CN219518542U - Graphite material processing mixing arrangement - Google Patents
Graphite material processing mixing arrangement Download PDFInfo
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- CN219518542U CN219518542U CN202223398224.1U CN202223398224U CN219518542U CN 219518542 U CN219518542 U CN 219518542U CN 202223398224 U CN202223398224 U CN 202223398224U CN 219518542 U CN219518542 U CN 219518542U
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- bevel gear
- turnover
- fixedly connected
- ring
- supporting seat
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
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Abstract
The utility model discloses a graphite material processing and mixing device which comprises a supporting seat, wherein a speed reducer is fixedly connected to a left end driving end of a servo motor, a bevel gear I is connected to the outer periphery of the middle of a driving rod I in a rotating manner, a rotating rod I is fixedly connected to the middle of a bevel gear II, a bevel gear IV is connected to a bevel gear III in a meshing manner, a bevel gear V is connected to a rotating rod II in a meshing manner, a bevel gear VI is connected to a bevel gear V in a meshing manner, and a driving rod II is fixedly connected to the middle of the bevel gear VI. According to the graphite material processing and mixing device, the negative electrode materials of the graphite lithium batteries in the storage bin are rotated in multiple directions, so that the negative electrode materials of the graphite lithium batteries in the storage bin are overturned and mixed in multiple directions, and the negative electrode materials of the graphite lithium batteries are mixed thoroughly.
Description
Technical Field
The utility model relates to the technical field of graphite battery material processing, in particular to a graphite material processing mixing device.
Background
The graphite comprises natural graphite materials and artificial graphite materials, wherein the natural graphite is mainly in associated graphite mineral reservoirs, the reserves are huge in earth mineral resources, the reserves and the yields of the natural graphite mineral reservoirs in China are all in the world first place, but the natural graphite belongs to nonrenewable mineral resources, the natural graphite is mainly in the associated graphite mineral reservoirs, the natural graphite is required to be manufactured through processes of exploitation, mineral separation, purification, plastic classification and the like, the natural graphite is greatly influenced by natural mineral deposits, the utilization rate of the natural graphite when being processed into the negative electrode material is low, the prepared negative electrode material has the defects of poor cycle stability, poor high-low temperature performance, poor compatibility with electrolyte, poor multiplying power performance and the like, and the multiplying power performance is becoming the biggest bottleneck for inhibiting the application of the natural graphite negative electrode material to electric automobiles, so the artificial graphite with low cost and high performance is a new source way of the lithium battery graphite negative electrode material.
In the process of processing graphite materials, need use mixing arrangement, among the prior art, the technique that mixing arrangement used is the stirring mostly, for example, the chinese patent document CN211274333U who has been authorized discloses a graphite powder mixing arrangement for graphite materials production, including shell and base, shell internally mounted has the inner shell, the top fixed mounting of shell has motor a and motor a power take off end is connected with lead screw power input end, the lead screw runs through and extends to inside the inner shell with the inner shell top, fixed mounting has screw sleeve and screw sleeve lateral wall on the screw outer wall, fixed mounting has the bearing sleeve on the outer wall of screw sleeve, equal fixedly connected with bracing piece in both sides of bearing sleeve and the lateral wall middle part fixed mounting of bracing piece have motor B, motor B's power take off end is connected with stirring leaf power input end, and novel in design, simple structure, stirring leaf can reciprocate, has increaseed the stirring stress area of graphite powder, has solved the problem at the dead angle, makes mixed more even, and the inner shell bottom is equipped with vibration damper, still is equipped with the acoustic celotex on the inner shell lateral wall, can reduce with the influence to the staff like this and mix the mixed condition of better mixing effect can appear in a single mixing mode.
Disclosure of Invention
The utility model mainly aims to provide a graphite material processing and mixing device which can effectively solve the problems in the background technology.
In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:
the utility model provides a graphite materials processing mixing arrangement, includes the supporting seat, be provided with tilting mechanism in the upper end opening of supporting seat, tilting mechanism's inside is provided with the storage silo, the upper end of supporting seat is provided with actuating mechanism, actuating mechanism is including setting up the servo motor in the right side upper end of supporting seat, servo motor's left end drive end fixedly connected with reduction gear, the left end drive end of reduction gear runs through the right side upper end middle part and fixedly connected with actuating lever one of supporting seat, the middle part outer turnover of actuating lever one is connected with bevel gear one, bevel gear one meshing is connected with bevel gear two, bevel gear two's middle part fixedly connected with bull stick one, the upper end fixedly connected with bevel gear three of bull stick one, bevel gear three meshing is connected with bevel gear four, bevel gear four's middle part fixedly connected with bull stick two, bevel gear five meshing are connected with bevel gear five, bevel gear six middle part fixedly connected with actuating lever two, tilting mechanism is including setting up in the upset circle one at the right side upper end middle part of supporting seat, in the inside of upset circle one is connected with two, two upper end fixed connection has two limit plates in the upset circle one, two upper end fixed connection has two.
Preferably, the left end fixed connection of actuating lever one is in the right side middle part of upset circle one, the lower extreme of actuating lever two runs through the upper end middle part of upset circle one and the upper end middle part of upset circle two in proper order and fixed connection in the upper end middle part of storage silo, the right side fixed connection of bevel gear one is in the interior right side upper end middle part of supporting seat.
Preferably, the middle outer turnover of the bevel gear II is connected in the middle opening of the right end of the limiting plate I, and the middle upper outer turnover of the rotating rod I is connected in the right end opening of the limiting seat.
Preferably, the outer turnover of middle part right side of bull stick two is connected in the upper end opening of spacing seat, the outer turnover of middle part left side of bull stick two is connected in the upper end opening of spacing piece two.
Preferably, the lower end of the storage bin is fixedly connected to the inner lower part of the second overturning ring, and the middle part of the lower end of the second overturning ring is rotationally connected to the middle part of the lower end of the first overturning ring through a limiting rod.
Preferably, the left middle part fixedly connected with spacing bull stick of upset circle one, the left end of spacing bull stick rotates and connects in the left side upper end middle part of supporting seat.
Compared with the prior art, the utility model has the following beneficial effects:
1. the method comprises the steps of starting a servo motor, driving a driving rod to rotate through a speed reducer, driving a turnover ring to rotate, driving a turnover mechanism in the turnover ring to rotate around the X-axis direction, turning and mixing graphite lithium battery cathode materials in a storage bin along the X-axis direction, driving a rotating rod to rotate around a bevel gear I when the turnover ring rotates, driving the bevel gear II to rotate around the bevel gear I due to meshing of the bevel gear II and the bevel gear I, driving the rotating rod II to rotate through a bevel gear III and a bevel gear IV, driving the driving rod II to rotate through a bevel gear V and a bevel gear V, finally driving the turnover ring II to rotate, driving a storage bin in the turnover ring II to rotate around the Z-axis direction, turning and mixing graphite lithium battery cathode materials in the storage bin along the Z-axis direction, and achieving multidirectional turning and mixing of the graphite lithium battery cathode materials in the storage bin.
Drawings
FIG. 1 is a schematic perspective view of a graphite material processing and mixing device according to the present utility model;
FIG. 2 is a schematic perspective view of a driving mechanism of a graphite material processing and mixing device according to the present utility model;
fig. 3 is a schematic perspective view of a turnover mechanism of a graphite material processing and mixing device.
In the figure: 1. a support base; 2. a turnover mechanism; 201. the first turnover ring is turned over; 202. a second turnover ring; 203. a limit rotating rod; 204. a first limiting piece; 205. a second limiting piece; 206. a limit seat; 3. a storage bin; 4. a driving mechanism; 401. a servo motor; 402. a speed reducer; 403. a first driving rod; 404. bevel gears I; 405. bevel gears II; 406. a first rotating rod; 407. bevel gears III; 408. bevel gears IV; 409. a second rotating rod; 4010. a bevel gear V; 4011. a bevel gear six; 4012. and a second driving rod.
Detailed Description
The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.
As shown in fig. 1-3, a graphite material processing mixing device comprises a supporting seat 1, a turnover mechanism 2 is arranged in an opening at the upper end of the supporting seat 1, a storage bin 3 is arranged in the turnover mechanism 2, a driving mechanism 4 is arranged at the upper end of the supporting seat 1, the driving mechanism 4 comprises a servo motor 401 arranged at the upper right end of the supporting seat 1, a reducer 402 is fixedly connected with the left end driving end of the servo motor 401, the left end driving end of the reducer 402 penetrates through the middle of the upper right end of the supporting seat 1 and is fixedly connected with a driving rod 403, a bevel gear 404 is connected to the outer periphery of the middle of the driving rod 403 in a rotating manner, a bevel gear two 405 is connected to the bevel gear 404 in a meshing manner, a rotary rod one 406 is fixedly connected to the middle of the bevel gear two 405, a bevel gear three 407 is connected to the upper end of the bevel gear one 406 in a meshing manner, a rotary rod two 409 is fixedly connected to the middle of the bevel gear four 408, a bevel gear five 4010 is connected to the rotary rod two 4010 in a meshing manner, a bevel gear six 4011 is fixedly connected to the middle of the bevel gear six 4011.
In this embodiment, the turnover mechanism 2 includes a first turnover ring 201 disposed in the middle of the upper end of the supporting seat 1, a second turnover ring 202 is rotatably connected in the first turnover ring 201, a first limiting plate 204 is fixedly connected to the upper middle portion of the right side of the second turnover ring 202, a second limiting plate 205 is fixedly connected to the right middle portion of the upper end of the first turnover ring 201, a limiting seat 206 is fixedly connected to the upper right end of the first turnover ring 201, the lower end of the storage bin 3 is fixedly connected to the inner lower portion of the second turnover ring 202, and the middle of the lower end of the second turnover ring 202 is rotatably connected to the middle of the lower end of the first turnover ring 201 through a limiting rod.
Specifically, the bin gate of the storage bin 3 is opened, add graphite lithium battery negative electrode material to the inside of the storage bin 3, close the bin gate, start the servo motor 401, drive the first 403 of actuating lever through reduction gear 402 and rotate, and then drive the rotation of turnover circle one 201, and then drive the inside tilting mechanism 2 of turnover circle two 202 around X axis direction rotation, mix the graphite lithium battery negative electrode material in the storage bin 3 along X axis direction upset, because bevel gear one 404 is fixed in the middle part of the inside right side upper end of supporting seat 1, in turnover circle one 201 rotation, drive the bull stick one 406 around bevel gear one 404 rotation, because bevel gear two 405 and bevel gear one 404 mesh, and then make bevel gear two 405 drive bull stick one 406 rotation, then drive bull stick two 409 rotation through bevel gear three 407 and bevel gear four 408, then drive actuating lever two 4012 rotation through bevel gear five 4010 and six 4011, finally drive turnover circle two 202 rotation, and drive the inside storage bin 3 of turnover circle two 202 around Z axis direction rotation, mix the inside graphite lithium battery negative electrode material in storage bin 3 along Z axis direction upset, realize that the inside lithium battery negative electrode material of storage bin 3 is more thoroughly mix the graphite battery negative electrode material through the inside lithium battery upset lithium battery.
In this embodiment, the left end of the driving rod one 403 is fixedly connected to the right middle part of the first turning ring 201, the lower end of the driving rod two 4012 sequentially penetrates through the upper middle part of the first turning ring 201 and the upper middle part of the second turning ring 202 and is fixedly connected to the upper middle part of the storage bin 3, the right side of the bevel gear one 404 is fixedly connected to the inner right upper middle part of the supporting seat 1, the middle outer turnover of the bevel gear two 405 is movably connected to the right middle opening of the first limiting plate 204, the middle upper outer turnover of the rotating rod one 406 is movably connected to the right opening of the limiting seat 206, the middle right outer turnover of the rotating rod two 409 is movably connected to the upper opening of the limiting seat 206, the middle left outer turnover of the rotating rod two 409 is movably connected to the upper opening of the limiting plate two 205, the left middle part of the turning ring one 201 is fixedly connected to the limiting rotating rod 203, and the left end of the limiting rotating rod 203 is rotatably connected to the left upper middle part of the supporting seat 1.
Specifically, through spacing piece one 204, spacing piece two 205 and spacing seat 206, spacing rotation to bull stick one 406 and bull stick two 409 respectively, and then realize that actuating lever one 403 is when driving the rotation of upset circle one 201, through bull stick one 406 and bull stick two 409 drive actuating lever two 4012 rotation, and then drive upset circle two 202 rotation, overturn the inside graphite lithium cell negative pole material of storage silo 3.
Working principle:
firstly, the bin gate of the storage bin 3 is opened, the graphite lithium battery cathode material is added into the storage bin 3, the bin gate is closed, the servo motor 401 is started, the first driving rod 403 is driven to rotate through the speed reducer 402, the first turning ring 201 is driven to rotate, the turning mechanism 2 in the second turning ring 202 is driven to rotate around the X-axis direction, the graphite lithium battery cathode material in the storage bin 3 is turned and mixed along the X-axis direction, the first bevel gear 404 is fixed in the middle of the upper end of the inner right side of the supporting seat 1, the first turning ring 201 rotates and simultaneously drives the first rotating rod 406 to rotate around the first bevel gear 404, the second bevel gear 405 is meshed with the first bevel gear 404, the second bevel gear 405 drives the first rotating rod 406 to rotate through the third bevel gear 407 and the fourth bevel gear 408, the second driving rod 4012 is driven to rotate through the fifth bevel gear 4010 and the sixth bevel gear 4011, finally the second turning ring 202 is driven to rotate around the Z-axis direction, the graphite lithium battery cathode material in the storage bin 3 is turned and mixed along the Z-axis direction, and the lithium battery cathode material in the storage bin 3 is turned and mixed thoroughly.
The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.
Claims (6)
1. Graphite material processing mixing arrangement, including supporting seat (1), its characterized in that: the utility model discloses a storage device, which is characterized in that a turnover mechanism (2) is arranged in an opening at the upper end of a supporting seat (1), a storage bin (3) is arranged in the turnover mechanism (2), a driving mechanism (4) is arranged at the upper end of the supporting seat (1), the driving mechanism (4) comprises a servo motor (401) arranged at the upper right end of the supporting seat (1), a speed reducer (402) is fixedly connected with a driving end at the left end of the servo motor (401), a driving end at the left end of the speed reducer (402) penetrates through the middle part of the upper right end of the supporting seat (1) and is fixedly connected with a driving rod I (403), a bevel gear I (404) is externally and rotatably connected with the middle part of the driving rod I (403), the bevel gear I (404) is connected with the bevel gear II (405) in an engaged manner, the middle part of the bevel gear II (405) is fixedly connected with the first rotating rod (406), the upper end of the first rotating rod (406) is fixedly connected with the third bevel gear (407), the third bevel gear (407) is connected with the fourth bevel gear (408) in an engaged manner, the middle part of the fourth bevel gear (408) is fixedly connected with the second rotating rod (409), the second rotating rod (409) is connected with the fifth bevel gear (4010) in an engaged manner, the fifth bevel gear (4010) is connected with the sixth bevel gear (4011) in an engaged manner, the middle part of the sixth bevel gear (4011) is fixedly connected with the second driving rod (4012), the turnover mechanism (2) comprises a turnover ring I (201) arranged in the middle of the upper end of the supporting seat (1), a turnover ring II (202) is connected to the inside of the turnover ring I (201) in a rotating mode, a limiting plate I (204) is fixedly connected to the upper middle portion of the right side of the turnover ring II (202), a limiting plate II (205) is fixedly connected to the right middle portion of the upper end of the turnover ring I (201), and a limiting seat (206) is fixedly connected to the upper right side of the turnover ring I (201).
2. A graphite material processing mixing device as recited in claim 1, wherein: the left end fixed connection of actuating lever one (403) is in the right side middle part of upset circle one (201), the lower extreme of actuating lever two (4012) runs through the upper end middle part of upset circle one (201) and the upper end middle part of upset circle two (202) in proper order and fixed connection in the upper end middle part of storage silo (3), the right side fixed connection of bevel gear one (404) is in the interior right side upper end middle part of supporting seat (1).
3. A graphite material processing mixing device as recited in claim 1, wherein: the middle outer turnover of the bevel gear II (405) is connected in the middle opening of the right end of the first limiting plate (204), and the middle upper outer turnover of the first rotating rod (406) is connected in the right end opening of the limiting seat (206).
4. A graphite material processing mixing device as recited in claim 1, wherein: the outer turnover of middle part right side of bull stick two (409) is connected in the upper end opening of spacing seat (206), the outer turnover of middle part left side of bull stick two (409) is connected in the upper end opening of spacing piece two (205).
5. A graphite material processing mixing device as recited in claim 1, wherein: the lower end of the storage bin (3) is fixedly connected to the inner lower part of the second overturning ring (202), and the middle part of the lower end of the second overturning ring (202) is rotationally connected to the middle part of the lower end of the first overturning ring (201) through a limiting rod.
6. A graphite material processing mixing device as recited in claim 1, wherein: the left middle part of the first turnover ring (201) is fixedly connected with a limit rotating rod (203), and the left end of the limit rotating rod (203) is rotationally connected to the middle part of the left upper end of the supporting seat (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202223398224.1U CN219518542U (en) | 2022-12-12 | 2022-12-12 | Graphite material processing mixing arrangement |
Applications Claiming Priority (1)
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CN202223398224.1U CN219518542U (en) | 2022-12-12 | 2022-12-12 | Graphite material processing mixing arrangement |
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CN219518542U true CN219518542U (en) | 2023-08-15 |
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CN202223398224.1U Active CN219518542U (en) | 2022-12-12 | 2022-12-12 | Graphite material processing mixing arrangement |
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- 2022-12-12 CN CN202223398224.1U patent/CN219518542U/en active Active
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