CN218968063U - Material carrying device and ternary positive electrode material sintering equipment - Google Patents

Abstract

The application provides a material carrying device and ternary positive electrode material sintering equipment. The material conveying device comprises a material moving mechanism, a material pouring mechanism and a guiding mechanism, wherein the material moving mechanism comprises a conveying frame body and a plurality of rotating rollers, and the conveying frame body and the rotating rollers form a material moving channel together; the material pouring mechanism comprises a material turning frame body, a material turning assembly and a fixing assembly, wherein the material turning assembly comprises a turning plate and a rotating shaft, the rotating shaft is rotationally connected with the turning plate, two ends of the rotating shaft are respectively connected with two sides of the material turning frame body, the fixing assembly comprises two fixing plates and two limiting buckles, a pot passing channel is formed by the two fixing plates together, and a buckling sagger area is formed in each limiting buckle; the guide mechanism comprises two guide plates, a guide discharge hole communicated with the material moving channel is formed between the two guide plates, and the guide discharge hole is also communicated with the bowl passing channel. Through the setting of moving material mechanism, reduce distance and intensity that the staff carried the material, alleviate work load, improve material handling efficiency.

Description

Material carrying device and ternary positive electrode material sintering equipment

Technical Field

The utility model relates to the technical field of auxiliary equipment for producing battery materials, in particular to a material carrying device and ternary positive electrode material sintering equipment.

Background

In the existing sintering process of ternary cathode materials, materials of sagger on a production line are required to be carried and collected due to equipment failure or abnormal product indexes. The traditional method is to manually remove the sagger from the production line of the kiln, and then pour and recycle the materials in the sagger.

However, the total weight of the sagger and the materials contained in the sagger can reach 8-10KG, more manpower is required for manually carrying the materials, the workload of workers is increased, and the material carrying efficiency is low.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide a material conveying device and ternary positive electrode material sintering equipment, which can reduce the workload of workers and improve the material conveying efficiency.

The aim of the utility model is realized by the following technical scheme:

the material moving device comprises a material moving mechanism, a material pouring mechanism and a guide mechanism, wherein the material moving mechanism comprises a transportation frame body and a plurality of rotating rollers, and each rotating roller is rotationally connected with the transportation frame body so that the transportation frame body and the rotating rollers form a material moving channel together; the material pouring mechanism comprises a material turning frame body, a material turning assembly and a fixing assembly, wherein the material turning frame body is connected with the transportation frame body, the material turning assembly comprises a turning plate and a rotating shaft, the rotating shaft is rotationally connected with the turning plate, and two ends of the rotating shaft are respectively connected with two sides of the material turning frame body; the fixing assembly comprises two fixing plates and two limiting buckles, the two fixing plates are oppositely arranged on the overturning plate and jointly form a bowl passing channel, each limiting buckle is arranged adjacent to one end of one fixing plate, a buckling sagger area is formed in each limiting buckle, and the buckling sagger areas of the two limiting buckles are jointly used for buckling and limiting a sagger; the guide mechanism comprises two guide plates, the two guide plates are oppositely arranged on two sides of the frame body of the transport frame, the two guide plates are respectively provided with guide inclined planes which are oppositely arranged, a guide discharging hole communicated with the material moving channel is formed between the two guide plates, and the guide discharging hole is communicated with the bowl passing channel.

In one embodiment, the material moving mechanism further comprises a plurality of first supporting pieces, and the plurality of first supporting pieces are correspondingly arranged at two sides of the transportation frame body and used for supporting the transportation frame body; the material pouring mechanism further comprises a plurality of second supporting pieces, and the second supporting pieces are correspondingly arranged on two sides of the frame body of the material turning frame.

In one embodiment, a first self-locking pulley is arranged at the bottom of each first supporting piece; the bottom of each second supporting piece is provided with a second self-locking pulley.

In one embodiment, a handle is provided at one end of the shaft, and the handle is used for rotating the shaft.

In one embodiment, the frame body of the material turning frame is further provided with a limiting column, and the limiting column is arranged adjacent to the handle.

In one embodiment, the material pouring mechanism further comprises a limiting piece, wherein the limiting piece is located on one side, adjacent to the transporting frame, of the material turning frame body, and the limiting piece is abutted with one end, adjacent to the material turning frame body, of the turning plate.

In one embodiment, the material turning frame body is detachably connected to the transportation frame body.

In one embodiment, an insertion plate is arranged at one end, adjacent to the material turning frame, of the transportation frame, a connecting plate is arranged at the material turning frame, a through groove is formed in the connecting plate, and one end of the insertion plate penetrates through the through groove so that the transportation frame is connected with the material turning frame; and/or the number of the groups of groups,

the material carrying device further comprises a recovery mechanism, the recovery mechanism comprises a collection bag and a bag lifting piece, the collection bag is placed on one face, deviating from the fixed component, of the turnover plate, the bag lifting piece is arranged on the frame body of the material turnover frame, and the bag lifting piece is used for lifting a lifting handle of the collection bag.

In one embodiment, each of the limiting buckles is inverted-L-shaped; and/or each guide plate is also movably connected with the frame body of the material turning frame.

The ternary cathode material sintering equipment comprises a kiln, a sagger conveying device and the carrying device in any embodiment, wherein a discharge hole of the kiln is communicated with a feeding end of the sagger conveying device, the discharge end of the sagger conveying device is correspondingly arranged with the material moving mechanism, and the sagger conveying device is used for conveying saggers in the kiln to the material moving channel.

Compared with the prior art, the utility model has the following advantages:

1. by arranging the material moving mechanism, the distance and the strength of workers to material conveying can be reduced, the workload is lightened, and the material conveying efficiency is improved;

2. the guide mechanism is arranged to prevent the sagger from sliding out of two sides of the frame body of the transportation frame during transportation, and is also used for precisely guiding the sagger into the two limit buckles to realize precise positioning;

3. the material pouring mechanism is arranged, the two fixing plates prevent the sagger from sliding out from the two sides of the turnover plate, the two limiting buckles fix the sagger, the sagger is prevented from falling off when the materials are poured, and the material pouring mechanism can prevent workers from contacting the sagger when the materials are poured, so that the materials are prevented from being poured onto the hands of the workers, and the safety risk is reduced;

4. the turning frame body is connected with the transporting frame body in a disassembling mode, so that when the material carrying device is damaged, the material carrying device can be detached and maintained according to the damaged part, the maintenance efficiency is improved, the material carrying device can be detached and used according to the actual use condition, and the flexibility is high.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a material handling apparatus according to an embodiment;

FIG. 2 is a schematic view of another structure of the carrying device shown in FIG. 1;

FIG. 3 is an enlarged view of the handling device shown in FIG. 1 at a;

reference numerals illustrate:

a material handling device 10; a material transfer mechanism 100; a transport frame body 110; a board 112; a transfer channel 1101; a rotating roller 120; a first support 130; a first self-locking pulley 132; a pouring mechanism 200; a turning frame body 210; a limit post 212; a connection plate 214; a turning assembly 220; a flipping plate 222; a first mounting hole 2221; a second mounting hole 2222; a rotation shaft 224; a handle 2241; a fixing assembly 230; a fixing plate 232; bowl passage 2321; a limit catch 234; a snap-fit sagger region 2341; a second support 240; a second self-locking pulley 242; a stopper 250; a guide mechanism 300; a guide plate 310; guide slope 3101; leading a discharge port 3102; a recovery mechanism 400; a collection bag 410; a bag member 420.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the utility model. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

For better understanding of the technical solutions and advantageous effects of the present application, the following details are further described with reference to specific embodiments:

referring to fig. 1 and fig. 2, a material handling device 10 according to an embodiment of the utility model includes a material transferring mechanism 100, a material pouring mechanism 200 and a guiding mechanism 300, wherein the material transferring mechanism 100 includes a transportation frame 110 and a plurality of rotating rollers 120, and each rotating roller 120 is rotatably connected to the transportation frame 110, so that the transportation frame 110 and the plurality of rotating rollers 120 together form a material transferring channel 1101; the material pouring mechanism 200 comprises a material turning frame body 210, a material turning assembly 220 and a fixing assembly 230, wherein the material turning frame body 210 is connected with the transportation frame body 110, the material turning assembly 220 comprises a turning plate 222 and a rotating shaft 224, the rotating shaft 224 is rotationally connected with the turning plate 222, and two ends of the rotating shaft 224 are respectively connected with two sides of the material turning frame body 210; the fixing assembly 230 comprises two fixing plates 232 and two limiting buckles 234, the two fixing plates 232 are oppositely arranged on the turnover plate 222 and jointly form a bowl passing channel 2321, each limiting buckle 234 is arranged adjacent to one end of one fixing plate 232, a buckling sagger region 2341 is formed in each limiting buckle 234, and the buckling sagger regions 2341 of the two limiting buckles 234 are jointly used for buckling and limiting a sagger; the guide mechanism 300 comprises two guide plates 310, the two guide plates 310 are oppositely arranged at two sides of the transportation frame body 110, the two guide plates 310 are respectively provided with guide inclined planes 3101 which are oppositely arranged, a guide discharging hole 3102 communicated with the material moving channel 1101 is formed between the two guide plates 310, and the guide discharging hole 3102 is also communicated with the bowl passing channel 2321.

In this embodiment, the sagger containing the material is placed in the material transferring channel 1101, and then the sagger is transported by the same rotation of the plurality of rotating rollers 120, and when the sagger is transported to the position of the guiding mechanism 300, the two guiding plates 310 are relatively arranged at two sides of the transporting frame 110, so that the sagger is prevented from sliding out from two sides of the transporting frame 110 during transportation; then, both sides of the sagger are guided by the two guiding inclined planes 3101, pass through the guiding discharging hole 3102 and move to the turning plate 222, and the fixing component 230 on the turning plate 222 is composed of two fixing plates 232 and two limiting buckles 234, and since the bowl passing channel 2321 communicated with the guiding discharging hole 3102 is formed between the two fixing plates 232, the sagger is moved to the bowl passing channel 2321 from the guiding discharging hole 3102, and the two fixing plates 232 prevent the sagger from sliding out from both sides of the turning plate 222. Pushing the sagger so that two sides of the sagger are positioned in a sagger buckling area 2341, and fixing the sagger through two limiting buckles 234; then, the turning plate 222 is turned by rotating the rotating shaft 224, so that the opening of the sagger is inclined, and the materials in the sagger are poured. After the dumping of the materials is completed, the buckling connection of the sagger and the two limiting buckles 234 can be disconnected, then the sagger sequentially passes through the sagger passing channel 2321, the guide discharging hole 3102 and the material moving channel 1101, and finally the sagger is recycled.

In this embodiment, by setting the material moving mechanism 100, the distance and strength for the staff to carry the material can be reduced, the workload can be reduced, and the material carrying efficiency can be improved; the guide mechanism 300 is arranged to prevent the sagger from sliding out from two sides of the frame body 110 of the transportation frame during transportation, and the guide mechanism 300 is also used for precisely guiding the sagger into the two limit buckles 234 to realize precise positioning; in the pouring mechanism 200, the two fixing plates 232 prevent the sagger from sliding out from the two sides of the overturning plate 222, the two limiting buckles 234 fix the sagger, the sagger is prevented from falling off when the materials are poured, and the pouring mechanism 200 is used, so that workers can be prevented from contacting the sagger when the materials are poured, and further the materials are prevented from being poured onto the hands of the workers, and the safety risk is reduced.

In one embodiment, referring to fig. 2, a plurality of rotating rollers 120 are sequentially spaced apart.

In one embodiment, referring to fig. 2, a first mounting hole 2221 and a second mounting hole 2222 are respectively formed on two sides of the turnover plate 222, and the rotating shaft 224 is respectively disposed in the first mounting hole 2221 and the second mounting hole 2222. In this way, the first mounting hole 2221 and the second mounting hole 2222 are provided to mount the rotation shaft 224 in the flipping plate 222.

In one embodiment, referring to fig. 1, the material transferring mechanism 100 further includes a plurality of first supporting members 130, where the plurality of first supporting members 130 are correspondingly disposed on two sides of the transportation frame 110 for supporting the transportation frame 110; the pouring mechanism 200 further includes a plurality of second supporting members 240, where the plurality of second supporting members 240 are correspondingly disposed on two sides of the frame 210 of the material turning frame. In the present embodiment, a plurality of first supporting members 130 and a plurality of second supporting members 240 are provided to support the transportation frame 110 and the material turning frame 210, respectively.

Further, a bottom of each first supporting member 130 is provided with a first self-locking pulley 132; the bottom of each second support 240 is provided with a second self-locking pulley 242. In this embodiment, the moving mechanism 100 and the pouring mechanism 200 are both convenient to move, and when the moving mechanism 100 and the pouring mechanism 200 reach the designated positions, the plurality of first supporting members 130 and the plurality of second supporting members 240 can be locked to prevent the moving mechanism and the pouring mechanism 200 from sliding, so that the workload of workers is reduced, and the carrying requirements of different procedures can be met.

In one embodiment, referring to fig. 2, a handle 2241 is provided at one end of the rotating shaft 224, and the handle 2241 is used to rotate the rotating shaft 224. Thus, the handle 2241 rotates the rotating shaft 224, so that the operation of a worker is facilitated.

Further, the frame 210 of the material turning frame is further provided with a limiting post 212, and the limiting post 212 is disposed adjacent to the handle 2241. Thus, by providing the limiting column 212, the rotation range of the handle 2241 is limited, so that the rotation angle of the turnover plate 222 is controlled, and the situation that the sagger falls down due to manual operation errors is avoided.

In one embodiment, referring to fig. 2, the pouring mechanism 200 further includes a limiting member 250, the limiting member 250 is located on a side of the turning frame 210 adjacent to the transporting frame 110, and the limiting member 250 abuts against an end of the turning plate 222 adjacent to the turning frame 210. In this way, the limiting piece 250 is arranged to limit the rotation direction of the overturning plate 222, so that the sagger can be poured from one end of the overturning plate 222 adjacent to the two limiting buckles 234, and the sagger can be well fixed by the two limiting buckles 234, and the sagger is prevented from falling.

In one embodiment, referring to fig. 2, the material turning frame 210 is detachably connected to the transportation frame 110. Because the turning frame body 210 is detachably connected with the transportation frame body 110, when the material carrying device 10 is damaged, the material carrying device 10 can be detached and maintained according to the damaged part, so that the maintenance efficiency is improved, the material carrying device 10 can be detached and used according to the actual use condition, and the flexibility is high.

In one embodiment, referring to fig. 1 to 3, an end of the transporting frame 110 adjacent to the material turning frame 210 is provided with a plugboard 112, the material turning frame 210 is provided with a connecting board 214, the connecting board 214 is provided with a through slot (not shown), and one end of the plugboard 112 is penetrated through the through slot so as to connect the transporting frame 110 with the material turning frame 210. In the present embodiment, the insertion plate 112 is disposed on the transportation frame 210, and the insertion plate 112 is inserted into the through slot of the connecting plate 214, so that the transportation frame 110 is movably connected with the turning frame 210. In this way, when the material handling device 10 is damaged, the transportation frame 110 and the material turning frame 210 can be disassembled and maintained according to the specific damaged part, so as to improve the maintenance efficiency. Further, the board 112 is hinged to the frame 210 by a hinge.

In one embodiment, referring to fig. 1, the material handling device 10 further includes a recycling mechanism 400, where the recycling mechanism 400 includes a collecting bag 410 and a bag lifting member 420, the collecting bag 410 is disposed on a surface of the overturning plate 222 opposite to the fixing component 230, the bag lifting member 420 is disposed on the frame 210 of the material overturning frame, and the bag lifting member 420 is used for lifting a handle of the collecting bag 410. Thus, the collection bag 410 is pulled by providing the carrying bag 420, and the collection bag 410 is used to collect the material poured from the sagger.

In one embodiment, referring to fig. 1 and 2, each of the limiting buckles 234 has an inverted L shape. It will be appreciated that the sagger is generally rectangular in configuration and that each limit catch 234 is of inverted L-shape to better fit and secure the sagger.

In one embodiment, each guide plate is also movably connected with the frame body of the material turning frame. Thus, the damaged guide plate is convenient to maintain and replace.

Optionally, each guide plate 310 is connected to the material turning frame 210 in addition to the transportation frame 110, so that the fixing of the guide mechanism 300 is ensured to be stable, and thus, a guiding effect can be better provided for the movement of the sagger.

The utility model also provides ternary positive electrode material sintering equipment, which comprises a kiln, a sagger conveying device and the material carrying device in any embodiment, wherein a discharge port of the kiln is communicated with a feed end of the sagger conveying device, the discharge end of the sagger conveying device is arranged corresponding to the material moving mechanism, and the sagger conveying device is used for conveying saggers in the kiln onto the material moving channel.

Compared with the prior art, the utility model has the following advantages:

1. by arranging the material moving mechanism, the distance and the strength of workers to material conveying can be reduced, the workload is lightened, and the material conveying efficiency is improved;

2. the guide mechanism is arranged to prevent the sagger from sliding out of two sides of the frame body of the transportation frame during transportation, and is also used for precisely guiding the sagger into the two limit buckles to realize precise positioning;

3. the material pouring mechanism is arranged, the two fixing plates prevent the sagger from sliding out from the two sides of the turnover plate, the two limiting buckles fix the sagger, the sagger is prevented from falling off when the materials are poured, and the material pouring mechanism can prevent workers from contacting the sagger when the materials are poured, so that the materials are prevented from being poured onto the hands of the workers, and the safety risk is reduced;

4. the turning frame body is connected with the transporting frame body in a disassembling mode, so that when the material carrying device is damaged, the material carrying device can be detached and maintained according to the damaged part, the maintenance efficiency is improved, the material carrying device can be detached and used according to the actual use condition, and the flexibility is high.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. A material handling apparatus, comprising:

the material moving mechanism comprises a transportation frame body and a plurality of rotating rollers, wherein each rotating roller is rotatably connected with the transportation frame body, so that the transportation frame body and the rotating rollers form a material moving channel together;

the material pouring mechanism comprises a material turning frame body, a material turning assembly and a fixing assembly, wherein the material turning frame body is connected with the transportation frame body, the material turning assembly comprises a turning plate and a rotating shaft, the rotating shaft is rotationally connected with the turning plate, and two ends of the rotating shaft are respectively connected with two sides of the material turning frame body; the fixing assembly comprises two fixing plates and two limiting buckles, the two fixing plates are oppositely arranged on the overturning plate and jointly form a bowl passing channel, each limiting buckle is arranged adjacent to one end of one fixing plate, a buckling sagger area is formed in each limiting buckle, and the buckling sagger areas of the two limiting buckles are jointly used for buckling and limiting a sagger;

the guide mechanism comprises two guide plates, the two guide plates are oppositely arranged on two sides of the frame body of the transport frame, the two guide plates are respectively provided with guide inclined planes which are oppositely arranged, a guide discharging hole communicated with the material moving channel is formed between the two guide plates, and the guide discharging hole is communicated with the bowl passing channel.

2. The material handling apparatus of claim 1, wherein the material handling mechanism further comprises a plurality of first supporting members, the plurality of first supporting members being disposed on two sides of the transport frame respectively for supporting the transport frame; the material pouring mechanism further comprises a plurality of second supporting pieces, and the second supporting pieces are correspondingly arranged on two sides of the frame body of the material turning frame.

3. The material handling apparatus of claim 2, wherein a bottom of each of the first supports is provided with a first self-locking pulley; the bottom of each second supporting piece is provided with a second self-locking pulley.

4. The material handling apparatus of claim 1, wherein one end of the shaft is provided with a handle for rotating the shaft.

5. The material handling apparatus of claim 4, wherein the material turning frame is further provided with a limit post, the limit post being disposed adjacent to the handle.

6. The handling device of claim 1, wherein the dumping mechanism further comprises a limiting member, the limiting member is located on a side of the turning frame adjacent to the transport frame, and the limiting member abuts against an end of the turning plate adjacent to the turning frame.

7. The material handling apparatus of claim 1, wherein the material turning frame is detachably connected to the transport frame.

8. The material handling device of claim 7, wherein an insertion plate is arranged at one end of the transportation frame adjacent to the material turning frame, the material turning frame is provided with a connecting plate, a through groove is formed in the connecting plate, and one end of the insertion plate is penetrated through the through groove so as to connect the transportation frame with the material turning frame; and/or the number of the groups of groups,

the material carrying device further comprises a recovery mechanism, the recovery mechanism comprises a collection bag and a bag lifting piece, the collection bag is placed on one face, deviating from the fixed component, of the turnover plate, the bag lifting piece is arranged on the frame body of the material turnover frame, and the bag lifting piece is used for lifting a lifting handle of the collection bag.

9. The material handling apparatus of claim 1, wherein each of the limit buckles is inverted L-shaped; and/or the number of the groups of groups,

each guide plate is also movably connected with the material turning frame body.

10. The ternary cathode material sintering equipment is characterized by comprising a kiln, a sagger conveying device and the carrying device according to any one of claims 1-9, wherein a discharge port of the kiln is communicated with a feed end of the sagger conveying device, the discharge end of the sagger conveying device is arranged corresponding to the material moving mechanism, and the sagger conveying device is used for conveying saggers in the kiln onto the material moving channel.

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