CN213209190U - Simple powder material level detection device - Google Patents
Simple powder material level detection device Download PDFInfo
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- CN213209190U CN213209190U CN202022358885.6U CN202022358885U CN213209190U CN 213209190 U CN213209190 U CN 213209190U CN 202022358885 U CN202022358885 U CN 202022358885U CN 213209190 U CN213209190 U CN 213209190U
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- powder storehouse
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Abstract
The utility model relates to a battery industry technical field, especially a simple and easy powder material level detection device, including powder storehouse, upper cover, material level subassembly, direction subassembly, measuring subassembly, ejection of compact subassembly and four supports, upper cover and direction subassembly all set up at the powder storehouse top, the material level subassembly is vertical setting in the powder storehouse, measuring subassembly sets up on the lateral wall of powder storehouse to the both ends of direction subassembly are connected with material level subassembly and measuring subassembly respectively, and the bottom of powder storehouse is equipped with the row's material pipe that is linked together rather than, and ejection of compact unit mount is in row material pipe department, four the support is vertical setting and all with powder storehouse fixed connection. The utility model has the advantages that: the material level detection device can be free from the influence of raised dust, realizes material level detection by a physical method, and is simple in structure and convenient to operate.
Description
Technical Field
The utility model relates to a battery industry technical field, especially a simple and easy powder material level detection device.
Background
The lithium hydroxide is widely applied to industries such as chemical raw materials, metallurgy, battery industry, ceramics, national defense, atomic energy, aerospace and the like, is used as an alkaline storage battery additive in the battery industry, can prolong the service life of the alkaline storage battery additive and increase the storage capacity of the alkaline storage battery additive. The main method for producing lithium hydroxide monohydrate at present is to use spodumene with the grade of 5.5-6% (Li2O) as a raw material and to obtain the lithium hydroxide monohydrate by the process steps of high-temperature calcination transformation, cooling, ball milling, acidification roasting, cooling, size mixing, leaching, squeezing separation, sodium sulfate freezing separation, evaporation, low-temperature recrystallization and the like. The lithium hydroxide monohydrate produced by using the lithium polymer is prepared from the lithium polymer as a raw material, the grade of the lithium polymer reaches 8.5-12 percent (Li2O), the Al content is 25.05 percent, the Mg content is 1.23 percent, the Si content is 0.84 percent, and the Mn content is 0.69 percent, so the lithium hydroxide monohydrate is a novel mineral source, has extraction value and great economic benefit.
In the above production process, can use the powder storehouse, present powder storehouse is most with infrared detection, but raise dust is many in the powder storehouse, detects the production disturbance to the material level easily, and the reliability is low, consequently, designs the detection device of a section physics.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to overcome prior art's shortcoming, provide a simple and easy powder material level detection device.
The purpose of the utility model is realized through the following technical scheme: the utility model provides a simple and easy powder material level detection device, includes powder storehouse, upper cover, material level subassembly, direction subassembly, measuring subassembly, ejection of compact subassembly and four supports, upper cover and direction subassembly all set up at the powder storehouse top, the material level subassembly is vertical setting in the powder storehouse, measuring subassembly sets up on the lateral wall of powder storehouse to the both ends of direction subassembly are connected with material level subassembly and measuring subassembly respectively, and the bottom of powder storehouse is equipped with the row's material pipe rather than being linked together, and ejection of compact unit mount is in row's material pipe department, four the support is vertical setting and all with powder storehouse fixed connection.
Preferably, the material level subassembly includes stopper and four spacing posts, and four spacing posts are vertical to be fixed in the powder storehouse, and the stopper slides and sets up on four spacing posts, the stopper is toper hollow structure.
Preferably, the direction subassembly includes shell, steering rope and two fixed pulleys, shell bottom and powder bin top fixed connection, two the fixed pulley all sets up inside the shell, and two fixed pulley bottoms all with powder bin top fixed connection, steering rope's one end and stopper fixed connection, the other end of steering rope passes powder bin top, two fixed pulleys in proper order and is connected with measuring component.
Preferably, the measuring component includes movable block and two measuring boards, and two measuring boards are vertical interval and fix on the outer wall of powder storehouse, and the both ends of movable block respectively with two measuring board sliding connection, all be equipped with the scale mark that sets up along its length direction on every measuring board, the quality of movable block is less than the quality of stopper, the movable block is installed at the one end department that turns to the rope.
Preferably, ejection of compact subassembly is including holding platform, connecting pipe, fixed pipe, discharging pipe, hob, handle and a plurality of stirring post, the connecting pipe passes through the bolt and installs in the bottom of arranging the material pipe, and the discharging pipe is installed in the connecting pipe bottom and is linked together rather than, fixed pipe is installed in the bottom of connecting pipe and is linked together rather than, the vertical setting of hob is in the fixed pipe, and the hob outside is equipped with the external screw thread, fixed intraductal being equipped with external screw thread matched with internal thread, the hob top is with the bottom fixed connection who holds the platform, it is the toper structure and sets up in row material intraductal to hold the platform, and a plurality of stirring posts are the circumferencial direction and evenly fix the top at holding the platform, all are equipped with rather than a plurality of beads of fixed connection on every stirring post lateral wall, hob bottom and.
Preferably, four grooves matched with the four limiting columns are formed in the limiting block.
The utility model has the advantages of it is following:
firstly, the upper cover is opened, the powder is poured into the powder bin, the steering rope is pulled, the steering rope drives the movable block to move downwards, the steering rope drives the limiting block to move upwards, when the limiting block cannot move upwards, the pulling is stopped, the steering rope is loosened slowly, the limiting block moves downwards and moves upwards, the limiting block falls on the powder and stops moving downwards, the movable block stops moving upwards, the scale line on the measuring plate is measured through the position of the movable block, the reading is read, the position of the powder in the powder bin is obtained, in the process, the two fixed pulleys play a role in changing the moving direction of the steering rope, the shell plays a role in preventing dust from entering the powder bin, the conical hollow structure of the limiting block is used for reducing the pressure influence of the limiting block on the powder on the measuring result and preventing the powder from falling on the top of the limiting block, and the four limiting columns are used for enabling the limiting block to move upwards and downwards more stably, when needs are unloaded, rotate the handle, the handle drives the hob simultaneously, accept platform and a plurality of stirring post rotate and shift up, after moving to a take the altitude, the powder flows in the connecting pipe from the gap of accepting the platform and arranging between the material pipe, and through the discharging pipe ejection of compact, the stirring post rotates and plays the effect that prevents the powder caking, in the ejection of compact, the material level descends, the stopper moves down, the stopper moves the movable block through the steering cord and shifts up, the reading changes, when powder storehouse stops using, can dismantle the bolt, the clout to in the connecting pipe is cleared up, the utility model discloses can not receive the influence of raise dust, realize the material level through physical method and detect, simple structure, convenient operation.
Drawings
Fig. 1 is a schematic view of a first-view perspective structure of the present invention;
fig. 2 is a schematic view of a second perspective three-dimensional structure of the present invention;
fig. 3 is a top view of the present invention;
FIG. 4 is a cross-sectional view taken along line A-A of FIG. 2;
FIG. 5 is an enlarged view of the point B in FIG. 4;
fig. 6 is an enlarged schematic view of C in fig. 4.
In the figure: 1-powder bin, 2-upper cover, 3-material level component, 31-limiting block, 32-limiting column, 4-guiding component, 41-shell, 42-steering rope, 43-fixed pulley, 5-measuring component, 51-movable block, 52-measuring plate, 6-discharging component, 61-bearing table, 62-connecting pipe, 63-fixing pipe, 64-discharging pipe, 65-screw rod, 66-handle, 67-stirring column and 7-support.
Detailed Description
The invention will be further described with reference to the accompanying drawings, but the scope of the invention is not limited to the following description.
As shown in fig. 1 to 6, a simple powder material level detection device, it includes powder storehouse 1, upper cover 2, material level subassembly 3, direction subassembly 4, measuring unit 5, ejection of compact subassembly 6 and four supports 7, upper cover 2 and direction subassembly 4 all set up at powder storehouse 1 top, material level subassembly 3 is vertical setting in powder storehouse 1, measuring unit 5 sets up on powder storehouse 1's lateral wall to the both ends of direction subassembly 4 are connected with material level subassembly 3 and measuring unit 5 respectively, and powder storehouse 1's bottom is equipped with the row's of being linked together material pipe rather than, and ejection of compact subassembly 6 is installed and is expected a department, four at row's material pipe department support 7 is vertical setting and all with powder storehouse 1 fixed connection.
Specifically, material level subassembly 3 includes stopper 31 and four spacing posts 32, and four spacing posts 32 are vertical fixing in powder storehouse 1, and stopper 31 slides and sets up on four spacing posts 32, stopper 31 is toper hollow structure, and stopper 31's toper hollow structure is for reducing stopper 31 to the pressure influence measuring result of powder and in order to prevent that the powder from falling on stopper 31 top, and four spacing posts 32 are for making stopper 31 reciprocate more steady.
Specifically, direction subassembly 4 includes shell 41, steering rope 42 and two fixed pulleys 43, shell 41 bottom and 1 top fixed connection in powder storehouse, two fixed pulleys 43 all set up inside shell 41, and two fixed pulleys 43 bottom all with 1 top fixed connection in powder storehouse, steering rope 42's one end and stopper 31 fixed connection, steering rope 42's the other end pass powder storehouse 1 top, two fixed pulleys 43 in proper order and be connected with measuring component 5, and two fixed pulleys 43 play the effect that changes steering rope 42 moving direction, and shell 41 plays the effect that prevents the dust and get into powder storehouse 1.
Specifically, the measuring assembly 5 includes a movable block 51 and two measuring plates 52, the two measuring plates 52 are fixed on the outer wall of the powder bin 1 at vertical intervals, two ends of the movable block 51 are respectively connected with the two measuring plates 52 in a sliding manner, each measuring plate 52 is provided with a graduated scale line arranged along the length direction thereof, the mass of the movable block 51 is smaller than that of the limiting block 31, the movable block 51 is installed at one end of the steering rope 42, the steering rope 42 is pulled, the steering rope 42 drives the movable block 51 to move downwards, the steering rope 42 drives the limiting block 31 to move upwards, when the limiting block 31 cannot move upwards, the pulling is stopped, the steering rope 42 is slowly loosened, because the mass of the limiting block 31 is larger than that of the movable block 51, the limiting block 31 moves downwards, the movable block 51 moves upwards, the limiting block 31 falls on the powder and stops moving downwards, the movable block 51 stops moving upwards, and passes through the position of the movable block 51, the scale mark on the measuring plate 52 reads the reading, and obtains the powder position in the powder bin 1, and during the ejection of compact, the material level descends, and stopper 31 moves down, and stopper 31 passes through steering rope 42 and drives movable block 51 and move up, and the reading changes.
Specifically, ejection of compact subassembly 6 includes and holds platform 61, connecting pipe 62, fixed pipe 63, discharging pipe 64, hob 65, handle 66 and a plurality of stirring post 67, connecting pipe 62 passes through the bolt and installs in the bottom of arranging the material pipe, and discharging pipe 64 installs in connecting pipe 62 bottom and is linked together with it, fixed pipe 63 installs in the bottom of connecting pipe 62 and is linked together with it, hob 65 is vertical to be set up in fixed pipe 63, and the hob 65 outside is equipped with the external screw thread, be equipped with the internal thread with external screw thread matched with in the fixed pipe 63, the bottom fixed connection of hob 65 top and holding platform 61, holding platform 61 is the toper structure and sets up in arranging the material pipe, and a plurality of stirring posts 67 are the even top of fixing at holding platform 61 of circumferencial direction, all are equipped with a plurality of beads rather than fixed connection on every stirring post 67 lateral wall, hob 65 bottom and handle 66 fixed connection, when needs are unloaded, rotate handle 66, handle 66 drives hob 65 simultaneously, accept platform 61 and a plurality of stirring post 67 and rotates and shifts up, after shifting up to the take the altitude, the powder flows to connecting pipe 62 from accepting the platform 61 and the gap of arranging between the material pipe in to through the ejection of compact of discharging pipe 64, stirring post 67 rotates and plays the effect that prevents the powder caking, when powder storehouse 1 stopped to use, can dismantle the bolt, clear up the clout in the connecting pipe 62.
Specifically, four grooves matched with the four limiting columns 32 are formed in the limiting block 31 to limit the moving direction of the limiting block 32.
The working process of the utility model is as follows: firstly, the upper cover 2 is opened, powder is poured into the powder bin 1, the steering rope 42 is pulled, the steering rope 42 drives the movable block 51 to move downwards, meanwhile, the steering rope 42 drives the limiting block 31 to move upwards, when the limiting block 31 cannot move upwards, pulling is stopped, the steering rope 42 is loosened slowly, as the mass of the limiting block 31 is larger than that of the movable block 51, the limiting block 31 moves downwards, the movable block 51 moves upwards, the limiting block 31 falls on the powder and stops moving downwards, the movable block 51 stops moving upwards, the scale line on the measuring plate 52 is measured through the position of the movable block 51, reading is carried out, the position of the powder in the powder bin 1 is obtained, in the process, the two fixed pulleys 43 play a role of changing the moving direction of the steering rope 42, the shell 41 plays a role of preventing dust from entering the powder bin 1, the conical hollow structure of the limiting block 31 is used for reducing the pressure influence measurement result of the limiting block 31 on the powder and preventing the powder from, four spacing posts 32 are more steady in order to make stopper 31 reciprocate, when needs are unloaded, rotate handle 66, handle 66 drives hob 65 simultaneously, accept platform 61 and a plurality of stirring post 67 rotate and shift up, shift up after the take the altitude, the powder flows to connecting pipe 62 from accepting platform 61 and the gap of arranging between the material pipe in, and the ejection of compact through discharging pipe 64, stirring post 67 rotates the effect that prevents the powder caking, in the ejection of compact, the material level descends, stopper 31 moves down, stopper 31 drives movable block 51 through steering rope 42 and moves up, the reading changes, when powder 1 stops using, can dismantle the bolt, surplus material in the connecting pipe 62 is cleared up.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. The utility model provides a simple and easy powder material level detection device which characterized in that: including powder storehouse (1), upper cover (2), material level subassembly (3), direction subassembly (4), measuring subassembly (5), ejection of compact subassembly (6) and four supports (7), upper cover (2) and direction subassembly (4) all set up at powder storehouse (1) top, material level subassembly (3) are vertical setting in powder storehouse (1), measuring subassembly (5) set up on the lateral wall of powder storehouse (1) to the both ends of direction subassembly (4) are connected with material level subassembly (3) and measuring subassembly (5) respectively, and the bottom of powder storehouse (1) is equipped with the row's of being linked together material pipe rather than, and ejection of compact subassembly (6) are installed and are arranged material pipe department, four support (7) are vertical setting and all with powder storehouse (1) fixed connection.
2. The simple powder material level detection device according to claim 1, characterized in that: material level subassembly (3) are vertical the fixing in powder storehouse (1) including stopper (31) and four spacing post (32), and stopper (31) slide and set up on four spacing post (32), stopper (31) are toper hollow structure.
3. The simple powder material level detection device according to claim 2, characterized in that: direction subassembly (4) are including shell (41), steering rope (42) and two fixed pulley (43), shell (41) bottom and powder storehouse (1) top fixed connection, two fixed pulley (43) all set up inside shell (41), and two fixed pulley (43) bottoms all with powder storehouse (1) top fixed connection, the one end and stopper (31) fixed connection of steering rope (42), the other end of steering rope (42) passes powder storehouse (1) top, two fixed pulley (43) in proper order and is connected with measuring component (5).
4. The simple powder material level detection device according to claim 3, characterized in that: measuring subassembly (5) are fixed on the outer wall of powder storehouse (1) including movable block (51) and two measuring board (52), and two measuring board (52) are vertical interval, and the both ends of movable block (51) are measured board (52) sliding connection with two respectively, all are equipped with the scale mark that sets up along its length direction on every measuring board (52), the quality of movable block (51) is less than the quality of stopper (31), the one end department at steering rope (42) is installed in movable block (51).
5. The simple powder material level detection device according to claim 1, characterized in that: the discharging assembly (6) comprises a bearing table (61), a connecting pipe (62), a fixed pipe (63), a discharging pipe (64), a screw rod (65), a handle (66) and a plurality of stirring columns (67), wherein the connecting pipe (62) is installed at the bottom of a discharging pipe through a bolt, the discharging pipe (64) is installed at the bottom of the connecting pipe (62) and communicated with the connecting pipe, the fixed pipe (63) is installed at the bottom of the connecting pipe (62) and communicated with the connecting pipe, the screw rod (65) is vertically arranged in the fixed pipe (63), external threads are arranged on the outer side of the screw rod (65), internal threads matched with the external threads are arranged in the fixed pipe (63), the top end of the screw rod (65) is fixedly connected with the bottom of the bearing table (61), the bearing table (61) is of a conical structure and is arranged in the discharging pipe, and the stirring columns (67) are uniformly fixed at the top of the bearing table (61) in a circumferential direction, all be equipped with a plurality of beads rather than fixed connection on every stirring post (67) lateral wall, hob (65) bottom and handle (66) fixed connection.
6. The simple powder material level detection device according to claim 2, characterized in that: four grooves matched with the four limiting columns (32) are arranged on the limiting block (31).
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CN202022358885.6U CN213209190U (en) | 2020-10-21 | 2020-10-21 | Simple powder material level detection device |
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CN202022358885.6U CN213209190U (en) | 2020-10-21 | 2020-10-21 | Simple powder material level detection device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113526175A (en) * | 2021-07-12 | 2021-10-22 | 宁波大地化工环保有限公司 | Full-automatic powder bin material level real-time display device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113526175A (en) * | 2021-07-12 | 2021-10-22 | 宁波大地化工环保有限公司 | Full-automatic powder bin material level real-time display device |
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Address after: Room A212-017, Public Service Center, No. 1, Zhongma Avenue, Zhongma Qinzhou Industrial Park, Qinzhou Port Area, Qinzhou, China (Guangxi) Free Trade Pilot Zone, Qinzhou, Guangxi Zhuang Autonomous Region, 535000 (business site: No. 6, Dolphin Road, Qinzhou Port Economic and Technological Development Zone, Qinzhou City) Patentee after: Guangxi Yabao Lithium Industry Co.,Ltd. Address before: No.6, dolphin Road, Qinzhou port, Qinzhou City, Guangxi Zhuang Autonomous Region Patentee before: Guangxi Tianyuan new energy materials Co.,Ltd. |
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CP03 | Change of name, title or address |