CN117698546B - Installation device convenient to container formula microgrid power station - Google Patents

Abstract

The invention discloses a mounting device for a container type micro-grid power station, which particularly relates to the technical field of the micro-grid power station, wherein a bottom plate is arranged on a transport vehicle, a pushing mechanism is arranged on the bottom plate, the container type micro-grid power station is dismounted from the transport vehicle by the pushing mechanism, a supporting mechanism is arranged on the pushing mechanism, the supporting mechanism carries out auxiliary support on the dismounted micro-grid power station, and the mounting is convenient.

Description

Installation device convenient to container formula microgrid power station

Technical Field

The invention relates to the technical field of micro-grid power stations, in particular to a mounting device for a container-type micro-grid power station.

Background

The container type micro-grid power station is a small-sized decentralized power generation system which integrates renewable energy sources such as solar energy and wind energy, energy storage equipment, a control system and the like into one container, the system can conveniently provide power in areas without power grid access or under the condition of emergency power supply, in order to realize quick installation and transportation, a vehicle-mounted device is generally used for transporting and installing the container type micro-grid power station, the existing vehicle-mounted device is complicated in the unloading process, and the installation of the micro-grid power station cannot be assisted.

In the prior art, the invention of publication number CN108910800A discloses an advertisement installation vehicle with convenient taking and placing of a billboard and a lifting function, which comprises a vehicle body and a lifting plate. The lower extreme of lifter plate is articulated with the vehicle body, and the lateral wall is equipped with the dead lever, and the other end of dead lever is equipped with fixing device. One side of the lifting plate is connected with the motor through a tripod. When the bill-board is not hard up, rotate the crank and make the wire rope twine, drive the butt pole through wire rope pulling arm-tie and be close to the push pedal, along with the butt pole continues to move, butt pole contact push pedal and promote the push pedal outward motion to make the bill-board release fixed frame, realize high altitude construction, the device is light easy-to-use, possesses elevating platform's function simultaneously, but the device does not possess the function of quick replacement dismantlement.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the installation device which is convenient for the container type micro-grid power station and is quick to discharge, auxiliary to support and fix.

The technical scheme adopted for solving the technical problems is as follows: be provided with the bottom plate on the transport vechicle, be provided with pushing mechanism on the bottom plate, pushing mechanism removes container formula microgrid power station from the transport vechicle, be provided with supporting mechanism on the pushing mechanism, supporting mechanism carries out auxiliary stay to the microgrid power station of removing, easy to assemble.

Further, the pushing mechanism comprises a first motor, the first motor is fixedly arranged on the side face of the transport vehicle, a driving shaft of the first motor is fixedly connected with a first end of a first waist-shaped plate, a second end of the first waist-shaped plate is in sliding connection with a middle sliding groove of a waist-shaped sliding groove plate, the first end of the waist-shaped sliding groove plate is rotationally connected with a first rotating shaft, the first rotating shaft is fixedly arranged on a fixed block, the fixed block is fixedly arranged on the transport vehicle, a sliding groove at the second end of the waist-shaped sliding groove plate is in sliding connection with a first sliding column, the first sliding column is fixedly arranged on a first end face of a first sliding block, the first sliding block is in sliding connection with a sliding groove of a bottom plate, a second end face of the first sliding block is in sliding connection with a second sliding block, the second sliding block is in sliding connection with a sliding groove of the bottom plate, and the second sliding block is in sliding connection with a pushing plate.

Further, the support mechanism comprises a pulling plate, a fixing plate is fixedly arranged on the pulling plate, a third connecting seat is fixedly arranged at the first end of the fixing plate, the third connecting seat is rotationally connected with the first end of a third connecting plate, the second end of the third connecting plate is rotationally connected with a third rotating shaft, the third rotating shaft is rotationally connected with the first end of a fourth connecting plate, the second end of the fourth connecting plate is rotationally connected with a fourth rotating shaft, the fourth rotating shaft is fixedly arranged on a fifth connecting plate, the first end of the fifth connecting plate is rotationally connected with a fourth connecting seat, the fourth connecting seat is fixedly arranged at the second end of the fixing plate, the second end of the fifth connecting plate is rotationally connected with another third rotating shaft, the third rotating shaft is rotationally connected with the first end of a sixth connecting plate, the second end of the sixth connecting plate is rotationally connected with a fifth rotating shaft, the first end of the seventh connecting plate is rotationally connected with the sixth rotating shaft, the sixth rotating shaft is fixedly arranged at the second end of the eighth connecting plate, the eighth connecting plate is rotationally connected with the seventh rotating shaft, and the eighth connecting plate is fixedly arranged at the second end of the eighth connecting plate.

Further, the first end of push pedal is rotated with the first end of first connecting plate and is connected, the second end of first connecting plate is rotated with first connecting seat and is connected, first connecting seat fixed mounting is at the first end of bottom slide, bottom slide and bottom plate sliding connection, the second fixed mounting of bottom slide has the second connecting seat, the second connecting seat rotates with the first end of second connecting plate to be connected, the second end of second connecting plate rotates with the second end of push pedal to be connected.

Further, the second end fixed mounting of bottom slide has first rack board, first rack board and bottom plate sliding connection, first rack board and first gear engagement are connected, first gear and second axis of rotation fixed connection, the inside at the transport vechicle is installed in the rotation of second axis of rotation, first rack board with dodge the side sliding connection in groove, dodge groove and bottom slide sliding connection.

Further, the second rotation shaft is fixedly connected with the second gear, the second gear is meshed with the second rack plate, the second rack plate is fixedly connected with the limiting plate, the limiting plate is in sliding connection in a sliding groove in the transport vehicle, and the limiting plate is in sliding connection with the bottom sliding plate.

Further, the inside spout slidable mounting of transport vechicle has first backup pad, the first end fixed mounting of first backup pad has the arm-tie, first backup pad rotates with the first end of second waist template to be connected, the second end of second waist template rotates with the second backup pad to be connected, second backup pad and the spout sliding connection of transport vechicle.

Further, the first end department fixed mounting of second waist template has the sleeve, telescopic inside slidable mounting has spacing post, the first end of spacing post and the first end fixed connection of spring, the second end and the telescopic inner wall fixed connection of spring, the second end and the locating piece sliding connection of spacing post, locating piece fixed mounting is in first backup pad.

Further, the third rotation shaft is rotationally connected with the sliding hole block, the sliding hole block is slidingly connected with the first end of the threaded column, the second end of the threaded column is in threaded connection with the screw hole block, and the screw hole block is rotationally arranged on the third rotation shaft.

Further, fixedly mounted support blocks are arranged on the pull plates and are in rotary connection with the rotary rods, two ends of the rotary rods are fixedly connected with the sector gears respectively, the sector gears are in meshed connection with the third rack plates, fixed needles are fixedly mounted at one ends of the third rack plates, the third rack plates are in sliding connection with the sliding groove plates, and the sliding groove plates are fixedly mounted on the pull plates.

The beneficial effects of the invention are as follows:

The container type micro-grid power station on the vehicle can be quickly unloaded without manual assistance, so that the safety is ensured;

The micro-grid power station can be supported and fixed while being dismounted, and the micro-grid power station is assisted in the installation work of the external environment, so that the installation efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of the installation device of the container type micro-grid power station.

Fig. 2 is a schematic view of the structure of fig. 1 at another angle.

Fig. 3 is a schematic structural view of the pushing mechanism portion.

Fig. 4 is a schematic cross-sectional view of a first angle of the pushing mechanism.

Fig. 5 is a schematic cross-sectional view of a second angle of the pushing mechanism.

Fig. 6 is an enlarged schematic view of the structure of fig. 2 a.

Fig. 7 is a schematic cross-sectional structural view of a first portion of the support mechanism.

Fig. 8 is a schematic cross-sectional structural view of a second portion of the support mechanism.

Fig. 9 is an enlarged schematic view of the structure of fig. 2B.

Fig. 10 is a schematic structural view of the supporting mechanism.

Fig. 11 is a schematic cross-sectional structural view of a third portion of the support mechanism.

Reference numerals: 1-a transport vehicle; 2-a bottom plate; 3-a pushing mechanism; 4-a supporting mechanism; 301-a first motor; 302-a first contoured plate; 303-waist-shaped chute plates; 304-a first rotation axis; 305-a fixed block; 306-a first sliding column; 307-first slider; 308-a second slider; 309-push plate; 310-a first connection plate; 311-a first connection seat; 312-bottom sled; 313-a second connection plate; 314-a second connection socket; 315—first rack plate; 316—a first gear; 317-a second rotation shaft; 318-a second gear; 319-a second rack plate; 320-limiting plates; 321-avoiding grooves; 401-pulling a plate; 402-a first support plate; 403-a second contoured plate; 404-a second support plate; 405-sleeve; 406-a limit column; 407-a spring; 408-positioning blocks; 409-a fixing plate; 410-a third connection base; 411-a third connection plate; 412-a third axis of rotation; 413-fourth connection plates; 414-a fourth axis of rotation; 415-a fifth connecting plate; 416-fourth connection base; 417-sixth connection plates; 418-a fifth rotation axis; 419-seventh connection plate; 420-a sixth rotation shaft; 421-supporting a plate; 422-seventh rotation axis; 423-eighth connecting plates; 424-slide hole block; 425-threaded posts; 426-screw hole blocks; 427-supporting blocks; 428-turn lever; 429-sector gear; 430-third rack plate; 431-fixing the needle; 432-runner plate.

Detailed Description

For the purpose of making apparent the objects, technical solutions and advantages of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and examples, it being understood that the specific examples described herein are for illustration only and are not intended to limit the present invention.

As shown in fig. 1, the installation device for a container-type micro-grid power station in this embodiment comprises a transport vehicle 1, a bottom plate 2, a pushing mechanism 3 and a supporting mechanism 4, wherein the bottom plate 2 is arranged on the transport vehicle 1, the pushing mechanism 3 is arranged on the bottom plate 2, the container-type micro-grid power station is detached from the transport vehicle 1 by the pushing mechanism 3, the supporting mechanism 4 is arranged on the pushing mechanism 3, and the supporting mechanism 4 is used for supporting the detached micro-grid power station in an auxiliary manner, so that the installation is convenient.

As shown in fig. 2 to 6, the pushing mechanism 3 includes a first motor 301, a first waist-shaped plate 302, a waist-shaped runner 303, a first rotating shaft 304, a fixed block 305, a first sliding column 306, a first sliding block 307, a second sliding block 308, a pushing plate 309, a first connecting plate 310, a first connecting seat 311, a bottom sliding plate 312, a second connecting plate 313, a second connecting seat 314, a first rack 315, a first gear 316, a second rotating shaft 317, a second gear 318, a second rack 319, a limiting plate 320, and a avoidance groove 321.

The pushing mechanism 3 is as follows: the first motor 301 is fixedly installed on the side surface of the transport vehicle 1, the driving shaft of the first motor 301 is fixedly connected with the first end of the first waist-shaped plate 302, the second end of the first waist-shaped plate 302 is slidingly connected with the middle chute of the waist-shaped chute plate 303, the first end of the waist-shaped chute plate 303 is rotationally connected with the first rotating shaft 304, the first rotating shaft 304 is fixedly installed on the fixed block 305, the fixed block 305 is fixedly installed on the transport vehicle 1, the chute of the second end of the waist-shaped chute plate 303 is slidingly connected with the first sliding column 306, the first sliding column 306 is fixedly installed on the first end surface of the first sliding block 307, the first sliding block 307 is slidingly connected with the chute of the bottom plate 2, the second end surface of the first sliding block 307 is slidingly connected with the second sliding block 308, the second sliding block 308 is slidingly connected with the pushing plate 309, the first end of the pushing plate 309 is rotationally connected with the first end of the first connecting plate 310, the second end of the first connecting plate 310 is rotationally connected with the first connecting seat 311, the first connecting seat 311 is fixedly arranged at the first end of the bottom sliding plate 312, the bottom sliding plate 312 is in sliding connection with the bottom plate 2, the second end of the bottom sliding plate 312 is fixedly provided with the second connecting seat 314, the second connecting seat 314 is in sliding connection with the first end of the second connecting plate 313, the second end of the second connecting plate 313 is in sliding connection with the second end of the push plate 309, the second end of the bottom sliding plate 312 is fixedly provided with the first rack 315, the first rack 315 is in sliding connection with the bottom plate 2, the first rack 315 is in meshed connection with the first gear 316, the first gear 316 is in fixed connection with the second rotating shaft 317, the second rotating shaft 317 is in sliding connection with the side surface of the avoidance groove 321, the avoidance groove 321 is in sliding connection with the bottom sliding plate 312, the second rotating shaft 317 is in fixed connection with the second gear 318, the second gear 318 is engaged with the second rack 319, the second rack 319 is fixedly connected with the limiting plate 320, the limiting plate 320 is slidingly connected in the chute inside the transport vehicle 1, and the limiting plate 320 is slidingly connected with the bottom slide plate 312.

The pushing mechanism 3 has the functions of: when the container type micro-grid power station on the transport vehicle 1 needs to be detached and installed, the first motor 301 is started to drive the waist-shaped chute plate 303 to swing, the waist-shaped chute plate 303 drives the first sliding column 306 to slide in the chute of the bottom plate 2, the second sliding block 308 is driven to slide together, the second sliding block 308 is connected with the chute on the side face of the bottom plate 2 in a sliding mode, the second sliding block 308 moves upwards to be matched with the positioning groove of the push plate 309 when sliding, so that the push plate 309 is driven to slide together, the push plate 309 pushes the rear part of the micro-grid power station, the push plate 309 drives the bottom sliding plate 312 to slide on the bottom plate 2, the micro-grid power station is placed on the bottom sliding plate 312, the bottom sliding plate 312 pushes the bottom of the micro-grid power station to move, when the bottom sliding plate 312 slides, the first rack plate 315 drives the gears to mesh, the limiting plate 320 stretches out of the transport vehicle 1, limits the two sides of the moving micro-grid power station, deflection is prevented in the moving process of the micro-grid power station, when the bottom sliding plate 312 moves to the tail part of the transport vehicle 1, the bottom sliding plate 312 is scratched into the groove of the avoiding groove 321, and the push plate 309 continues to leave the micro-grid 1 under the deflection of the second connecting plate 313 and the first connecting plate 310 to push the residual position of the micro-grid power station.

As shown in fig. 7 to 11, the support mechanism 4 includes a pull plate 401, a first support plate 402, a second waist-shaped plate 403, a second support plate 404, a sleeve 405, a limit post 406, a spring 407, a positioning block 408, a fixing plate 409, a third connecting base 410, a third connecting base 411, a third rotating shaft 412, a fourth connecting base 413, a fourth rotating shaft 414, a fifth connecting base 415, a fourth connecting base 416, a sixth connecting base 417, a fifth rotating shaft 418, a seventh connecting base 419, a sixth rotating shaft 420, a support plate 421, a seventh rotating shaft 422, an eighth connecting base 423, a slide hole block 424, a screw column 425, a screw hole block 426, a support block 427, a rotating rod 428, a sector gear 429, a third rack plate 430, a fixing pin 431, and a slide groove plate 432.

The supporting mechanism 4 is: the first support plate 402 is slidably arranged in the chute of the transport vehicle 1, the pull plate 401 is fixedly arranged at the first end of the first support plate 402, the first support plate 402 is rotationally connected with the first end of the second waist-shaped plate 403, the second end of the second waist-shaped plate 403 is rotationally connected with the second support plate 404, the second support plate 404 is slidably connected with the chute of the transport vehicle 1, the sleeve 405 is fixedly arranged at the first end of the second waist-shaped plate 403, the limit post 406 is slidably arranged in the sleeve 405, the first end of the limit post 406 is fixedly connected with the first end of the spring 407, the second end of the spring 407 is fixedly connected with the inner wall of the sleeve 405, the second end of the limit post 406 is slidably connected with the positioning block 408, the positioning block 408 is fixedly arranged on the first support plate 402, the pull plate 401 is fixedly provided with the fixing plate 409, the first end of the fixing plate 409 is fixedly provided with the third connecting seat 410, the second end of the third connecting plate 411 is rotationally connected with the third rotating shaft 412, the third rotating seat 412 is rotationally connected with the fourth end of the fourth connecting plate 413, the fourth rotating shaft 413 is rotationally connected with the fourth rotating shaft 414, the fourth rotating shaft 414 is fixedly connected with the fifth rotating seat 416, the fifth rotating seat 416 is fixedly connected with the fifth rotating seat 416, the fifth rotating seat 418 is fixedly connected with the fifth rotating seat 416, the fifth rotating seat 416 is fixedly connected with the fifth rotating seat 416, the second end of backup pad 421 and seventh axis of rotation 422 fixed connection, seventh axis of rotation 422 and the first end of eighth connecting plate 423 rotate to be connected, the second end of eighth connecting plate 423 rotates to be connected with third axis of rotation 412, third axis of rotation 412 rotates to be connected with slide hole piece 424, slide hole piece 424 and the first end sliding connection of screw post 425, the second end of screw post 425 and screw piece 426 threaded connection, screw piece 426 rotates to be installed on third axis of rotation 412, fixed mounting has supporting shoe 427 on the arm-tie 401, supporting shoe 427 rotates to be connected with dwang 428, the both ends of dwang 428 respectively with sector gear 429 fixed connection, sector gear 429 meshes to be connected with third rack plate 430, one end fixed mounting needle 431 of third rack plate 430, third rack plate 430 and slide slot plate 432 sliding connection, slide slot plate 432 fixed mounting is on the arm-tie 401.

The supporting mechanism 4 has the functions of: the pulling plate 401 is pulled manually, the first supporting plate 402 is pulled out from the transport vehicle 1 until the first supporting plate leaves the transport vehicle 1, the second supporting plate 404 is connected with the bottom plate 2 through a key slot and does not move downwards, the first supporting plate 402 moves downwards after leaving the transport vehicle 1, the second supporting plate 404 moves downwards to the ground under the swinging of the second waist-shaped plate 403, the second supporting plate 404 also moves out of the transport vehicle 1 and extends and supports a micro-grid power station moving out of the transport vehicle 1, when the angle between the second waist-shaped plate 403 and the first supporting plate 402 changes, the limiting post 406 contacts with the positioning block 408, the limiting post 406 is positioned with the positioning block 408 through elastic expansion of the sleeve 405, the movement of the second waist-shaped plate 403 is limited, so that the second supporting plate 404 is supported, when the pulling plate 401 is pulled out, the structure connected with two fixing plates 409 is fixed at the tail of the transport vehicle 1, the structure connected with the other fixing plates 409 moves along with the pulling plate 401, the two fixing plates 409 are in contact with the ground, the micro-grid power station 1 is supported by manually rotating the supporting post, the two fixing plates 409 are contacted with the ground, the two fixing plates 409 fixedly connected with the other end of the fixing plates are contacted with the ground, and the other end of the fixing plates are pushed upwards by the fixing plates, and the manual pulling plate is pushed by the fan-shaped plate 401, and the needle gear is pushed upwards to rotate, and the auxiliary gear is pushed upwards to rotate the fixing plate 428 is pushed by the fixing the needle rod is pushed upwards to rotate, and is pushed upwards to rotate the fixing plate pulling rod is pushed upwards to rotate, and is pushed.

The working principle of the invention is as follows: when the container type micro-grid power station on the transport vehicle 1 needs to be detached and installed, the first motor 301 is started to drive the waist-shaped chute plate 303 to swing, the waist-shaped chute plate 303 drives the first sliding column 306 to slide in the chute of the bottom plate 2 to drive the second sliding block 308 to slide together, the second sliding block 308 is in sliding connection with the chute on the side surface of the bottom plate 2, so that the second sliding block 308 moves upwards to be matched with the positioning groove of the push plate 309 when sliding, thereby driving the push plate 309 to slide together, the push plate 309 drives the rear part of the micro-grid power station, the push plate 309 drives the bottom slide plate 312 to slide on the bottom plate 2, the micro-grid power station is placed on the bottom slide plate 312, the bottom slide plate 312 drives the bottom of the micro-grid power station to move, when the bottom slide plate 312 slides, the first rack plate 315 drives the gears to mesh, the limiting plate 320 stretches out of the transport vehicle 1, limits two sides of the moving micro-grid power station, deflection is prevented in the moving process, when the bottom slide plate 312 moves to the tail of the transport vehicle 1, the bottom slide plate 312 is scratched into the groove of the avoidance groove 321, the push plate 309 continues to push the rest part of the micro-grid power station to leave the transport vehicle 1 completely under the deflection of the second connecting plate 313 and the first connecting plate 310, the pull plate 401 is pulled manually, the first supporting plate 402 is pulled out from the transport vehicle 1 until leaving the transport vehicle 1, the second supporting plate 404 is connected with the bottom plate 2 through the key way and does not move downwards, the first supporting plate 402 moves downwards after leaving the transport vehicle 1, moves to the ground under the swinging of the second waist-shaped plate 403, the second supporting plate 404 also moves out of the transport vehicle 1, the micro-grid power station moving out of the transport vehicle 1 is supported in an extending way, when the angle between the second waist-shaped plate 403 and the first supporting plate 402 changes, the limiting post 406 contacts with the positioning block 408, and the limiting post 406 is positioned with the positioning block 408 through the elastic expansion of the sleeve 405, the second waist-shaped plate 403 is limited to move, so as to support the second support plate 404, when the pull plate 401 is pulled out, the structure connected with the two fixing plates 409 is fixed at the tail of the transport vehicle 1, the structure connected with the other two fixing plates 409 moves along with the pull plate 401, the threaded column 425 is manually rotated, the two fixing plates 409 matched with the two fixing plates 409 fixedly connected with the transport vehicle 1 are contacted with the ground, the micro-grid power station at the position of the transport vehicle 1 near the tail is supported, the two fixing plates 409 matched with the two fixing plates 409 fixedly connected with the pull plate 401 are contacted with the ground, the other end of the micro-grid power station extends upwards, the micro-grid power station at one end of the second support plate 404 is supported, the rotating rod 428 is manually pulled, the sector gear 429 is driven to swing, the third rack plate 430 pushes the fixing needle 431 to be inserted into the ground, auxiliary fixing is performed, and the installation is facilitated.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the present invention.

Claims (8)

1. The utility model provides a mounting device convenient to container formula microgrid power station, includes transport vechicle (1), its characterized in that: the transport vehicle (1) is provided with a bottom plate (2), the bottom plate (2) is provided with a pushing mechanism (3), the pushing mechanism (3) is used for unloading the container type micro-grid power station from the transport vehicle (1), the pushing mechanism (3) is provided with a supporting mechanism (4), and the supporting mechanism (4) is used for supporting the unloaded micro-grid power station in an auxiliary mode, so that the installation is convenient;

The pushing mechanism (3) comprises a first motor (301), the first motor (301) is fixedly arranged on the side surface of the transport vehicle (1), a driving shaft of the first motor (301) is fixedly connected with a first end of a first waist-shaped plate (302), a second end of the first waist-shaped plate (302) is in sliding connection with a middle sliding groove of a waist-shaped sliding groove plate (303), the first end of the waist-shaped sliding groove plate (303) is rotationally connected with a first rotating shaft (304), the first rotating shaft (304) is fixedly arranged on a fixed block (305), the fixed block (305) is fixedly arranged on the transport vehicle (1), a sliding groove at a second end of the waist-shaped sliding groove plate (303) is in sliding connection with a first sliding column (306), the first sliding column (306) is fixedly arranged on a first end face of a first sliding block (307), the first sliding block (307) is in sliding connection with a sliding groove of a bottom plate (2), the second end face of the first sliding block (307) is in sliding connection with a second sliding block (308), and the second sliding block (308) is in sliding connection with the second sliding plate (308) of the bottom plate (2);

The support mechanism (4) comprises a pulling plate (401), a fixing plate (409) is fixedly arranged on the pulling plate (401), a third connecting seat (410) is fixedly arranged at the first end of the fixing plate (409), the third connecting seat (410) is rotationally connected with the first end of a third connecting plate (411), the second end of the third connecting plate (411) is rotationally connected with a third rotating shaft (412), the third rotating shaft (412) is rotationally connected with the first end of a fourth connecting plate (413), the second end of the fourth connecting plate (413) is rotationally connected with a fourth rotating shaft (414), the fourth rotating shaft (414) is fixedly arranged on a fifth connecting plate (415), the first end of the fifth connecting plate (415) is rotationally connected with a fourth connecting seat (416), the fourth connecting seat (416) is fixedly arranged at the second end of the fixing plate (409), the second end of the fifth connecting plate (415) is rotationally connected with another third rotating shaft (412), the second end of the third rotating shaft (412) is rotationally connected with a fifth rotating shaft (418), the fifth connecting plate (418) is rotationally connected with the fifth rotating shaft (417), the sixth rotating shaft (420) is fixedly arranged at the first end of the supporting plate (421), the second end of the supporting plate (421) is fixedly connected with the seventh rotating shaft (422), the seventh rotating shaft (422) is rotationally connected with the first end of the eighth connecting plate (423), and the second end of the eighth connecting plate (423) is rotationally connected with the third rotating shaft (412).

2. A device for facilitating the installation of a container-type microgrid power station according to claim 1, characterized in that: the first end of push pedal (309) rotates with the first end of first connecting plate (310) to be connected, the second end of first connecting plate (310) rotates with first connecting seat (311) to be connected, first connecting seat (311) fixed mounting is at the first end of bottom slide (312), bottom slide (312) and bottom plate (2) sliding connection, the second fixed mounting of bottom slide (312) has second connecting seat (314), second connecting seat (314) rotates with the first end of second connecting plate (313) to be connected, the second end of second connecting plate (313) rotates with the second end of push pedal (309) to be connected.

3. A device for facilitating the installation of a container-type microgrid power station according to claim 2, characterized in that: the second end fixed mounting of bottom slide (312) has first rack board (315), first rack board (315) and bottom plate (2) sliding connection, first rack board (315) and first gear (316) meshing connection, first gear (316) and second axis of rotation (317) fixed connection, second axis of rotation (317) rotate the inside of installing at transport vechicle (1), first rack board (315) and dodge the side sliding connection in groove (321), dodge groove (321) and bottom slide (312) sliding connection.

4. A device for facilitating the installation of a container-type microgrid power station according to claim 3, characterized in that: the second rotating shaft (317) is fixedly connected with the second gear (318), the second gear (318) is in meshed connection with the second rack plate (319), the second rack plate (319) is fixedly connected with the limiting plate (320), the limiting plate (320) is in sliding connection in a sliding groove in the inside of the transport vehicle (1), and the limiting plate (320) is in sliding connection with the bottom sliding plate (312).

5. A device for facilitating the installation of a container-type microgrid power station according to claim 1, characterized in that: the inside spout slidable mounting of transport vechicle (1) has first backup pad (402), the first end fixed mounting of first backup pad (402) has arm-tie (401), first backup pad (402) are connected with the first end rotation of second waist template (403), the second end and the second backup pad (404) of second waist template (403) are rotated and are connected, spout sliding connection of second backup pad (404) and transport vechicle (1).

6. A device for facilitating the installation of a container-type microgrid power station as defined in claim 5, wherein: the first end department fixed mounting of second waist template (403) has sleeve (405), the inside slidable mounting of sleeve (405) has spacing post (406), the first end of spacing post (406) and the first end fixed connection of spring (407), the second end of spring (407) and the inner wall fixed connection of sleeve (405), the second end and locating piece (408) sliding connection of spacing post (406), locating piece (408) fixed mounting is on first backup pad (402).

7. A device for facilitating the installation of a container-type microgrid power station according to claim 1, characterized in that: the third rotating shaft (412) is rotationally connected with the sliding hole block (424), the sliding hole block (424) is slidingly connected with the first end of the threaded column (425), the second end of the threaded column (425) is in threaded connection with the screw hole block (426), and the screw hole block (426) is rotationally arranged on the third rotating shaft (412).

8. A device for facilitating the installation of a container-type microgrid power station according to claim 1, characterized in that: the utility model discloses a fixed mounting has supporting shoe (427) on arm-tie (401), supporting shoe (427) rotate with dwang (428) to be connected, the both ends of dwang (428) respectively with sector gear (429) fixed connection, sector gear (429) are connected with third rack board (430) meshing, one end fixed mounting of third rack board (430) has fixed needle (431), third rack board (430) and runner board (432) sliding connection, runner board (432) fixed mounting is on arm-tie (401).