CN113320885B - New energy automobile battery centralized management conveyor - Google Patents

Abstract

The invention discloses a new energy automobile battery centralized management and conveying device which structurally comprises a support frame, a conveying belt, a lifting machine and a placing roller, wherein the lower end of the support frame is movably matched with the outer side of the conveying belt by leaning on the upper part, the outer side of the lifting machine is connected with a left end shaft of the support frame, the left end of the placing roller is in clearance fit with the right side of the lifting machine, a battery generates downward gravity in the lifting process, an inclined rod deflects rightwards to extrude a buffer plate to absorb energy, a reset plate deforms to absorb vibration while the battery shakes leftwards and rightwards, a fixing plate connected with a clamping head is used for transmitting the vibration to the battery, the vibration of the battery is reduced, internal parts of the battery are prevented from being loosened by vibration, the heat can be collected to the inclined block through a heat collection plate to heat a spring rod when the battery burns, a clamping block is separated from a fixing block, and a compressed air rod jacks upwards to form a barrier between cushion blocks, the damage to equipment caused by the burning of the battery in the transportation process is prevented, and meanwhile, the effect of chain burning of the battery is prevented.

Description

New energy automobile battery centralized management conveyor

Technical Field

The invention belongs to the field of conveying devices, and particularly relates to a new energy automobile battery centralized management conveying device.

Background

New energy automobile battery is the electrical storage equipment who provides the electric energy for new energy automobile, inside electric capacity decline or the part of battery age after the battery uses for a long time, carry out resource recovery through retrieving the battery with the inside part of battery, carry the battery to the stack district through conveyor at the in-process of retrieving and concentrate and place the management, carry new energy battery to pass through the lifting machine with battery lifting to different heights among the prior art, arrange through the conveyer belt afterwards, but because ageing battery internals is not hard up, the part of the in-process battery that conveyor carried receives the shake can cause the short circuit, lead to the inside energy of battery to leak easily and form the fire, the risk of equipment operation has been increased.

Disclosure of Invention

In order to solve the problems that in the prior art, aged internal parts of the battery are loosened, short circuit is caused when the internal parts of the battery are shaken in the conveying process of a conveying device, energy in the battery is easy to leak to form fire, and the risk of equipment operation is increased, the invention provides a new energy automobile battery centralized management conveying device.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a new energy automobile battery centralized management conveyor, its structure includes support frame, conveyer belt, lifting machine, puts the roller, the support frame lower extreme leans on and conveyer belt outside clearance fit, the lifting machine outside is connected with support frame left end axle, put roller left end and lifting machine right side clearance fit, the lifting machine includes pivot, fixed band, other backplate, places the board, the pivot outside is with the inboard interference fit of fixed band, both ends and pivot outside hub connection about the other backplate, it is connected with fixed band outside block to place board bottom.

As a further improvement of the invention, the placing plate comprises a supporting frame, two clamping heads and a fixing plate, the left side of the supporting frame is welded and connected with the right side of the fixing plate, the outer sides of the clamping heads are clamped and connected with the inner part of the fixing plate, and the two clamping heads can be contracted when being pressed.

As a further improvement of the invention, the support frames comprise antiskid plates, inclined rods, buffer plates and sliding blocks, the lower sides of the antiskid plates are connected with the upper ends of the inclined rods in a shaft mode, the lower ends of the inclined rods are connected with the upper sides of the sliding blocks in a shaft mode, the buffer plates are fixedly connected between the upper sides of the sliding blocks and the middles of the inclined rods in an embedded mode, the number of the inclined rods in each support frame is three, the inclined rods are distributed horizontally at equal intervals, and the inclined rods are installed in an inclined mode.

As a further improvement of the invention, the sliding block comprises a connecting block, a reset plate and a triangular plate, the right side of the connecting block is fixedly connected with the left side of the reset plate in an embedded manner, the right side of the reset plate is fixedly connected with the inner part of the left end of the triangular plate, the left end of the triangular plate is provided with a groove, and the width of the groove is larger than the size of the right end of the connecting block.

As a further improvement of the invention, the conveyor belt comprises a transmission shaft, a rotating belt and bearing blocks, wherein the outer side of the transmission shaft is in interference fit with the inner side of the rotating belt, the bottom of each bearing block is fixedly embedded with the outer side of the rotating belt, and the bearing blocks are sixteen in number and are distributed at equal intervals along the rotating belt.

As a further improvement of the invention, the bearing block comprises a fixed block, two stoppers and two cushion blocks, the upper side of the fixed block is bonded with the lower side of the cushion block, the outer side of each stopper is welded with the middle of the fixed block, and the distance between the two cushion blocks is greater than the width of each stopper.

As a further improvement of the invention, the arrester comprises a heat collecting plate, an oblique block and a contraction block, wherein the lower side of the heat collecting plate is welded and connected with the upper side of the oblique block, the upper side of the contraction block is welded and connected with the lower side of the oblique block, and the heat collecting plate is fifteen in number and is distributed horizontally and equidistantly.

As a further improvement of the invention, the contraction block comprises a guide block, a spring rod, two clamping blocks and a compressed air rod, the lower end of the guide block is welded and connected with the upper side of the spring rod, the outer side of each clamping block is welded and connected with the left end and the right end of the spring rod, the upper end of the compressed air rod is movably clamped and connected with the middle of each clamping block, and the two clamping blocks are distributed symmetrically left and right by taking the guide block as the center.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

1. the battery produces decurrent gravity at the in-process that promotes, deflects the extrusion buffer board through the down tube right and absorbs the energy, and the while of rocking is absorbed vibration through the board deformation that resets about the battery, has reduced the vibration that the fixed plate that the dop is connected conducted the battery, has reduced the vibration of battery, has prevented that battery internals from receiving the vibration and becoming flexible.

2. When the battery burns, heat can be collected to the sloping block through the heat collecting plate to heat the spring rod, the clamping block is separated from the clamping of the fixing block, the compressed air rod jacks upwards to enable a barrier to be formed between the cushion blocks, the battery is prevented from being burnt to damage equipment in the transportation process, and meanwhile, the battery is prevented from generating the consequence of chain burning.

Drawings

Fig. 1 is a schematic structural diagram of a new energy vehicle battery centralized management conveying device according to the present invention.

Fig. 2 is a side view half-section structure schematic diagram of a hoisting machine according to the present invention.

Fig. 3 is a side view of a half-section structure of the placing board of the present invention.

Fig. 4 is a schematic side view of a half-section structure of a support frame according to the present invention.

FIG. 5 is a schematic side view of a half-section structure of a slider according to the present invention.

FIG. 6 is a schematic side view of a conveyor belt according to the present invention.

Fig. 7 is a schematic side view of a half-section structure of a carrier block according to the present invention.

Fig. 8 is a side view of a half-section structure of a stopper of the present invention.

FIG. 9 is a schematic side view of a half-section structure of a shrinkage block according to the present invention.

In the figure: the device comprises a support frame-1, a conveyor belt-2, a lifting machine-3, a placing roller-4, a rotating shaft-31, a fixing belt-32, a side guard plate-33, a placing plate-34, a support frame-341, a clamping head-342, a fixing plate-343, an antiskid plate-41 a, an inclined rod-41 b, a buffer plate-41 c, a sliding block-41 d, a connecting block-d 1, a resetting plate-d 2, a triangular plate-d 3, a transmission shaft-21, a rotating belt-22, a bearing block-23, a fixing block-231, a blocker-232, a cushion block-233, a heat collecting plate-32 a, an inclined block-32 b, a contraction block-32 c, a guide block-c 1, a spring rod-c 2, a block-c 3 and a compressed air rod-c 4.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides a new energy automobile battery centralized management conveying device which structurally comprises a support frame 1, a conveyor belt 2, a lifting machine 3 and a placing roller 4, wherein the lower end of the support frame 1 is movably matched with the outer side of the conveyor belt 2 by the upper side, the outer side of the lifting machine 3 is connected with a left end shaft of the support frame 1, the left end of the placing roller 4 is in clearance fit with the right side of the lifting machine 3, the lifting machine 3 comprises a rotating shaft 31, a fixing belt 32, a side protection plate 33 and a placing plate 34, the outer side of the rotating shaft 31 is in interference fit with the inner side of the fixing belt 32, the upper end and the lower end of the side protection plate 33 are connected with the outer side shaft of the rotating shaft 31, and the bottom of the placing plate 34 is connected with the outer side of the fixing belt 32 in a clamping manner.

The placing plate 34 comprises a supporting frame 341, two clamping heads 342 and a fixing plate 343, the left side of the supporting frame 341 is connected with the right side of the fixing plate 343 in a welded mode, the outer sides of the clamping heads 342 are connected with the inner portion of the fixing plate 343 in a clamped mode, the two clamping heads 342 are in number, the clamping heads 342 can be contracted when being pressed, the placing plate 34 can be separated from the clamping of the fixing belt 32 through the contracted clamping heads, and the placing plate 34 can be taken down and cleaned conveniently.

The supporting frames 341 include an anti-slip plate 41a, an inclined rod 41b, a buffer plate 41c, and a sliding block 41d, the lower side of the anti-slip plate 41a is connected with the upper end shaft of the inclined rod 41b, the lower side of the inclined rod 41b is connected with the upper side shaft of the sliding block 41d, the buffer plate 41c is fixedly embedded between the upper side of the sliding block 41d and the middle portion of the inclined rod 41b, the number of the inclined rods 41b in each supporting frame 341 is three, the inclined rods 41b are distributed horizontally and equidistantly, and the inclined rods 41b are installed in an inclined manner, so that the inclined rods 41b can incline to the right side and then compress the buffer plate 41c, which is beneficial to reducing the shake generated by the anti-slip plate 41a from left to right.

Wherein, the sliding block 41d includes connecting block d1, the board d2 that resets, set-square d3, connecting block d1 right side and the board d2 left side that resets are embedded firmly and are connected, the board d2 right side that resets is connected with the inside embedded solid of set-square d3 left end, set-square d3 left end is equipped with a recess, and the width of recess is greater than the size of connecting block d1 right-hand member for connecting block d1 can move in set-square d3 left end inside, and reset through the board d2 that resets, be favorable to absorbing the energy that moves about sliding block 41 d.

The specific use mode and function of the embodiment are as follows:

in the invention, batteries are equidistantly placed on the conveyor belt 2 fixed on the support frame 1, after the conveyor belt 2 advances to the lower end of the elevator 3, the batteries are placed on the stack by the placing rollers 4 after being lifted by the elevator 3, the batteries are intensively managed, the rotating shaft 31 rotates to drive the fixing belt 32 at the outer side to move during lifting, the fixing belt 32 lifts the batteries by the placing plate 34 connected at the outer side under the support of the side protection plate 33, the batteries placed on the upper side of the support frame 341 and fixed by the anti-skid plate 41a generate downward gravity during lifting, then the buffer plate 41c is deflected to the right by the inclined rod 41b to press the buffer plate 41c, so that the buffer plate 41c is deformed to absorb the shaking energy, and meanwhile, the triangular plate d3 inside the sliding block 41d pushes the reset plate d2 to deform under the limit of the connecting block d1 for left and right sliding while the batteries shake left and right, the vibration is absorbed in the sliding process, the vibration transmitted to the battery by the fixing plate 343 connected with the chuck 342 is reduced, the vibration of the battery is reduced, and the internal parts of the battery are prevented from being loosened due to the vibration.

Example 2:

as shown in fig. 6 to 9:

wherein, conveyer belt 2 includes transmission shaft 21, rotation band 22, carrier block 23, the inboard interference fit in transmission shaft 21 outside rotation band 22, carrier block 23 bottom and the rotation band 22 outside embedded solid are connected, carrier block 23 quantity is sixteen to along rotating band 22 equidistance distribution, make carrier block 23 can place the battery equidistance, be favorable to carrying out the separation between the battery.

The bearing block 23 comprises a fixing block 231, two block stoppers 232 and cushion blocks 233, the upper sides of the fixing blocks 231 are bonded with the lower sides of the cushion blocks 233, the outer sides of the block stoppers 232 are welded with the middle parts of the fixing blocks 231, the number of the cushion blocks 233 is two, and the distance between the two cushion blocks 233 is greater than the width of the block stoppers 232, so that the block stoppers 232 can extend out and block the batteries after sensing the heat generated by the batteries, and the battery combustion probability is reduced.

The interceptor 232 includes a heat collecting plate 32a, an oblique block 32b, and a heat collecting block 32c, wherein the lower side of the heat collecting plate 32a is welded to the upper side of the oblique block 32b, the upper side of the heat collecting block 32c is welded to the lower side of the oblique block 32b, and the heat collecting plates 32a are fifteen in number and are distributed horizontally and equidistantly, so that heat dissipated by the battery can be collected through the heat collecting plate 32a, which is beneficial to increasing the reaction speed of the interceptor 232.

The contraction block 32c comprises a guide block c1, a spring rod c2, two fixture blocks c3 and a compressed air rod c4, the lower end of the guide block c1 is connected with the upper side of the spring rod c2 in a welding mode, the outer side of each fixture block c3 is connected with the left end and the right end of the spring rod c2 in a welding mode, the upper end of the compressed air rod c4 is movably clamped with the middle of the fixture block c3, the two fixture blocks c3 are in number and are distributed in a left-right symmetrical mode by taking the guide block c1 as the center, so that the fixture block c3 can clamp the fixing block 231 through the spring rod c2, and timely ejection is facilitated to isolate the battery.

The specific use mode and function of the embodiment are as follows:

in the invention, the transmission shaft 21 rotates to drive the rotating belt 22 to advance, then the battery is conveyed forwards through the bearing block 23, if the battery is spontaneously combusted in the conveying process, the heat generated in combustion can trigger the stopper 232 in the middle of the fixed block 231 to pop upwards, the battery on the upper side of the cushion block 233 is isolated after popping, the heat can be collected to the inclined block 32b through the heat collecting plate 32a and then conducted to the guide block c1 of the contraction block 32c during the combustion of the battery, the spring rod c2 is heated, so that the spring rod c2 pushes the fixture block c3 to two sides to be separated from the clamping of the fixed block 231, the compressed air rod c4 is pushed upwards to form a barrier between the cushion blocks after the contraction block 32c is separated from the clamping of the opposite side, the damage to equipment caused by the combustion of the battery in the conveying process is prevented, and the result of linked combustion of the battery is prevented at the same time.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (1)

1. The utility model provides a new energy automobile battery centralized management conveyor, its structure includes support frame (1), conveyer belt (2), lifting machine (3), puts roller (4), support frame (1) lower extreme leans on last and conveyer belt (2) outside clearance fit, lifting machine (3) outside and support frame (1) left end hub connection, put roller (4) left end and lifting machine (3) right side clearance fit, its characterized in that: the elevator (3) comprises a rotating shaft (31), a fixing belt (32), a side protection plate (33) and a placing plate (34), the outer side of the rotating shaft (31) is in interference fit with the inner side of the fixing belt (32), the upper end and the lower end of the side protection plate (33) are connected with the shaft of the outer side of the rotating shaft (31), the bottom of the placing plate (34) is connected with the outer side of the fixing belt (32) in a clamping manner, the placing plate (34) comprises a second supporting frame (341), a clamping head (342) and a fixing plate (343), the left side of the second supporting frame (341) is connected with the right side of the fixing plate (343) in a welding manner, the outer side of the clamping head (342) is connected with the inner portion of the fixing plate (343) in a clamping manner, the second supporting frame (341) comprises an anti-skid plate (41 a), an inclined rod (41 b), a buffer plate (41 c) and a sliding block (41 d), the lower side of the inclined rod (41 b) is connected with the upper shaft of the sliding block (41 d), the buffer plate (41 c) is fixedly connected between the upper side of the sliding block (41 d) and the middle part of the inclined rod (41 b), the sliding block (41 d) comprises a connecting block (d 1), a reset plate (d 2) and a triangular plate (d 3), the right side of the connecting block (d 1) is fixedly connected with the left side of the reset plate (d 2), the right side of the reset plate (d 2) is fixedly connected with the inner part of the left end of the triangular plate (d 3), the conveyor belt (2) comprises a transmission shaft (21), a rotating belt (22) and a bearing block (23), the outer side of the transmission shaft (21) is in interference fit with the inner side of the rotating belt (22), the bottom of the bearing block (23) is fixedly connected with the outer side of the rotating belt (22), the bearing block (23) comprises a fixed block (231), a barrier (232) and a cushion block (233), the upper side of the fixed block (231) is bonded with the lower side of the cushion block (233), and the outer side of the barrier (232) is welded with the middle part of the fixed block (231), the arrester (232) comprises a heat collecting plate (32 a), an inclined block (32 b) and a contraction block (32 c), the lower side of the heat collecting plate (32 a) is connected with the upper side of the inclined block (32 b) in a welding mode, the upper side of the contraction block (32 c) is connected with the lower side of the inclined block (32 b) in a welding mode, the contraction block (32 c) comprises a guide block (c 1), a spring rod (c 2), a clamping block (c 3) and a compressed air rod (c 4), the lower end of the guide block (c 1) is connected with the upper side of the spring rod (c 2) in a welding mode, the outer side of the clamping block (c 3) is connected with the left end and the right end of the spring rod (c 2) in a welding mode, and the upper end of the compressed air rod (c 4) is movably clamped with the middle of the clamping block (c 3); batteries are placed on a conveyor belt (2) fixed by a first support frame (1) at equal intervals, after the conveyor belt (2) advances to the lower end of a lifting machine (3), the batteries are placed on a stack by a placing roller (4) after being lifted by the lifting machine (3) to be managed in a centralized manner, a rotating shaft (31) rotates to drive a fixing belt (32) on the outer side to move during lifting, the fixing belt (32) lifts the batteries through a placing plate (34) connected to the outer side under the support of a side protection plate (33), the batteries are placed on the upper side of a second support frame (341) and then fixed by an anti-skid plate (41 a) during lifting to generate downward gravity, so that a buffer plate (41 c) is deformed to absorb the swinging energy due to the fact that the buffer plate (41 c) is deformed by the rightward deflection and extrusion of an inclined rod (41 b), and meanwhile a reset plate (d 2) is pushed to deform under the limiting position of a connecting block (d 1) through a triangular plate (d 3) in the sliding block (41 d) while the batteries swing left and right The left and right sliding is carried out, the vibration is absorbed in the sliding process, and the vibration transmitted to the battery by a fixing plate (343) connected with a clamping head (342) is reduced; the transmission shaft (21) rotates to drive the rotating belt (22) to advance, then the battery is conveyed forwards through the bearing block (23), if the battery is self-ignited in the conveying process, the stopper (232) in the middle of the fixing block (231) is triggered to pop upwards by heat generated in combustion, the battery on the upper side of the cushion block (233) is isolated after the battery is popped out, the heat is collected to the inclined block (32 b) through the heat collecting plate (32 a) during the combustion of the battery and then conducted to the guide block (c 1) of the contraction block (32 c), the spring rod (c 2) is heated, the spring rod (c 2) pushes the clamping block (c 3) to two sides to be separated from the clamping of the fixing block (231), and the compressed air rod (c 4) is pushed upwards to form a barrier between the cushion blocks (233) after the contraction block (32 c) is separated from the clamping of the other side.

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