CN118220684B - Module transportation device and method for offshore booster station for new energy development - Google Patents
Module transportation device and method for offshore booster station for new energy development Download PDFInfo
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- CN118220684B CN118220684B CN202410650524.9A CN202410650524A CN118220684B CN 118220684 B CN118220684 B CN 118220684B CN 202410650524 A CN202410650524 A CN 202410650524A CN 118220684 B CN118220684 B CN 118220684B
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- 238000000034 method Methods 0.000 title claims abstract description 15
- 230000005540 biological transmission Effects 0.000 claims abstract description 102
- 230000003139 buffering effect Effects 0.000 claims 1
- 230000002265 prevention Effects 0.000 claims 1
- 230000006378 damage Effects 0.000 abstract description 4
- 238000010276 construction Methods 0.000 description 7
- 238000009434 installation Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000000926 separation method Methods 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D81/00—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents
- B65D81/02—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents specially adapted to protect contents from mechanical damage
- B65D81/05—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents specially adapted to protect contents from mechanical damage maintaining contents at spaced relation from package walls, or from other contents
- B65D81/051—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents specially adapted to protect contents from mechanical damage maintaining contents at spaced relation from package walls, or from other contents using pillow-like elements filled with cushioning material, e.g. elastic foam, fabric
- B65D81/052—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents specially adapted to protect contents from mechanical damage maintaining contents at spaced relation from package walls, or from other contents using pillow-like elements filled with cushioning material, e.g. elastic foam, fabric filled with fluid, e.g. inflatable elements
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D25/00—Details of other kinds or types of rigid or semi-rigid containers
- B65D25/02—Internal fittings
- B65D25/10—Devices to locate articles in containers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D81/00—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents
- B65D81/18—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents providing specific environment for contents, e.g. temperature above or below ambient
- B65D81/20—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents providing specific environment for contents, e.g. temperature above or below ambient under vacuum or superatmospheric pressure, or in a special atmosphere, e.g. of inert gas
- B65D81/2007—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents providing specific environment for contents, e.g. temperature above or below ambient under vacuum or superatmospheric pressure, or in a special atmosphere, e.g. of inert gas under vacuum
- B65D81/2038—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents providing specific environment for contents, e.g. temperature above or below ambient under vacuum or superatmospheric pressure, or in a special atmosphere, e.g. of inert gas under vacuum with means for establishing or improving vacuum
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Transmission Devices (AREA)
Abstract
The invention discloses a module transportation device and a module transportation method for a marine booster station for new energy development, which relate to the technical field of the marine booster station and comprise a protection box, wherein a storage cavity is formed in the protection box, a supporting spring is arranged at the top of the inner cavity of the storage cavity, a placing plate is arranged at the top of the supporting spring, a bottom box is arranged at the top of the placing plate, a storage box is arranged at the top of the bottom box, a storage groove is formed in the storage box, this a marine module conveyer and method for booster station for new forms of energy development is through being provided with holding tank, transfer line and transmission chamber for when spacing holding power module, can be with the inside gaseous exhaust of holding tank to the external world, reduce the condition emergence to causing the harm because of the moisture in the inside air of holding tank, can carry out spacingly at the transportation simultaneously, prevent that the holding tank from inside rocking, cause power module to receive the damage.
Description
Technical Field
The invention relates to the technical field of offshore booster stations, in particular to a module conveying device and a module conveying method for an offshore booster station for new energy development.
Background
The offshore booster station is a hub for connecting the fan and the land power grid, and the electric energy generated by all the wind driven generators is collected and then connected to the land power grid through the outgoing sea cable. The offshore booster station is generally large in volume, complex in structure, high in installation requirement and short in construction period, and the weight of the offshore booster station can reach 3000 t. Compared with the construction of a land wind power plant, the construction difficulty at sea is high and the construction cost is high due to the influence of wind, waves, currents and other environments. In addition, the booster station generally adopts a pile foundation, the construction process is complex, the construction precision requirement is high, and the higher requirement is provided for the construction and installation of the offshore booster station. The existing offshore booster station is composed of a plurality of modules, wherein the power module is easy to be damaged due to the influence of moisture in the conveying device in the conveying process.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides a module conveying device and a module conveying method for an offshore booster station for new energy development, and solves the problems in the prior art.
In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a module conveyer for marine booster station for new forms of energy development, includes the guard box, accomodate the chamber has been seted up to guard box inside, accomodate the top of chamber inner chamber and be provided with supporting spring, place the board at supporting spring's top is installed, place the roof box at board's top, the storage tank is installed at the roof of roof box, storage tank has been seted up to storage tank inside, four sliding tray has been seted up to storage tank inside and be located the below of storage tank, four the sliding tray is the cross and arranges, the sliding tray is inside all to rotate and is connected with first lead screw, storage tank inside and be located between four sliding tray and seted up the drive tank, the drive tank inside rotates and is connected with the transfer line, four the one end of first lead screw all extends to the drive tank inside, two the outside of first lead screw all overlaps and is equipped with the second bevel gear, the outside cover of transfer line is equipped with the first bevel gear with second bevel gear matched with, the both ends of transfer line are connected with the one end of remaining two first lead screws, the second piston groove has been seted up to the end incasement portion, the first removal groove has been seted up to the end incasement portion and be located one side of second piston groove, first removal groove inner chamber rotation is connected with the second reciprocating screw, the outside threaded connection of second reciprocating screw has the push post, the one end of push post extends to the second piston inslot portion and is provided with first piston block, one side of end case is provided with the head, the top of end case is provided with the suction head, the suction head is provided with the check valve with the one end that the head is located the second piston inslot portion, the suction cavity has been seted up to one side that the storage tank is inside and is located the storage tank, the top of suction head extends to the suction cavity inside, the suction cavity is communicated with the inside of the storage tank through a pipeline.
Optionally, the transmission chamber has been seted up to one side that just is located a sliding tray in the bin, one side of transmission chamber inner chamber is provided with first servo motor, the output of first servo motor is provided with the connecting rod, the outside cover of connecting rod is equipped with first drive gear, the outside of the reciprocal lead screw of second is provided with one-way bearing, one-way bearing's outside is provided with second drive gear, second drive gear is connected with first drive gear transmission, first drive gear passes through clutch pack and first lead screw transmission and is connected, and clutch pack includes storage tank and interlock groove, and one the interlock groove has been seted up to one end of first lead screw, the one end of connecting rod extends to the interlock inslot portion, a plurality of storage tank has been seted up to inside the connecting rod, one side of storage tank inner chamber all is provided with connecting spring, connecting spring's one end all is provided with the movable plate, the clutch head is all provided with in the outside of first lead screw inside and be located the interlock groove, the one end of clutch head all extends to the inside of clutch groove, the one side of clutch head all is located the first electromagnet of storage tank and is located one side of first both sides of the inner chamber, the first electromagnet of storage tank all sets up and is located both sides of clutch head.
Optionally, the constant head tank has been seted up to one side of base box, the one end of the reciprocal lead screw of second extends to inside the constant head tank, a plurality of fixed slot has been seted up to the inside outside that just is located the constant head tank of base box, equal sliding connection of fixed slot inner chamber has the third electro-magnet, the one end of third electro-magnet all is provided with first spliced pole, the one end of first spliced pole all extends to inside the constant head tank and is provided with the friction plate, the equal sliding connection in the outside of fixed slot inner chamber and being located first spliced pole has reset spring, one side of fixed slot inner chamber all is provided with the fourth electro-magnet.
Optionally, the bottom of guard box is provided with the fixed box, the movable chamber has been seted up to the fixed box inside, the bottom of placing the board is provided with two movable columns, the bottom of movable column extends to the movable chamber inside, the post groove has been seted up to the inside and outside that is located a movable column of guard box, the connecting chamber has been seted up to the inside and one side that is located the post groove of guard box, the connecting chamber inner chamber rotates and is connected with the dwang, the one end of dwang extends to the post groove inside and is provided with the third drive gear, install with third drive gear matched with rack in one side of movable column, the bottom of guard box is provided with the fixed column, the one end of dwang extends to the fixed column inside, the bottom of fixed column extends to the movable chamber inside, two the bottom of movable column is provided with the slide, and the logical groove has been seted up in the slide inside and the outside that is located the fixed column, the bottom of fixed column inner chamber rotates and is connected with first transmission shaft, first transmission shaft and the outside cover of dwang are equipped with the dwang, two the one end of dwang extends to the post groove inside and is provided with the third bevel gear, two the second transmission shaft is connected with the inside the second transmission shaft through the inside and the first transmission shaft, the inside is provided with the second transmission shaft groove, the inside is connected with the first transmission shaft and the second transmission shaft through the inside of the first transmission groove, the first transmission groove is connected with the first transmission shaft and the inside the first transmission groove and the inside and the second transmission groove, the two fifth bevel gears are meshed with each other.
Optionally, first piston groove has been seted up to the inside one side that just is located the second removal groove of fixed case, the outside threaded connection of third reciprocating screw has the piston post, the one end of piston post extends to inside the first piston groove and is provided with the second piston piece, the inside connecting pipe that is provided with of fixed case, the one end of connecting pipe is provided with the connector, four ends of connector all are provided with first fixed head, the four sides of guard box all are provided with the buffer tank, the one end of first fixed head all extends to the buffer tank inside, the bottom of fixed case all is provided with the air tank, the inside second fixed head that all is provided with of fixed case, the bottom of second fixed head all is provided with the air tank inside, the one end of second fixed head is provided with the fourth ooff valve, the bottom of second fixed head just is provided with the third ooff valve in one side of fourth ooff valve, one side of first fixed head all is provided with first ooff valve, one side of first fixed head just is provided with first fixed head and is located first one side of first ooff valve all, first switch valve all is provided with the first one side of first fixed head all is provided with the air tank all, the first one end all extends the air bag all is provided with the air chamber all.
Optionally, one side of gasbag all is provided with the push pedal, one side of push pedal all is provided with a plurality of second spliced pole, one side of buffer tank all is provided with the buffer board, the one end of second spliced pole all extends to the outside of buffer tank and is connected with one side of buffer board.
Optionally, the buffer box is inside all to be provided with a plurality of fifth electro-magnets, one side of push pedal and be located one side of fifth electro-magnet all inlay and have the sixth electro-magnet, the top of storage box is provided with the second apron, the top of guard box is provided with first apron, the inside power module that is provided with of storage tank.
The module transportation method for the offshore booster station for new energy development comprises the following steps:
S1: opening a second cover plate, placing a power module in a storage tank, closing the second cover plate, driving a connecting rod to rotate by the output end of a first servo motor, enabling a first transmission gear to rotate, enabling the connecting rod to drive a first screw rod to rotate through a clutch assembly, enabling the first screw rod to drive a second bevel gear to rotate, enabling the first bevel gear to rotate, enabling the other second bevel gear to rotate, enabling the first screw rod to rotate, enabling a limiting plate to move towards the direction of the power module, enabling a limiting post of the power module, enabling the first transmission gear to rotate, enabling a second reciprocating screw rod to rotate, enabling a pushing post to push a first piston block to reciprocate, enabling air in the storage tank to be sucked into the second piston tank through a suction cavity and a suction head and then be discharged through a discharge head, enabling the air in the storage tank to be discharged as much as possible, enabling a magnetic field generated between the second electromagnet and the first electromagnet to drive a moving plate to drive one end of the clutch head to move out of the first piston block, enabling the first piston block to be disconnected from the first transmission gear to rotate, and enabling the first piston block to move to be disconnected from the first servo motor to continue to rotate;
S2: after the air in the storage tank is exhausted as much as possible, the second cover plate is opened, the storage tank is placed in the protection tank, at the moment, under the action of the weight of the storage tank, the protection tank pushes the placement plate to move downwards, the placement plate pushes the moving column to move downwards, the rack moves downwards, the rack drives the third transmission gear to rotate, the rotating rod rotates, the third bevel gear drives the first transmission shaft to rotate, the first transmission shaft drives the second transmission shaft to rotate through the belt pulley, the fifth bevel gear drives the third reciprocating screw to rotate, the second piston block moves back and forth, and therefore the air in the air tank is sucked into the first piston tank through the opened fourth switching valve, then the air bag is inflated through the connecting pipe and the connecting head and the opened first switching valve, the push plate pushes the second connecting column to extend out of the buffer plate, the first cover plate is closed, and when the device is impacted, the buffer plate pushes the air in the second connecting column to squeeze the air bag, and buffer the air in the air bag is buffered;
S3: when the power module needs to be taken out, the first cover plate is firstly opened, the storage box is taken out from the storage cavity, at the moment, the supporting spring pushes the placing plate to move upwards, the supporting spring drives the moving column to move upwards, the moving column drives the rack sliding groove to move upwards, the rack drives the third transmission gear to rotate, the third transmission gear drives the second transmission shaft to rotate through the rotating rod, the third bevel gear and the belt pulley, the second transmission shaft drives the third reciprocating screw rod to rotate through the fifth bevel gear, at the moment, the second fixed head and the first switching valve are closed, the second switching valve and the third switching valve are opened, the second piston block is made to reciprocate, so that gas in the air bag is pumped into the first piston groove through the second switching valve, the connecting head and the connecting pipe, then the gas is discharged into the air box through the second fixed head and the third switching valve, the air bag is contracted, and the push plate drives the second connecting column and the buffer plate to contract; then open the second apron, with second electro-magnet and first electro-magnet start, make repulsion magnetic field between second electro-magnet and the first electro-magnet disappear, make the one end that the connecting spring promoted the separation and reunion head insert to clutch groove inside, make first lead screw and connecting rod be in connected state, then the output of first servo motor drives the connecting rod and rotates in opposite directions, make first drive gear rotate in opposite directions, make the connecting rod drive a first lead screw through clutch pack and rotate in opposite directions, make first bevel gear rotate in opposite directions, make another second bevel gear rotate in opposite directions, make first lead screw all rotate in opposite directions, make limiting plate to keeping away from power module direction removal, remove power module limit state, make things convenient for the operating personnel to take out power module, when first drive gear drives second drive gear and rotates, simultaneously fourth electro-magnet and third electro-magnet start, make and produce mutually exclusive magnetic field between fourth electro-magnet and the third electro-magnet, make third electro-magnet promote first spliced pole and friction plate movement, clip the second drive gear, the second drive gear is through the reciprocal rotation of one-way lead screw, the second drive gear drives the reciprocal rotation of second lead screw through the reciprocal bearing of second.
The invention provides a module transportation device and a module transportation method for a marine booster station for new energy development, which have the following beneficial effects:
1. This a marine module conveyer and method for booster station for new forms of energy development is through being provided with holding tank, transfer line and transmission chamber for when spacing holding power module, can be with the inside gaseous exhaust of holding tank to the external world, reduce the condition emergence to causing the harm because of the moisture in the inside air of holding tank, can carry out spacingly at the transportation simultaneously, prevent that the holding tank from inside rocking, cause power module to receive the damage.
2. According to the module conveying device and method for the offshore booster station for new energy development, the movable column, the rotating rod and the first transmission shaft are arranged, the storage box is placed in the protection box, at the moment, under the action of the weight of the storage box, the protection box pushes the placement plate to move downwards, the placement plate pushes the movable column to move downwards, the rack moves downwards, the rack drives the third transmission gear to rotate, the rotating rod rotates, the third bevel gear drives the first transmission shaft to rotate, the first transmission shaft drives the second transmission shaft to rotate through the belt pulley, the fifth bevel gear drives the third reciprocating screw to rotate, the second piston block moves back and forth, so that gas in the gas box is sucked into the first piston groove through the opened fourth switching valve, then the gas box is discharged into the gas bag through the connecting pipe and the connecting head and the opened first switching valve, the gas bag is inflated, the push plate pushes the second connecting column to extend out of the buffer plate to prevent collision, then the first cover plate is closed, the device is conveyed, and when the buffer plate pushes the gas in the second connecting column to squeeze the gas bag, and the gas in the gas bag is buffered; meanwhile, after the storage box is taken out, the air bag automatically contracts, so that the occupied area of the device is reduced, and the storage is convenient.
Drawings
FIG. 1 is a schematic view of the internal structure of the present invention;
FIG. 2 is a schematic view of the position structure of the sliding groove of the present invention;
FIG. 3 is a schematic top view of the present invention;
FIG. 4 is a schematic view of a portion of the structure of the present invention;
FIG. 5 is a schematic view of a clutch assembly according to the present invention;
FIG. 6 is an enlarged view of the invention at A of FIG. 1;
FIG. 7 is an enlarged view of the invention at B of FIG. 1;
FIG. 8 is an enlarged view of FIG. 1 at C in accordance with the present invention;
FIG. 9 is an enlarged view of the invention at D of FIG. 1;
FIG. 10 is an enlarged view of FIG. 1 at E in accordance with the present invention;
FIG. 11 is an enlarged view of the invention at F of FIG. 1;
FIG. 12 is an enlarged view of the invention at G of FIG. 1;
FIG. 13 is an enlarged view of the invention at H of FIG. 1;
fig. 14 is an enlarged view of the invention at I of fig. 4.
In the figure: 1. a protection box; 2. a storage box; 3. a storage tank; 4. a sliding groove; 5. a first screw rod; 6. a limiting plate; 7. a transmission groove; 8. a transmission rod; 9. a first bevel gear; 10. a second bevel gear; 11. a transmission cavity; 12. a first servo motor; 13. a first transmission gear; 14. a connecting rod; 15. a clutch groove; 16. a clutch head; 17. a storage groove; 18. a moving plate; 19. a connecting spring; 20. a first electromagnet; 21. a second electromagnet; 22. a linkage groove; 23. a bottom box; 24. a first moving groove; 25. a second reciprocating screw rod; 26. pushing a column; 27. a one-way bearing; 28. a second transmission gear; 29. arranging heads; 30. a suction head; 31. a suction cavity; 32. a first piston block; 33. a positioning groove; 34. a friction plate; 35. a first connection post; 36. a fixing groove; 37. a third electromagnet; 38. a return spring; 39. a fourth electromagnet; 40. placing a plate; 41. a support spring; 42. a moving column; 43. a fixed box; 44. a rack; 45. a connecting cavity; 46. a rotating lever; 47. a third transmission gear; 48. fixing the column; 49. a first drive shaft; 50. a third bevel gear; 51. a through groove; 52. a linkage cavity; 53. a belt pulley; 54. a second drive shaft; 55. a third reciprocating screw rod; 56. a second moving groove; 57. a piston column; 58. a second piston block; 59. a first piston groove; 60. a connecting pipe; 61. a connector; 62. a first fixed head; 63. a first switching valve; 64. a second switching valve; 65. an air box; 66. a second fixed head; 67. a third switching valve; 68. a fourth switching valve; 69. a buffer tank; 70. an air bag; 71. a second connection post; 72. a buffer plate; 73. a fifth electromagnet; 74. a sixth electromagnet; 75. a first cover plate; 76. a second cover plate; 77. a power module; 78. a second piston groove; 79. a storage chamber; 80. a moving chamber; 85. a fifth bevel gear; 86. a push plate.
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.
Example 1
Referring to fig. 1,2,4, 5,6,7, 8 and 14, the present invention provides a technical solution: the utility model provides a marine booster station is with module conveyer for new forms of energy development, includes guard box 1, its characterized in that: the holding box 79 has been seted up to the inside of guard box 1, the top of holding chamber 79 inner chamber is provided with supporting spring 41, the placing plate 40 is installed at the top of supporting spring 41, the head box 23 has been placed at the top of placing plate 40, storage box 2 has been installed at the top of head box 23, storage tank 3 has been seted up to storage box 2 inside, four sliding grooves 4 have been seted up to storage box 2 inside and the below that is located storage box 3, four sliding grooves 4 are cross-shaped and arrange, sliding groove 4 inside all rotates and is connected with first lead screw 5, drive groove 7 has been seted up between storage box 2 inside and being located four sliding grooves 4, drive groove 7 inside rotates and is connected with transfer line 8, the one end of four first lead screws 5 all extends to drive groove 7 inside, the outside of two first lead screws 5 all overlaps and is equipped with second bevel gear 10, the outside cover of transfer line 8 is equipped with first bevel gear 9 with second bevel gear 10 matched with, the both ends of transfer line 8 are connected with the one end of remaining two first lead screws 5, second piston groove 78 has been seted up inside bottom box 23, inside and be located second piston groove 78, inside and be located second piston groove 23 inside and be connected with first piston groove 24 and be provided with second piston groove 24 and be provided with the suction head 30, piston groove 30 is provided with the inside and the suction head 30 is provided with the suction plug 30, the suction plug 30 is provided with the suction plug 30, the tip is provided with the tip 30, the tip is connected with the tip 30, the tip is provided with the tip 30, the tip is connected with the tip 30, and the tip 30, the tip is provided with the tip 30, and the tip has been provided with the tip and the tip that is provided with the tip.
Wherein, a transmission cavity 11 is arranged in the storage box 2 and positioned at one side of one sliding groove 4, one side of the inner cavity of the transmission cavity 11 is provided with a first servo motor 12, the output end of the first servo motor 12 is provided with a connecting rod 14, the outer side of the connecting rod 14 is sleeved with a first transmission gear 13, the outer side of a second reciprocating screw rod 25 is provided with a one-way bearing 27, the outer side of the one-way bearing 27 is provided with a second transmission gear 28, the second transmission gear 28 is in transmission connection with the first transmission gear 13, the first transmission gear 13 is in transmission connection with the first screw rod 5 through a clutch component, the clutch component comprises a storage groove 17 and a linkage groove 22, one end of one first screw rod 5 is provided with the linkage groove 22, one end of connecting rod 14 extends to interlock inslot 22, a plurality of storage tank 17 has been seted up to connecting rod 14 inside, one side of storage tank 17 inner chamber all is provided with connecting spring 19, connecting spring 19's one end all is provided with movable plate 18, movable plate 18's one end all is provided with clutch head 16, inside first lead screw 5 and be located interlock inslot 22's the outside all has seted up a plurality of clutch groove 15, clutch head 16's one end all extends to clutch groove 15 inside, storage tank 17 inner chamber's one side just is located clutch head 16's both sides all is provided with first electro-magnet 20, storage tank 17 inner chamber's one side just is located clutch head 16's both sides all is provided with second electro-magnet 21, be connected between connecting rod 14 and the first lead screw 5 through clutch assembly control.
Wherein, the constant head tank 33 has been seted up to one side of the base box 23, the one end of second reciprocating screw 25 extends to inside the constant head tank 33, a plurality of fixed slot 36 has been seted up to the inside and outside that is located the constant head tank 33 of base box 23, fixed slot 36 inner chamber all sliding connection has third electro-magnet 37, the one end of third electro-magnet 37 all is provided with first spliced pole 35, the one end of first spliced pole 35 all extends to inside the constant head tank 33 and is provided with friction plate 34, fixed slot 36 inner chamber and the outside that is located first spliced pole 35 all sliding connection have reset spring 38, one side of fixed slot 36 inner chamber all is provided with fourth electro-magnet 39, when not needing to carry out spacing to second reciprocating screw 25, fourth electro-magnet 39 and third electro-magnet 37 are closed, make the repulsion magnetic field between fourth electro-magnet 39 and the third electro-magnet 37 disappear, make reset spring 38 promote the third electro-magnet 37 and remove, make third electro-magnet 37 drive friction plate 34 through first spliced pole 35 and reset and remove, thereby remove the spacing state of second reciprocating screw 25.
Example two
Referring to fig. 1,3, 9,10, 11, 12 and 13, unlike the present embodiment, the bottom of the protection case 1 is provided with a fixed case 43, a moving cavity 80 is formed in the fixed case 43, two moving columns 42 are disposed at the bottom of the placement plate 40, the bottom ends of the moving columns 42 extend into the moving cavity 80, a column groove is formed in the protection case 1 and located at the outer side of one moving column 42, a connecting cavity 45 is formed in the protection case 1 and located at one side of the column groove, a rotating rod 46 is rotatably connected in the inner cavity of the connecting cavity 45, one end of the rotating rod 46 extends into the column groove and is provided with a third transmission gear 47, a rack 44 matched with the third transmission gear 47 is mounted on one side of the moving column 42, a fixed column 48 is disposed at the bottom of the protection case 1, one end of the rotating rod 46 extends into the fixed column 48, the bottom ends of the fixed columns 48 extend into the movable cavity 80, sliding plates are arranged at the bottom ends of the two movable columns 42, through grooves 51 are formed in the sliding plates and located on the outer sides of the fixed columns 48, a first transmission shaft 49 is rotatably connected to the bottom of an inner cavity of each fixed column 48, a third bevel gear 50 is sleeved on the first transmission shaft 49 and the outer sides of the rotating rods 46, the two third bevel gears 50 are in meshed connection with each other, a linkage cavity 52 is formed in the fixed box 43, the bottom ends of the first transmission shaft 49 extend into the linkage cavity 52, a second transmission shaft 54 is rotatably connected to the top of the inner cavity of the linkage cavity 52, belt pulleys 53 are sleeved on the outer sides of the second transmission shaft 54 and the first transmission shaft 49, the two belt pulleys 53 are connected through belt transmission, a second movable groove 56 is formed in the inner part of the fixed box 43 and located below the linkage cavity 52, and a third reciprocating screw 55 is rotatably connected to the inner cavity of the second movable groove 56, the outer side of the third reciprocating screw rod 55 and the outer side of the second transmission shaft 54 are respectively sleeved with a fifth bevel gear 85, the two fifth bevel gears 85 are mutually meshed and connected, and the placing plate 40 can drive the third reciprocating screw rod 55 to rotate when moving up and down.
Wherein, the first piston groove 59 has been seted up to the inside one side that just is located the second removal groove 56 of fixed box 43, the outside threaded connection of third reciprocating screw 55 has piston post 57, the one end of piston post 57 extends to the inside one side of first piston groove 59 and is provided with second piston 58, the inside connecting pipe 60 that is provided with of fixed box 43, the one end of connecting pipe 60 is provided with connector 61, the four ends of connector 61 all are provided with first fixed head 62, the four sides of guard box 1 all are provided with buffer tank 69, the one end of first fixed head 62 all extends to buffer tank 69 inside, the bottom of fixed box 43 all is provided with air tank 65, the inside all is provided with second fixed head 66 of fixed box 43, the bottom of second fixed head 66 all is provided with air tank 65 inside, the one end of second fixed head 66 is provided with fourth switch valve 68, the bottom of second fixed head 66 just is provided with third switch valve 67 in one side of fourth switch valve 68, one side of first fixed head 62 all is provided with first switch valve 63, one side of first fixed head 62 just is located one side of first switch valve 63 and all is provided with buffer valve 64, the inside one side is provided with air bag 70 and air bag 70, the one-way valve 70 is all extended to the inside one-way valve 70, the one-way valve is provided with air bag 70, the one-way valve is all extended to the inside one-way valve 70.
Wherein, one side of gasbag 70 all is provided with push pedal 86, and one side of push pedal 86 all is provided with a plurality of second spliced pole 71, and one side of buffer tank 69 all is provided with buffer plate 72, and the one end of second spliced pole 71 all extends to the outside of buffer tank 69 and is connected with one side of buffer plate 72, can utilize gasbag 70 to carry out the anticollision.
Wherein, buffer tank 69 is inside all to be provided with a plurality of fifth electro-magnet 73, and one side of push pedal 86 and be located one side of fifth electro-magnet 73 all inlay and have sixth electro-magnet 74, and the top of storage tank 2 is provided with second apron 76, and the top of guard box 1 is provided with first apron 75, and storage tank 3 is inside to be provided with power module 77, can seal the top of guard box 1 and storage tank 2.
Example III
Referring to fig. 1 to 14, a module transportation method for an offshore booster station for new energy development includes the following steps:
S1: opening the second cover plate 76, placing the power module 77 inside the storage tank 3, closing the second cover plate 76, then driving the connecting rod 14 to rotate by the output end of the first servo motor 12, so that the first transmission gear 13 rotates, driving one first screw rod 5 to rotate by the connecting rod 14 through the clutch assembly, driving one second bevel gear 10 to rotate by the first screw rod 5, driving the first bevel gear 9 to rotate, driving the other second bevel gear 10 to rotate, driving the first screw rod 5 to rotate, driving the limiting plate 6 to move towards the direction of the power module 77, limiting the post of the power module 77, driving the second transmission gear 28 to rotate by the rotation of the first transmission gear 13, driving the second reciprocating screw rod 25 to rotate, the pushing post 26 pushes the first piston block 32 to reciprocate, so that air in the storage tank 3 is sucked into the second piston groove 78 through the suction cavity 31 and the suction head 30 and then discharged through the discharge head 29, the air in the storage tank 3 is discharged as much as possible, when the limiting plate 6 contacts with the power module 77 and the air in the storage tank 3 needs to be discharged, the second electromagnet 21 and the first electromagnet 20 are started, a mutually exclusive magnetic field is generated between the second electromagnet 21 and the first electromagnet 20, the movable plate 18 drives one end of the clutch head 16 to move out of the clutch groove 15, the connecting rod 14 is disconnected from the first screw rod 5 in a transmission manner, and the first servo motor 12 continues to work to drive the second reciprocating screw rod 25 to rotate at the moment;
S2: after the air in the storage tank 3 is exhausted as much as possible, the second cover plate 76 is opened, the storage tank 2 is placed in the protection tank 1, at this time, under the action of the weight of the storage tank 2, the protection tank 1 pushes the placement plate 40 to move downwards, the placement plate 40 pushes the moving column 42 to move downwards, the rack 44 moves downwards, the rack 44 drives the third transmission gear 47 to rotate, the rotating rod 46 rotates, the third bevel gear 50 drives the first transmission shaft 49 to rotate, the first transmission shaft 49 drives the second transmission shaft 54 to rotate through the belt pulley 53, the fifth bevel gear 85 drives the third reciprocating screw 55 to rotate, the second piston block 58 moves back and forth, then the air in the air tank 65 is sucked into the first piston groove 59 through the opened fourth switch valve 68, and then the air bag 70 is exhausted into the air bag 70 through the connecting pipe 60 and the connecting head 61 and the opened first switch valve 63, the air bag 70 is inflated, the second connecting column 71 and the buffer plate 72 are pushed out by the push plate 86 to be crashed, then the first cover plate 75 is closed, and the air bag 70 is pushed and the air bag 70 is extruded by the second buffer plate 72 when the air bag 70 is impacted by the pushing device;
S3: when the power module 77 needs to be taken out, the first cover plate 75 is firstly opened, the storage box 2 is taken out from the storage cavity 79, at this time, the supporting spring 41 pushes the placing plate 40 to move upwards, the supporting spring 41 drives the moving column 42 to move upwards, the moving column 42 drives the rack 44 sliding groove 4 to move upwards, the rack 44 drives the third transmission gear 47 to rotate, the third transmission gear 47 drives the second transmission shaft 54 to rotate through the rotating rod 46, the third bevel gear 50 and the belt pulley 53, the second transmission shaft 54 drives the third reciprocating screw rod 55 to rotate through the fifth bevel gear 85, at this time, the second fixing head 66 and the first switching valve 63 are closed, the second switching valve 64 and the third switching valve 67 are opened, the second piston block 58 is made to reciprocate, so that gas in the air bag 70 is pumped into the first piston groove 59 through the second switching valve 64 and the connecting head 61 and the connecting pipe 60, then the gas is discharged into the air box 65 through the second fixing head 66 and the third switching valve 67, the air bag 70 is contracted, and the push plate 86 drives the second connecting column 71 and the buffer plate 72 to contract; then, the second cover plate 76 is opened, the second electromagnet 21 and the first electromagnet 20 are started, the repulsive magnetic field between the second electromagnet 21 and the first electromagnet 20 disappears, one end of the connecting spring 19 pushes the clutch head 16 to be inserted into the clutch groove 15, the first screw rod 5 and the connecting rod 14 are in a connecting state, then the output end of the first servo motor 12 drives the connecting rod 14 to reversely rotate, the first transmission gear 13 reversely rotates, the connecting rod 14 drives one first screw rod 5 to reversely rotate through the clutch assembly, the first screw rod 5 drives one second bevel gear 10 to reversely rotate, the first bevel gear 9 reversely rotates, the other second bevel gear 10 reversely rotates, the first screw rod 5 reversely rotates, the limiting plate 6 moves away from the power module 77, the limiting state of the power module 77 is relieved, an operator conveniently takes out the power module 77, when the first transmission gear 13 drives the second transmission gear 28 to rotate, the fourth electromagnet 39 and the third electromagnet 37 simultaneously start, the magnetic field generated between the fourth electromagnet 39 and the third electromagnet 37 drives the first screw rod 37 to reversely rotate, the first bevel gear 9 reversely rotates, the other second bevel gear 9 reversely rotates, the limiting plate 6 reversely rotates away from the second friction plate 25 is driven by the second friction plate 25, and the first screw rod 25 cannot be reciprocally rotated by the first electromagnet 37, and the second friction plate 25 cannot be reciprocally rotated, and the first friction plate 25 can not be reciprocally rotated, and the second friction plate 25 can be reciprocally and the friction plate 25 can be reciprocally and easily moved.
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 (8)
1. The utility model provides a marine booster station is with module conveyer for new forms of energy development, includes guard box (1), its characterized in that: the protection box (1) is internally provided with a storage cavity (79), the top of the inner cavity of the storage cavity (79) is provided with a supporting spring (41), a placing plate (40) is arranged at the top of the supporting spring (41), a bottom box (23) is arranged at the top of the placing plate (40), a storage box (2) is arranged at the top of the bottom box (23), the storage box (2) is internally provided with a storage groove (3), four sliding grooves (4) are formed in the storage box (2) and below the storage groove (3), the four sliding grooves (4) are in cross arrangement, first lead screws (5) are rotationally connected in the sliding grooves (4), transmission rods (8) are rotationally connected in the storage box (2) and are arranged between the four sliding grooves (4), one ends of the first lead screws (5) are all extended into the transmission grooves (7), two bevel gears (10) are sleeved on the outer sides of the first lead screws (5), two bevel gears (10) are sleeved on the outer sides of the two bevel gears (8) and are matched with the two ends of the first bevel gears (8) which are connected with the two other bevel gears (8), the novel suction head is characterized in that a second piston groove (78) is formed in the bottom box (23), a first moving groove (24) is formed in one side of the bottom box (23) which is located in the second piston groove (78), a second reciprocating screw rod (25) is connected to the inner cavity of the first moving groove (24) in a rotating mode, a pushing column (26) is connected to the outer side of the second reciprocating screw rod (25) in a threaded mode, one end of the pushing column (26) extends to the inside of the second piston groove (78) and is provided with a first piston block (32), a row head (29) is arranged on one side of the bottom box (23), a suction head (30) is arranged at the top of the bottom box (23), one end of the suction head (30) and one end of the row head (29) located in the second piston groove (78) are all provided with one-way valves, a suction cavity (31) is formed in one side of the storage box (2), the top end of the suction head (30) extends to the inside of the suction cavity (31), and the suction cavity (31) is communicated with the storage tank (3) through a pipeline.
2. The module transportation device for an offshore booster station for new energy development according to claim 1, wherein: the utility model discloses a clutch device, including storage case (2), drive chamber (11) have been seted up to one side that just is located one sliding tray (4) inside, one side of drive chamber (11) inner chamber is provided with first servo motor (12), the output of first servo motor (12) is provided with connecting rod (14), the outside cover of connecting rod (14) is equipped with first drive gear (13), the outside of second reciprocating screw (25) is provided with one-way bearing (27), the outside of one-way bearing (27) is provided with second drive gear (28), second drive gear (28) are connected with first drive gear (13) transmission, first drive gear (13) are connected with first lead screw (5) transmission through clutch pack, and clutch pack includes storage groove (17) and interlock groove (22), one the interlock groove (22) have been seted up to one end of first lead screw (5), the one end of connecting rod (14) extends to interlock groove (22) inside, a plurality of storage groove (17) have been seted up in the connecting rod (14) inside, storage groove (17) and one side (19) are provided with spring (19) all, one end (18) all are provided with moving plate (18) all, one end (18) are all connected with spring (19), the clutch is characterized in that a plurality of clutch grooves (15) are formed in the first screw rod (5) and located on the outer side of the linkage groove (22), one end of the clutch head (16) extends to the inside of the clutch grooves (15), first electromagnets (20) are arranged on one side of the inner cavity of the storage groove (17) and on two sides of the clutch head (16), and second electromagnets (21) are arranged on one side of the inner cavity of the storage groove (17) and on two sides of the clutch head (16).
3. The module transportation device for an offshore booster station for new energy development according to claim 1, wherein: positioning groove (33) have been seted up to one side of base case (23), the one end of second reciprocating screw (25) extends to inside positioning groove (33), a plurality of fixed slot (36) have been seted up to the inside outside that just is located positioning groove (33) of base case (23), the equal sliding connection of fixed slot (36) inner chamber has third electro-magnet (37), the one end of third electro-magnet (37) all is provided with first spliced pole (35), the one end of first spliced pole (35) all extends to inside positioning groove (33) and is provided with friction plate (34), the equal sliding connection in the outside that just is located first spliced pole (35) of fixed slot (36) inner chamber has reset spring (38), one side in fixed slot (36) inner chamber all is provided with fourth electro-magnet (39).
4. The module transportation device for an offshore booster station for new energy development according to claim 1, wherein: the bottom of the protection box (1) is provided with a fixed box (43), a movable cavity (80) is formed in the fixed box (43), two movable columns (42) are arranged at the bottom of the placement plate (40), the bottom ends of the movable columns (42) extend to the inside of the movable cavity (80), column grooves are formed in the protection box (1) and located at the outer sides of the movable columns (42), connecting cavities (45) are formed in the protection box (1) and located at one sides of the column grooves, rotating rods (46) are rotatably connected in inner cavities of the connecting cavities (45), one ends of the rotating rods (46) extend to the inner sides of the column grooves and are provided with third transmission gears (47), racks (44) matched with the third transmission gears (47) are arranged at one sides of the movable columns (42), fixed columns (48) are arranged at the bottom of the protection box (1), one ends of the rotating rods (46) extend to the inner sides of the fixed columns (48), the bottom ends of the fixed columns (48) extend to the inner sides of the movable cavity (80), two inner cavities (48) are formed in the inner sides of the movable columns (48), the two inner cavities (48) are provided with a transmission shaft (49), the utility model discloses a motor vehicle gear structure, including first transmission shaft (49) and dwang (46), first transmission shaft (49) and dwang (46) outside cover is equipped with third bevel gear (50), two intermeshing connects between third bevel gear (50), interlock chamber (52) have been seted up to fixed box (43) inside, the bottom of first transmission shaft (49) extends to inside interlock chamber (52), the top in interlock chamber (52) inner chamber rotates and is connected with second transmission shaft (54), the outside of second transmission shaft (54) and first transmission shaft (49) is all overlapped and is equipped with belt pulley (53), two through belt transmission connection between belt pulley (53), second movable groove (56) have been seted up to the inside below that just is located interlock chamber (52) of fixed box (43), second movable groove (56) inner chamber rotation is connected with third reciprocating screw (55), the outside of third reciprocating screw (55) and the outside of second transmission shaft (54) all overlap and are equipped with fifth bevel gear (85), two intermeshing connects between fifth bevel gear (85).
5. The module transportation device for the offshore booster station for new energy development according to claim 4, wherein: the utility model discloses a novel air conditioner, including fixed case (43) inside and be located one side of second movable groove (56) and seted up first piston groove (59), the outside threaded connection of third reciprocating screw (55) has piston post (57), the one end of piston post (57) extends to inside first piston groove (59) and is provided with second piston piece (58), inside connecting pipe (60) that is provided with of fixed case (43), the one end of connecting pipe (60) is provided with connector (61), the four ends of connector (61) all are provided with first fixed head (62), the four sides of protection case (1) all are provided with buffer tank (69), the one end of first fixed head (62) all extends to inside buffer tank (69), the bottom of fixed case (43) all is provided with air tank (65), the inside second fixed head (66) that all is provided with of fixed case (43), the bottom of second fixed head (66) all is provided with air tank (65) inside, the one end of second fixed head (66) all is provided with connector (61), the four sides of connecting pipe (61) all are provided with first fixed head (62), the four sides of first fixed head (62) all are provided with first switch (68), the bottom (68) all be provided with first side switch (63), one side of first fixed head (62) and be located one side of first ooff valve (63) all be provided with second ooff valve (64), buffer tank (69) inner chamber all is provided with gasbag (70), the one end of first ooff valve (63) and second ooff valve (64) all extends to gasbag (70) inside and is provided with the check valve, the one end that third ooff valve (67) and fourth ooff valve (68) are located the gas tank (65) inside all is provided with the check valve.
6. The module transportation device for the offshore booster station for new energy development according to claim 5, wherein: one side of gasbag (70) all is provided with push pedal (86), one side of push pedal (86) all is provided with a plurality of second spliced pole (71), one side of buffer tank (69) all is provided with buffer board (72), one end of second spliced pole (71) all extends to the outside of buffer tank (69) and is connected with one side of buffer board (72).
7. The module transportation device for an offshore booster station for new energy development of claim 6, wherein: the buffer box (69) is internally provided with a plurality of fifth electromagnets (73), one side of the push plate (86) and one side of the fifth electromagnets (73) are embedded with sixth electromagnets (74), the top of the storage box (2) is provided with a second cover plate (76), the top of the protection box (1) is provided with a first cover plate (75), and the storage groove (3) is internally provided with a power module (77).
8. A module transportation method for a marine booster station for new energy development is characterized in that: the method comprises the following steps:
S1: opening a second cover plate (76), placing a power module (77) in a storage tank (3), closing the second cover plate (76), driving a connecting rod (14) to rotate by the output end of a first servo motor (12), enabling a first transmission gear (13) to rotate, enabling the connecting rod (14) to drive a first screw rod (5) to rotate through a clutch assembly, enabling the first screw rod (5) to drive a second bevel gear (10) to rotate, enabling a first bevel gear (9) to rotate, enabling the other second bevel gear (10) to rotate, enabling the first screw rod (5) to rotate, enabling a limiting plate (6) to move towards the power module (77), enabling a limiting post of the power module (77) to rotate, enabling a second reciprocating screw rod (25) to rotate, enabling a push post (26) to push a first piston block (32) to reciprocate, enabling air in the storage tank (3) to be sucked into the second bevel gear (10) through a suction cavity (31) and a second piston (30), enabling the limiting plate (6) to move towards the direction of the power module (77), enabling air to be discharged from the storage tank (3) to be discharged when the air needs to be discharged from the storage tank (3) through the limiting plate (77), the second electromagnet (21) and the first electromagnet (20) are started, so that a mutually exclusive magnetic field is generated between the second electromagnet (21) and the first electromagnet (20), the movable plate (18) drives one end of the clutch head (16) to move out of the clutch groove (15), the connecting rod (14) is disconnected from the first screw rod (5) in a transmission manner, and the first servo motor (12) continuously works to drive the second reciprocating screw rod (25) to rotate;
s2: after the air in the storage tank (3) is exhausted as much as possible, the second cover plate (76) is opened, the storage tank (2) is placed in the protection tank (1), at the moment, under the action of the weight of the storage tank (2), the protection tank (1) pushes the placement plate (40) to move downwards, the placement plate (40) pushes the moving column (42) to move downwards, the rack (44) moves downwards, the rack (44) drives the third transmission gear (47) to rotate, the rotating rod (46) rotates, the third bevel gear (50) drives the first transmission shaft (49) to rotate, the first transmission shaft (49) drives the second transmission shaft (54) to rotate through the belt pulley (53), the fifth bevel gear (85) drives the third reciprocating screw rod (55) to rotate, the second piston block (58) moves back and forth, so that the air in the air tank (65) is sucked into the first piston groove (59) through the opened fourth switch valve (68), then the air is discharged into the air bag (70) through the connecting pipe (60) and the connecting head (61) and the opened first switch valve (63), the air bag (70) is expanded, the push plate (86) pushes the second connecting column (71) and the buffer plate (72) to extend out for collision prevention, the first cover plate (75) is closed for transportation, when the air bag is impacted, the buffer plate (72) pushes the second connecting column (71) to squeeze air in the air bag (70) for buffering;
S3: when the power module (77) needs to be taken out, the first cover plate (75) is firstly opened, the storage box (2) is taken out from the storage cavity (79), at the moment, the supporting spring (41) pushes the placement plate (40) to move upwards, the supporting spring (41) drives the moving column (42) to move upwards, the moving column (42) drives the rack (44) sliding groove (4) to move upwards, the rack (44) drives the third transmission gear (47) to rotate, the third transmission gear (47) drives the second transmission shaft (54) to rotate through the rotating rod (46), the third bevel gear (50) and the belt pulley (53), the second transmission shaft (54) drives the third reciprocating screw rod (55) to rotate through the fifth bevel gear (85), at the moment, the second fixed head (66) and the first switch valve (63) are closed, the second switch valve (64) and the third switch valve (67) are opened, the second piston block (58) moves reciprocally, so that the gas in the air bag (70) is pumped into the first piston groove (59) through the second switch valve (64) and the connecting head (61) and the connecting pipe (60), then the gas is discharged into the gas tank (65) through the second fixed head (66) and the third switch valve (67), and the air bag (70) is contracted, so that the push plate (86) drives the second connecting column (71) and the buffer plate (72) to shrink; then the second cover plate (76) is opened, the second electromagnet (21) and the first electromagnet (20) are started, the repulsive magnetic field between the second electromagnet (21) and the first electromagnet (20) disappears, the connecting spring (19) pushes one end of the clutch head (16) to be inserted into the clutch groove (15), the first lead screw (5) and the connecting rod (14) are in a connecting state, then the output end of the first servo motor (12) drives the connecting rod (14) to reversely rotate, the first transmission gear (13) reversely rotates, the connecting rod (14) drives one first lead screw (5) to reversely rotate through the clutch assembly, the first lead screw (5) drives one second bevel gear (10) to reversely rotate, the first bevel gear (9) reversely rotates, the other second bevel gear (10) reversely rotates, the first lead screw (5) reversely rotates, the limiting plate (6) moves in a direction far away from the power module (77), the limiting state of the power module (77) is relieved, an operator conveniently takes out the power module (77), the second bevel gear (9) drives the second bevel gear (9) to reversely rotate through the clutch assembly, the fourth electromagnet (37) simultaneously, the fourth electromagnet (37) is mutually exclusive to rotate with the fourth electromagnet (37) when the fourth electromagnet (37) is started, the third electromagnet (37) pushes the first connecting column (35) and the friction plate (34) to move so as to clamp the second reciprocating screw rod (25), and the second transmission gear (28) cannot drive the second reciprocating screw rod (25) to rotate through the one-way bearing (27).
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CN112514893A (en) * | 2020-12-30 | 2021-03-19 | 华中科技大学同济医学院附属协和医院 | Preservation device for heart transplantation and using method thereof |
CN116766376A (en) * | 2023-08-21 | 2023-09-19 | 久精日坩(江苏)新材料科技有限公司 | Continuous multi-brick constant weight feeding device for refractory material |
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CN117585452B (en) * | 2024-01-18 | 2024-05-17 | 包头江馨微电机科技有限公司 | Vertical carrying device with magnet carrier additionally provided with cover plate |
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CN112514893A (en) * | 2020-12-30 | 2021-03-19 | 华中科技大学同济医学院附属协和医院 | Preservation device for heart transplantation and using method thereof |
CN116766376A (en) * | 2023-08-21 | 2023-09-19 | 久精日坩(江苏)新材料科技有限公司 | Continuous multi-brick constant weight feeding device for refractory material |
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