CN109216613B - Stable form new forms of energy battery box that protection effect is good - Google Patents

Stable form new forms of energy battery box that protection effect is good Download PDF

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Publication number
CN109216613B
CN109216613B CN201810963204.3A CN201810963204A CN109216613B CN 109216613 B CN109216613 B CN 109216613B CN 201810963204 A CN201810963204 A CN 201810963204A CN 109216613 B CN109216613 B CN 109216613B
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sleeve
rod
sliding
groove
plate
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CN109216613A (en
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王嘉静
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Yirongrong (Zhejiang) Technology Development Co.,Ltd.
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Yirongrong Zhejiang Technology Development Co ltd
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Priority to CN201810963204.3A priority Critical patent/CN109216613B/en
Priority to CN202011581949.7A priority patent/CN112688009A/en
Publication of CN109216613A publication Critical patent/CN109216613A/en
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01MPROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
    • H01M50/00Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
    • H01M50/20Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01MPROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
    • H01M10/00Secondary cells; Manufacture thereof
    • H01M10/60Heating or cooling; Temperature control
    • H01M10/61Types of temperature control
    • H01M10/613Cooling or keeping cold
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Electrochemistry (AREA)
  • General Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Battery Mounting, Suspending (AREA)

Abstract

The invention discloses a stable new energy battery box with good protection effect, which comprises a handle, a cover plate, mounting grooves, movable frames, an adjusting and placing device and radiating grooves, wherein the cover plate is arranged on the mounting grooves to form an integral structure, the mounting grooves are nested above the adjusting and placing device and are in clearance fit, the handle is in a U-shaped structure and is provided with two openings, the two openings of the handle are respectively and vertically welded with the cover plate, the two movable frames are arranged on the same plane and are respectively nested at the front end and the rear end of the adjusting and placing device, the adjusting and placing device is in a square structure and is provided with two adjusting and placing devices, the adjusting and placing devices are respectively nested at the left side and the right side of the front end of the mounting grooves to form an, when the battery box is used, the size of the battery placed in the battery box can be adjusted according to different sizes, so that batteries of different types and sizes can be placed in the battery box for use, and the applicability is wide.

Description

Stable form new forms of energy battery box that protection effect is good
Technical Field
The invention discloses a stable new energy battery box with a good protection effect, and belongs to the field of battery boxes.
Background
At present, a sealing waterproof structure used for a box body and a box cover of an automobile power battery usually takes foamed polyurethane or ethylene propylene diene monomer foamed rubber strips as sealing rubber strips, a component is foamed colloid, and water seepage can occur due to the capillary action of micropores of the foamed colloid, so that the waterproof effect is poor.
The prior art can't adjust the battery box when using, and when the battery model size of placing is different, then can't put into the battery box inside and use, and the suitability is less.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide a stable new energy battery box with a good protection effect, so as to solve the problems that the battery box cannot be adjusted when the prior art is used, and cannot be put into the battery box for use when the types of batteries are different in size, and the applicability is low.
In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a stable form new forms of energy battery box that protection effect is good, its structure includes carrying handle, apron, first mounting groove, adjustable shelf, adjusts placer, radiating groove, structure as an organic whole on the first mounting groove is located to the apron, first mounting groove nestification adopts clearance fit in the top of adjusting placer, the carrying handle is U type structure and is equipped with two, the opening both ends of carrying handle respectively with apron vertical weld, the adjustable shelf is equipped with two and is located the coplanar, the adjustable shelf nests respectively and adjusts placer's both ends around, adopts clearance fit, adjust placer and be the square structure and be equipped with two, adjust placer nestification respectively is in the left and right sides structure as an organic whole at first mounting groove front end, adjust placer and include device main part, debugging lock device, spring tension device, a motor, The device comprises a first rotating shaft disc, a double-end meshing screw rod, a transfer gear, a sleeve screw rod, a swinging and dragging device, a second mounting groove, a contraction screw rod, a second rotating shaft disc, a connecting and locking device, a rope rolling rotating disc, a second motor and a toothed bar dragging device, wherein the left end and the right end of the middle part of a device main body are respectively provided with two debugging and buckling devices which are parallel to each other, a spring tension device is vertically welded with the left upper part of the debugging and buckling devices and adopts interference fit, the first motor is arranged on the left upper part of the device main body, the first rotating shaft disc is of a circular structure and is meshed with the lower part of the first motor, the double-end meshing screw rod is vertically welded with the middle part of the left side of the device main body, the upper end and the lower end of the double-end meshing screw rod are respectively meshed with the first rotating shaft disc and the transfer gear, the transfer gear, one end of the sleeve joint screw rod is meshed with the lower part of the transfer gear, the other end of the sleeve joint screw rod is vertically connected with the lower left part of the device main body, clearance fit is adopted, the swing dragging device is installed on the lower left part of the debugging buckling device and is positioned on the same plane with the spring pulling device, the second installation groove is of a rectangular structure and is arranged in the middle of the device main body to form an integral structure, the contraction screw rod is vertically welded with the lower part on the right side of the debugging buckling device, the second rotating shaft disc is of a circular structure and is meshed with the contraction screw rod and the connecting locking device respectively, the connecting locking device is nested below the second motor and is in clearance fit, the rope coiling rotating disc is of a circular structure and is meshed with the upper left part of the connecting locking device, the second motor is installed above the right side of the device main body and is positioned on the same plane with the, the toothed bar dragging device is arranged at the upper right part of the debugging buckling device.
Furthermore, the debugging and buckling device comprises two sliding grooves, two rotating shaft wheels, two vertical connecting rods, a pushing plate, a connecting plate, a spring pull rod, a fixed column and a pushing block, the sliding grooves are parallel to each other, the sliding grooves are respectively welded with the device body and are in interference fit, the rotating shaft wheels are of a circular structure and are arranged in two, the rotating shaft wheels are respectively nested in the sliding grooves and are in clearance fit, the two vertical connecting rods are arranged on the same plane and are respectively connected with the middle parts of the rotating shaft wheels, the pushing plate is arranged in the middle of the sliding grooves, the upper end and the lower end of the pushing plate are respectively and vertically welded with the vertical connecting rods, the connecting plate is of a square structure and is vertically welded with the middle part of the left side of the pushing plate, one end of the spring pull rod is connected with the middle part of the left side of the connecting plate, the other end of the, the fixed column is arranged in the middle of the left side of the device main body and is of an integrated structure, the two pushing blocks are arranged on the same plane and are respectively arranged at the upper end and the lower end of the left side of the connecting plate and are of an integrated structure, and the pushing blocks are respectively meshed with the spring tension device and the swinging and dragging device and are in clearance fit.
Furthermore, the spring tension device comprises a vertical welding rod, a third mounting groove, a sleeve groove, a locking rope, a sliding rod, a sliding sheet, a first jacking block and a connecting spring, the vertical welding rods are arranged in parallel and are respectively and vertically welded with the left end and the right end above the third mounting groove, the middle part of the third mounting groove is provided with a sleeve groove which is of an integrated structure, a connecting spring is arranged inside the sleeve groove, the locking rope is locked with the left side of the sliding rod, the sliding rod is arranged below the third mounting groove, the middle part of the upper part of the sliding rod is vertically welded with the sliding sheet, the slip sheet is nested in the sleeve groove, the first ejector block is of a square structure, is arranged below the right side of the sliding rod and is of an integral structure and is meshed with the first ejector block, one end of the connecting spring is connected with the middle part of the right side of the third mounting groove, and the other end of the connecting spring is connected with the right side of the sliding sheet.
Further, the swing dragging device comprises a sleeve shaft, a movable transverse plate, a U-shaped sleeve rod, a sleeving rope, a transmission rotating wheel, a sleeving rod, a fixed shaft, a vertical welding plate and a second ejector block, wherein the sleeve shaft is arranged in the middle of the movable transverse plate and is in interference fit, the movable transverse plate is connected with the upper portion of the vertical welding plate and is in clearance fit, the U-shaped sleeve rod is of a U-shaped structure, an opening of the U-shaped sleeve rod is embedded in the outer side of the sleeve shaft, the sleeving rope is respectively embedded in the transmission rotating wheel and the sleeving screw rod and is in clearance fit, the transmission rotating wheel is of a circular structure and is arranged in the middle of the vertical welding plate and is in clearance fit, the sleeving rod is embedded in the outer side of the fixed shaft, the upper portion of the sleeving rod is vertically welded with the U-shaped sleeve rod, the fixed shaft is of a circular structure and is arranged in the middle of, and the second ejector block is in a square structure and is arranged at the upper right of the vertical welding plate to form an integral structure and is meshed with the second ejector block in a clearance fit mode.
Further, connect the locking device and include gear sleeve, meshing screw rod, locking sleeve, perpendicular loop bar, conical gear, gear sleeve nestification is in the below of No. two motors, adopts clearance fit, the one end nestification of meshing screw rod is inside the gear sleeve, the other end and the perpendicular welding of conical gear of meshing screw rod, locking sleeve nestification is in the middle part of meshing screw rod, adopts interference fit, perpendicular loop bar and the perpendicular welding of device main part, conical gear and No. two pivot dishes intermeshing.
Further, the ratch drags send device and includes mounting panel, slider, spout, perpendicular installation pole, meshing ratch, lock stay cord, the mounting panel is installed on the spout, the slider is equipped with two and is located the coplanar, the middle part of slider is connected with perpendicular installation pole is perpendicular respectively, the middle part structure as an organic whole of mounting panel is located to the spout, perpendicular installation pole is equipped with two and is parallel to each other, perpendicular installation pole welds with meshing ratch is perpendicular respectively, the right side and the lock stay cord lock of meshing ratch connect, lock stay cord and serving carousel lock connect.
Advantageous effects
The invention relates to a stable new energy battery box with good protection effect, which is firstly driven by a motor and meshed with a rotating shaft disc below, so that the rotating shaft disc below can rotate, then a lower transfer gear drives a sleeving screw to rotate while the double-head meshing screw on the structure moves and rotates, then a sleeving rope on a swinging and dragging device drives a transmission rotating wheel to rotate, and a sleeving rod nested in the middle of the front end of the transmission rotating wheel swings, so that a U-shaped sleeving rod is nested outside a sleeving shaft, the sleeving shaft drives a moving transverse plate to move, so that a connecting plate driven by a pushing and fixing block on a debugging and buckling device moves, vertical connecting rods at the upper end and the lower end of a pushing and pressing plate are welded, a rotating shaft wheel is matched with a sliding groove to move, and a spring pulling device can pull a sliding piece nested in the sleeving groove to move through a locking rope, the connecting spring is connected with the sliding sheet, the sliding rod can be reset, when the motor II is started, the gear sleeve can be rotated, the meshing screw embedded in the gear sleeve is rotated, the locking sleeve in the middle can drive the debugging buckling device on the right side, the gear sleeve can be rotated while being meshed with the rope rolling turntable, the locking pull rope is dragged, the locking pull rope drives the meshing toothed rod, the vertical mounting rod welded on the meshing toothed rod is connected with the sliding block, and the sliding block is matched with the sliding groove to move.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
fig. 1 is a schematic structural diagram of a stable new energy battery box with a good protection effect.
Fig. 2 is a schematic structural diagram of the adjusting and placing device of the invention.
Fig. 3 is a detailed structural schematic diagram of the adjusting and placing device of the invention.
Fig. 4 is a schematic structural diagram of a regulating and placing device a of the invention.
FIG. 5 is a schematic structural diagram of a positioning device B of the present invention.
In the figure: a carrying handle-1, a cover plate-2, a first mounting groove-3, a movable frame-4, an adjusting and placing device-5, a heat dissipation groove-6, a device main body-501, a debugging and buckling device-502, a spring tension device-503, a first motor-504, a first rotating shaft disc-505, a double-head meshing screw-506, a transmission gear-507, a sleeved screw-508, a swinging and dragging device-509, a second mounting groove-510, a contraction screw-511, a second rotating shaft disc-512, a connecting and locking device-513, a rope winding rotating disc-514, a second motor-515, a toothed bar dragging device-516, a sliding groove-50201, a rotating shaft wheel-50202, a vertical connecting bar-50203, a pushing plate-50204, a connecting plate 50205, a spring pull bar-50206, Fixed column-50207, ejector block-50208, vertical welding rod-50301, third installation groove-50302, sleeve groove-50303, locking rope-50304, sliding rod-50305, sliding piece-50306, ejector block-50307, connecting spring-50308, sleeve shaft-50901, moving transverse plate-50902, U-shaped sleeve rod-50903, sleeve rope-50904, transmission rotating wheel-50905, sleeve rod-50906, fixed shaft-50907, vertical welding plate-50908, ejector block-50909, gear sleeve-51301, meshing screw-51302, locking sleeve-51303, vertical sleeve rod-51304, bevel gear-51305, mounting plate-51601, sliding block-51602, sliding slot-51603, vertical mounting rod-51604, meshing toothed rod-51605 and locking pull rope-51606.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
Referring to fig. 1 to 5, the present invention provides a stable new energy battery box with good protection effect, which comprises: the structure of the adjustable lifting handle comprises a lifting handle 1, an apron 2, a mounting groove 3, a movable frame 4, an adjusting and placing device 5 and a radiating groove 6, wherein the apron 2 is arranged on the mounting groove 3 and is of an integrated structure, the mounting groove 3 is embedded in the upper part of the adjusting and placing device 5 and adopts clearance fit, the lifting handle 1 is of a U-shaped structure and is provided with two U-shaped structures, the two open ends of the lifting handle 1 are respectively welded with the apron 2 in a perpendicular mode, the movable frame 4 is provided with two U-shaped structures and is located on the same plane, the movable frame 4 is respectively embedded in the front end and the rear end of the adjusting and placing device 5 and adopts clearance fit, the adjusting and placing device 5 is of a square structure and is provided with two U-shaped structures, the adjusting and placing device 5 is respectively embedded in the left side and the right side of the front end of the mounting groove, The device comprises a first rotating shaft disc 505, a double-head meshing screw 506, a transfer gear 507, a socket screw 508, a swing dragging device 509, a mounting groove 510, a contraction screw 511, a second rotating shaft disc 512, a connection locking device 513, a rope rolling rotating disc 514, a second motor 515 and a rack bar dragging device 516, wherein the left end and the right end of the middle part of a device main body 501 are respectively provided with a debugging buckling device 502, the debugging buckling devices 502 are arranged in two and are parallel to each other, a spring pulling device 503 is vertically welded with the left upper part of the debugging buckling device 502 by adopting interference fit, the first motor 504 is arranged at the left upper part of the device main body 501, the first rotating shaft disc 505 is of a circular structure and is meshed with the lower part of the first motor 504, the double-head meshing screw 506 is vertically welded with the middle part of the left side of the device main body 501, the upper end and the lower end of the double-head meshing screw 506 are respectively meshed with the first rotating shaft disc 505 and the transfer gear 507, the, one end of the socket screw 508 is meshed with the lower part of the transfer gear 507, the other end of the socket screw 508 is vertically connected with the left lower part of the device main body 501, clearance fit is adopted, the swing dragging device 509 is installed at the left lower part of the debugging buckling device 502 and is positioned on the same plane with the spring pulling device 503, the installation groove 510 is of a rectangular structure and is arranged in the middle of the device main body 501 to form an integral structure, the contraction screw 511 is vertically welded with the lower part of the right side of the debugging buckling device 502, the second rotating shaft disc 512 is of a circular structure and is meshed with the contraction screw 511 and the connection locking device 513 respectively, the connection locking device 513 is nested below the second motor 515 and is in clearance fit, the rope winding turntable 514 is of a circular structure and is meshed with the left upper part of the connection locking device 513, the second motor 515 is installed above the right side of the device main body 501 and is positioned on the same plane with the first motor 504, the rack bar dragging device 516 is installed at the upper right of the debugging buckling device 502, the debugging buckling device 502 comprises two sliding grooves 50201, rotating shaft wheels 50202, a vertical connecting rod 50203, a pushing plate 50204, a connecting plate 50205, a spring pull rod 50206, a fixing column 50207 and a pushing block 50208, the sliding grooves 50201 are parallel to each other, the sliding grooves 50201 are respectively welded with the device main body 501 and are in interference fit, the rotating shaft wheels 50202 are of a circular structure and are two, the rotating shaft wheels 50202 are respectively embedded in the sliding grooves 50201 and are in clearance fit, the vertical connecting rods 50203 are two and are located on the same plane, the vertical connecting rods 50203 are respectively connected with the middle of the rotating shaft wheels 50202 and are in clearance fit, the pushing plate 50204 is arranged at the middle of the sliding grooves 50201 and vertically welded with the vertical connecting rods 50203 at the upper end and the lower end of the pushing plate 50204, the connecting plate 50205 is of a square structure and is vertically welded with the middle of the left, one end of the spring pull rod 50206 is connected with the middle of the left side of the connecting plate 50205, the other end of the spring pull rod 50206 is connected with the middle of the right side of the fixed column 50207, the fixed column 50207 is arranged in the middle of the left side of the device main body 501 and is of an integrated structure, the two ejection blocks 50208 are arranged on the same plane and are arranged on the same plane, the ejection blocks 50208 are respectively arranged at the upper end and the lower end of the left side of the connecting plate 50205 and are of an integrated structure, the ejection blocks 50208 are respectively meshed with the spring pull device 503 and the swinging drag device 509 and are in clearance fit, the spring pull device 503 comprises a vertical welding rod 50301, an installation groove 50302, a sleeve groove 50303, a locking rope 50304, a sliding rod 50305, a sliding piece 50306, a first ejection block 50307 and a connecting spring 50308, the vertical welding rod 50301 is provided with two parallel rods, the vertical welding rod 50301 is respectively vertically welded with the left end and the, a connecting spring 50308 is arranged inside the sleeve groove 50303, the locking rope 50304 is locked with the left side of the sliding rod 50305, the sliding rod 50305 is arranged below the mounting groove 50302, the middle part of the upper part of the sliding rod 50305 is vertically welded with the sliding piece 50306, the sliding piece 50306 is nested inside the sleeve groove 50303, the first top block 50307 is of a square structure and is arranged below the right side of the sliding rod 50305 to form an integral structure and is meshed with the ejector block 50208, one end of the connecting spring 50308 is connected with the middle part of the right side of the mounting groove 50302, the other end of the connecting spring 50308 is connected with the right side of the sliding piece 50306, the swinging dragging device comprises a sleeve shaft 50901, a moving transverse plate 50902, a U-shaped sleeve 50903, a sleeve rope 50904, a transmission rotating wheel 50905, a sleeve 50906, a fixed shaft 50907, a vertical welding plate 50908 and a second top block 50909, the sleeve shaft 901 is arranged in the middle part of the moving transverse plate 50902 and is in interference fit, the moving transverse plate 50902, the connecting device is characterized in that clearance fit is adopted, the U-shaped sleeved rod 50903 is of a U-shaped structure, an opening of the U-shaped sleeved rod 50903 is nested on the outer side of the sleeved shaft 50901, the sleeved rope 50904 is respectively nested on the transmission rotating wheel 50905 and the sleeved screw 508, clearance fit is adopted, the transmission rotating wheel 50905 is of a circular structure and is installed in the middle of the vertical welding plate 50908, clearance fit is adopted, the sleeved rod 50906 is nested on the outer side of the fixed shaft 50907, the upper side of the sleeved rod 50907 is vertically welded with the U-shaped sleeved rod 50903, the fixed shaft 50907 is of a circular structure and is installed in the middle of the lower side of the transmission rotating wheel 50905, interference fit is adopted, a second jacking block 50909 is arranged above the vertical welding plate 50908, clearance fit is adopted, the upper side of the second jacking block 50909 is of a square structure and is arranged above the vertical welding plate 50908 and is integrated with the jacking block 50208, the connecting locking device 513 comprises a gear sleeve 51, The bevel gear 51305 is nested below the second motor 515, a clearance fit is adopted, one end of the meshing screw 51302 is nested inside the gear sleeve 51301, the other end of the meshing screw 51302 is vertically welded with the bevel gear 51305, the locking sleeve 51303 is nested in the middle of the meshing screw 51302, an interference fit is adopted, the vertical loop bar 51304 is vertically welded with the device body 501, the bevel gear 51305 is mutually meshed with the second rotating shaft disc 512, the gear bar dragging device 516 comprises an installation plate 51601, a sliding block 51602, a sliding groove 51603, a vertical installation bar 51604, a meshing gear bar 51605 and a locking pull rope 51606, the installation plate 51601 is installed on the sliding groove 50201, the sliding blocks 51602 are provided with two parts and located on the same plane, the middle part of the sliding block 51602 is respectively vertically connected with the vertical installation bar 51604, the sliding groove 51603 is arranged in the middle part of the installation plate 51601 and is of an integrated structure, the two vertical installation bars 51604 are provided and are parallel to each other, the vertical mounting rods 51604 are respectively vertically welded with the meshing gear rods 51605, the right sides of the meshing gear rods 51605 are locked with the locking pull ropes 51606, and the locking pull ropes 51606 are locked with the rope coiling turnplate 514.
The invention is mainly characterized in that: firstly, the first motor 504 drives and is meshed with the first rotating shaft disk 505 below, so that the first rotating shaft disk 505 can rotate, then the double-head meshing screw 506 on the structure moves and rotates, simultaneously, the transmission gear 507 below drives the socket screw 508 to rotate, then the socket rope 50904 on the swinging dragging device 509 drives the transmission rotating wheel 50905 to rotate, the socket rod 50906 nested in the middle of the front end of the transmission rotating wheel 50905 swings, the U-shaped socket rod 50903 is nested outside the socket shaft 50901, the socket shaft 50901 drives the moving transverse plate 50902 to move, the connecting plate 50205 driven by the pushing block 50208 on the debugging buckling device 502 moves, the vertical connecting rods 50203 at the upper end and the lower end of the pushing plate 50204 are welded, and the rotating shaft wheel 50202 is matched with the sliding groove 50201 to move.
The invention is mainly characterized in that: the spring pulling device 503 can pull the sliding rod 50305 through the locking rope 50304 to move the sliding piece 50306 nested in the sleeve groove 50303, so that the connecting spring 50308 is connected with the sliding piece 50307 to restore the sliding rod 50305.
The invention is mainly characterized in that: when the second motor 515 is started, the gear sleeve 51501 can be rotated, and the engaging screw 51302 nested inside the gear sleeve 51501 is rotated, so that the locking sleeve 51303 in the middle can drive the right debugging fastening device 502, and the gear sleeve 51501 can be rotated while being engaged with the rope winding turntable 514, and the locking pull rope 51606 is dragged, so that the locking pull rope 51606 drives the engaging toothed bar 51605, so that the vertical mounting bar 51604 welded on the engaging toothed bar 51695 is connected with the sliding block 51602, and is matched with the sliding groove 51603 through the sliding block 51602, thereby moving.
The invention solves the problems that the battery box can not be adjusted when the prior art is used, and can not be put into the battery box for use when the types and the sizes of the placed batteries are different, and the applicability is smaller.
While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides a protect effectual stable form new forms of energy battery box, its structure includes carrying handle (1), apron (2), first mounting groove (3), adjustable shelf (4), adjusts placer (5), radiating groove (6), apron (2) are located first mounting groove (3) and are as an organic whole structure, first mounting groove (3) nestification adopts clearance fit, its characterized in that in the top of adjusting placer (5):
the carrying handle (1) is of a U-shaped structure and is provided with two, two open ends of the carrying handle (1) are respectively and vertically welded with the cover plate (2), two movable frames (4) are arranged and located on the same plane, the movable frames (4) are respectively embedded into the front end and the rear end of the adjusting and placing device (5) in a clearance fit mode, the adjusting and placing device (5) is of a square structure and is provided with two, and the adjusting and placing device (5) is respectively embedded into the left side and the right side of the front end of the first mounting groove (3) and is of an integral structure;
the adjusting and placing device (5) comprises a device main body (501), a debugging buckling device (502), a spring tension device (503), a first motor (504), a first rotating shaft disc (505), a double-end meshing screw rod (506), a transfer gear (507), a socket screw rod (508), a swinging and dragging device (509), a second mounting groove (510), a contraction screw rod (511), a second rotating shaft disc (512), a connecting and locking device (513), a rope coiling rotating disc (514), a second motor (515) and a rack bar dragging device (516), the debugging buckling devices (502) are respectively arranged at the left end and the right end of the middle part of the device main body (501), the debugging buckling devices (502) are arranged in parallel, the spring tension device (503) is vertically welded with the upper left side of the debugging buckling devices (502) and is in interference fit, the first motor (504) is arranged at the upper left side of the device main body (501), the first rotating shaft disc (505) is of a circular structure and is meshed with the lower part of a first motor (504), the double-head meshing screw (506) is vertically welded with the middle part of the left side of the device main body (501) and the upper end and the lower end of the double-head meshing screw are respectively meshed with the first rotating shaft disc (505) and the transfer gear (507), the transfer gear (507) is arranged below the double-head meshing screw (506) and is welded with the device main body (501), one end of the socket screw (508) is meshed with the lower part of the transfer gear (507), the other end of the socket screw (508) is vertically connected with the lower left part of the device main body (501) and adopts clearance fit, the swing dragging device (509) is arranged below the left part of the debugging buckling device (502) and is positioned on the same plane with the spring tension device (503), the second installation groove (510) is of a rectangular structure and is arranged in the middle part of the device main body (501) as an integral structure, shrink screw rod (511) and the perpendicular welding in below on debugging lock device (502) right side, No. two pivot dishes (512) are circular structure and respectively with shrink screw rod (511) and be connected locking device (513) intermeshing, connect locking device (513) nestification in the below of No. two motor (515), adopt clearance fit, serving as reasons carousel (514) and being circular structure and with be connected the upper left side intermeshing that locking device (513) connect, No. two motor (515) are installed in the top on device main part (501) right side and are located the coplanar with a motor (504), the ratch drags and send device (516) to install the upper right side at debugging lock device (502).
2. The stable new energy battery box with good protection effect according to claim 1, characterized in that: the debugging buckling device (502) comprises a sliding groove (50201), a rotating shaft wheel (50202), a vertical connecting rod (50203), a pushing plate (50204), a connecting plate (50205), a spring pull rod (50206), a fixing column (50207) and a pushing block (50208), wherein the sliding groove (50201) is provided with two parallel sliding rods, the sliding groove (50201) is welded with the device main body (501) respectively and adopts interference fit, the rotating shaft wheel (50202) is of a circular structure and is provided with two rotating rods, the rotating shaft wheel (50202) is nested in the sliding groove (50201) respectively and adopts clearance fit, the vertical connecting rods (50203) are provided with two rotating shaft wheels which are positioned on the same plane, the vertical connecting rods (50203) are connected with the middle part of the rotating shaft wheel (50202) respectively and adopt clearance fit, the pushing plate (50204) is arranged in the middle part of the sliding groove (50201) and the upper end and the lower end of the pushing plate are welded with the vertical connecting rods (50203, the connecting plate (50205) is of a square structure and is perpendicularly welded with the middle of the left side of the pushing plate (50204), one end of the spring pull rod (50206) is connected with the middle of the left side of the connecting plate (50205), the other end of the spring pull rod (50206) is connected with the middle of the right side of the fixing column (50207), the middle of the left side of the device main body (501) is arranged on the fixing column (50207) to form an integrated structure, two pushing blocks (50208) are arranged and located on the same plane, the pushing blocks (50208) are respectively arranged on the upper end and the lower end of the left side of the connecting plate (50205) to form an integrated structure, and the pushing blocks (50208) are respectively meshed with the spring pulling device (503) and the swinging device (509) and are.
3. The stable new energy battery box with good protection effect according to claim 1 or 2, characterized in that: the spring pulling force device (503) comprises a vertical welding rod (50301), a second installation groove (510), sleeve grooves (50303), a locking rope (50304), a sliding rod (50305), a sliding sheet (50306), a first ejector block (50307) and a connecting spring (50308), wherein the vertical welding rod (50301) is provided with two parts which are parallel to each other, the vertical welding rod (50301) is respectively and vertically welded with the left end and the right end above the second installation groove (510), the middle part of the second installation groove (510) is provided with the sleeve groove (50303) which is an integrated structure, the connecting spring (50308) is arranged inside the sleeve groove (50303), the locking rope (50304) is locked with the left side of the sliding rod (50305), the sliding rod (50305) is arranged below the second installation groove (510) and the middle part above the sliding sheet (50306) is vertically welded, the sliding sheet (50306) is nested inside the sleeve groove (50303), the first ejector block (50307) is of a square structure, the lower part on the right side of the second installation groove (50305) is an integrated structure, and the ejector block (50308) is arranged below the top of And one end of the connecting spring (50308) is connected with the middle part of the right side of the second mounting groove (510), and the other end of the connecting spring (50308) is connected with the right side of the sliding sheet (50306).
4. The stable new energy battery box with good protection effect according to claim 1 or 2, characterized in that: the swinging traction device (509) comprises a sleeve shaft (50901), a moving transverse plate (50902), a U-shaped sleeve rod (50903), a sleeve rope (50904), a transmission rotating wheel (50905), a sleeve rod (50906), a fixed shaft (50907), a vertical welding plate (50908) and a second ejector block (50909), wherein the sleeve shaft (50901) is arranged in the middle of the moving transverse plate (50902) and is in interference fit, the moving transverse plate (50902) is connected with the upper part of the vertical welding plate (50908) and is in clearance fit, the U-shaped sleeve rod (50903) is in a U-shaped structure, the opening of the U-shaped sleeve rod is embedded in the outer side of the sleeve shaft (50901), the sleeve rope (50904) is respectively embedded in the transmission rotating wheel (50905) and the sleeve screw (508) and is in clearance fit, the transmission rotating wheel (50905) is in a circular structure and is arranged in the middle of the vertical welding plate (50908) and is in clearance fit, the sleeve rod (50903) is embedded in the outer side and the upper part of the fixed shaft (50907) and is vertically, the fixed shaft (50907) is of a circular structure and is arranged in the middle of the lower portion of the transmission rotating wheel (50905) and is in interference fit, a second ejection block (50909) is arranged above the vertical welding plate (50908) and is in clearance fit, and the second ejection block (50909) is of a square structure and is arranged on the right upper portion of the vertical welding plate (50908) and is in an integral structure and meshed with the ejection block (50208).
5. The stable new energy battery box with good protection effect according to claim 1, characterized in that: connect locking device (513) including gear sleeve (51301), meshing screw (51302), lock sleeve (51303), perpendicular loop bar (51304), conical gear (51305), gear sleeve (51301) nestification is in the below of No. two motor (515), adopts clearance fit, the one end nestification of meshing screw (51302) is inside gear sleeve (51301), the other end and the perpendicular welding of conical gear (51305) of meshing screw (51302), lock sleeve (51303) nestification is in the middle part of meshing screw (51302), adopts interference fit, perpendicular loop bar (51304) and device main part (501) vertical welding, conical gear (51305) and No. two pivot dish (512) intermeshing.
6. The stable new energy battery box with good protection effect according to claim 1, characterized in that: the toothed bar dragging device (516) comprises an installation plate (51601), a sliding block (51602), a sliding groove (51603), a vertical installation rod (51604), an engagement toothed bar (51605) and a locking pull rope (51606), wherein the installation plate (51601) is installed on a sliding groove (50201), the sliding block (51602) is provided with two sliding blocks which are located on the same plane, the middle part of the sliding block (51602) is vertically connected with the vertical installation rod (51604), the sliding groove (51603) is arranged in the middle part of the installation plate (51601) and is of an integrated structure, the vertical installation rods (51604) are provided with two sliding blocks which are parallel to each other, the vertical installation rods (51604) are vertically welded with the engagement toothed bar (51605), the right side of the engagement toothed bar (51605) is locked with the locking pull rope (51606), and the locking pull rope (51606) is locked with a rope rolling turntable (514).
CN201810963204.3A 2018-08-22 2018-08-22 Stable form new forms of energy battery box that protection effect is good Active CN109216613B (en)

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CN110061167A (en) * 2019-04-25 2019-07-26 江西中汽瑞华新能源科技有限公司 A kind of mounting structure and its application method for electric car internal cell
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EP2584640A1 (en) * 2011-10-21 2013-04-24 Siemens Aktiengesellschaft Holder frame with fuel cell pressure container
CN106374070B (en) * 2016-09-28 2019-04-23 广东晓兰客车有限公司 A kind of new-energy automobile lithium battery automatic adjustment buffering ventilation device
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