CN209777756U - Synchronous dust recovery device of lithium electric pot system - Google Patents

Abstract

The utility model relates to a powder processing equipment technical field especially relates to a lithium electricity dress alms bowl system dust synchronous recovery device, has set up three recovery pipeline respectively through the top of weighing hopper, the second at first and weighing hopper and pressing alms bowl ware (saggar), and three recovery pipeline is all connected with the entry of dust remover simultaneously, not only can in time clear away the dust of pressing the three position of alms bowl device, can also be with the dust synchronous recovery at three position, cyclic utilization, it is extravagant to reduce, improves production efficiency.

Description

synchronous dust recovery device of lithium electric pot system

Technical Field

The utility model relates to a powder processing equipment technical field especially relates to a synchronous recovery unit of lithium electricity dress alms bowl system dust.

Background

Utilize the alms bowl to load the powder at present, the powder that will load on the alms bowl is spread out, then utilize the flat shovel to carry out the powder to the alms bowl in and flatten the processing, the powder after flattening utilizes the cutter to carry out the powder stripping, because these are all manual works to handle, when loading the powder onto the alms bowl, cause the uplift of powder easily, cause the pollution of environment, thereby make the people inhale from the respiratory track, cause harm easily after inhaling the human body, at the in-process that flattens, also produce the phenomenon of uplift of powder easily, not only the polluted environment of these circumstances, still cause the defect of the waste of powder raw materials easily.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to solve and load the powder with the alms bowl among the prior art, the powder of raising not only polluted environment, still causes the defect of the waste of powder raw materials easily, the utility model provides a lithium electricity dress alms bowl system dust synchronous recovery device.

The utility model provides a technical scheme that its technical problem adopted is: a lithium battery pot loading system dust synchronous recovery device comprises a feeding hopper, a first weighing hopper, a second weighing hopper, a pot pressing device, a sagger, a conveying line body and a pot pressing vibration device which are sequentially arranged from top to bottom, and further comprises a pot loading station bin, a pot loading frame and a peripheral frame, wherein the volume of the peripheral frame is larger than that of the pot loading frame, the pot loading frame is fixedly arranged in the peripheral frame, the feeding hopper is fixedly arranged at the top of the peripheral frame, the feeding hopper is communicated with the first weighing hopper through a pipeline, the first weighing hopper is arranged in the pot loading station bin, the pot loading station bin is fixedly arranged on a first-order support of the pot loading frame, a first discharging pipeline connected with an outlet of the first weighing hopper is fixedly arranged on a second-order support of the pot loading frame, the second weighing hopper is fixedly arranged on a third-order support of the pot loading frame, the lower end of the first discharging pipeline is communicated with an inlet at the upper end of the second weighing hopper, the outlet of the second weighing hopper is connected with the saggar pressing device through a second discharging pipeline, the outlet of the saggar pressing device is communicated with the interior of the saggar, the saggar is arranged on the conveying line body, the saggar pressing vibration flattening device is arranged at the bottom of the saggar, the first discharging pipeline is further provided with a rotary valve and a first pneumatic butterfly valve, the middle of the peripheral frame is further provided with a spiral conveyer, an inlet of the spiral conveyer is connected with a synchronous recovery dust remover, the outlet of the spiral conveyer is communicated with the first weighing hopper through a pipeline, the upper portion of the feeding station bin is connected with a first recovery pipeline, the upper end of the second weighing hopper is connected with a second recovery pipeline, the upper end of the saggar pressing device is connected with a third recovery pipeline, and the first recovery pipeline, the second recovery pipeline and the third recovery pipeline are connected with the inlet of a suction pump and the synchronous recovery.

Further, in order to avoid the problem that the dust is directly fallen to the screw conveyer entry and is easily raised from the dust remover eminence, the lower extreme export of retrieving the dust remover in step still is connected with the surge bin, and the export of surge bin and screw conveyer's entry linkage, the entry and the export of surge bin all are provided with pneumatic butterfly valve.

The beneficial effects of the utility model are that, the utility model discloses a lithium electricity dress alms bowl system dust synchronous recovery device has set up three recovery pipeline respectively through the top of weighing hopper, second at first and weighing hopper and pressing alms bowl ware (saggar), and three recovery pipeline is all connected with the entry of dust remover simultaneously, not only can in time clear away the dust of pressing the three position of alms bowl device, can also retrieve the dust synchronization at three position, cyclic utilization reduces extravagantly, improves production efficiency.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the preferred embodiment of the present invention.

In the figure: 1. feeding hopper, 2, first hopper of weighing, 21, first ejection of compact pipeline, 3, the second hopper of weighing, 4, the casket-like bowl, 5, press alms bowl ware, 6, the transfer line body, 7, press alms bowl shake flat ware, 8, dress alms bowl station feed bin, 9, dress alms bowl frame, 10, rotary valve, 11, first pneumatic butterfly valve, 12, screw conveyer, 13, synchronous recovery dust remover, 14, first recovery pipeline, 15, second recovery pipeline, 16, third recovery pipeline, 17, buffering storehouse, 18, peripheral frame.

Detailed Description

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

As shown in figure 1, the most preferred embodiment of the present invention is a dust synchronous recovery device for lithium battery pot-loading system, comprising a feeding hopper 1, a first weighing hopper 2, a second weighing hopper 3, a pot-pressing device 5, a sagger 4, a conveying line body 6 and a pot-pressing vibration-leveling device 7, which are arranged from top to bottom in sequence, a pot-loading station bin 8, a pot-loading frame 9 and a peripheral frame 18, wherein the volume of the peripheral frame 18 is larger than that of the pot-loading frame 9, the pot-loading frame 9 is fixedly arranged in the peripheral frame 1, the feeding hopper 1 is fixedly arranged on the top of the peripheral frame 1, the feeding hopper 1 is communicated with the first weighing hopper 2 through a pipeline, the first weighing hopper 2 is arranged in the pot-loading station bin 8, the pot-loading station bin 8 is fixedly arranged on a first-order support of the pot-loading frame 9, a first discharge pipeline 21 connected with an outlet of the first weighing hopper 2 is fixedly arranged on a second-order support of the pot-loading frame 9, the second weighing hopper 3 is fixedly arranged on a three-stage support of the bowl loading rack 9, the lower end of a first discharging pipeline 21 is communicated with the inlet at the upper end of the second weighing hopper 3 through a pipeline, the outlet of the second weighing hopper 3 is connected with the bowl pressing device 5 through a second discharging pipeline, the outlet of the bowl pressing device 5 is communicated with the interior of the bowl 4, the bowl 4 is arranged on a conveying line body 6, the bowl pressing vibration flattening device 7 is arranged at the bottom of the bowl 4, a rotary valve 10 and a first pneumatic butterfly valve 11 are further arranged on the first discharging pipeline 21, the rotary valve 10 and the first pneumatic butterfly valve 11 are used for controlling the conduction of the first discharging pipeline 21, a spiral conveyor 12 is further erected in the middle of the peripheral rack 1, the inlet of the spiral conveyor 12 is connected with a synchronous recovery dust remover 13, the outlet of the spiral conveyor 12 is communicated with the first weighing hopper 2 through a pipeline, the upper part of the bowl loading station bin 8 is connected with a first recovery pipeline 14, the upper end of the second weighing hopper 3 is connected with a second recovery pipeline 15, the upper end of the bowl pressing device 5 is connected with a third recovery pipeline 16, the equal air suction pumps of the first recovery pipeline 14, the second recovery pipeline 15 and the third recovery pipeline 16 are connected with the inlet of the synchronous recovery dust remover 13 (the first recovery pipeline 14, the second recovery pipeline 15 and the third recovery pipeline 16 are drawn in the figure, but the equal inlet of the synchronous recovery dust remover 13 is not drawn, and the character expression is taken as the standard).

The lower end outlet of the synchronous recovery dust remover 13 is also connected with a buffer bin 17, the outlet of the buffer bin 17 is connected with the inlet of the screw conveyer 12, and the inlet and the outlet of the buffer bin 17 are both provided with pneumatic butterfly valves.

The working principle is as follows: the material in the feeding hopper 1 is conveyed into the first weighing hopper 2 through a pipeline, the material is powdery, dust is easily lifted in the falling process, the first recovery pipeline 14 is connected with the upper part of the loading station bin 8, the part of the first recovery pipeline 14 extending into the loading station bin 8 is positioned above the first weighing hopper 2, and the dust above the first weighing hopper 2 can be just pumped away, and the dust in the first weighing hopper 2 can float, so if five kilograms of material are poured into the first weighing hopper 2, errors can actually occur, therefore, the material in the first weighing hopper 2 is poured into the second weighing hopper 3 through the pipeline again, the material is weighed again and then poured into the second weighing hopper 3, the dust is also lifted in the second weighing hopper 3 (the upper end opening of the second weighing hopper 3 is provided with an end cover), the second recovery pipeline 15 passes through the end cover at the upper end of the second weighing hopper 3, the dust collecting device is communicated with the upper part in the second weighing hopper 3 and just can pump away the dust above the second weighing hopper 3, the material in the second weighing hopper 3 is sent into the bowl pressing device 5 through a pipeline, the material is poured into the saggar 4 through the outlet of the bowl pressing device 5, the third recovery pipeline 16 is communicated with the upper part in the bowl pressing device 5 and just can pump away the dust above the bowl pressing device 5, the first recovery pipeline 14, the second recovery pipeline 15 and the third recovery pipeline 16 are connected with the inlet of the synchronous recovery dust remover 13 through an air pump, the dust in the first recovery pipeline 14, the second recovery pipeline 15 and the third recovery pipeline 16 can synchronously enter the dust remover, then after the dust is accumulated to a certain amount, the pneumatic butterfly valve is opened, the dust enters the buffer bin 17 and then enters the inlet of the spiral conveyor 12, and then enters the first weighing hopper 2 through the outlet of the spiral conveyor 12 through spiral conveying, the dust is recycled, and the dust pollution to the environment is avoided. The pressing and vibrating device 7 is arranged at the bottom of the sagger 4, the sagger 4 can be vibrated according to needs, materials in the sagger 4 are more flat and solid, and the conveying line body 6 can control the operation of parts such as a pneumatic butterfly valve, a rotary valve 10, a first pneumatic butterfly valve 11, a screw conveyer 12 and an air pump.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made 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 (2)

1. The utility model provides a lithium electricity dress alms bowl system dust synchronous recovery device which characterized in that: comprises a feeding hopper (1), a first weighing hopper (2), a second weighing hopper (3), a bowl pressing device (5), a sagger (4), a conveying line body (6) and a bowl pressing vibration flattening device (7) which are sequentially arranged from top to bottom, and also comprises a bowl loading station bin (8), a bowl loading rack (9) and a peripheral rack (18), wherein the volume of the peripheral rack (18) is larger than that of the bowl loading rack (9), the bowl loading rack (9) is fixedly arranged in the peripheral rack (18),

The feeding hopper (1) is fixedly arranged at the top of a peripheral frame (18), the feeding hopper (1) is communicated with a first weighing hopper (2) through a pipeline, the first weighing hopper (2) is arranged in a bowl loading station bin (8), the bowl loading station bin (8) is fixedly arranged on a first-order support of a bowl loading frame (9), a first discharging pipeline (21) connected with an outlet of the first weighing hopper (2) is fixedly arranged on a second-order support of the bowl loading frame (9), a second weighing hopper (3) is fixedly arranged on a third-order support of the bowl loading frame (9), the lower end of the first discharging pipeline (21) is communicated with an inlet at the upper end of the second weighing hopper (3), an outlet of the second weighing hopper (3) is connected with a bowl pressing device (5) through a second discharging pipeline, an outlet of the bowl pressing device (5) is communicated with the interior of a sagger (4), the sagger (4) is arranged on the conveying line body (6), the sagger pressing and vibrating device (7) is arranged at the bottom of the sagger (4), the first discharging pipeline (21) is also provided with a rotary valve (10) and a first pneumatic butterfly valve (11),

Screw conveyer (12) have still been erect at the middle part of peripheral frame (18), and the entry linkage of screw conveyer (12) has synchronous recovery dust remover (13), and the export of screw conveyer (12) is linked together through pipeline and first hopper (2) of weighing, the upper portion of dress alms bowl station feed bin (8) is connected with first recovery pipeline (14), and the second is weighed hopper (3) upper end and is connected with second recovery pipeline (15), the upper end of pressing alms bowl ware (5) is connected with third recovery pipeline (16), the equal aspiration pump of first recovery pipeline (14), second recovery pipeline (15) and third recovery pipeline (16) and the import of synchronous recovery dust remover (13) are connected.

2. The lithium battery pot system dust synchronous recovery device of claim 1, characterized in that: the lower end outlet of the synchronous recovery dust remover (13) is also connected with a buffer bin (17), the outlet of the buffer bin (17) is connected with the inlet of the screw conveyor (12), and the inlet and the outlet of the buffer bin (17) are both provided with pneumatic butterfly valves.