CN113566555B

CN113566555B - Dryer feeding device for new energy battery

Info

Publication number: CN113566555B
Application number: CN202111126012.5A
Authority: CN
Inventors: 高建国
Original assignee: Changzhou Chuangjia Drying Technology Co ltd
Current assignee: Changzhou Chuangjia Drying Technology Co ltd
Priority date: 2021-09-26
Filing date: 2021-09-26
Publication date: 2021-12-31
Anticipated expiration: 2041-09-26
Also published as: CN113566555A

Abstract

The invention relates to a feeding device of a dryer for a new energy battery. Desiccator loading attachment for new forms of energy battery includes: drying equipment and feeding equipment; the feeding equipment is fixedly arranged below a feeding hole of the drying equipment; the feeding equipment comprises a fixing column, a feeding cylinder, a feeding platform and a material bin. Crushing apparatus smashes new forms of energy battery on the material loading platform, fragment after smashing directly falls into the material storehouse, at this moment, drive the removal of material loading platform through the material loading cylinder, accomplish the rising of material storehouse, and simultaneously, through spacing platform and material loading cylinder and material loading platform's hinge structure, can make the material loading platform rise to the continuous emergence slope that rises of spacing platform after, the material storehouse is direct to be gone into drying equipment's feed inlet this moment, the manual contact is avoided to whole process, and simultaneously, the transportation from smashing to drying has been shortened to the at utmost, thereby the harm of heavy metal has been reduced.

Description

Dryer feeding device for new energy battery

Technical Field

The invention relates to the field of new energy batteries, in particular to a dryer feeding device for a new energy battery.

Background

The existing treatment process of the waste new energy battery generally adopts crushing and drying for treatment, crushed battery materials are treated, and substances such as heavy metals are separated for recycling.

The feeding of present desiccator is artifical feeding generally, will hold the artifical desiccator of putting into of material storehouse that has the new forms of energy battery after smashing and dry, nevertheless there are many heavy metal substances in the new forms of energy battery after the smashing, can harm human health, therefore how to shorten the transmission course between smashing and the drying, and it is present that the manual contact of avoiding simultaneously is urgent to solve.

Disclosure of Invention

The invention aims to provide a feeding device of a dryer for a new energy battery.

In order to solve the technical problem, the invention provides a new energy battery dryer feeding device, which comprises:

drying equipment and feeding equipment;

the feeding equipment is fixedly arranged below a feeding hole of the drying equipment;

the feeding equipment comprises a fixing column, a feeding cylinder, a feeding platform and a material bin;

the fixing column is fixedly arranged on the drying equipment;

the feeding cylinder is fixedly arranged on the fixing column;

the feeding platform is hinged to the lifting end of the feeding cylinder, and one end of the feeding platform is connected with the feeding equipment in a sliding mode;

the material bin is placed on the feeding platform;

the feeding platform is suitable for being driven by the feeding cylinder to ascend to a feeding hole of the drying equipment;

the lower end of the feed inlet of the drying equipment is provided with a limiting table;

the feeding platform is further suitable for being driven by the feeding air cylinder to limit and incline the limiting table, so that the material bin is conveyed into a feeding hole of the drying equipment in a sliding mode.

Furthermore, the surface of the limiting table, which is contacted with the feeding platform, is inclined.

Furthermore, the feed inlet is provided with a lifting door;

the lifting door is adapted to descend after the bin enters the drying apparatus.

Furthermore, a plurality of feed inlets are formed in the drying equipment, and each feed inlet is provided with a transmission assembly;

the conveying assembly is suitable for conveying the material bin sliding into the feeding hole into the drying equipment.

Furthermore, both ends of each feed inlet are provided with limiting platforms.

Furthermore, a plurality of water filtering holes are formed in the bottom of the material bin.

Further, the feeding equipment also comprises a cover bin.

Further, the dryer feeding device for the new energy battery further comprises a discharging liquid containing pool and crushing equipment;

the discharge liquid containing tank is fixedly arranged below a feed port of the drying equipment;

the crushing equipment is arranged above the discharge liquid containing pool and is fixedly arranged above a feeding hole of the drying equipment;

the crushing device comprises a lifting assembly, a moving assembly and a crushing assembly;

the crushing assembly is fixedly arranged on the lifting assembly and is suitable for entering the discharging liquid containing pool under the driving of the lifting assembly;

the lifting assembly is fixedly arranged on the moving assembly and is suitable for driving the crushing assembly entering the discharging liquid containing pool to move along the bottom of the discharging liquid containing pool under the driving of the moving assembly, so that the new energy battery which is completely discharged in the discharging liquid containing pool is shoveled;

the crushing assembly is further suitable for being driven by the lifting assembly to leave the discharging liquid containing pool and crushing the scooped new energy batteries.

Furthermore, the crushing assembly of the crushing device comprises a fixed crushing plate, a movable crushing plate, a telescopic mechanism, a first side plate and a second side plate;

the fixed crushing plate is vertically arranged and fixedly arranged at the lower part of the lifting end of the lifting assembly;

the movable crushing plate is hinged to the bottom of the fixed crushing plate;

the fixed end of the telescopic mechanism is hinged to the fixed crushing plate, and the telescopic end of the telescopic mechanism is hinged to the movable crushing plate and is suitable for driving the movable crushing plate to face or be far away from the fixed crushing plate;

one end of the first side plate and one end of the second side plate are respectively and vertically fixed on two side edges of the movable crushing plate, and the other end of the first side plate and the other end of the second side plate respectively penetrate through the fixed crushing plate;

the material bin is arranged at the hinged position of the movable crushing plate and the fixed crushing plate;

the first side plate and the second side plate are suitable for abutting against the material bin when the movable crushing plate moves towards the fixed crushing plate.

Further, a water leakage cavity is formed in the top surface of the feeding platform;

the bottom of the water leakage cavity is inclined;

a water flowing port is formed in the side wall of the feeding platform;

the water flowing port is communicated with the water leakage cavity.

The invention has the beneficial effect that the invention provides a feeding device of a dryer for a new energy battery. Desiccator loading attachment for new forms of energy battery includes: drying equipment and feeding equipment; the feeding equipment is fixedly arranged below a feeding hole of the drying equipment; the feeding equipment comprises a fixing column, a feeding cylinder, a feeding platform and a material bin; the fixing column is fixedly arranged on the drying equipment; the feeding cylinder is fixedly arranged on the fixing column; the feeding platform is hinged to the lifting end of the feeding cylinder, and one end of the feeding platform is connected with the feeding equipment in a sliding mode; the material bin is placed on the feeding platform; the feeding platform is suitable for being driven by the feeding cylinder to ascend to a feeding hole of the drying equipment; the lower end of the feed inlet of the drying equipment is provided with a limiting table; the feeding platform is further suitable for being driven by the feeding air cylinder to limit and incline the limiting table, so that the material bin is conveyed into a feeding hole of the drying equipment in a sliding mode. Crushing apparatus smashes new forms of energy battery on the material loading platform, fragment after smashing directly falls into the material storehouse, at this moment, drive the removal of material loading platform through the material loading cylinder, accomplish the rising of material storehouse, and simultaneously, through spacing platform and material loading cylinder and material loading platform's hinge structure, can make the material loading platform rise to the continuous emergence slope that rises of spacing platform after, the material storehouse is direct to be gone into drying equipment's feed inlet this moment, the manual contact is avoided to whole process, and simultaneously, the transportation from smashing to drying has been shortened to the at utmost, thereby the harm of heavy metal has been reduced.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural diagram of a feeding device of a dryer for a new energy battery provided by the invention.

Fig. 2 is a sectional view of a feeding device of a dryer for a new energy battery provided by the invention.

Fig. 3 is an enlarged view at a in fig. 2.

Fig. 4 is a schematic structural view of the crushing apparatus provided by the present invention.

Figure 5 is a state diagram of the crushing apparatus provided by the present invention at a maximum angle.

Figure 6 is a diagram of the crushing apparatus provided by the present invention in a closed state.

In the figure: 110. a drying device; 111. a feed inlet; 112. a lift gate; 113. covering the bin; 120. a discharge liquid holding tank; 130. a crushing device; 131. a lifting assembly; 1311. a fixing plate; 1312. a lifting cylinder; 132. a moving assembly; 133. a size reduction assembly; 1331. fixing a crushing plate; 1331a, a first crushing column; 1331b, a first pulverizing hole; 1332. a dynamic crushing plate; 1332a, a second crushing column; 1332b, a second crushing hole; 1333. a telescoping mechanism; 1334. a first side plate; 1335. a second side plate; 1336. a limiting block; 140. feeding equipment; 141. fixing a column; 142. a feeding cylinder; 143. a feeding platform; 1431. a water leakage cavity; 1432. a water flowing port; 144. a material bin; 1441. water filtering holes; 145. and a limiting table.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Example 1

Referring to fig. 1 to 6, embodiment 1 provides a feeding device of a dryer for a new energy battery. Desiccator loading attachment for new forms of energy battery includes: a drying device 110, a feeding device 140; the feeding device 140 is fixedly arranged below the feeding hole 111 of the drying device 110; the feeding device 140 comprises a fixed column 141, a feeding cylinder 142, a feeding platform 143 and a material bin 144; the fixing column 141 is fixedly arranged on the drying device 110; the feeding cylinder 142 is fixedly arranged on the fixing column 141; the feeding platform 143 is hinged to the lifting end of the feeding cylinder 142, and one end of the feeding platform 143 is slidably connected with the feeding device 140; the material bin 144 is placed on the feeding platform 143; the feeding platform 143 is adapted to be driven by the feeding cylinder 142 to ascend to the feeding hole 111 of the drying device 110; the lower end of the feed inlet 111 of the drying device 110 is provided with a limit table 145; the feeding platform 143 is further adapted to be driven by the feeding cylinder 142 to be limited and inclined by the limiting table 145, so as to slidingly feed the material bin 144 into the feeding hole 111 of the drying device 110. Crushing equipment smashes the new energy batteries on feeding platform 143, the fragment after smashing directly falls into material storehouse 144, at this moment, drive the removal of feeding platform 143 through material loading cylinder 142, accomplish the rising of material storehouse 144, simultaneously, through spacing platform 145 and the articulated structure of material loading cylinder 142 and feeding platform 143, can make material loading platform 143 continue to rise when rising to spacing platform 145 and take place the slope, material storehouse 144 directly slips into the feed inlet 111 of drying equipment 110 this moment, the whole process avoids the manual contact, simultaneously, the transportation from smashing to drying has been shortened to the at utmost, thereby the harm of heavy metal has been reduced.

In this embodiment, a surface of the limiting table 145 contacting the feeding platform 143 is inclined.

In this embodiment, the feed inlet 111 is provided with a lifting door 112; the lift gate 112 is adapted to be lowered after the bin 144 enters the drying apparatus 110. Because the desiccator adopts the mode of high temperature to carry out the drying, can make the free speed of heavy metal become fast, through setting up overhead door 112 this moment, reduce the harm of heavy metal by a wide margin.

In this embodiment, the drying device 110 is provided with a plurality of feeding holes 111, and each feeding hole 111 is provided with a conveying assembly; the transfer assembly is adapted to feed the material bin 144, which slides into the feed opening 111, into the drying apparatus 110. Wherein, both ends of each feed inlet 111 all are provided with spacing platform 145.

In this embodiment, the bottom of the material bin 144 is provided with a plurality of water filtering holes 1441. Discharge liquid attached to the crushed new energy battery flows out of the water filtering hole 1441.

In this embodiment, the loading device 140 further includes a cover bin 113. Because the desiccator adopts the mode of high temperature to carry out the drying, can make the free speed of heavy metal become fast, through setting up the lid storehouse 113 this moment, reduce the harm of heavy metal by a wide margin. In this embodiment, the feeding device of the dryer for new energy batteries further includes a discharging liquid containing tank 120 and a crushing device 130; the discharging liquid holding tank 120 is fixedly arranged below the feeding hole of the drying device 110; the crushing device 130 is arranged above the discharge liquid containing pool 120 and is fixedly arranged above a feeding hole of the drying device 110; the crushing apparatus 130 comprises a lifting assembly 131, a moving assembly 132 and a crushing assembly 133; the crushing assembly 133 is fixedly arranged on the lifting assembly 131 and is suitable for entering the discharging liquid holding pool 120 under the driving of the lifting assembly 131; the lifting assembly 131 is fixedly arranged on the moving assembly 132 and is suitable for driving the crushing assembly 133 entering the discharging liquid containing pool 120 to move along the bottom of the discharging liquid containing pool 120 under the driving of the moving assembly 132, so as to scoop up the new energy battery completely discharged in the discharging liquid containing pool 120; the crushing assembly 133 is further adapted to leave the discharging liquid containing pool 120 under the driving of the lifting assembly 131, and is adapted to crush the scooped new energy batteries.

When the novel energy battery discharging device is used specifically, waste new energy batteries are placed into the discharging liquid containing pool 120 to be discharged, after the discharging time reaches a specified discharging time, the lifting assembly 131 descends the crushing assembly 133 until the discharging liquid containing pool 120 enters, the moving assembly 132 drives the crushing assembly 133 to move along the bottom of the discharging liquid containing pool 120, so that the completely discharged new energy batteries are scooped up, then the lifting assembly 131 drives the crushing assembly 133 to ascend, and when the discharging assembly ascends to a preset position, the scooped new energy batteries are crushed through the crushing assembly 133.

In this embodiment, the pulverizing assembly 133 includes a fixed pulverizing plate 1331, a movable pulverizing plate 1332 and a telescopic mechanism 1333; the fixed crushing plate 1331 is vertically arranged and fixedly arranged at the lower part of the lifting end of the lifting assembly 131; the movable pulverizing plate 1332 is hinged at the bottom of the fixed pulverizing plate 1331; the fixed end of telescopic machanism 1333 articulates on deciding crushing board 1331, telescopic machanism 1333's flexible end articulates on moving crushing board 1332, and be suitable for to drive move crushing board 1332 towards or keep away from deciding crushing board 1331. Specifically, the movable crushing plate 1332 and the fixed crushing plate 1331 are continuously driven to be close to and far away from each other by the telescopic mechanism 1333, at the moment, the new energy battery at the hinged position can be continuously crushed in the process, the state that the fixed crushing plate 1331 and the movable crushing plate 1332 are at the maximum angle is shown in fig. 5, the state that the fixed crushing plate 1331 and the movable crushing plate 1332 are completely closed is shown in fig. 6, an electric driving part in the telescopic mechanism cannot be in contact with the new energy battery with the discharging liquid, and therefore the discharged battery can be directly crushed without being dried, and the problem that the discharging liquid needs to be dried and then crushed in the prior art is solved.

In this embodiment, the hinge joint between the fixed pulverizing plate 1331 and the movable pulverizing plate 1332 is provided with a gap and connected by a soft filtering net. The new energy batteries crushed at the hinge of the movable crushing plate 1332 and the fixed crushing plate 1331 flow into the feed inlet of the drying device 110 from the filter screen after being crushed, and are then dried by the drying device 110.

In this embodiment, the fixed pulverizing plate 1331 is provided with a plurality of rows of first pulverizing columns 1331a at intervals; a first crushing hole 1331b is formed between two adjacent first crushing columns 1331 a; a second crushing hole 1332b is formed at a position of the movable crushing plate 1332 corresponding to the first crushing column 1331a of the fixed crushing plate 1331; a second crushing column 1332a is arranged at the position of the movable crushing plate 1332 corresponding to the first crushing hole 1331b of the fixed crushing plate 1331; when the telescopic mechanism 1333 drives the movable pulverizing plate 1332 to move towards the fixed pulverizing plate 1331, the first pulverizing column 1331a enters the second pulverizing hole 1332b, and the second pulverizing column 1332a enters the first pulverizing hole 1331 b. The new energy battery is crushed by matching the crushing mode of chewing food. When the movable crushing plate 1332 reciprocates along with the telescopic mechanism 1333, part of the first crushing columns 1331a are pressed into the second crushing holes 1332b, and part of the second crushing columns 1332a are pressed into the first crushing holes 1331b, and the new energy batteries can be subjected to a plurality of staggered crushing forces during crushing through staggered arrangement, so that crushing is realized.

In other embodiments, it is within the scope of the present invention that only the first pulverizing column 1331a is disposed on the fixed pulverizing plate 1331, and only the second pulverizing hole 1332b is disposed on the movable pulverizing plate 1332, or any other matching manner is adopted as long as the movable pulverizing plate 1332 and the fixed pulverizing plate 1331 complete pulverizing the new energy battery in the approaching and departing processes.

In this embodiment, the size reduction assembly 133 further comprises a first side plate 1334 and a second side plate 1335; one end of the first side plate 1334 and one end of the second side plate 1335 are respectively and vertically fixed on two side edges of the movable pulverizing plate 1332, and the other end of the first side plate 1334 and the other end of the second side plate 1335 respectively penetrate through the fixed pulverizing plate 1331. By providing the first side plate 1334 and the second side plate 1335, the battery pieces or batteries within the shredder assembly 133 are prevented from falling out.

In this embodiment, the material bin 144 is disposed at a hinge joint of the movable crushing plate and the fixed crushing plate; the first side plate and the second side plate are adapted to abut against the material bin 144 when moving towards the fixed crushing plate along with the movable crushing plate.

In this embodiment, a water leakage cavity 1431 is formed on the top surface of the feeding platform 143; the bottom of the water leakage cavity 1431 is inclined; a water flowing port 1432 is formed in the side wall of the feeding platform 143; the water flow port 1432 is in communication with the water leakage cavity 1431. The discharge liquid flowing out of the water flowing port 1432 directly enters the discharge liquid holding tank.

In this embodiment, the maximum angle between the movable pulverizing plate 1332 and the fixed pulverizing plate 1331 is 120 ° to 150 °.

In this embodiment, the angle of the bottom of the discharge liquid container 120 is the same as the maximum angle between the movable pulverizing plate 1332 and the fixed pulverizing plate 1331. At this moment, the movable pulverizing plate 1332 of the pulverizing apparatus can be tightly attached to the bottom of the discharging liquid containing pool 120, so that the new energy battery in the bottom of the discharging liquid containing pool 120 is once fished out, and meanwhile, the bottom of the discharging liquid containing pool 120 is made into an inclined shape to be more beneficial to accumulation of impurities in the discharging liquid.

In this embodiment, the opening between the movable pulverizing plate 1332 and the fixed pulverizing plate 1331 faces the feed inlet of the drying apparatus 110. By arranging the opening towards the feed inlet of the drying apparatus 110, on the one hand, fragments dropped due to various factors also enter the feed inlet of the drying apparatus 110, and on the other hand, the mistaken touch of people is avoided, and safety accidents are prevented.

In this embodiment, a stop block 1336 is disposed above one end of the first side plate 1334 and the second side plate 1335 passing through the fixed pulverizing plate 1331; when the movable pulverizing plate 1332 and the fixed pulverizing plate 1331 are at the maximum angle, the limiting block 1336 is in contact with the fixed pulverizing plate 1331. The limiting block 1336 is used for limiting, the situation that the expansion mechanism 1333 is out of order and the like, so that the movable crushing plate 1332 is prevented from falling off, and the safety in the crushing process is ensured to a certain extent.

In this embodiment, the lifting assembly 131 includes a fixing plate 1311 and a lifting cylinder 1312; the fixing plate 1311 is fixed to the moving assembly 132; the lifting cylinder 1312 is fixed to the fixing plate 1311.

In this embodiment, the moving assembly 132 is a horizontal cylinder; the fixed end of horizontal cylinder is fixed on drying equipment 110, the removal end of horizontal cylinder with lifting unit 131 is fixed.

In conclusion, the invention provides a feeding device of a dryer for a new energy battery. Desiccator loading attachment for new forms of energy battery includes: drying equipment and feeding equipment; the feeding equipment is fixedly arranged below a feeding hole of the drying equipment; the feeding equipment comprises a fixing column, a feeding cylinder, a feeding platform and a material bin; the fixing column is fixedly arranged on the drying equipment; the feeding cylinder is fixedly arranged on the fixing column; the feeding platform is hinged to the lifting end of the feeding cylinder, and one end of the feeding platform is connected with the feeding equipment in a sliding mode; the material bin is placed on the feeding platform; the feeding platform is suitable for being driven by the feeding cylinder to ascend to a feeding hole of the drying equipment; the lower end of the feed inlet of the drying equipment is provided with a limiting table; the feeding platform is further suitable for being driven by the feeding air cylinder to limit and incline the limiting table, so that the material bin is conveyed into a feeding hole of the drying equipment in a sliding mode. Crushing apparatus smashes new forms of energy battery on the material loading platform, fragment after smashing directly falls into the material storehouse, at this moment, drive the removal of material loading platform through the material loading cylinder, accomplish the rising of material storehouse, and simultaneously, through spacing platform and material loading cylinder and material loading platform's hinge structure, can make the material loading platform rise to the continuous emergence slope that rises of spacing platform after, the material storehouse is direct to be gone into drying equipment's feed inlet this moment, the manual contact is avoided to whole process, and simultaneously, the transportation from smashing to drying has been shortened to the at utmost, thereby the harm of heavy metal has been reduced.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The utility model provides a desiccator loading attachment for new energy battery which characterized in that includes:

drying equipment and feeding equipment;

the fixing column is fixedly arranged on the drying equipment;

the feeding cylinder is fixedly arranged on the fixing column;

the material bin is placed on the feeding platform;

the feeding platform is also suitable for being limited and inclined by the limiting table under the driving of the feeding cylinder, so that the material bin is conveyed into a feeding hole of the drying equipment in a sliding manner;

the new energy battery dryer feeding device further comprises a discharging liquid containing pool and crushing equipment;

the crushing assembly is also suitable for leaving the discharge liquid containing pool under the driving of the lifting assembly and crushing the scooped new energy batteries;

the crushing assembly of the crushing device comprises a fixed crushing plate, a movable crushing plate, a telescopic mechanism, a first side plate and a second side plate;

the movable crushing plate is hinged to the bottom of the fixed crushing plate;

the first side plate and the second side plate are suitable for abutting against the material bin when moving towards the fixed crushing plate along with the movable crushing plate;

a gap is arranged at the hinged part of the fixed crushing plate (1331) and the movable crushing plate (1332) and is connected with the fixed crushing plate through a soft filter screen.

2. The charging device of the dryer for new energy batteries according to claim 1, wherein a surface of the limiting table contacting the charging platform is inclined.

3. The new energy battery dryer feeding device of claim 2, wherein the feeding hole is provided with a lifting door;

4. The dryer feeding device for new energy battery according to claim 3,

the drying equipment is provided with a plurality of feed inlets, and each feed inlet is provided with a transmission assembly;

5. The dryer feeding device for new energy battery according to claim 4,

the both ends of every feed inlet all are provided with spacing platform.

6. The new energy battery dryer feeding device of claim 1, wherein a plurality of water filtering holes are formed in the bottom of the material bin.

7. The dryer feeding device for the new energy battery as claimed in claim 1, wherein the feeding apparatus further comprises a cover bin.

8. The new energy battery dryer feeding device of claim 1, wherein a water leakage cavity is formed in the top surface of the feeding platform;

the bottom of the water leakage cavity is inclined;

a water flowing port is formed in the side wall of the feeding platform;

the water flowing port is communicated with the water leakage cavity.