AU2018264155B2

AU2018264155B2 - An Aluminum-Air Cell

Info

Publication number: AU2018264155B2
Application number: AU2018264155A
Authority: AU
Inventors: Na Wu
Original assignee: Wenling Jiuxin Iot Technology Co Ltd
Current assignee: Wenling Jiuxin Iot Technology Co ltd
Priority date: 2018-04-28
Filing date: 2018-11-17
Publication date: 2019-04-11
Anticipated expiration: 2038-11-17
Also published as: CN108428971B; CN108428971A; AU2018264155A1

Abstract

The invention discloses an aluminum-air cell, comprising a power-supply base (10) electrically connected with the aluminum-air cell and an electric equipment (50) which cooperates with said power-supply base (10), wherein the bottom of said power-supply base (10) is provided with an inserting and fixing groove (34), the left side of which is communicated with a curved slot (37). A revolving gear (35) is fixedly set in said curved slot (37), and the left side of said revolving gear (35) is provided with a curved rod (39). This invention has a simple structure and is convenient to use. Furthermore, it is safe and stable to use the electric equipment (50) with the power supplied by the aluminum-air cell. 1 \ 2? 23 24 25 26U7 42 - - -- 29 4 - --- -- - 12 - - - --- -- -1 3 - - -- -- 14 -15 -- -- 17 ----- -- -- 1 8 3 8 ------ - -- - 3 7 - -- - - -- 30 ---_ -- 50 Figure 1

Description

AN ALUMINUM-AIR CELL

TECHNICAL FIELD [0001] The present invention relates to the technical field of aluminum-air cell, in particular to an aluminum-air cell.

BACKGROUND OF THE INVENTION [0002] The aluminum-air cell takes high purity aluminum as negative electrode, oxygen as positive electrode, and potassium hydroxide or sodium hydroxide aqueous solution as electrolyte. The aluminum takes in oxygen in the air, and generates a chemical reaction when the cell discharges, and aluminum and oxygen converts to aluminium oxide. The aluminum-air cell is considered as a substitute for traditional battery with its higher energy density, lighter weight and non-toxic danger. When the aluminum-air cell powers an electric equipment, ,the traditional electric equipment is under risk of electric leakage and electric shock because the plug is not strong and the electric hole is exposed for a long time.

BRIEF SUMMARY OF THE INVENTION [0003] The technical problem to be solved by the invention is to provide an aluminum-air cell, so as to overcome the problems existing in the prior art.

[0004] The following technical plan is adopted by the invention: an aluminum-air cell of this invention comprises a power-supply base electrically connected to the aluminum-air cell and an electric equipment which cooperates with said power-supply base, wherein the bottom of said power-supply base is provided with an inserting and fixing groove, the left of which is communicated with a curved slot. A revolving gear is fixedly set in said curved slot, and the left side of said revolving gear is provided with a curved rod, and the right side surface of the

2018264155 17 Nov 2018 bottom portion of said curved rod is fixedly provided with a passive rack ,which engages with said revolving gear. A pushing spring is fixedly connected between the bottom surface of the upper portion of said curved rod and the inner wall of said curved slot, and right side of the bottom of the upper portion of said curved rod is fixedly provided with a power-supply head.

A through hole is communicated between said curved slot and the top of said inserting and fixing groove, and the right side of said inserting and fixing groove is provided with a locking structure. An energizing structure which comprises a capacity cavity and an energizing sliding cavity is arranged in the inner top of said power-supply base, and the top of said capacity cavity is fixedly provided with the first electric motor. The bottom of said first electric motor is in a power matching connection with the first rotating shaft, and the bottom of said first rotating shaft is fixedly provided with the first gear. A rotary cylinder which engages with said first gear is arranged in said capacity cavity, and the top of said rotary cylinder is fixedly provided with the second rotating shaft, and said second rotating shaft is in rotatable matching connection with the inner top wall of said capacity cavity. A lifting block is in threaded fit connection with said rotary cylinder, and the second electric motor is embedded in the bottom of said lifting block, and the bottom of said second electric motor is in a power matching connection with the third rotating shaft which stretches downward into telescopic cavity and the bottom of said third rotating shaft is fixedly provided with the first bevel gear. The left and right side of said telescopic cavity is communicated with a guide sliding cavity, and said telescopic cavity is in sliding fit connection with a lifting frame plate which stretches into said guide sliding cavity and a spring is fixedly connected between the bottom of said lifting frame plate and the inner bottom wall of said guide sliding cavity. Said third rotating shaft penetrates through said lifting frame plate and is in transition fit connection with said lifting frame plate through the bearing. The bottom of said telescopic cavity is communicated with a transmission cavity, and said transmission cavity is provided with the second bevel gear which engages with said first bevel gear, and the left side surface of said second bevel gear is fixedly provided with the first screw rod, and said first screw rod leftwards extends out of said transmission cavity and into said energizing sliding cavity. The left side end of said first screw rod is in rotatable matching connection with the left side wall of said energizing sliding cavity,

2018264155 17 Nov 2018 and said first screw rod is in threaded fit connection with an energizing sliding block, and an energizing groove up and down symmetrically disposed on the right side surface of said energizing sliding block. The inner wall of right side of said energizing sliding cavity is fixedly provided with an energizing head corresponding to said energizing groove, and said energizing groove is electrically connected to said energizing head which is electrically connected to the aluminium-air cell.

[0005] Wherein said locking structure comprises a groove which is communicated with the right side of said inserting and fixing groove, and the right side of said groove is fixedly provided with the third electric motor, and the left side of said third electric motor is in a power matching connection with the second screw rod which is in threaded fit connection with a locking block which is in sliding fit connection with said groove.

[0006] Wherein the top surface of said electric equipment is fixedly provided with a plug, and a locking groove corresponding to said locking block is set on the right side of said plug. An electrifying groove is arranged on the top of said electric equipment, and said electrifying groove is electrically connected to said electric equipment and said power-supply head, and said power-supply head is electrically connected to said energizing groove, and the left side surface of said plug is fixedly provided with a driving rack.

[0007] The benefits of the invention are as follows:

1. When the aluminium-air cell supplies power to the electric equipment, the plug is aligned with the inserting and fixing groove and inserted. The driving track is meshed with the revolving gear and drives the revolving gear upward to rotate reversely, and said revolving gear drives said curved rod to move downward by the passive rack. When the plug is completely inserted into the inserting and fixing groove, the power-supply head penetrates downward into the through hole and inserts into electrifying groove, and at this time the third electric motor is controlled to operate. The third motor drives the second screw rod to rotate,

2018264155 17 Nov 2018 and the second screw rod drives the locking block to insert towards the left into the locking groove to lock the electric equipment. The first electric motor is controlled to drive the first revolving shaft and the first gear to rotate, and the first gear rotates and drives the rotary cylinder to rotate to drive the lifting block to slide downward, and simultaneously the lifting frame plate pushes the spring down, until the first bevel gear engages with the second bevel gear. The second electric motor is then controlled to operate and drives the third revolving shaft and first bevel gear to rotate to drive the second bevel gear and the first screw rod to rotate, and the first screw rod rotates to drive energizing sliding block to slide towards the right, until energizing groove is in plug-in matching connection with energizing head, at this time the inside of electric equipment is powered on and can be put into effect.

[0008] 2. When the electric equipment stops working, the second electric motor is controlled to run reversely, which results in disconnection between the energizing groove and energizing head, then the first electric motor is controlled to run reversely, which makes the first bevel gear depart from the second bevel gear. Then the third electric motor is controlled to run reversely, and the locking block separates itself from the locking groove to unlock. Finally, the plug is pulled out and the curved rod goes back to its original position.

[0009] 3. This invention has a simple structure and it's convenient to use. Furthermore, it is safe and stable to use the electric equipment with the power supplied by the aluminum-air cell.

BRIEF DESCRIPTION OF THE DRAWINGS [0010] For better description, this invention is described in detail by the following specific embodiment and the drawings.

FIG. 1 is the overall schematic structural diagram of the aluminum-air cell in this invention;

FIG. 2 is a schematic structural diagram of the internal power-supply in the present invention.

2018264155 17 Nov 2018

DETAILED DESCRIPTION OF THE INVENTION [0011] Referring to FIG. 1 and FIG. 2, an aluminum-air cell of this invention comprises a power-supply base 10 electrically connected to aluminum-air cell and an electric equipment 50 which cooperates with said power-supply base 10, wherein the bottom of said power-supply base 10 is provided with an inserting and fixing groove 34, the left of which is communicated with a curved slot 37. A revolving gear 35 is fixedly set in said curved slot 37, and the left side of said revolving gear 35 is provided with a curved rod 39, and the right side surface of the bottom portion of said curved rod 39 is fixedly provided with a passive rack 36 which engages with said revolving gear 35. A pushing spring 38 is fixedly connected between the bottom surface of the upper portion of said curved rod 39 and the inner wall of said curved slot 37, and the right side of the bottom of the upper portion of said curved rod 39 is fixedly provided with a power-supply head 19. A through hole 30 is communicated between said curved slot 37 and the top of said inserting and fixing groove 34, and the right side of said inserting and fixing groove 34 is provided with a locking structure. An energizing structure which comprises a capacity cavity 28 and an energizing sliding cavity 20 is arranged in the inner top of said power-supply base 10, and the top of said capacity cavity 28 is fixedly provided with the first electric motor 25. The bottom of said first electric motor 25 is in a power matching connection with the first rotating shaft 26, and the bottom of said first rotating shaft 26 is fixedly provided with the first gear 27. A rotary cylinder 24 which engages with said first gear 27 is arranged in said capacity cavity 28, and the top of said rotary cylinder 24 is fixedly provided with the second rotating shaft 23, and said second rotating shaft 23 is in rotatable matching connection with the inner top wall of said capacity cavity 28. A lifting block 22 is in threaded fit connection with said rotary cylinder 24, and the second electric motor 29 is embedded in the bottom of said lifting block 22, and the bottom of said second electric motor 29 is in a power matching connection with the third rotating shaft 11 which stretches downward into telescopic cavity 16 and the bottom of said third rotating shaft 11 is fixedly provided with the first bevel gear 15. The left and right side of said telescopic cavity 16 is communicated with said guide sliding cavity 13, and said telescopic cavity 16 is

2018264155 17 Nov 2018 in sliding fit connection with a lifting frame plate 12 which stretches into said guide sliding cavity 13 and a spring 14 is fixedly connected between the bottom of said lifting frame plate 12 and the inner bottom wall of said guide sliding cavity 13. Said third rotating shaft 11 penetrates through said lifting frame plate 12 and is in transition fit connection with said lifting frame plate 12 through the bearing. The bottom of said telescopic cavity 16 is communicated with a transmission cavity 17, and said transmission cavity 17 is provided with the second bevel gear 18 which engages with said first bevel gear 15, and the left side surface of said second bevel gear 18 is fixedly provided with the first screw rod 41, and said first screw rod 41 leftwards extends out of said transmission cavity 17 and into said energizing sliding cavity 20. The left side end of said first screw rod 41 is in rotatable matching connection with the left side wall of said energizing sliding cavity 20, and said first screw rod is in threaded fit connection with an energizing sliding block 40, and an energizing groove up and down symmetrically disposed on right side surface of said energizing sliding block 40. The inner wall of right side of said energizing sliding cavity 20 is fixedly provided with an energizing head 21 corresponding to said energizing groove 42, and said energizing groove 42 is electrically connected to said energizing head 21 which is electrically connected to the aluminium-air cell.

[0012] Wherein said locking structure comprises a groove which is communicated with the right side of said inserting and fixing groove 34, and the right side of said groove is fixedly provided with the third electric motor 31, and the left side of said third electric motor 31 is in a power matching connection with the second screw rod 32 ,which is in threaded fit connection with a locking block 33 which is in sliding fit connection with said groove.

[0013] Wherein the top surface of said electric equipment 50 is fixedly provided with a plug 51, and a locking groove 53 corresponding to said locking block 33 is set on the right side of said plug 51. An electrifying groove 54 is arranged on the top of said electric equipment 50, and said electrifying groove 54 is electrically connected to said electric equipment 50, and said power-supply head 19, and said power-supply head 19 is electrically connected to said

2018264155 17 Nov 2018 energizing groove 42, and the left side surface of said plug 51 is fixedly provided with a driving rack 52.

[0014] In the initial state, said locking block 33 is completely retracted in said groove, and said curved rod 39 is arranged in the inner top of said curved slot 37 under the pushing action of said pushing spring 38, and said lifting block 22 is arranged in the inner top of said rotary cylinder 24, and said energizing sliding block 40 is arranged on the inner left side of said energizing sliding cavity 20.

[0015] When an aluminum-air cell powers said electric equipment 50, the plug 51 is aligned with the inserting and fixing groove 34 and inserted. The driving track 52 is meshed with the revolving gears 35 and drives the revolving gear 35 upward to rotate reversely, and said revolving gear 35 drives said curved rod 39 to move downward by said passive rack 36. When said plug 51 is completely inserted into said inserting and fixing groove 34, said power-supply head 19 penetrates downward into said through hole 30 and then inserts into said electrifying groove 54, and at this time the third electric motor 31 is controlled to operate. Said third electric motor drives the second screw rod 32 to rotate to drive said locking block 33 to insert towards the left into said locking groove 53 to lock said electric equipment 50. The first electric motor 25 is controlled to drive the first revolving shaft 26 and the first gear 27 to rotate, and the first gear 27 rotates and drives said rotary cylinder 24 to rotate to drive the lifting block 22 to slide downward, and simultaneously the lifting frame plate 12 pushes said spring 14 down, until the first bevel gear 15 engages with said second bevel gear 18. The second electric motor 29 is then controlled to operate and drives the third revolving shaft 11 and said first bevel gear 15 to rotate to drive the second bevel gear 18 and the first screw rod 41 to rotate, and said first screw rod 41 rotates to drive energizing sliding block 40 to slide towards the right until energizing groove 42 is in plug-in matching connection with said energizing head 21, and at this time said power-supply base 10 is powered internally and the electric equipment 50 can be used.

2018264155 17 Nov 2018 [0016] When the electric equipment 50 stops working, said second electric motor 29 is controlled to run reversely, which results in disconnection between said energizing groove 42 and said energizing head 21, then said first electric motor 25 is controlled to run reversely, which makes the first bevel gear 15 depart from said second gear 18. Then said third electric motor 31 is controlled to run reversely, and said locking block 33 separates itself from said locking groove 53 to unlock. Finally, said plug 51 is pulled out and said curved rod 39 goes back to its original position.

[0017] 1. The benefits of the invention are as follows: 1. When the aluminium-air cell powers the electric equipment, the plug is aligned with the inserting and fixing groove and inserted. The driving track is meshed with the revolving gear and drives the revolving gear upward to rotate reversely, and said revolving gear drives said curved rod to move downward by the passive rack. When the plug is completely inserted into the inserting and fixing groove, the power-supply head penetrates downward into the through hole and inserts into electrifying groove, and at this time the third electric motor is controlled to operate. The third motor drives the second screw rod to rotate, and the second screw rod drives the locking block to insert towards the left into the locking groove to lock the electric equipment. The first electric motor is controlled to drive the first revolving shaft and the first gear to rotate, and the first gear rotates and drives the rotary cylinder to rotate to drive the lifting block to slide downward, and simultaneously the lifting frame plate pushes the spring down, until the first bevel gear engages with the second bevel gear. The second electric motor is then controlled to operate and drives the third revolving shaft and first bevel gear to rotate to drive the second bevel gear and the first screw to rotate, and the first screw rod rotates to drive energizing sliding block to slide towards the right until energizing groove is in plug-in matching connection with energizing head, and simultaneously the inside of electric equipment is powered on and can be put into effect [0018] 2. When the electric motor stops working, the second electric motor is controlled to run reversely, which results in disconnection between the energizing groove and energizing

2018264155 17 Nov 2018 head, then the first electric motor is controlled to run reversely, which makes the first bevel gear depart from the second bevel gear. Then the third electric motor is controlled to run reversely, and the locking block separates itself from the locking groove to unlock. Finally, the plug is pulled out and the curved rod goes back to its original position.

[0019] 3. This invention has a simple structure and it's convenient to use. Furthermore, it is safe and stable to use the electric equipment with the power supplied by the aluminum-air cell.

[0020] The descriptions stated above only describe the embodiments of the present invention. The invention will be subject to modification and improvement based on its intention and extent, which will also fall into the claimed protection extent of this invention. The claimed protection extent of the invention shall be determined with reference to the appended claims.

Claims

1. An aluminum-air cell comprises a power-supply base electrically connected with the aluminum-air cell, an electric equipment which cooperates with said power-supply base, an inserting and fixing groove arranged on the bottom of said power-supply base, a curved slot communicated with the left side of said inserting and fixing groove, a revolving gear fixedly disposed in said curved slot, a curved rod arranged on the left side of said revolving gear, a passive rack which engages with said revolving gear fixedly arranged on the right surface of the bottom portion of said curved rod, a pushing spring fixedly arranged between the bottom surface of the upper portion of said curved rod and the inner wall of said curved slot, a power-supply head fixedly mounted on the right side of the bottom surface of upper portion of said curved rod, a through hole communicated between said curved slot and the top of said inserting and fixing groove, a locking structure disposed on the right side of said inserting and fixing groove, an energizing structure which comprises a capacity cavity and an energizing sliding cavity arranged in the inner top of said power-supply base, a first electric motor fixedly set on the top of said capacity cavity, a first rotating shaft coupled to the motor output of the bottom of said first electric motor, a first gear fixedly disposed on the bottom of said first rotating shaft, a rotary cylinder which engages with said first gear arranged in said capacity cavity, a second rotating shaft which is able to rotate and connected with the inner top wall of said capacity cavity fixedly set on the top of said rotary cylinder, a lifting block being in threaded fit connection with said rotary cylinder, a second electric motor embedded in the bottom of said lifting block,

2018264155 13 Mar 2019 wherein a third rotating shaft which is coupled to the motor output of the bottom of said second electric motor stretches downward into telescopic cavity, and a first bevel gear is fixedly arranged on the bottom of said third rotating shaft;

a guide sliding cavity communicated with the left side and right side of said telescopic cavity, wherein a lifting frame plate which is in sliding fit connection with said telescopic cavity stretches into said guide sliding cavity and a spring is fixedly connected between the bottom of said lifting frame plate and the inner bottom wall of said guide sliding cavity, and said third rotating shaft penetrates through said lifting frame plate and is in transition fit connection with said lifting frame plate through a bearing;

a transmission cavity communicated with the bottom of said telescopic cavity, a second bevel gear which engages with said first bevel gear arranged in said transmission cavity, a first screw rod fixedly set on the left side surface of said second bevel gear, wherein said first screw rod leftwards extends out of said transmission cavity and into said energizing sliding cavity, and the left end of said first screw rod is able to rotate and connected with the left end wall of said energizing sliding cavity;

an energizing sliding block being in threaded fit connection with said first screw rod, an energizing groove up and down symmetrically disposed on the right side surface of said energizing sliding block, an energizing head corresponding to said energizing groove fixedly set on the inner wall of right side of said energizing sliding cavity and electrically connected with said energizing groove and aluminum-air cell, a groove included in said locking structure communicated with the right side of said inserting and fixing groove, a third electric motor fixedly arranged on the right side of said groove, wherein a second screw rod which is coupled to the motor output of the left side of said third motor is in threaded fit connection with a locking block which is in sliding fit connection with said groove;

2018264155 13 Mar 2019 wherein the top surface of said electric equipment is fixedly provided with a plug, and a locking groove corresponding to said locking block is set on the right side of said plug, and the top of said electric equipment is provided with a electrifying groove electrically connected to said electric equipment and said power-supply head, and said power-supply head is in electric connection with said energizing groove and the left side surface of said plug is fixedly provided with a driving rack.