so that the U-shaped rubber pad is tightly attached to the gap between the cover plate and the facility main body, the sealing performance of the facility main body is improved, the probability that external moisture invades into the facility main body through the gap between the cover plate and the facility main body is reduced, and the problem that the power supply module is corroded by the moisture is avoided; simultaneously apron, mounting bracket, support and touch post, cock stem, straight tube and U-shaped cavity pipe cooperation promote the ejector pin and upwards move along U-shaped cavity intraductal, and the ejector pin promotes the U-shaped slide bar and further extrudees the U-shaped rubber pad to make the clearance between apron and the facility main part is further hugged closely to the U-shaped rubber pad.

(4) According to the invention, through the arrangement of the anti-dragging device, the pressing plate presses the wire of the communication equipment under the action of the spring force corresponding to the pressing plate, so that the problem that the wire of the communication equipment is dragged by external force to be separated from the power supply module is avoided, and the power supply module can effectively supply power to the communication equipment; simultaneously after the line contact of clamp plate and communication equipment, rotate the screw rod, the screw rod receives the screw thread restriction of hollow post, and the screw rod upwards moves, and the screw rod drives the cock plate and upwards moves along the inside of hollow post, and the air in the hollow post is extracted to the cock plate to make hollow post department produce the suction and adsorb communication equipment's line, thereby improved communication equipment's line stability in the use.

Drawings

FIG. 1 is a schematic diagram of the overall invention;

FIG. 2 is a schematic view in partial cross-section of the entirety of the present invention;

FIG. 3 is a schematic view of a conjoined device according to the present invention;

FIG. 4 is a schematic view of a dehumidifying apparatus according to the present invention;

FIG. 5 is a schematic cross-sectional view of a partial structure of the dehumidifying device of the present invention;

FIG. 6 is a schematic partial cross-sectional view of a seal of the present invention;

FIG. 7 is a schematic view of an anti-drag device of the present invention;

fig. 8 is a schematic partial cross-sectional view of the anti-drag device of the present invention.

In the figure: 1. a facility main body; 11. a cover plate; 12. a buckle; 13. a slot plate; 14. a mounting frame; 15. a power supply module; 2. a conjoined device; 21. an L-shaped baffle; 22. a grooved plate; 23. a rotating rod; 24. inserting plate; 3. a dehumidifying device; 31. a mesh box; 32. a dehumidifying block; 33. a saw tooth bar; 34. a bump plate; 35. a U-shaped rod; 36. a contact column; 4. a sealing device; 41. a U-shaped slide bar; 42. u-shaped rubber pad; 43. a push rod; 44. a U-shaped cavity tube; 45. a straight pipe; 46. a plug rod; 5. anti-drag device; 51. a U-shaped frame; 52. a pressing plate; 53. a hollow column; 54. a screw; 55. a plug board.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-8, one embodiment of the present invention is as follows: the utility model provides a communication equipment emergency power supply facility, includes facility main part 1 and apron 11, and the front and the back of facility main part 1 all are fixed with draw-in groove board 13, and the front and the back of apron 11 all are fixed with buckle 12, and apron 11 passes through buckle 12 and draw-in groove board 13 to be installed at the top of facility main part 1, and the bottom of apron 11 is fixed with mounting bracket 14, and the inside of mounting bracket 14 is fixed with power module 15, still includes disjunctor device 2, dehydrating unit 3;

the integrated device 2 comprises four L-shaped baffles 21, sliding grooves are formed in four sides of the facility main body 1, one ends of the four L-shaped baffles 21 are respectively fixed on the outer walls of four sides of the cover plate 11, the other ends of the four L-shaped baffles 21 are respectively slidably arranged in the four sliding grooves of the facility main body 1, meanwhile, the cover plate 11 drives the L-shaped baffles 21 to move upwards along the sliding grooves of the facility main body 1, and the L-shaped baffles 21 limit the upward moving position of the cover plate 11, so that the problem that the cover plate 11 is easy to lose after the cover plate 11 is separated from the facility main body 1 is avoided;

the conjoined device 2 further comprises four through groove plates 22, four rotating rods 23 and a plurality of inserting plates 24, the four rotating rods 23 are respectively rotatably arranged at the bottoms of the inner walls of the four sliding grooves of the facility main body 1, the rotating rods 23 penetrate through the facility main body 1 and the cover plate 11, the four through groove plates 22 are respectively fixed at the inner walls of the four L-shaped baffle plates 21, the plurality of inserting plates 24 are uniformly and equidistantly fixed at the outer walls of the four rotating rods 23, meanwhile, after the L-shaped baffle plates 21 move, the rotating rods 23 are rotated through the bottoms of the rotating rods 23, the inserting plates 24 drive the inserting plates 24 to rotate, the inserting plates 24 are inserted into the through groove plates 22, chamfer angles are respectively arranged on two sides of the inserting plates 24, the through groove width of the through groove plates 22 is equal to the width of the inserting plates 24, and the positions of the L-shaped baffle plates 21 are limited through the through groove plates 22, so that the cover plate 11 can be driven by gravity to move the power supply module 15 into the facility main body 1 when a user does not lift the cover plate 11, and the power supply module 15 is beneficial to use of the power supply module 15.

The dehumidifying device 3 comprises two net surface boxes 31 and two dehumidifying blocks 32, wherein the two net surface boxes 31 are respectively fixed on the left side and the right side of the inner wall of the facility main body 1, the two dehumidifying blocks 32 are respectively fixed on the inner wall of one side opposite to the two net surface boxes 31, and when the power supply module 15 is stored in the facility main body 1, the dehumidifying blocks 32 can absorb moisture in the facility main body 1, so that the problem that the power supply module 15 is damaged by wet corrosion when the power supply module 15 is stored in the facility main body 1 is avoided, and the service life of the power supply module 15 is prolonged.

The dehumidifying device 3 further comprises a plurality of sawtooth rods 33, a lug plate 34, a U-shaped rod 35 and a collision post 36, one end of the U-shaped rod 35 penetrates through and is slidably mounted on the front surface of the net surface box 31, the lug plate 34 is fixed on the back surface of the other end of the U-shaped rod 35, the plurality of sawtooth rods 33 are uniformly and equidistantly fixed on one side, close to the dehumidifying block 32, of the U-shaped rod 35, the sawtooth rods 33 are in contact with the outer wall of the dehumidifying block 32, the collision post 36 is fixed on the outer wall of the mounting frame 14, meanwhile, when the mounting frame 14 moves upwards, the mounting frame 14 drives the collision post 36 to move upwards, the back surface of the lug plate 34 is fixedly provided with a lug, the lug of the lug plate 34 is located on a cambered surface movement track of the collision post 36, the collision post 36 pushes the lug of the lug plate 34 to drive the U-shaped rod 35 to move towards the front surface of the net surface box 31, the U-shaped rod 35 drives the sawtooth rods 33 to move along with the sawtooth rods 33, the surfaces of the sawtooth rods 33 scrape the surfaces of the dehumidifying block 32, the contact area between the dehumidifying block 32 can be increased through scraping, and the contact area between the dehumidifying block 32 and ambient air can be increased, and dehumidifying efficiency can be improved.

When the power supply facility is required to supply power to the communication equipment, the buckle 12 is opened, the buckle 12 is not clamped in the clamping groove plate 13, the cover plate 11 is pulled upwards, the cover plate 11 drives the mounting frame 14 and the power supply module 15 to move upwards, the power supply module 15 moves out of the facility main body 1, a user inserts a wire on the power supply module 15 to supply power to the communication equipment, meanwhile, the cover plate 11 drives the L-shaped baffle 21 to move upwards along the chute of the facility main body 1, the L-shaped baffle 21 limits the upward moving position of the cover plate 11, and therefore the problem that the cover plate 11 is easy to lose after the cover plate 11 is separated from the facility main body 1 is avoided; meanwhile, after the L-shaped baffle 21 moves, the rotating rod 23 rotates through the bottom of the rotating rod 23, the rotating rod 23 drives the inserting plate 24 to rotate, the inserting plate 24 is inserted into the through groove plate 22, and the inserting plate 24 limits the position of the L-shaped baffle 21 through the through groove plate 22, so that the problem that when a user does not lift the cover plate 11, the cover plate 11 can drive the power supply module 15 to move into the facility main body 1 under the action of gravity is avoided, and the use of the power supply module 15 is facilitated.

Meanwhile, when the power supply module 15 is stored in the facility main body 1, the dehumidifying block 32 absorbs moisture in the facility main body 1, so that the problem that the power supply module 15 is corroded and damaged due to moisture when the power supply module 15 is stored in the facility main body 1 is avoided, and the service life of the power supply module 15 is prolonged; meanwhile, when the mounting frame 14 moves upwards, the mounting frame 14 drives the contact supporting column 36 to move upwards, the contact supporting column 36 pushes the protruding block of the protruding block plate 34 to drive the U-shaped rod 35 to move towards the front direction of the net surface box 31, the U-shaped rod 35 drives the sawtooth rod 33 to move along with the movement, when the contact supporting column 36 does not push the protruding block of the protruding block plate 34, the U-shaped rod 35 can be reset by the corresponding spring, the U-shaped rod 35 drives the sawtooth rod 33 to reset, and thus the sawtooth rod 33 reciprocates to scrape the surface of the dehumidifying block 32, and the contact area between the dehumidifying block 32 and the surrounding air can be increased through scraping, so that the dehumidifying efficiency is improved.

Referring to fig. 1-8, in another embodiment of the present invention, the sealing device 4 and the anti-dragging device 5 are further included on the basis of the above embodiment;

the sealing device 4 comprises a U-shaped slide bar 41 and a U-shaped rubber pad 42, the U-shaped slide bar 41 is slidably mounted above the inner part of the facility main body 1, a spring is arranged between the U-shaped slide bar 41 and the inner wall of the facility main body 1, when the cover plate 11 is closed at the top of the facility main body 1, the U-shaped rubber pad 42 is fixed at the top of the U-shaped slide bar 41 under the action of the corresponding spring force of the U-shaped slide bar 41, and the U-shaped slide bar 41 pushes the U-shaped rubber pad 42 to move upwards, so that the U-shaped rubber pad 42 clings to a gap between the cover plate 11 and the facility main body 1, the sealing performance of the facility main body 1 is improved, the probability that external moisture invades into the facility main body 1 through the gap between the cover plate 11 and the facility main body 1 is reduced, and the problem that the power supply module 15 is corroded by the moisture is avoided.

The sealing device 4 further comprises four ejector rods 43, two U-shaped cavity pipes 44, two straight pipes 45 and two plug rods 46, wherein the two U-shaped cavity pipes 44 are respectively fixed on the left side of the bottom of the inner wall of the facility main body 1 and the right side of the bottom of the inner wall, the two straight pipes 45 are respectively embedded in the middle of the top surface of the two U-shaped cavity pipes 44, the two plug rods 46 are respectively slidably installed in the two straight pipes 45, a spring is arranged between the bottom of the plug rods 46 and the bottom of the inner wall of the U-shaped cavity pipes 44, the top of the plug rods 46 is in contact with the bottom of the abutting column 36, one end of the four ejector rods 43 is slidably installed in the front side inside and the rear side inside of the two U-shaped cavity pipes 44, the other end of the four ejector rods 43 is fixed on the outer wall of the U-shaped sliding rod 41, meanwhile, the cover plate 11 drives the abutting column 36 to squeeze the plug rods 46 through the mounting frame 14, the plug rods 46 move downwards along the inner side of the straight pipes 45, air in the plug rods 46 pushes the straight pipes 45 into the U-shaped cavity pipes 44, the air in the U-shaped cavity pipes 44 pushes the ejector rods 43 to move upwards along the inner side of the U-shaped cavity pipes 44, and the air in the U-shaped cavity pipes 43 pushes the U-shaped cavity pipes 43 to further tightly against the U-shaped rubber pad 42, and the rubber pad 42 is further pressed between the U-shaped cover plate 41 and the U-shaped cavity pipe and the main body 1, and the rubber pad 1.

The anti-dragging device 5 comprises a U-shaped frame 51 and a pressing plate 52, wherein the U-shaped frame 51 is fixed on the front side of the bottom of the cover plate 11, the pressing plate 52 is slidably installed in the U-shaped frame 51, a spring is arranged between the top of the pressing plate 52 and the inner wall of the U-shaped frame 51, when a wire is inserted on the power supply module 15, the cover plate 11 is pressed downwards, the cover plate 11 drives the U-shaped frame 51 and the pressing plate 52 to move downwards, the pressing plate 52 is contacted with the wire of the communication equipment, and under the action of the elastic force of the spring corresponding to the pressing plate 52, the pressing plate 52 presses the wire of the communication equipment, so that the problem that the wire of the communication equipment is dragged by external force and separated from the power supply module 15 is avoided, and the power supply module 15 can supply power to the communication equipment effectively.

The anti-dragging device 5 further comprises a hollow column 53, a screw rod 54 and a plug plate 55, wherein the hollow column 53 is embedded at the top of the pressing plate 52, the top of the hollow column 53 penetrates through the U-shaped frame 51 and the cover plate 11, the screw rod 54 is in threaded connection with the inside of the hollow column 53, meanwhile, after the pressing plate 52 is in line contact with communication equipment, the screw rod 54 is rotated, the screw rod 54 is limited by the threads of the hollow column 53, the screw rod 54 moves upwards, the plug plate 55 is slidably mounted inside the hollow column 53, the top of the plug plate 55 is rotationally connected with the bottom of the screw rod 54, the screw rod 54 drives the plug plate 55 to move upwards along the inside of the hollow column 53, the plug plate 55 draws air in the hollow column 53, and accordingly suction force is generated at the position of the hollow column 53 to adsorb the line of the communication equipment, and therefore stability of the line of the communication equipment in a use process is improved.

When the cover plate 11 is closed at the top of the facility main body 1, under the action of the spring force corresponding to the U-shaped slide bar 41, the U-shaped slide bar 41 pushes the U-shaped rubber pad 42 to move upwards, so that the U-shaped rubber pad 42 is tightly attached to a gap between the cover plate 11 and the facility main body 1, the sealing performance of the facility main body 1 is improved, the probability that external moisture invades into the facility main body 1 through the gap between the cover plate 11 and the facility main body 1 is reduced, and the problem that the power supply module 15 is corroded by the moisture is avoided; meanwhile, the cover plate 11 drives the contact abutment column 36 to extrude the plug rod 46 through the mounting frame 14, the plug rod 46 moves downwards along the inside of the straight pipe 45, the plug rod 46 pushes air in the straight pipe 45 to enter the U-shaped cavity pipe 44, the air entering the U-shaped cavity pipe 44 pushes the ejector rod 43 to move upwards along the inside of the U-shaped cavity pipe 44, and the ejector rod 43 pushes the U-shaped slide rod 41 to further extrude the U-shaped rubber pad 42, so that the U-shaped rubber pad 42 is further clung to a gap between the cover plate 11 and the facility main body 1.

Meanwhile, when the wire is inserted on the power supply module 15, the cover plate 11 is pressed downwards, the cover plate 11 drives the U-shaped frame 51 and the pressing plate 52 to move downwards, the pressing plate 52 can be in contact with the wire of the communication equipment, and the pressing plate 52 presses the wire of the communication equipment under the action of the spring force corresponding to the pressing plate 52, so that the problem that the wire of the communication equipment is dragged by external force to be separated from the power supply module 15 is avoided, and the power supply module 15 can supply power to the communication equipment effectively; meanwhile, after the pressure plate 52 is in line contact with the communication equipment, at the moment, the line of the communication equipment is extruded and deformed and is tightly attached to the pressure plate 52, the top of the screw rod 54 is manually rotated, the screw rod 54 is limited by threads of the hollow column 53, the screw rod 54 moves upwards, the screw rod 54 drives the plug plate 55 to move upwards along the inside of the hollow column 53, the plug plate 55 extracts air in the hollow column 53, so that negative pressure suction force is generated at the hollow column 53 to adsorb the line of the communication equipment, and the stability of the line of the communication equipment in the use process is improved.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides a communication equipment emergency power supply facility, includes facility main part (1) and apron (11), the front of facility main part (1) all is fixed with draw-in groove board (13) with the back, the front of apron (11) all is fixed with buckle (12) with the back, and apron (11) are installed at the top of facility main part (1) through buckle (12) and draw-in groove board (13), its characterized in that: the bottom of the cover plate (11) is fixedly provided with a mounting frame (14), the inside of the mounting frame (14) is fixedly provided with a power supply module (15), and the device further comprises a conjoined device (2), a dehumidifying device (3), a sealing device (4) and an anti-dragging device (5);

the integrated device (2) comprises four L-shaped baffles (21), sliding grooves are formed in four sides of the facility main body (1), one ends of the four L-shaped baffles (21) are respectively fixed on the outer walls of four sides of the cover plate (11), and the other ends of the four L-shaped baffles (21) are respectively and slidably arranged in the four sliding grooves of the facility main body (1);

the conjoined device (2) further comprises four through groove plates (22), four rotating rods (23) and a plurality of plugboards (24), wherein the four rotating rods (23) are respectively and rotatably arranged at the bottoms of the inner walls of the four sliding grooves of the facility main body (1), the rotating rods (23) penetrate through the facility main body (1) and the cover plate (11), the four through groove plates (22) are respectively fixed at the inner walls of the four L-shaped baffle plates (21), and the plurality of plugboards (24) are uniformly and equidistantly fixed at the outer walls of the four rotating rods (23).

2. The emergency power supply facility for a communication device according to claim 1, wherein: chamfer angles are arranged on two sides of the inserting plate (24), and the width of a through groove of the through groove plate (22) is equal to that of the inserting plate (24).

3. The emergency power supply facility for a communication device according to claim 2, wherein: the dehumidifying device (3) comprises two net surface boxes (31) and two dehumidifying blocks (32), wherein the two net surface boxes (31) are respectively fixed on the left side and the right side of the inner wall of the facility main body (1), and the two dehumidifying blocks (32) are respectively fixed on the inner wall of one side opposite to the two net surface boxes (31).

4. A communications device emergency power supply facility as claimed in claim 3, wherein: the dehumidification device (3) further comprises a plurality of sawtooth rods (33), a lug plate (34), U-shaped rods (35) and a collision column (36), one end of each U-shaped rod (35) penetrates through the front face of the net surface box (31) and is slidably mounted on the back face of the other end of each U-shaped rod (35), the sawtooth rods (33) are uniformly and equidistantly fixed on one side, close to the dehumidification block (32), of each U-shaped rod (35), the sawtooth rods (33) are in contact with the outer wall of the dehumidification block (32), the collision column (36) is fixed on the outer wall of the installation frame (14), the back face of each lug plate (34) is fixedly provided with a lug, and the lug of each lug plate (34) is located on the cambered surface movement track of the corresponding collision column (36).

5. The emergency power supply facility for a communication device according to claim 4, wherein: the sealing device (4) comprises a U-shaped sliding rod (41) and a U-shaped rubber pad (42), wherein the U-shaped sliding rod (41) is slidably mounted above the inner part of the facility main body (1), a spring is arranged between the U-shaped sliding rod (41) and the inner wall of the facility main body (1), and the U-shaped rubber pad (42) is fixed at the top of the U-shaped sliding rod (41).

6. The emergency power supply facility for a communication device according to claim 5, wherein: sealing device (4) still includes four ejector pins (43), two U-shaped cavity pipes (44), two straight tube (45), two cock stem (46), two U-shaped cavity pipes (44) are fixed respectively in the inner wall bottom left side and the inner wall bottom right side of facility main part (1), two straight tube (45) are embedded respectively in the top surface middle part of two U-shaped cavity pipes (44), two cock stem (46) slidable mounting respectively in the inside of two straight tube (45), and be equipped with the spring between the bottom of cock stem (46) and the inner wall bottom of U-shaped cavity pipe (44), the top of cock stem (46) is contacted with the bottom of contradicting post (36), four the one end of ejector pin (43) slidable mounting respectively is inside the front side of two U-shaped cavity pipes (44) and inside the rear side, four the other end of ejector pin (43) is all fixed in the outer wall department of U-shaped slide bar (41).

7. The emergency power supply facility for a communication device according to claim 6, wherein: the anti-dragging device (5) comprises a U-shaped frame (51) and a pressing plate (52), wherein the U-shaped frame (51) is fixed on the front side of the bottom of the cover plate (11), the pressing plate (52) is slidably mounted in the U-shaped frame (51), and a spring is arranged between the top of the pressing plate (52) and the inner wall of the U-shaped frame (51).

8. The emergency power supply facility for a communication device according to claim 7, wherein: anti-drag device (5) still include hollow post (53), screw rod (54), cock plate (55), hollow post (53) are inlayed and are solid at the top of clamp plate (52), and the top of hollow post (53) runs through U-shaped frame (51) and apron (11), screw rod (54) threaded connection is in the inside of hollow post (53), cock plate (55) slidable mounting is in the inside of hollow post (53), and the top of cock plate (55) rotates with the bottom of screw rod (54) and is connected.