阅读说明：本技术 一种电池生产材料智能化分离设备 (Intelligent battery production material separation equipment ) 是由 彭星 于斌磊 于 2021-09-16 设计创作，主要内容包括：为解决上述技术问题,一种电池生产材料智能化分离设备,包括给料分离装置、轻物质破破碎装置、合格材料清洗装置,通过给料分离装置对生产电池的材料进行三种情况的筛分,轻物质破破碎装置对筛分出的轻物质材料进行相应的处理,合格材料清洗装置对筛分出合格的材料进行清洗并排放等功能,其特征在于：给料分离装置安装固定在合格材料清洗装置上,轻物质破破碎装置安装固定在给料分离装置上,合格材料清洗装置。(For solving above-mentioned technical problem, a battery production material intelligent splitter, including feed separator, the broken breaker of light material, qualified material belt cleaning device, carry out the screening of three kinds of circumstances through feed separator to the material of production battery, the broken breaker of light material carries out corresponding processing to the light material of screening out, and qualified material belt cleaning device washs and discharges the function such as its characterized in that screening out qualified material: the feeding separation device is fixedly arranged on the qualified material cleaning device, and the light material breaking and crushing device is fixedly arranged on the feeding separation device and the qualified material cleaning device.)

1. The utility model provides a battery production material intelligent splitter, includes feed separator (1), the broken breaker of light material (2), qualified material belt cleaning device (3), its characterized in that: the feeding separation device (1) is fixedly arranged on the qualified material cleaning device (3), the light substance breaking and crushing device (2) is fixedly arranged on the feeding separation device (1), and the qualified material cleaning device (3) is arranged on the qualified material cleaning device.

2. The intelligent battery production material separation device according to claim 1, wherein: the feeding and separating device (1) comprises a fixed pipe (1-1), a feeding pipe (1-2), a discharge port (1-3), a mounting block (1-4), a baffle ring (1-5), a first opening (1-6), a screening cylinder (1-7), a spiral push plate (1-8), a belt wheel ring (1-9), a first transmission belt (1-10), a blowing through cylinder (1-11), a discharge pipeline (1-12), a tooth surface turbine (1-13), a first mounting seat (1-14), a first transmission shaft (1-15), a first gear (1-16), a first receiving belt wheel (1-17), a second mounting seat (1-18), a second transmission shaft (1-19), a first output belt wheel (1-20), a second transmission belt (1-21), A bevel gear wheel (1-22), a mounting seat III (1-23), a transmission shaft III (1-24), a bevel gear I (1-25), a gear II (1-26), a belt wheel I (1-27) and a fine material collecting and discharging device (1-28), wherein a feeding pipe (1-2) is fixedly arranged on a fixed pipe (1-1), a discharging port (1-3) is arranged on the fixed pipe (1-1), a mounting block (1-4) is fixedly arranged in the fixed pipe (1-1), a baffle ring (1-5) is fixedly arranged on the mounting block (1-4), an opening I (1-6) is arranged on the baffle ring (1-5), a sieving cylinder (1-7) is rotatably arranged on the baffle ring (1-5) and in the fixed pipe (1-1), a spiral push plate (1-8) is fixedly arranged in the sieving cylinder (1-7), the belt wheel ring (1-9) is fixedly arranged on the screening cylinder (1-7), the first transmission belt (1-10) is arranged on the belt wheel ring (1-9) and the inclined gear ring belt wheel (1-22), the blowing air passing cylinder (1-11) is fixedly arranged on the discharge pipeline (1-12), the tooth surface turbine (1-13) is rotatably arranged inside the blowing air passing cylinder (1-11), the first installation seat (1-14) is fixedly arranged on the blowing air passing cylinder (1-11), the first transmission shaft (1-15) is rotatably arranged on the first installation seat (1-14), the first gear (1-16) is fixedly arranged on the first transmission shaft (1-15), the first receiving belt wheel (1-17) is fixedly arranged on the first transmission shaft (1-15), the second installation seat (1-18) is fixedly arranged on the blowing air passing cylinder (1-11), a transmission shaft II (1-19) is rotatably arranged on a mounting seat II (1-18), an output belt wheel I (1-20) is fixedly arranged on the transmission shaft II (1-19), a transmission belt II (1-21) is arranged on a gear I (1-16) and the output belt wheel I (1-20), an inclined gear ring belt wheel (1-22) is fixedly arranged on the transmission shaft II (1-19), a mounting seat III (1-23) is fixedly arranged on a discharge pipeline (1-12), a transmission shaft III (1-24) is rotatably arranged on the mounting seat III (1-23), a bevel gear I (1-25) is fixedly arranged on the transmission shaft III (1-24), the bevel gear I (1-25) is meshed with the inclined gear ring belt wheel (1-22), the gear II (1-26) is fixedly arranged on the transmission shaft III (1-24), the first belt wheel (1-27) is fixedly arranged on the third transmission shaft (1-24), and the fine material collecting and discharging device (1-28) is fixedly arranged on the fixed pipe (1-1).

3. The intelligent battery production material separation device according to claim 1, wherein: the qualified material cleaning device (3) comprises an installation box (3-1), a feeding hole (3-2), a cleaning cavity (3-3), a material distributing groove (3-4), a pushing outlet (3-5), a belt shaft screening plate (3-6), a half bevel gear I (3-7), a half bevel gear II (3-8), a mounting seat IV (3-9), a driving shaft (3-10), an output gear (3-11), an output bevel gear (3-12), a rotating hole cylinder (3-13), a bevel gear IV (3-14), a discharging spiral plate (3-15), a mounting plate (3-16), a connecting shaft (3-17), a bevel gear V (3-18), a receiving belt wheel II (3-19), an auxiliary belt wheel (3-20), a transmission belt III (3-21), A discharge hole (3-22), a discharge pipeline (1-12) is fixedly arranged on an installation box (3-1), a feed inlet (3-2) is arranged on the installation box (3-1), a cleaning cavity (3-3) is arranged inside the installation box (3-1), a material distribution groove (3-4) is arranged inside the installation box (3-1), a push outlet (3-5) is arranged inside the installation box (3-1), a screening plate with a shaft (3-6) is rotatably arranged inside the installation box (3-1), a first half bevel gear (3-7) is fixedly arranged on the screening plate with the shaft (3-6), a second half bevel gear (3-8) is fixedly arranged on the screening plate with the shaft (3-6), and a fourth installation seat (3-9) is fixedly arranged on the installation box (3-1), a driving shaft (3-10) is rotatably arranged on a mounting seat IV (3-9), an output gear (3-11) is fixedly arranged on the driving shaft (3-10), the output gear (3-11) is meshed with a gear II (1-26), an output bevel gear (3-12) is fixedly arranged on the driving shaft (3-10), a rotating hole cylinder (3-13) is rotatably arranged in a mounting box (3-1), a bevel gear IV (3-14) is fixedly arranged on the rotating hole cylinder (3-13), a discharging spiral plate (3-15) is fixedly arranged on the rotating hole cylinder (3-13), a mounting plate (3-16) is fixedly arranged on the mounting box (3-1), a connecting shaft (3-17) is rotatably arranged on the mounting plate (3-16), a bevel gear V (3-18) is fixedly arranged on the connecting shaft (3-17), the bevel gear five (3-18) is meshed with the bevel gear four (3-14), the receiving belt wheel II (3-19) is fixedly arranged on the connecting shaft (3-17), the auxiliary belt wheel (3-20) is rotatably arranged on the mounting box (3-1), the transmission belt III (3-21) is arranged on the auxiliary belt wheel (3-20), the receiving belt wheel II (3-19) and the belt wheel I (1-27), and the discharge hole (3-22) is formed in the mounting box (3-1).

4. The intelligent battery production material separation device according to claim 2, wherein: the feeding pipe (1-2) of the feeding and separating device (1) is provided with a feeding device, and the fine material collecting and discharging device (1-28) is connected with a fine material collecting and storing device.

5. The intelligent battery production material separation device according to claim 3, wherein: and a driving shaft (3-10) of the qualified material cleaning device (3) is provided with a matched motor.

Technical Field

The invention relates to separation equipment, in particular to intelligent separation equipment for battery production materials.

Background

The battery is one of the essential articles in our life, can provide more convenient electric energy for us, and the material is required to be separated in the battery production process, so that the intelligent separation equipment for the battery production material is invented.

Disclosure of Invention

The invention relates to intelligent separation equipment for battery production materials, in particular to intelligent separation equipment for battery production materials.

For solving above-mentioned technical problem, a battery production material intelligent splitter, including feed separator, the broken breaker of light material, qualified material belt cleaning device, carry out the screening of three kinds of circumstances through feed separator to the material of production battery, the broken breaker of light material carries out corresponding processing to the light material of screening out, and qualified material belt cleaning device washs and discharges the function such as its characterized in that screening out qualified material: the feeding separation device is fixedly arranged on the qualified material cleaning device, and the light material breaking and crushing device is fixedly arranged on the feeding separation device and the qualified material cleaning device.

As a further optimization of the technical scheme, the invention relates to an intelligent separation device for battery production materials, which comprises a fixed pipe, a feeding pipe, a discharge port, an installation block, a baffle ring, a first opening, a screening cylinder, a spiral push plate, a belt wheel ring, a first transmission belt, a first blowing passing cylinder, a discharge pipeline, a tooth surface turbine, a first installation seat, a first transmission shaft, a first gear, a first receiving belt wheel, a second installation seat, a second transmission shaft, a first output belt wheel, a second transmission belt, a second inclined gear ring belt wheel, a third installation seat, a third transmission shaft, a first bevel gear, a second gear, a first belt wheel and a fine material collecting and discharging device, wherein the feeding pipe is installed and fixed on the fixed pipe, the discharge port is arranged on the fixed pipe, the installation block is installed and fixed inside the fixed pipe, the baffle ring is installed and fixed on the installation block, the first opening is arranged on the baffle ring, the screening cylinder is rotatably installed on the baffle ring and inside the fixed pipe, the spiral push plate is installed and fixed inside the sieving cylinder, the belt wheel ring is installed and fixed on the sieving cylinder, the first transmission belt is installed on the belt wheel ring and the inclined gear ring belt wheel, the air blowing is installed and fixed on the discharge pipeline through the cylinder, the tooth surface turbine is rotatably installed inside the air blowing passing cylinder, the first installation seat is installed and fixed on the air blowing passing cylinder, the first transmission shaft is rotatably installed and fixed on the first installation seat, the first gear is installed and fixed on the first transmission shaft, the first receiving belt wheel is installed and fixed on the first transmission shaft, the second installation seat is installed and fixed on the air blowing passing cylinder, the second transmission shaft is rotatably installed on the second installation seat, the first output belt wheel is installed and fixed on the second transmission shaft, the third installation seat is installed and fixed on the discharge pipeline, the third transmission shaft is rotatably installed on the third installation seat, and the first bevel gear is installed and fixed on the third transmission shaft, the bevel gear I is meshed with the helical gear belt wheel, the gear II is fixedly installed on the transmission shaft III, the belt wheel I is fixedly installed on the transmission shaft III, and the fine material collecting and discharging device is fixedly installed on the fixed pipe.

As a further optimization of the technical scheme, the invention relates to an intelligent battery production material separation device, which comprises an installation box, a feed inlet, a cleaning cavity, a material distribution groove, a push outlet, a belt shaft screening plate, a half bevel gear I, a half bevel gear II, an installation seat IV, a driving shaft, an output gear, an output bevel gear, a rotating hole cylinder, a bevel gear IV, a discharge spiral plate, an installation plate, a connecting shaft, a bevel gear V, a receiving belt wheel II, an auxiliary belt wheel, a transmission belt III and a discharge hole, wherein a discharge pipeline is fixedly arranged on the installation box, the feed inlet is arranged on the installation box, the cleaning cavity is arranged inside the installation box, the material distribution groove is arranged inside the installation box, the push outlet is arranged inside the installation box, the belt shaft screening plate is rotatably arranged inside the installation box, the half bevel gear I is fixedly arranged on the belt shaft screening plate, the half bevel gear II is fixedly arranged on the belt shaft screening plate, the fourth mounting seat is fixedly installed on the mounting box, the driving shaft is rotatably installed on the fourth mounting seat, the output gear is fixedly installed on the driving shaft, the output gear is meshed with the second gear, the output bevel gear is fixedly installed on the driving shaft, the rotary hole cylinder is rotatably installed inside the mounting box, the fourth bevel gear is fixedly installed on the rotary hole cylinder, the discharging spiral plate is fixedly installed on the rotary hole cylinder, the mounting plate is fixedly installed on the mounting box, the connecting shaft is rotatably installed on the mounting plate, the fifth bevel gear is fixedly installed on the connecting shaft, the fifth bevel gear is meshed with the fourth bevel gear, the second receiving belt wheel is fixedly installed on the connecting shaft, the auxiliary belt wheel is rotatably installed on the mounting box, the third transmission belt is installed on the auxiliary belt wheel, the second receiving belt wheel and the first belt wheel, and the discharging hole is formed in the mounting box.

As a further optimization of the technical scheme, the battery production material intelligent separation equipment provided by the invention has the advantages that the feeding pipe of the feeding and separating device is provided with the feeding device, and the fine material collecting and discharging device is connected with the fine material collecting and storing device.

As further optimization of the technical scheme, the intelligent separation equipment for the battery production materials is characterized in that a driving shaft of the qualified material cleaning device is provided with a matched motor.

The intelligent separation equipment for the battery production material has the beneficial effects that:

the invention relates to intelligent separation equipment for battery production materials, in particular to intelligent separation equipment for battery production materials, which realizes the functions of screening the materials for producing batteries under three conditions through a feeding separation device, correspondingly processing screened light materials through a light material breaking and crushing device, cleaning and discharging screened qualified materials through a qualified material cleaning device and the like.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a first structural schematic diagram of the feeding and separating device of the present invention.

Fig. 4 is a structural schematic diagram of a feeding and separating device of the invention.

FIG. 5 is a first schematic structural view of a qualified material cleaning apparatus according to the present invention.

FIG. 6 is a schematic structural view of a qualified material cleaning apparatus according to the present invention.

FIG. 7 is a third schematic structural view of a qualified material cleaning apparatus according to the present invention.

In the figure: a feed separation device 1; a fixed tube 1-1; a feed pipe 1-2; an outlet 1-3; mounting blocks 1-4; 1-5 parts of a baffle ring; 1-6 of an opening; 1-7 parts of a screening cylinder; 1-8 parts of a spiral push plate; 1-9 of a belt wheel ring; 1-10 parts of a first transmission belt; blowing air through the cartridges 1-11; discharge lines 1-12; tooth surface turbines 1-13; mounting seats I1-14; 1-15 parts of a first transmission shaft; gears 1-16; receiving belt wheels 1-17; mounting seats II 1-18; a second transmission shaft 1-19; 1-20 of an output belt wheel; a second transmission belt 1-21; 1-22 parts of a helical gear ring belt wheel; mounting seats III 1-23; a third transmission shaft 1-24; 1-25 parts of a first bevel gear; gears two 1-26; 1-27 of a first belt wheel; fine material collecting and discharging devices 1-28; the light substance breaking and crushing device 2; a qualified material cleaning device 3; mounting a box 3-1; a feed port 3-2; 3-3 of a cleaning cavity; 3-4 parts of a distributing trough; a push-out port 3-5; 3-6 of a screening plate with a shaft; 3-7 parts of a half bevel gear I; 3-8 parts of a half bevel gear II; mounting seats IV 3-9; 3-10 parts of a driving shaft; output gears 3-11; output bevel gears 3-12; rotating the perforated cylinder by 3-13; bevel gears four 3-14; 3-15 parts of discharge spiral plate; mounting plates 3-16; connecting shafts 3-17; bevel gears five 3-18; receiving belt wheels II 3-19; 3-20 of auxiliary belt wheel; 3-21 parts of a transmission belt; discharge holes 3-22.

Detailed Description

The first embodiment is as follows:

in order to solve the above technical problems, an intelligent separation device for battery production materials comprises a feeding separation device 1, a light material breaking and crushing device 2 and a qualified material cleaning device 3, wherein the feeding separation device is used for screening materials for producing batteries under three conditions, the light material breaking and crushing device is used for correspondingly treating screened light material, and the qualified material cleaning device is used for cleaning and discharging screened qualified materials, and is characterized in that: the feeding and separating device 1 is fixedly arranged on the qualified material cleaning device 3, the light material breaking and crushing device 2 is fixedly arranged on the feeding and separating device 1, and the qualified material cleaning device 3.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, and 7, which further describes the first embodiment, the material is fed into the sieving cylinder 1-7 through the feeding pipe 1-2 of the feeding and separating device 1, the helical toothed belt pulley 1-22 drives the pulley ring 1-9 to rotate through the driving belt 1-10, then the sieving cylinder 1-7 rotates under the action of the pulley ring 1-9, which drives the part of the helical push plate 1-8 inside the sieving cylinder 1-7 to rotate, the rotating sieving cylinder 1-7 correspondingly separates the materials with different sizes, the small size will fall into the fixed pipe 1-1 through the sieving cylinder 1-7 and then be discharged from the fine material collecting and discharging device 1-28, at the same time, the helical push plate 1-8 will push up the qualified material and then enter the blowing through cylinder 1-11, when the materials are discharged from a discharge pipeline 1-12, an oblique gear ring belt wheel 1-22 drives an output belt wheel 1-20 to rotate through a transmission shaft II 1-19, the output belt wheel 1-20 drives a receiving belt wheel 1-17 to rotate through a transmission belt II 1-21, the receiving belt wheel 1-17 drives a gear wheel 1-16 to rotate through a transmission shaft I1-15, the gear wheel I1-16 drives a gear surface turbine 1-13 to rotate, light materials in the materials which are not leaked are blown to a light material crushing device 2 to be treated, in order to enable a more complete screening of the openings 1-6 of the baffle rings 1-5 to be opened regularly for the rapid introduction of material into the screening cylinder 1-7, the material in the discharge conduit 1-12 then enters the cleaning chamber 3-3 of the acceptable material cleaning device 3.

The third concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6 and 7, the present embodiment will be further described, wherein the driving shaft 3-10 rotates to drive the output gear 3-11 and the output bevel gear 3-12 to rotate, the output bevel gear 3-12 reciprocates and the half bevel gear 3-7 meshes with the half bevel gear 3-8, so as to drive the belt shaft screening plate 3-6 to rotate in a reciprocating manner, then the belt shaft screening plate 3-6 pushes up and washes the material to be washed along the end of the distributing chute 3-4, then the material passes through the distributing chute 3-4, follows the inclined surface of the belt shaft screening plate 3-6, then rolls from the distributing chute 3-4 to the other side of the belt shaft screening plate 3-6, and then when the belt shaft screening plate 3-6 rotates in the reverse direction, the material is discharged through the push-out port 3-5, meanwhile, the output gear 3-11 drives the transmission shaft III 1-24 to rotate through the gear II 1-26, the transmission shaft III 1-24 drives the bevel gear I1-25 and the belt wheel I1-27 to rotate, the bevel gear I1-25 drives the bevel ring belt wheel 1-22 to rotate, the belt wheel I1-27 drives the receiving belt wheel II 3-19 to rotate through the transmission belt III 3-21, the receiving belt wheel II 3-19 drives the bevel gear V3-18 to rotate through the connecting shaft 3-17, the bevel gear V3-18 drives the rotary hole cylinder 3-13 to rotate through the bevel gear IV 3-14, the rotary hole cylinder 3-13 drives the discharging spiral plate 3-15 to rotate to discharge the washed materials, and meanwhile, the rotary hole cylinder 3-13 is connected with a drying device to simply dry the materials.

The fourth concrete implementation mode:

in the following, the present embodiment is described with reference to fig. 1, 2, 3, 4, 5, 6, and 7, and the second embodiment is further described, in which the feeding pipe 1-2 of the feeding and separating device 1 is provided with a feeding device, and the fines collecting and discharging device 1-28 is connected to a fines collecting and storing device.

The fifth concrete implementation mode:

the third embodiment is further described below with reference to fig. 1, 2, 3, 4, 5, 6, and 7, and the driving shafts 3 to 10 of the qualified material cleaning apparatus 3 are provided with a matching motor.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.