阅读说明：本技术 一种磷酸铁锂电池包的额定容量梯次无记忆的扩容系统 (Rated capacity echelon memoryless dilatation system of lithium iron phosphate battery pack ) 是由 池和爱 于 2019-08-26 设计创作，主要内容包括：本发明公开了一种磷酸铁锂电池包的额定容量梯次无记忆的扩容系统,其结构包括：锂电池块、隔板块、十字继电片、磁梯次握把座、电池组框壳、单片机电板、抽屉滑垫块,本发明实现了运用磁梯次握把座与单片机电板相配合,实现梯次扩容电容量效果,保障配合单片机电板在调节适应的额度值后,对电池内容量的消耗彻底,且避免滞缓电流,提高电压切变效率,避免持续高压烧毁内电池组,达到磷酸铁锂电池的无记忆化切变调节特性,使扩容系统通过机械调节方式达到逐级递增的扩容量提升效果,提高电池的养护进度,对调用不同电池容量值有更准确的数据变化分配,避免一体化定制容量滞缓消耗造成电势差得不到平衡的现象,达到平衡电位保持电池扩容灵敏度的效果。(The invention discloses a rated capacity echelon memoryless capacity expansion system of a lithium iron phosphate battery pack, which structurally comprises: the invention realizes the matching of the magnetic ladder handle seat and the single chip microcomputer electric plate, realizes the ladder capacity expansion effect, ensures that the single chip microcomputer electric plate is matched after the adaptive limit value is adjusted, the consumption of the capacity of the battery is thorough, the current hysteresis is avoided, the voltage shear efficiency is improved, the burning of the inner battery pack under continuous high pressure is avoided, the memoryless shear regulation characteristic of the lithium iron phosphate battery is achieved, the capacity expansion system achieves the effect of gradually increasing capacity expansion through a mechanical regulation mode, the maintenance progress of the battery is improved, the method has more accurate data change distribution for calling different battery capacity values, avoids the phenomenon that the potential difference cannot be balanced due to the slow and slow consumption of the integrally customized capacity, and achieves the effect of balancing the potential and keeping the capacity expansion sensitivity of the battery.)

1. The utility model provides a rated capacity echelon memoryless dilatation system of lithium iron phosphate battery package, its structure includes: lithium cell piece (1), baffle piece (2), cross relay piece (3), magnetism echelon handle seat (4), group battery frame shell (5), singlechip electroplax (6), drawer sliding block piece (7), its characterized in that:

the magnetic gradient handle seat (4) is electrically connected with a single-chip microcomputer electric plate (6) through a wire, the magnetic gradient handle seat (4) is installed on the top of a battery pack frame shell (5), the lithium battery block (1) is buckled with the partition plate block (2), the single-chip microcomputer electric plate (6) is tightly attached to a drawer sliding block (7), the drawer sliding block (7) is movably connected with the battery pack frame shell (5), the cross relay sheet (3) is tightly attached to the partition plate block (2), and the cross relay sheet (3) is electrically connected with the single-chip microcomputer electric plate (6);

the magnetic ladder handle seat (4) is provided with a handle transverse plate (4A), a cavity sucking rod ball cylinder (4B), a swing pressing handle seat (4C), a concave lining type column groove (4D), a magnetic push carbon brush block (4E), a chassis groove seat (4F), a bar slide block (4G) and a polar plate cap turning column (4H);

handle diaphragm (4A) are inserted and are inlayed in the inside of putting pressure handle seat (4C), put pressure handle seat (4C) and push away carbon brush piece (4E) mechanical connection through inhaling chamber pole ball jar (4B), inhale chamber pole ball jar (4B) and install in the inside of concave lining type column groove (4D), concave lining type column groove (4D) cooperatees with putting pressure handle seat (4C), magnetism pushes away carbon brush piece (4E) and bar slider (4G) swing joint, bar slider (4G) and polar plate turn over cap post (4H) and cooperate, bar slider (4G) are inserted and are inlayed in the inside of chassis groove seat (4F), chassis groove seat (4F) nestification is under the bottom of concave lining type column groove (4D), polar plate turn over cap post (4H) is connected with singlechip through the wire and electroplax (6).

2. The capacity expansion system of claim 1, wherein the capacity expansion system is characterized in that the capacity expansion system comprises: inhale chamber pole ball jar (4B) and comprise ball cylinder body (4B1), inhale chamber axle center pole (4B2), inhale the inside of chamber axle center pole (4B2) installation in ball cylinder body (4B1), inhale chamber axle center pole (4B2) and ball cylinder body (4B1) mechanical connection.

3. The capacity expansion system of claim 2, wherein the capacity expansion system is characterized in that the capacity expansion system is a lithium iron phosphate battery pack, and the capacity expansion system comprises: inhale chamber axle center pole (4B2) and comprise solid end slot pole (4B21), roller round platform seat (4B22), suspension buckle lever bracket (4B23), inhale chamber valve groove (4B24), roller round platform seat (4B22) nestification is under the bottom of suspension buckle lever bracket (4B23), roller round platform seat (4B22) hug closely in the upper left corner of inhaling chamber valve groove (4B24), inhale the inside of chamber valve groove (4B24) installed at solid end slot pole (4B 21).

4. The capacity expansion system of claim 1, wherein the capacity expansion system is characterized in that the capacity expansion system comprises: the swing pressing handle seat (4C) is composed of an angle iron core rod (4C1), a short frame ring (4C2), a guide shoe groove (4C3) and a handle shell sleeve block (4C4), wherein the angle iron core rod (4C1) is buckled with the guide shoe groove (4C3) through the short frame ring (4C2), the guide shoe groove (4C3) is installed in the handle shell sleeve block (4C4), and the angle iron core rod (4C1) is installed at the lower left corner of the handle shell sleeve block (4C 4).

5. The capacity expansion system of claim 1, wherein the capacity expansion system is characterized in that the capacity expansion system comprises: the magnetic push carbon brush block (4E) is composed of three sections of magnetic pole plates (4E1), a carbon brush groove block (4E2), a magnetic push edge seat (4E3) and a clamping square groove (4E4), the three sections of magnetic pole plates (4E1) are tightly attached to the upper left corner of the carbon brush groove block (4E2), the magnetic push edge seat (4E3) is inserted and embedded under the bottom of the clamping square groove (4E4), and the carbon brush groove block (4E2) and the clamping square groove (4E4) are of an integral structure.

6. The capacity expansion system of claim 5, wherein the capacity expansion system is characterized in that the capacity expansion system comprises: the three-section magnetic pole plate (4E1) is composed of a radioactive magnetic pole block (4E11), a coil electric tube (4E12), a middle position magnetic frame plate (4E13) and a column end plate groove (4E14), the radioactive magnetic pole block (4E11) is electrically connected with the middle position magnetic frame plate (4E13) through the coil electric tube (4E12), and the coil electric tube (4E12) is inserted and embedded in the column end plate groove (4E 14).

7. The capacity expansion system of claim 1, wherein the capacity expansion system is characterized in that the capacity expansion system comprises: polar plate flip cap post (4H) comprises upset ball cover cap (4H1), short post groove (4H2), install on the top of short post groove (4H2) upset ball cover cap (4H1), upset ball cover cap (4H1) and short post groove (4H2) cooperate.

8. The capacity expansion system of claim 7, wherein the capacity expansion system is characterized in that the capacity expansion system is a lithium iron phosphate battery pack, and the capacity expansion system comprises: upset ball sleeve cap (4H1) comprises sacculus (4H11), interior polar plate (4H12), upset pole frame ring (4H13), base ball groove (4H14), pin pipe pole piece (4H15), interior polar plate (4H12) are inserted and are inlayed in the inside of sacculus (4H11), sacculus (4H11) are through upset pole frame ring (4H13) and base ball groove (4H14) mechanical connection, pin pipe pole piece (4H15) are installed in the inside of base ball groove (4H 14).

Technical Field

The invention discloses a rated capacity echelon memoryless capacity expansion system of a lithium iron phosphate battery pack, and belongs to the field of lithium batteries.

Background

The lithium iron phosphate battery is a chemical battery pack with strong stability and maximum capacity, and forms the effect of stabilizing and preventing broken bonds of a solid molecular structure compared with a liquid battery, so that the endurance stability and the functional fluency of the battery are high, the calling and distributing circuit of a vehicle body is efficient, the dividing operation of the rated capacity of the battery is realized, and the defects of the prior art, which are public and need to be optimized, are as follows:

the rechargeable battery of the lithium battery works under the condition that the rechargeable battery is full and is not discharged, the capacity can be rapidly lower than the rated capacity value, the phenomenon is called memory effect, the memory is caused by blockage due to the fact that the current quantity remained in the rechargeable battery is in the rechargeable battery, the injection of a new power supply is interfered, after the rechargeable battery is continuously consumed, the slow internal voltage is increased, the charging amount is influenced, the built-in capacity of the rechargeable battery can be continuously reduced, the cruising ability and the power supply efficiency of the electric vehicle are influenced, the low-horsepower running of the electric vehicle is caused, the consumption period of the lithium battery is shortened in advance, the rated value of the memory internal capacity is continuously reduced, and the functional efficiency of the.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a rated capacity echelon memoryless capacity expansion system of a lithium iron phosphate battery pack, which aims to solve the problems that a rechargeable battery of a lithium iron phosphate battery pack works under the condition that the rechargeable battery is always full and is not completely discharged, the capacity is quickly lower than the rated capacity value, the phenomenon is called memory effect, the memory property is caused by blockage caused by the current quantity remained in the rechargeable battery, the injection of a new power supply is interfered, after the rechargeable battery is continuously consumed, the slow internal voltage is increased, the charging capacity is influenced, the built-in capacity of the battery is continuously reduced, the cruising ability and the power supply capacity of an electric vehicle are influenced, the electric vehicle runs at low horsepower, the consumption period of the lithium battery is shortened in advance, the rated value of the stored internal capacity is continuously reduced, and the functional efficiency of the.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a rated capacity echelon memoryless dilatation system of lithium iron phosphate battery package, its structure includes: the magnetic ladder handle seat is provided with a handle transverse plate, a cavity suction rod ball cylinder, a swing pressure holding handle seat, a concave lining type column groove, a magnetic push carbon brush block, a chassis groove seat, a strip rod sliding block and a polar plate turning column, the handle transverse plate is inserted into the interior of the swing pressure holding handle seat, the swing pressure holding handle seat is mechanically connected with the magnetic push carbon brush block through the cavity suction rod ball cylinder, inhale the inside in chamber pole ball jar and install in concave lining type post groove, concave lining type post groove is pressed with the pendulum and is held the seat and adopt clearance fit, magnetism pushes away carbon brush piece and bar slider swing joint, bar slider and polar plate turn over the cap post and adopt interference fit, the bar slider is inserted and is inlayed in the inside of chassis groove seat, chassis groove seat nestification is under the bottom in concave lining type post groove, the polar plate turns over the cap post and is connected through wire and singlechip electroplax electricity.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the cavity sucking rod ball cylinder consists of a ball cylinder body and a cavity sucking shaft center rod, wherein the cavity sucking shaft center rod is arranged inside the ball cylinder body, and the cavity sucking shaft center rod is mechanically connected with the circle center of the ball cylinder body and the shaft centers are collinear.

As a further improvement of the invention, the cavity suction axial center rod consists of a solid end groove rod, a roller circular platform seat, a suspension buckle rod frame and a cavity suction valve groove, wherein the roller circular platform seat is nested below the bottom of the suspension buckle rod frame, the roller circular platform seat is tightly attached to the upper left corner of the cavity suction valve groove, and the cavity suction valve groove is arranged inside the solid end groove rod and is positioned on the same horizontal plane.

As a further improvement of the invention, the swing pressing handle seat is composed of an angle iron core rod, a short frame ring, a guide shoe groove and a handle shell sleeve block, wherein the angle iron core rod is buckled with the guide shoe groove through the short frame ring, the axes of the angle iron core rod and the guide shoe groove are collinear, the guide shoe groove is arranged inside the handle shell sleeve block and is positioned on the same horizontal plane, and the angle iron core rod is arranged at the lower left corner of the handle shell sleeve block and is vertical to each other.

As a further improvement of the invention, the magnetic push carbon brush block consists of three sections of magnetic pole plates, a carbon brush groove block, a magnetic push edge seat and an embedding square groove, wherein the three sections of magnetic pole plates are tightly attached to the upper left corner of the carbon brush groove block, the magnetic push edge seat is inserted and embedded under the bottom of the embedding square groove, and the carbon brush groove block and the embedding square groove are of an integrated structure.

As a further improvement of the invention, the three sections of magnetic pole plates consist of a radiation magnetic pole block, a coil electric tube, a middle magnetic frame plate and a column end plate groove, the radiation magnetic pole block is electrically connected with the middle magnetic frame plate through the coil electric tube and is positioned on the same inclined plane, and the coil electric tube is inserted and embedded in the column end plate groove.

As a further improvement of the invention, the polar plate cap turning column consists of a turning ball sleeve cap and a short column groove, wherein the turning ball sleeve cap is arranged on the top of the short column groove, and the turning ball sleeve cap and the short column groove are in clearance fit.

As a further improvement of the invention, the turnover ball sleeve cap is composed of a small ball bag, an inner polar plate, a turnover rod frame ring, a base ball groove and a pin tube pole piece, wherein the inner polar plate is inserted and embedded in the small ball bag, the small ball bag is mechanically connected with the base ball groove through the turnover rod frame ring, the pin tube pole piece is arranged in the base ball groove, and the inner polar plate is electrically connected with the pin tube pole piece.

As a further improvement of the invention, the cavity suction valve groove is of a square groove structure with valves attached to the left upper corner and the right upper corner of the cavity with the arc top, so that the valves slide in opposite positions on the left upper corner and the right upper corner, are compressed to deform and then adsorb the concave cavity, a sucking disc type rotary traction hook pushing effect with increased internal air pressure is formed, and a pushing and rotating effect is formed by conveniently lifting and pressing a handle to operate the bottom.

As a further improvement of the invention, the magnetic pushing prism seat is in a platypelloid prism block structure with a narrow left edge and a wide right four sides, and a magnet core is arranged in the prism block to form a carbon brush magnetic force linkage pulling sliding effect caused by the fact that magnetic force swings along the block body.

As a further improvement of the invention, the coil electric tube is of a bow-shaped electric tube structure with an upper winding coil and a lower winding coil and an overhead middle, discharges through two polar angle terminals of the coil and forms a radiated magnetic field wrap angle cage, and forms an upper, middle and lower three-section magnetic repulsion effect by matching with single-node power supply of the coil electric tube in the middle section.

As a further improvement of the invention, the turnover rod frame ring is of an ellipsoid frame ring structure of a middle cross-frame slender rod shifting disc, so that the operation effects of opening power-off and closed power-on switching operation of turnover positioning along the rod piece by one hundred eighty degrees up and down are conveniently formed by rubbing the shifting ball cover, and the column end gradient triggering conduction function of the battery capacity is realized.

Advantageous effects

The invention relates to a gradient non-memory capacity expanding system for the rated capacity of a lithium iron phosphate battery pack, which is easy to work, a lithium battery block is spliced to a partition plate block to be pressed against a cross relay sheet and then assembled into a battery pack frame shell, a drawer sliding cushion block flexibly abuts against the inner lining of a single chip microcomputer electric plate to slide in for collision prevention, after the lithium battery is assembled, in the phase of debugging the rated capacity value, a swinging holding handle seat of a magnetic gradient handle seat is lifted and pressed, a handle transverse plate and a handle shell sleeve block are enabled to obliquely push and press a short frame ring and a guide shoe groove, so that a suction cavity shaft center rod of a suction cavity rod ball cylinder is pulled by an angle iron core rod to rotate in a ball cylinder body, the shaft center of a solid end groove rod deflects to form a rotation effect that a suction cavity membrane groove is attached to the anti-slip along a counterweight roller round seat and an inner cushion of a suspension buckle rod frame, the consistency of the angular speed and the angular distance is ensured, and the embedded square groove of the magnetic pushing carbon brush block is driven by the, the coil electric tubes of the three sections of magnetic pole plates are electrified in the slots of the column end plates to drive the radiation magnetic pole blocks and the middle magnetic frame plate to emit repulsive force magnetic fields to push away the iron core rods with the break angles to form stable angular spacing, then the magnetic push arris seat forms an adsorption left-right sliding traction effect on a bar slide block in a chassis groove seat in a concave lining type column groove, the bar slide block rubs a turning ball sleeve cap at the top of a short column groove of a polar plate turning cap column, a small ball bag is made to carry an inner polar plate to turn up along a turning bar frame ring from the base ball groove to discharge in alignment with a pin tube polar plate, the effect of turning over and triggering an inner electrode column end loop is achieved, the capacitance of each electrode end is overlapped and opened for use, the rated value of equipment needing to be supplied is adjusted, the battery pack is simply, conveniently and conveniently disassembled, the effect of short-time allocation work of a database is formed for a single chip microcomputer, and the echelon lifting capacitance of a lithium battery is guaranteed without memory interference.

The invention has the following advantages after operation:

the magnetic ladder handle seat is matched with the single chip microcomputer electric plate, a chassis groove seat except for the interlocking groove is arranged in the swing-pressing handle seat of the top cover of the frame shell of the lithium battery pack, the ladder capacity expansion effect of the movement of the bar slide block and the polar plate cap turning column is realized, and after the adaptive limit value is adjusted by matching with the single chip microcomputer electric plate, the consumption of the capacity of the battery is thorough, the current hysteresis is avoided, the voltage shear efficiency is improved, the burning of the inner battery pack under continuous high pressure is avoided, the memoryless shear regulation characteristic of the lithium iron phosphate battery is achieved, the capacity expansion system achieves the effect of gradually increasing capacity expansion through a mechanical regulation mode, the maintenance progress of the battery is improved, the method has more accurate data change distribution for calling different battery capacity values, avoids the phenomenon that the potential difference cannot be balanced due to the slow and slow consumption of the integrally customized capacity, and achieves the effect of balancing the potential and keeping the capacity expansion sensitivity of the battery.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of a rated capacity echelon memoryless capacity expansion system of a lithium iron phosphate battery pack according to the present invention.

FIG. 2 is a schematic cross-sectional view of the magnetic ladder grip seat of the present invention.

FIG. 3 is a schematic cross-sectional view of the working states of the suction rod ball cylinder, the swing-pressing grip holder and the polar plate cap-turning column of the present invention.

FIG. 4 is a schematic cross-sectional view of the shaft core of the suction chamber of the present invention.

Fig. 5 is a schematic perspective structural view of the magnetic carbon brush block in a working state.

Fig. 6 is a schematic cross-sectional perspective structure view of the three-stage magnetic pole plate of the present invention in a working state.

Fig. 7 is a schematic view of the working state of the turnover ball sleeve cap in a three-dimensional internal view structure.

Description of reference numerals: lithium battery block-1, separator block-2, cross relay sheet-3, magnetic ladder handle seat-4, battery frame shell-5, single chip microcomputer electric plate-6, drawer slide pad block-7, handle transverse plate-4A, suction cavity rod ball cylinder-4B, swing pressure handle seat-4C, concave lining type column groove-4D, magnetic push carbon brush block-4E, chassis groove seat-4F, bar slide block-4G, pole plate cap turning column-4H, ball cylinder body-4B 1, suction cavity axial core rod-4B 2, solid end groove rod-4B 21, roller circular seat-4B 22, hanging buckle rod frame-4B 23, suction cavity valve groove-4B 24, angle iron core rod-4C 1, short frame ring-4C 2, guide groove-4C 3, handle shell sleeve block-4C 4, three-section magnetic pole plate-4E 1, The magnetic pole comprises a carbon brush groove block-4E 2, a magnetic push prism seat-4E 3, a clamping square groove-4E 4, a radial magnetic pole block-4E 11, a coil electric tube-4E 12, a middle magnetic frame plate-4E 13, a column end plate groove-4E 14, a turning ball sleeve cap-4H 1, a short column groove-4H 2, a small ball bag-4H 11, an inner pole plate-4H 12, a turning rod frame ring-4H 13, a base ball groove-4H 14 and a pin tube pole piece-4H 15.

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 7, the present invention provides a capacity expansion system for a lithium iron phosphate battery pack with a rating gradient without memory, which includes: the battery pack comprises a lithium battery block 1, a partition plate block 2, a cross relay sheet 3, a magnetic ladder handle seat 4, a battery pack frame shell 5, a single-chip microcomputer electric plate 6 and a drawer sliding cushion block 7, wherein the magnetic ladder handle seat 4 is electrically connected with the single-chip microcomputer electric plate 6 through a lead, the magnetic ladder handle seat 4 is installed on the top of the battery pack frame shell 5, the lithium battery block 1 is buckled with the partition plate block 2, the single-chip microcomputer electric plate 6 and the drawer sliding cushion block 7 are tightly attached together and are positioned on the same vertical surface, the drawer sliding cushion block 7 is movably connected with the battery pack frame shell 5, the cross relay sheet 3 and the partition plate block 2 are tightly attached together, the cross relay sheet 3 is electrically connected with the single-chip microcomputer electric plate 6, and the magnetic ladder handle seat 4 is provided with a handle transverse plate 4A, a suction cavity rod ball cylinder 4B, a swinging pressure handle seat 4C, a concave lining type column groove 4D, a magnetic pushing carbon brush block 4E, bar slider 4G, polar plate turn over cap post 4H handle diaphragm 4A is inserted and is inlayed in the inside of pendulum pressure handle seat 4C, pendulum pressure handle seat 4C is through inhaling chamber pole ball jar 4B and magnetism push away carbon brush piece 4E mechanical connection, inhale chamber pole ball jar 4B and install in concave lining type post groove 4D's inside, concave lining type post groove 4D adopts clearance fit with pendulum pressure handle seat 4C, magnetism push away carbon brush piece 4E and bar slider 4G swing joint, bar slider 4G and polar plate turn over cap post 4H and adopt interference fit, bar slider 4G inserts and inlays in the inside of chassis groove seat 4F, chassis groove seat 4F nests under concave lining type post groove 4D's bottom, the polar plate turns over cap post 4H and is connected through wire and 6 electricity of singlechip.

Referring to fig. 3, the cavity suction rod ball cylinder 4B is composed of a ball cylinder body 4B1 and a cavity suction shaft center rod 4B2, the cavity suction shaft center rod 4B2 is installed inside the ball cylinder body 4B1, the cavity suction shaft center rod 4B2 is mechanically connected with the center of the ball cylinder body 4B1 and the shaft centers are collinear, the swing-pressing grip holder 4C is composed of a dog-leg iron core rod 4C1, a short frame ring 4C2, a guide shoe groove 4C3 and a grip housing sleeve block 4C4, the dog-leg iron core rod 4C1 is buckled with the shoe guide groove 4C 8 through the short frame ring 4C2 and the shaft centers are collinear, the guide shoe groove 4C3 is installed inside the grip housing sleeve block 4C4 and is located on the same horizontal plane, the dog-leg iron 4C1 is installed on the left lower corner sleeve block 4C4 and is perpendicular to each other, the pole plate turning cap 4H 464H is composed of turning caps 84, 374H 464H 2 and the ball cap 464H is installed on the top of the short cap 464H, the turnover ball sleeve cap 4H1 and the short column groove 4H2 are in clearance fit, a double right-angle rod end pressing and rotating pulling hook effect is formed by the angle iron core rod 4C1 and the suction cavity axis rod 4B2, internal pressure is guaranteed to form rotating operation when the handle is lifted and pressed, rolling friction sliding is facilitated, the battery pack is lifted and pressed to an applicable capacitance every time of calling, and the storage-free battery pack is quick and convenient.

Referring to fig. 4, the suction cavity axis rod 4B2 is composed of a solid end slot rod 4B21, a roller round table seat 4B22, a suspension buckle rod frame 4B23, a suction cavity valve slot 4B24, the roller round pedestal 4B22 is nested under the bottom of the suspension buckle rod frame 4B23, the roller round pedestal 4B22 is clung to the upper left corner of the suction cavity valve groove 4B24, the suction cavity valve slots 4B24 are disposed inside the solid end slot bar 4B21 and on the same horizontal plane, the suction cavity valve groove 4B24 is a square groove structure with a valve attached to the left and right upper corners of the cavity with an arc top, so that the valve slides, rubs, deforms and adsorbs the concave cavity in the contraposition of the left and right upper corners to form a suction disk type rotary traction hook pushing effect with increased internal air pressure, and a pushing handle is conveniently lifted to operate the bottom to form a pushing and rotating effect, the end of the solid end groove rod 4B21 is hooked with the jade counterweight block to form a deflection pressure centering rotation effect, so that the anti-slip effect of the stable attaching rod piece of the suction cavity valve groove 4B24 is guaranteed.

Referring to fig. 5, the magnetic carbon brush block 4E comprises three segments of magnetic pole plates 4E1, carbon brush slot blocks 4E2, magnetic push prism 4E3, and rectangular clamping slots 4E4, the three sections of magnetic pole plates 4E1 cling to the upper left corner of the carbon brush slot block 4E2, the magnetic push arris seat 4E3 is inserted and embedded under the bottom of the embedding square slot 4E4, the carbon brush groove block 4E2 and the clamping square groove 4E4 are of an integral structure, the magnetic push prism seat 4E3 is of a bucktooth-shaped prism block structure with a narrow left edge and a wide right edge, the magnetic cores are arranged in the edge blocks to form the effect that magnetic force swings along the block body to lead the carbon brush to draw the magnetic force to pull and slide in a linkage way, a repulsive magnetic field is formed on the inclined plane through the three sections of magnetic pole plates 4E1, the magnetic pushing arris seat 4E3 slides on the bottom arc rail to form an attraction magnetic field, so that the upper and lower gaps of the repulsion end are clear, the small slot at the attraction end attracts the left and right dragging operation, and the effect of opening the capacitance in a gradient manner when the sliding block is in large-area contact with the column end is realized.

Referring to fig. 6, the three-stage magnetic pole plate 4E1 comprises a radial magnetic pole block 4E11, a coil electric tube 4E12, a middle-stage magnetic pole plate 4E13, and a column end plate slot 4E14, the radiation magnetic pole block 4E11 is electrically connected with the middle magnetic frame plate 4E13 through a coil electric tube 4E12 and is positioned on the same inclined plane, the coil electric tube 4E12 is inserted and embedded in the column end plate slot 4E14, the coil electric tube 4E12 is a bow-shaped electric tube structure with an upper coil and a lower coil wound and an overhead middle, the coil is discharged through the two polar angle terminals of the coil and forms a radiation magnetic field wrap angle cage, and the upper section, the middle section and the lower section of the magnetic repulsion force effect are formed by matching with the single-node power supply without the coil electric tube at the middle section, three segment groove plate repulsion force superposition effects are formed on the upper side of the coil electric tube 4E12 through the radiation magnetic pole block 4E11 and the middle position magnetic frame plate 4E13, so that the angular torque when the repulsion force of the amplified magnetic field is stabilized and rotated is avoided, and the handle is prevented from being excessively lifted and pressed.

Referring to fig. 7, the flip ball sleeve cap 4H1 is composed of a small ball bag 4H11, an inner pole plate 4H12, a flip rod frame ring 4H13, a base ball groove 4H14, and a pin tube pole piece 4H15, the inner pole plate 4H12 is inserted and embedded inside the small ball bag 4H11, the small ball bag 4H11 is mechanically connected with the base ball groove 4H14 through a flip rod frame ring 4H13, the pin tube pole piece 4H15 is installed inside the base ball groove 4H14, the inner pole plate 4H12 is electrically connected with the pin tube pole piece 4H15, the flip rod frame ring 4H13 is an ellipsoidal frame ring structure of a middle cross frame pin poking disc, so as to facilitate friction and poke the ball cover to form an open power-off and closed power-on switching operation effect of one-hundred eighty degree flip positioning up and down along the rod, thereby realizing column-end gradient triggering conduction of battery capacity, and the inner pole plate 4H12 and the pin 4H15 are attached to form a non-up and-down turn-up power-on-up and, the effect that the free electron of counterpoint switches on from top to bottom, the electrode backward flow phenomenon of guarantee upset end cap realizes connecing the echelon capacitance stack effect of electric column end one by one, also ensures that every column end capacitance is unanimous, and no memory point superposes according to time supply demand, and is light convenient.

The working process is as follows: the operation is easy to assemble into a battery pack frame shell 5 after the lithium battery block 1 is spliced to a separator block 2 and pressed against a cross relay sheet 3, the battery pack slides in against the inner lining of a singlechip electric plate 6 through a drawer sliding cushion block 7 to prevent collision, after the lithium battery is assembled, in the debugging stage of the capacitance rated value, the handle transverse plate 4A and the handle shell sleeve block 4C4 obliquely push and press a short frame ring 4C2 and a guide shoe groove 4C3 by lifting and pressing the swing handle seat 4C of the magnetic ladder handle seat 4, so that the linkage angle iron core rod 4C1 pulls and hooks the suction cavity axis rod 4B2 of the suction cavity rod ball cylinder 4B to rotate in the ball cylinder body 4B1, the deflection balance weight of the axis of the solid 865end groove rod B21 forms the linkage effect of the suction cavity film groove 4B24 to suck and stick the anti-slip through the roller circular pedestal 4B22 and the inner cushion of the hanger rod 4B23 to form the linkage cavity film groove 4B24 to suck and press and slide the carbon brush block embedding block 4 of the magnetic pulling and pressing carbon brush 4E4 square swinging groove 4, the coil electric tube 4E12 of three sections of magnetic pole plates 4E1 is electrified in the column end plate slot 4E14 to drive the radiation magnetic pole block 4E11 and the middle magnetic frame plate 4E13 to emit repulsive force magnetic field to push the angle iron core bar 4C1 to form angular spacing for stable spacing, then the magnetic push prism seat 4E3 forms an adsorption left-right sliding traction effect on the bar slide block 4G in the chassis slot seat 4F in the concave lining type column slot 4D, the bar slide block 4G rubs the top overturning ball sleeve cap 4H1 of the short column slot 4H2 of the pole plate overturning cap column 4H to ensure that the small ball sleeve 4H11 drives the inner pole plate 4H12 to overturn the rod frame ring 4H13 from the inside of the chassis ball slot 4H14 to discharge in alignment with the pin tube pole piece 4H15, thereby achieving the effect of overturning and triggering the inner pole column end loop to ensure that the capacitance of each electrode end is overlapped and opened for use, the singlechip can adjust the rated value of the equipment needed to avoid forming a short-time data bank for work conveniently and work, the echelon lifting capacity of the lithium battery is guaranteed, and no memory interference exists.

The invention achieves the effect of expanding capacitance in steps of the movement of the bar rod sliding block 4G and the pole plate cap turning column 4H by utilizing the matching of the magnetic ladder handle seat 4 and the single chip microcomputer electric plate 6 and by arranging the chassis groove seat 4F except the interlocking groove in the swinging handle seat 4C of the top cover of the lithium battery pack frame shell 5, ensures that the matching single chip microcomputer electric plate 6 can thoroughly consume the internal capacity of the battery after adjusting the adaptive value limit, avoids the hysteresis current, improves the voltage shear efficiency, avoids burning the internal battery pack under the continuous high pressure, achieves the memoryless shear regulation characteristic of the lithium iron phosphate battery, ensures that the expansion system achieves the effect of increasing the expansion capacity by steps in a mechanical regulation mode, improves the maintenance progress of the battery, has more accurate data change distribution for exchanging different battery values and capacities, and avoids the phenomenon that the potential difference cannot be balanced due to the hysteresis consumption of the integrated customized capacity, the effect of keeping the battery capacity expansion sensitivity by balancing the potential is achieved, and the problem that the rechargeable battery of the lithium battery works under the condition that the rechargeable battery is always full and is not completely charged, the capacity can be rapidly lower than a rated capacity value, the phenomenon is called a memory effect, the memory exists because the internal self-contained residual current quantity causes blockage, the injection of a new power supply is interfered, after the rechargeable battery is continuously consumed, the slow internal voltage is increased, the charging capacity is influenced, the built-in capacity of the battery can be continuously reduced, the efficiency of the endurance and the power supply quantity of the electric vehicle is influenced, the small-horsepower running of the electric vehicle is caused, the consumption period of the lithium battery is shortened in advance, the rated value of the memory content quantity is continuously reduced, and the functional efficiency of the composite work.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.