CN117117767B - Power transmission structure for optical storage and charging - Google Patents

Abstract

The invention provides an electric power transmission structure for optical storage and charging, which relates to the technical field of electric power transmission and comprises the following components: the rear side of the main protection frame is transversely provided with a dovetail chute; the front end of the guide sliding seat is provided with a sliding structure which is matched with the dovetail sliding groove, and the guide sliding seat slides in the dovetail sliding groove; a dovetail sliding block capable of being vertically guided is fixedly arranged on the rear side of the inside of the main protection frame; the invention is provided with the power connection device, provides a function of adaptively connecting cables, can be used for connecting cables with different lengths, repeatedly stretches and contracts the gas transmission piston, stretches and contracts the volume-variable gas transmission piston to generate a conveying function, and external air enters the gas transmission piston through the second one-way valve and then enters the power connection device through the first one-way valve, so that the two telescopic guide rods are propped up, the two telescopic guide rods are plugged into the plugging terminals by utilizing the plugging electrodes at the two sides, the plugging terminals are combined and connected, and the power connection device can be used for installing and connecting cables with different sizes, thereby solving the problem that the existing structure is inconvenient to install rapidly.

Description

Power transmission structure for optical storage and charging

Technical Field

The invention relates to the technical field of power transmission, in particular to a power transmission structure for optical storage and charging.

Background

The photovoltaic is a power generation system which directly converts solar radiation energy into electric energy by utilizing the photovoltaic effect of a photovoltaic cell, and when photovoltaic power generation is performed, parallel output lines are generally directly arranged behind different photovoltaic panels, then electric power is transmitted, the circuit is overrules, and the arrangement circuit can be influenced.

The transport structures currently in use have the following drawbacks:

1. when the existing conveying structure is used for conveying the photoelectricity, the unified cable is mainly adopted for installation, cables are required to be formulated or processed according to the number of the photovoltaic frames, the cable length is difficult to master, and rapid installation and combination are not facilitated;

2. the wiring groove for transmitting power is mainly of an opening structure, which is not beneficial to protecting a circuit;

3. the stable and rapid assembling and positioning structure is lacked.

Disclosure of Invention

In view of the above, the present invention provides an electric power transmission structure for optical storage and charging, which has a lifting tray and a main protection frame, and forms a combined structure that slides up and down, and the main protection frame is fixed, the lifting tray moves, the lifting tray is located at the bottom end, so that the top can be guaranteed to have no gap, wind, sand and rain prevention, entry of dust can be reduced, when the lifting tray is completely clamped in the main protection frame, the spring outside the spring guide rod pushes the T-shaped block, so that the T-shaped block moves to the bottom of the lifting tray, locks the lifting tray, the lifting tray can automatically descend by gravity, and can be guaranteed not to fall out of the main protection frame completely by the limitation of the dovetail sliding block.

The invention provides an electric power transmission structure for optical storage and charging, which specifically comprises the following components: the rear side of the main protection frame is transversely provided with a dovetail chute; the front end of the guide sliding seat is provided with a sliding structure which is matched with the dovetail sliding groove, and the guide sliding seat slides in the dovetail sliding groove; a dovetail sliding block capable of being vertically guided is fixedly arranged on the rear side of the inside of the main protection frame; a dovetail vertical groove which is matched with the dovetail sliding block is formed in the rear side of the lifting tray, the dovetail vertical groove slides outside the dovetail sliding block, and a threading hole is formed in the middle of the lifting tray; two groups of built-in hanging hooks are fixedly arranged above the inner front side of the main protection frame, and concentrated cables are hung in the built-in hanging hooks; the energizing ring is fixedly arranged outside the centralized cable; the two sides of the connecting device are fixedly provided with telescopic guide rods, the outer ends of the telescopic guide rods are fixedly provided with plug electrodes, and two ends of the centralized cable are provided with plug terminals which are matched with the plug electrodes; the self-locking device is fixedly arranged at the rear side of the main protection frame; the assembling buckles are fixedly arranged on two sides of the bottom of the lifting tray; the corrugated shielding frame is characterized in that rubber pads are fixedly arranged on two sides of the corrugated shielding frame, and the rubber pads are fixedly bonded with the side of the main protection frame; the corrugated shade frame and the rubber pad can protect the spaced positions.

Optionally, the guiding sliding seat comprises: the top of the front end of the semicircular clamping ring extends upwards, the extending positions are matched with the rotating shafts to be arranged at the two ends of the rear side of the guide sliding seat in a rotating mode, and when the cambered surfaces of the two groups of semicircular clamping rings are vertical, the semicircular clamping rings at the two sides are not contacted; the locking frames are integrally arranged on the rear side of the semicircular clamping ring, and the upper ends of the adjacent faces of the locking frames on the two sides are inclined planes; the opening of the locking frame faces downwards; the rotary screw rod is arranged in the middle of the bottom of the left locking frame in a rotating way, a threaded sleeve is fixedly arranged outside the rotary screw rod through threaded connection, and the diameter of the threaded sleeve is larger than that of an opening of the right locking frame.

Optionally, through holes are formed in the outer portion of the centralized cable, the through holes correspond to a group of cable cores respectively, and connecting terminals are fixedly arranged at positions of the cable cores in the through holes.

Optionally, the top of circular telegram ring is logical groove structure, and circular telegram ring passes logical groove structure through the bolt and fix in concentrated cable's binding post, concentrated cable and circular telegram ring pass through this bolt intercommunication.

Optionally, the bottom of circular telegram ring is not grooved the fixed connecting wire that is provided with in position, and the fixed wiring disk that is provided with in bottom of connecting wire, three sets of fan-shaped holes have been seted up in the centre of wiring disk.

Optionally, the power connection device further includes: the main body of the power connection device is a cylinder, and the arc surface of the power connection device is fixedly provided with the induction lamp; the number of the cable cores of the sensing lamps is the same as that of the cable cores of the centralized cable, and the cable cores are connected with the sensing lamps; the cambered surface of the power connection device is fixedly provided with a threaded plug through threaded connection; the inside of the connecting device is of a hollow structure, the connecting device is communicated with the telescopic guide rods at the two sides, the outside of the telescopic guide rods is of an insulating structure, the inside of the telescopic guide rods is made of conductive materials, and the inserting electrodes at the two sides are communicated through the inside of the telescopic guide rods; the bottom of the power connection device is connected with a first one-way valve, and the bottom of the first one-way valve is fixedly connected with a threaded interface; the top of the gas transmission piston is of a threaded structure, and the gas transmission piston is fixedly connected with the threaded interface through the threaded structure; the telescopic end of the gas transmission piston is of a T-shaped structure, one end of the T-shaped structure is connected with the gas transmission piston, and the second one-way valve penetrates through the telescopic end and is communicated with the inside of the gas transmission piston; placing the power connection device between two adjacent groups of concentrated cables, repeatedly stretching the gas transmission piston, stretching the gas transmission piston to change the volume, generating a conveying function, enabling external air to enter the gas transmission piston through a second one-way valve, entering the power connection device through a first one-way valve, stretching two sides of the telescopic guide rods, inserting the two sides of the telescopic guide rods into the inserting terminals by utilizing the inserting electrodes on the two sides, combining and connecting the inserting terminals, realizing electrifying, and monitoring by utilizing the induction lamp; then the gas transmission piston is removed; if the connection device needs to be disassembled, the air can be discharged by loosening the threaded plug, and then the connection device is disassembled.

Optionally, the self-locking device includes: the rear end of the self-locking device is fixedly provided with a spring guide rod, a T-shaped block slides outside the spring guide rod, a spring is sleeved outside the rear end of the spring guide rod, and the rear end of the spring guide rod is fixedly provided with a limiting piece for limiting the spring; when the lifting tray is installed, the lifting tray is directly lifted after the wire connection is completed, and when the lifting tray is completely clamped in the main protection frame, the spring outside the spring guide rod pushes the T-shaped block to enable the T-shaped block to move to the bottom of the lifting tray, so that the lifting tray is locked; otherwise, if the lifting tray needs to be opened, the T-shaped block is directly pulled backwards.

Optionally, the assembling buckle further comprises: the locking flange is in a side opening structure, and the locking flange is fixedly arranged below the inside of the assembling buckle; the connecting clamping piece can be inserted in the assembling buckle in an anastomotic way, and the bottom of the rear end of the connecting clamping piece is provided with an elastic flange structure which can be interlocked with the locking flange.

The beneficial effects are as follows:

1. the invention is provided with the power connection device, provides the function of adaptively connecting cables, can be used for connecting cables with different lengths, repeatedly stretches and contracts the gas transmission piston, stretches and contracts the volume-variable of the gas transmission piston to generate the conveying function, and external air enters the gas transmission piston through the second one-way valve and then enters the power connection device through the first one-way valve, so that the two telescopic guide rods are propped up, the two telescopic guide rods are plugged into the plugging terminals by utilizing the plugging electrodes at the two sides, the plugging terminals are combined and connected, the power is realized, the applicability is strong, and the power connection device can be used for installing and connecting cables with different sizes.

2. The lifting tray and the main protection frame form a combined structure which slides up and down, the main protection frame is fixed, the lifting tray moves, the lifting tray is positioned at the bottom end, the top of the lifting tray is free of gaps, the lifting tray can prevent wind, sand and rain and reduce dust, when the lifting tray is completely clamped in the main protection frame, the T-shaped block is pushed by the spring outside the spring guide rod, the T-shaped block moves to the bottom of the lifting tray, the lifting tray is locked, the lifting tray automatically descends through gravity, and the lifting tray can not fall out of the main protection frame completely through the limitation of the dovetail sliding block.

3. The setting direction slide provides location assembly function, buckles the locking frame and establishes in the outside of photovoltaic support body, moves the right-hand of right side locking frame with screw sleeve again, then rotates and contracts rotatory screw rod, tightens up the both sides locking frame and draws close, and the strength through locking frame centre gripping fixes the photovoltaic frame, and then fixes main fender bracket, can provide the suitability, according to the photovoltaic frame of different size width, can both realize the installation.

Drawings

FIG. 1 shows a schematic diagram of a mounting location structure according to an embodiment of the present invention;

FIG. 2 shows a schematic view of an expanded state structure according to an embodiment of the present invention;

FIG. 3 shows a schematic partial cross-sectional structure according to an embodiment of the invention;

FIG. 4 shows a schematic diagram of a pitch-back structure according to an embodiment of the invention;

FIG. 5 shows a schematic perspective view of an energizing ring according to an embodiment of the present invention;

fig. 6 shows a schematic perspective view of an electrical connection device according to an embodiment of the present invention;

fig. 7 shows a schematic perspective view of a guide carriage according to an embodiment of the present invention;

FIG. 8 shows an A partial enlarged schematic of an architecture according to an embodiment of the invention;

FIG. 9 shows a schematic diagram of a B partial enlarged structure according to an embodiment of the invention;

fig. 10 shows a schematic diagram of a C partial enlarged structure according to an embodiment of the present invention.

List of reference numerals:

1. a main protective frame; 101. dovetail grooves; 102. a hanging hook is arranged in the inner part; 103. dovetail slide blocks; 2. a guide slide; 201. a semicircular clamping ring; 202. locking the frame; 203. rotating the screw; 204. a threaded sleeve; 3. lifting the tray; 301. dovetail vertical grooves; 4. centralizing the cables; 401. inserting a wiring terminal; 5. an energizing ring; 501. a connecting wire; 502. a wiring wafer; 6. a power connection device; 601. an induction lamp; 602. a threaded plug; 603. a telescopic guide rod; 604. inserting an electrode; 605. a first one-way valve; 606. a threaded interface; 607. a gas delivery piston; 608. a second one-way valve; 7. a self-locking device; 701. a spring guide rod; 702. t-shaped blocking blocks; 8. assembling and buckling; 801. a locking flange; 802. a connecting clip; 9. a corrugated mask; 901. and a rubber pad.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention.

Embodiment one:

please refer to fig. 1 to 10:

the invention proposes an electric power transmission structure for optical storage and charging, comprising: the main protection frame 1, the rear side of the main protection frame 1 is transversely provided with a dovetail chute 101; the front end of the guide sliding seat 2 is provided with a sliding structure which is matched with the dovetail chute 101, and the guide sliding seat 2 slides in the dovetail chute 101; a dovetail sliding block 103 capable of being vertically guided is fixedly arranged at the rear side of the inside of the main protection frame 1; a dovetail vertical groove 301 which is matched with the dovetail sliding block 103 is formed in the rear side of the lifting tray 3, the dovetail vertical groove 301 slides outside the dovetail sliding block 103, and a threading hole is formed in the middle of the lifting tray 3; two groups of built-in hanging hooks 102 are fixedly arranged above the inner front side of the main protection frame 1, and concentrated cables 4 are hung in the built-in hanging hooks 102; the energizing ring 5, the energizing ring 5 is fixedly arranged outside the centralized cable 4; the power connection device 6, two sides of the power connection device 6 are fixedly provided with telescopic guide rods 603, the outer ends of the telescopic guide rods 603 are fixedly provided with plug electrodes 604, and two ends of the centralized cable 4 are provided with plug wire ends 401 which are matched with the plug electrodes 604; the self-locking device 7 is fixedly arranged at the rear side of the main protection frame 1; the assembling buckles 8 are fixedly arranged on two sides of the bottom of the lifting tray 3; the corrugated shielding frame 9, rubber pads 901 are fixedly arranged on two sides of the corrugated shielding frame 9, and the rubber pads 901 are fixedly bonded with the side of the main protection frame 1.

Wherein, the direction slide 2 includes: the top of the front end of the semicircular clamping ring 201 extends upwards, the extending positions are rotatably arranged at the two ends of the rear side of the guide sliding seat 2 in cooperation with the rotating shaft, and when the cambered surfaces of the two groups of semicircular clamping rings 201 are vertical, the semicircular clamping rings 201 at the two sides are not contacted; the locking frames 202, the locking frames 202 are integrally arranged on the rear side of the semicircular clamping ring 201, and the upper ends of the adjacent surfaces of the locking frames 202 on two sides are inclined surfaces; the opening of the locking frame 202 faces downward; the rotating screw 203 is arranged in the middle of the bottom of the left locking frame 202 in a rotating way, a threaded sleeve 204 is fixedly arranged outside the rotating screw 203 through threaded connection, and the diameter of the threaded sleeve 204 is larger than that of an opening of the right locking frame 202.

Wherein, the outside of concentrated cable 4 has seted up the through-hole, and the through-hole respectively corresponds with a set of cable core, and the cable core is located the position of through-hole and still fixedly provided with binding post.

The top of the energizing ring 5 is of a through groove structure, the energizing ring 5 is fixed in a wiring terminal of the centralized cable 4 through a bolt penetrating through the through groove structure, and the centralized cable 4 is communicated with the energizing ring 5 through the bolt.

Wherein, the bottom of circular telegram ring 5 is not grooved the fixed connecting wire 501 that is provided with, and the fixed wiring disk 502 that is provided with in bottom of connecting wire 501 has seted up three group fan-shaped holes in the middle of the wiring disk 502.

Wherein, even electric installation 6 still includes: the induction lamp 601, the main body of the power connection device 6 is a cylinder, and the arc surface of the power connection device 6 is fixedly provided with the induction lamp 601; the number of the cable cores of the sensing lamps 601 is the same as that of the concentration cables 4, and the cable cores are connected with the sensing lamps 601; the threaded plug 602, the cambered surface of the power connection device 6 is fixedly provided with the threaded plug 602 through threaded connection; the inside of the connecting device 6 is of a hollow structure, the connecting device 6 is communicated with the telescopic guide rods 603 at two sides, the outside of the telescopic guide rods 603 is of an insulating structure, the inside of the telescopic guide rods 603 is of a conductive material, and the inserting electrodes 604 at two sides are communicated through the inside of the telescopic guide rods 603; the bottom of the power connection device 6 is connected with a first check valve 605, and the bottom of the first check valve 605 is fixedly connected with a threaded interface 606; the top of the gas transmission piston 607 is of a thread structure, and the gas transmission piston 607 is fixedly connected with the thread interface 606 through the thread structure; the second check valve 608, the flexible end of gas transmission piston 607 is T type structure, and the one end connection of T shape structure is provided with gas transmission piston 607, and the second check valve 608 passes flexible end and the inside intercommunication of gas transmission piston 607.

Wherein, the group is buckled 8 and is still included: the locking flange 801, the assembling buckle 8 is of a side opening structure, and the locking flange 801 is fixedly arranged below the inside of the assembling buckle 8; the connecting clip 802, the connecting clip 802 can be inserted in the assembling buckle 8 in a fitting way, and the bottom of the rear end of the connecting clip 802 is provided with an elastic flange structure which can be interlocked with the locking flange 801.

The main principle of photovoltaic power generation is the photoelectric effect of semiconductors; when photons irradiate the metal, the energy of the photons can be absorbed by a certain electron in the metal, the energy absorbed by the electron is large enough to overcome the coulomb force in the metal atom to do work, and the photons escape from the surface of the metal to become photoelectrons; silicon atoms have 4 outer electrons, and if pure silicon is doped with atoms of 5 outer electrons such as phosphorus atoms, the silicon atoms become N-type semiconductors; if atoms of 3 outer electrons such as boron atoms are doped in pure silicon, a P-type semiconductor is formed; when the P type and the N type are combined together, the contact surface forms a potential difference to become a solar cell; when sunlight irradiates the P-N junction, current flows from the P-type side to the N-type side to form current, so that independent line connection is needed to be carried out on each group of photovoltaic panels;

as shown in fig. 1-7, the guiding slide carriage 2 is a main fixing piece, the guiding slide carriage 2 can slide in the dovetail chute 101, then the guiding slide carriage 2 is moved to the outside of the rear side frame body of the photovoltaic frame, the locking frame 202 wraps the frame body of the photovoltaic frame, then the threaded sleeve 204 is rotated to match with the rotary screw 203 to be locked and fixed, and two groups of locking frames 202 are locked and fastened outside the frame body; the two groups of locking frames 202 are not in direct contact, so that an adaptive space is reserved, fixation can be realized, and the tops of the two groups of locking frames 202 are inclined planes for placing collision barriers of the two groups of locking frames 202 when rotating;

the function of the connecting device 6 is that if the plug terminals 401 on two sides cannot be directly connected during installation, the connecting device 6 is connected, driving is realized pneumatically, the gas transmission piston 607 is installed, the capacity variation of the gas transmission piston 607 is utilized to form a conveying mechanism, the outside air is input into the connecting device 6, the two groups of telescopic guide rods 603 are propped up, the plug electrodes 604 are inserted into the plug terminals 401, and the adjacent concentrated cables 4 can be communicated; the corrugated bezel 9 and rubber pad 901 may protect the spaced locations.

Embodiment two:

on the basis of the embodiment 1, if no gap exists between the two groups of patch terminals 401, the centralized cable 4 is directly connected in a close manner, and the copper rod connection is adopted for electrifying;

the energizing ring 5 can be directly fixed outside the centralized cable 4, a through hole is formed in the outside of the centralized cable 4, a cable core is exposed at the middle position of the through hole, then the energizing ring 5 is fixed with the centralized cable 4 by adopting a wiring terminal, the energizing ring 5 is fixed with the centralized cable 4 by utilizing a bolt, and the energizing ring 5 is connected with different cable cores by the bolt, so that the moving effect is provided by the through groove outside the energizing ring 5, the device can adapt to the situation, and the connecting wire 501 and the wiring wafer 502 can be downwards arranged.

Embodiment III:

on the basis of embodiment 1, as shown in fig. 10, the self-locking device 7 includes: the spring guide rod 701, the spring guide rod 701 is fixedly arranged at the rear end of the self-locking device 7, the T-shaped blocking block 702 slides outside the spring guide rod 701, a spring is sleeved outside the rear end of the spring guide rod 701, and a limiting plate for limiting the spring is fixedly arranged at the rear end of the spring guide rod 701;

when the lifting tray 3 is installed, the lifting tray 3 is directly lifted after the wire connection, and when the lifting tray 3 is completely clamped in the main protection frame 1, the T-shaped block 702 is pushed by the spring outside the spring guide rod 701, so that the T-shaped block 702 moves to the bottom of the lifting tray 3, and the lifting tray 3 is locked; conversely, if the lifting tray 3 needs to be opened, the T-shaped block 702 is directly pulled back.

Specific use and action of the embodiment: in the invention, when in installation, the main protection frame 1 and the lifting tray 3 are assembled in advance and kept in an unfolding state, then the locking frame 202 is buckled outside the photovoltaic frame body, the threaded sleeve 204 is moved to the right of the right locking frame 202, then the tightening rotary screw 203 is rotated to tighten the locking frames 202 at two sides, the photovoltaic frame is fixed by the clamping force of the locking frames 202, and then the main protection frame 1 is fixed;

then, the output line of the photovoltaic sheet passes through the lower lifting tray 3 and is connected to the outside of the wiring wafer 502 to finish parallel connection, and then the lifting tray 3 is lifted, when the lifting tray 3 is completely clamped in the main protection frame 1, the T-shaped block 702 is pushed by the spring outside the spring guide rod 701, so that the T-shaped block 702 moves to the bottom of the lifting tray 3, and the lifting tray 3 is locked; conversely, if the lifting tray 3 needs to be opened, the T-shaped block 702 is directly pulled backwards, the lifting tray 3 can automatically descend by gravity, and the lifting tray 3 can be ensured not to fall out of the main protection frame 1 completely by the limitation of the dovetail sliding block 103;

if the photovoltaic panel is firstly installed, the distance between the photovoltaic panels is larger, the installed circuit board is optimized and reformed, the centralized cables 4 are directly penetrated into the main protection frame 1 and lifted by the built-in hanging hooks 102, then adjacent centralized cables 4 are connected, the power connection device 6 is placed between two groups of centralized cables 4 which are adjacent to each other, then the gas transmission piston 607 is repeatedly stretched, the gas transmission piston 607 stretches out and draws back to change the volume, the conveying function is generated, the outside air enters the gas transmission piston 607 through the second one-way valve 608, then enters the power connection device 6 through the first one-way valve 605, the stretching guide rods 603 at two sides are propped up, the two-side splicing electrodes 604 are spliced into the splicing terminals 401, the splicing terminals 401 are combined and connected, the power connection is realized, and meanwhile, the induction lamp 601 is used for monitoring; then the gas transmission piston 607 is removed; if the power connection device 6 needs to be disassembled, the air can be discharged by loosening the threaded plug 602, and then the power connection device is disassembled; then, the corrugated shielding frame 9 and the rubber pad 901 are fixedly arranged at intervals of the two groups of main protection frames 1 in the transverse and longitudinal directions;

if the photovoltaic frames are installed at the same time, the interval of the photovoltaic frames can be shortened, the centralized cable 4 is directly connected in a close way, and the copper rod is used for connection and electrifying; the two side assembling buckles 8 are adjusted to be aligned, and then the connecting clamping piece 802 is inserted into the assembling buckles 8 to be matched with the locking flange 801 for self-locking, so that the balance of the two side lifting trays 3 is maintained.

Claims (6)

1. An electric power transmission structure for optical storage and charging, comprising: the device comprises a main protection frame (1), wherein a dovetail chute (101) is transversely formed in the rear side of the main protection frame (1); the front end of the guide sliding seat (2) is provided with a sliding structure which is matched with the dovetail chute (101), and the guide sliding seat (2) slides in the dovetail chute (101); a dovetail sliding block (103) capable of being vertically guided is fixedly arranged on the rear side of the inside of the main protection frame (1); a dovetail vertical groove (301) which is matched with the dovetail sliding block (103) is formed in the rear side of the lifting tray (3), the dovetail vertical groove (301) slides outside the dovetail sliding block (103), and a threading hole is formed in the middle of the lifting tray (3); two groups of built-in hanging hooks (102) are fixedly arranged above the inner front side of the main protection frame (1), and concentrated cables (4) are hung in the built-in hanging hooks (102); the energizing ring (5), the said energizing ring (5) is fixedly set up in the outside of the centralized cable (4); the device comprises a power connection device (6), wherein telescopic guide rods (603) are fixedly arranged on two sides of the power connection device (6), plug-in electrodes (604) are fixedly arranged at the outer ends of the telescopic guide rods (603), and plug-in terminals (401) which are matched with the plug-in electrodes (604) are arranged at two ends of a centralized cable (4); the self-locking device (7) is fixedly arranged at the rear side of the main protection frame (1); the assembling buckles (8) are fixedly arranged on two sides of the bottom of the lifting tray (3); the corrugated shielding frame (9), rubber pads (901) are fixedly arranged on two sides of the corrugated shielding frame (9), and the rubber pads (901) are fixedly adhered to the side of the main protection frame (1);

the outside of the centralized cable (4) is provided with through holes, the through holes respectively correspond to a group of cable cores, and the positions of the cable cores in the through holes are fixedly provided with wiring terminals;

the top of the energizing ring (5) is of a through groove structure, the energizing ring (5) is fixed in a wiring terminal of the centralized cable (4) through a bolt penetrating through the through groove structure, and the centralized cable (4) is communicated with the energizing ring (5) through the bolt.

2. An electric power transmission structure for optical storage according to claim 1, characterized in that said guiding carriage (2) comprises:

the top of the front end of the semicircular clamping ring (201) extends upwards, the extending positions are rotatably arranged at two ends of the rear side of the guide sliding seat (2) in cooperation with the rotating shaft, and when the cambered surfaces of the two groups of semicircular clamping rings (201) are vertical, the semicircular clamping rings (201) at the two sides are not contacted;

the locking frames (202) are integrally arranged on the rear side of the semicircular clamping ring (201), the locking frames (202) are arranged on the rear side of the semicircular clamping ring, and the upper ends of the adjacent surfaces of the locking frames (202) on the two sides are inclined planes; the opening of the locking frame (202) faces downwards;

the rotary screw (203) is rotatably arranged in the middle of the bottom of the left locking frame (202), a threaded sleeve (204) is fixedly arranged outside the rotary screw (203) through threaded connection, and the diameter of the threaded sleeve (204) is larger than that of an opening of the right locking frame (202).

3. The power transmission structure for optical storage and charging according to claim 1, wherein a connecting wire (501) is fixedly arranged at a position where the bottom of the energizing ring (5) is not grooved, a wiring wafer (502) is fixedly arranged at the bottom of the connecting wire (501), and three groups of fan-shaped holes are formed in the middle of the wiring wafer (502).

4. The power transmission structure for optical storage charging according to claim 1, wherein said power connection means (6) further comprises:

the induction lamp (601) is arranged on the main body of the power connection device (6), and the induction lamp (601) is fixedly arranged on the cambered surface of the power connection device (6); the number of the cable cores of the induction lamps (601) is the same as that of the cable cores of the centralized cable (4), and the cable cores are connected with the induction lamps (601);

the arc surface of the power connection device (6) is fixedly provided with the threaded plug (602) through threaded connection; the inside of the power connection device (6) is of a hollow structure, the power connection device (6) is communicated with the telescopic guide rods (603) at the two sides, the outside of the telescopic guide rods (603) is of an insulating structure, the inside of the telescopic guide rods (603) is made of conductive materials, and the electrodes (604) inserted at the two sides are communicated with each other through the inside of the telescopic guide rods (603);

the bottom of the power connection device (6) is connected with a first one-way valve (605), and the bottom of the first one-way valve (605) is fixedly connected with a threaded interface (606);

the top of the gas transmission piston (607) is of a threaded structure, and the gas transmission piston (607) is fixedly connected with the threaded interface (606) through the threaded structure;

the telescopic end of the gas transmission piston (607) is of a T-shaped structure, one end of the T-shaped structure is connected with the gas transmission piston (607), and the second one-way valve (608) penetrates through the telescopic end and is communicated with the inside of the gas transmission piston (607).

5. An electric power transmission structure for optical storage according to claim 1, characterized in that said self-locking means (7) comprise:

a spring guide rod (701), the rear end of the self-locking device (7) is fixedly provided with the spring guide rod (701),

the T-shaped blocking block (702), the T-shaped blocking block (702) slides outside the spring guide rod (701), a spring is sleeved outside the rear end of the spring guide rod (701), and a limiting piece for limiting the spring is fixedly arranged at the rear end of the spring guide rod (701).

6. The power transmission structure for optical storage according to claim 1, wherein said group buckle (8) further comprises:

a locking flange (801), wherein the assembling buckle (8) is of a side opening structure, and the locking flange (801) is fixedly arranged below the inside of the assembling buckle (8);

the connecting clamping piece (802), the connecting clamping piece (802) can be inserted in the assembling buckle (8) in an anastomotic way, and the bottom of the rear end of the connecting clamping piece (802) is provided with an elastic flange structure which can be interlocked with the locking flange (801).