CN117101482A - Composite solid electrolyte mixing equipment - Google Patents

Abstract

The invention discloses a composite solid electrolyte mixing equipment, which includes a support platform, a mixing box, an operation panel, a heat dissipation window, and a lifting secondary stirring device. The support platform has a four-sided rectangular structure and a mixing box fixed with bolts on the top. An operation panel fixed with bolts is installed in the middle of the front end of the mixing box. There are symmetrically distributed heat dissipation windows on the left and right ends of the mixing box. A lifting-type secondary mixing device with a split structure is installed on the top of the mixing box. Through rational design, the electrolyte mixing device of the present invention can improve the mixing efficiency through various movement forms and can automatically transport and discharge materials to further reduce the labor intensity of manual operations.

Description

A composite solid electrolyte mixing equipment

Technical field

The present invention relates to an electrolyte mixing device, and in particular to a composite solid electrolyte mixing device.

Background technique

Mixing is an essential and important step in the production and processing of composite solid electrolytes. Most of the mixing devices currently used use a single mixing motion, which is inefficient. At the same time, discharging and feeding materials also require manual operations, which are time-consuming and laborious. The efficiency of production and processing requires a new type of composite solid electrolyte mixing equipment that can automatically convey, feed and mix efficiently.

Contents of the invention

The object of the present invention is to provide a composite solid electrolyte mixing device to solve the above technical problems.

In order to achieve the above object, the present invention adopts the following technical solutions:

A composite solid electrolyte mixing equipment, including a support platform, a mixing box, an operation panel, a heat dissipation window, and a lifting secondary stirring device. The support platform has a four-sided rectangular structure and a mixing box fixed with bolts is installed on the top. The mixing box An operation panel fixed with bolts is installed in the middle of the front end. There are symmetrically distributed heat dissipation windows at the left and right ends of the mixing box. A lifting-type secondary stirring device with a split structure is installed on the top of the mixing box.

On the basis of the above technical solution, a first cylinder, a mixing barrel, a worm gear, a worm, a driving motor, a bearing, and an electrolyte conveying and discharging device are installed inside the mixing box. A bolt-fixed lifting device is installed at the bottom of the lifting secondary mixing device. The first cylinder has a mixing barrel with an embedded structure installed at the front end of the first cylinder. A keyed worm gear is installed at the bottom of the circumferential surface of the mixing barrel. A meshing worm is installed at the right end of the worm gear. The middle part of the rear end of the worm A keyed drive motor is installed and hingedly fixed through bearings, and an electrolyte conveying and discharging device is installed at the bottom of the mixing box.

Based on the above technical solution, the lifting type secondary mixing device includes an installation control box, a mounting plate, a connecting plate, a two-way cylinder, a moving slider, a first connecting rod, a guide groove, a stirring plate, a second connecting rod, " L"-shaped connecting rod, reciprocating rotating frame, the installation control box has a two-section structure and a cylindrical structure installation plate is installed at the bottom and is fixedly connected through four sets of connecting plates. Bolts are installed in the top and middle of the installation plate. Fixed two-way cylinder, the two-way cylinder is bolted to the first connecting rod on the top of the moving slider at the left and right ends. The moving slider is embedded and installed inside the guide groove on the surface of the installation plate and is slidingly connected. The moving slider A bolt-fixed stirring paddle is installed at the bottom end, and an integrally welded and fixed second connecting rod is installed on one side of the mixing paddle. A hinged and fixed "L"-shaped connecting rod is installed on the circumferential surface of the second connecting rod. The other end of the "L" shaped connecting rod is connected to a hinged and fixed reciprocating rotating frame. The reciprocating rotating frame is hinged and fixed in the middle of the bottom end of the installation plate through the bearing at the top.

Based on the above technical solution, the mixing barrel includes an outer wall of the mixing barrel, a corrosion-resistant inner wall, a frustum discharging port, a frustum baffle, a second cylinder, a cylinder mounting frame, and a discharging and feeding pipe. A corrosion-resistant inner wall is installed on the inner side of the outer wall. There is a frustum discharge port in the middle of the outer wall of the mixing barrel and the inner bottom of the corrosion-resistant inner wall. A plug-connected frustum baffle plate is installed on the inner bottom of the frustum discharge port. A second cylinder fixed with bolts is installed on the bottom end of the frustum baffle plate. The second cylinder is installed on the inside of the cylinder mounting bracket at the bottom. The cylinder mounting bracket is installed on the bottom of the inside of the unloading feed pipe.

Based on the above technical solution, the electrolyte conveying and discharging device includes a feeding box, a feeding hole, a guide bar, a pushing box, an embedding groove, a running wheel, a cleaning brush, and a third cylinder. The feeding box It is an open four-sided rectangular box structure. There is a feeding hole in the middle of the top of the feeding box and it is connected to the unloading feeding pipe through bolts. A guide bar fixed with countersunk head screws is installed on the right end of the inner top of the feeding box. The guide bar is plugged into and slidably connected to the recessed groove on the top of the bottom push box. The bottom end of the push box is equipped with a running wheel fixed with embedded bolts. The bottom of the right end of the push box is equipped with a cleaning wheel fixed with countersunk screws. Material brush, and a third cylinder fixed by bolts is installed in the middle of the left end of the push box.

Compared with the prior art, the present invention has the following advantages: the composite solid electrolyte mixing equipment of the present invention. The driving motor drives the worm, worm gear and mixing barrel to rotate to realize the mixing of the first movement mode, and then drives the two sets of moving slide blocks to perform bi-directional movement through the two-way cylinder, and further realizes it through the cooperation of the moving slide block and the "L" type connecting rod. The reciprocating rotary motion of the reciprocating rotary frame, and then through the cooperation of the reciprocating rotary frame and the "L"-shaped connecting rod, further drives the movement of the other two sets of moving slides that are not connected to the two-way cylinder, thereby achieving the synchronous bidirectional movement of the four sets of mixing plates. Then as the second form of mixing motion, the mixing efficiency of the electrolyte is improved, and then the mixed electrolyte raw materials can be automatically unloaded and transported through the mixing barrel and the electrolyte conveying and discharging device at the bottom, improving the automation level of the equipment and freeing up manual labor.

Description of drawings

Figure 1 is a schematic diagram of the appearance structure of the present invention.

Figure 2 is a schematic structural diagram of the mixing box of the present invention.

Figure 3 is a schematic structural diagram of the lifting secondary stirring device of the present invention.

Figure 4 is a schematic structural diagram of the mixing barrel of the present invention.

Figure 5 is a schematic structural diagram of the electrolyte conveying and discharging device of the present invention.

In the picture: 1. Support platform, 2. Mixing box, 3. Operation panel, 4. Heat dissipation window, 5. Lifting secondary stirring device, 6. First cylinder, 7. Mixing barrel, 8. Worm gear, 9. Worm , 10. Drive motor, 11. Bearing, 12. Electrolyte conveying and discharging device, 13. Installation control box, 14. Installation plate, 15. Connection plate, 16. Two-way cylinder, 17. Moving slider, 18. First connection Rod, 19. Guide groove, 20. Stirring plate, 21. Second connecting rod, 22. "L" shaped connecting rod, 23. Reciprocating rotating frame, 24. Outer wall of mixing barrel, 25. Corrosion-resistant inner wall, 26. Cone Feed port under the table, 27. Cone baffle, 28. Second cylinder, 29. Cylinder mounting bracket, 30. Feeding conveyor pipe, 31. Feed box, 32. Feed hole, 33. Guide bar, 34. Pushing box, 35. Embedding groove, 36. Travel wheel, 37. Cleaning brush, 38. Third cylinder.

Detailed ways

The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.

As shown in Figure 1-5, a composite solid electrolyte mixing equipment includes a support platform 1, a mixing box 2, an operation panel 3, a heat dissipation window 4, and a lifting secondary stirring device 5. The support platform 1 is a four-sided rectangular structure. A bolted mixing box 2 is installed at the top. A bolted operating panel 3 is installed in the middle of the front end of the mixing box 2. There are symmetrically distributed heat dissipation windows 4 at the left and right ends of the mixing box 2. The mixing box 2 A lift-type secondary mixing device 5 with a split structure is installed on the top.

A first cylinder 6, a mixing barrel 7, a worm gear 8, a worm 9, a driving motor 10, a bearing 11, and an electrolyte conveying and discharging device 12 are installed inside the mixing box 2. Bolts are installed at the bottom of the lifting secondary stirring device 5. The first cylinder 6 is fixed. A mixing barrel 7 with an embedded structure is installed at the front end of the first cylinder 6. A keyed worm gear 8 is installed at the bottom of the circumferential surface of the mixing barrel 7. The right end of the worm gear 8 is equipped with a meshing connection. Worm 9, a keyed drive motor 10 is installed in the middle of the rear end of the worm 9 and is hingedly fixed through a bearing 11. An electrolyte conveying and discharging device 12 is installed at the bottom of the mixing box 7.

The lifting type secondary stirring device 5 includes an installation control box 13, a mounting plate 14, a connecting plate 15, a two-way cylinder 16, a moving slider 17, a first connecting rod 18, a guide groove 19, a stirring plate 20, and a second connecting rod. 21. "L" shaped connecting rod 22, reciprocating rotating frame 23. The installation control box 13 has a double-section structure and a cylindrical structure mounting plate 14 is installed at the bottom and is fixedly connected through four sets of connecting plates 15, so A bolt-fastened two-way cylinder 16 is installed in the middle of the top of the installation plate 14. The two-way cylinder 16 is bolted to the first connecting rod 18 on the top of the moving slider 17 at both left and right ends. The moving slider 17 is embedded in the installation plate. The inner side of the guide groove 19 on the surface of 14 is slidingly connected. The bottom end of the moving slider 17 is equipped with a bolt-fixed stirring paddle 20. One side of the stirring paddle 20 is installed with an integrally welded and fixed second connecting rod 21. A hinged "L" shaped connecting rod 22 is installed on the circumferential surface of the second connecting rod 21. The other end of the "L" shaped connecting rod 22 is connected with a hinged and fixed reciprocating rotating frame 23. The reciprocating rotating frame 23 passes through The top bearing 11 is hingedly fixed in the middle of the bottom end of the installation plate 14.

The mixing barrel 7 includes an outer wall 24 of the mixing barrel, a corrosion-resistant inner wall 25, a frustum discharge opening 26, a frustum baffle 27, a second cylinder 28, a cylinder mounting frame 29, and a discharging and feeding pipe 30. A corrosion-resistant inner wall 25 is installed on the inner side of the outer wall 24 of the barrel. A frustum discharge port 26 is opened in the middle of the inner bottom of the outer wall 24 and the corrosion-resistant inner wall 25 of the mixing barrel. A plug-in connection is installed at the bottom of the inner bottom of the frustum discharge port 26. The frustum baffle plate 27 has a bolt-fixed second cylinder 28 installed at the bottom end of the frustum baffle plate 27. The second cylinder 28 is installed inside the cylinder mounting bracket 29 at the bottom. The cylinder mounting bracket 29 Installed at the bottom of the inner side of the unloading feed pipe 30.

The electrolyte conveying and discharging device 12 includes a feeding box 31, a feeding hole 32, a guide bar 33, a pushing box 34, an embedding groove 35, a traveling wheel 36, a cleaning brush 37, and a third cylinder 38. The feed box 31 is an open four-sided rectangular box structure. A feed hole 32 is opened in the middle of the top of the feed box 31 and is connected to the unloading feed pipe 30 through bolts. A sink is installed on the right end of the inner top of the feed box 31. The guide bar 33 is fixed with head screws. The guide bar 33 is plugged into and slidably connected to the embedded groove 35 on the top of the bottom push box 34. The bottom end of the push box 34 is equipped with a running wheel 36 fixed with embedded bolts. A cleaning brush 37 fixed with countersunk head screws is installed at the bottom of the right end of the pushing box 34, and a third cylinder 38 fixed with bolts is installed in the middle of the left end of the pushing box 34.

The working principle of the invention: first, the first cylinder is controlled through the operation panel to drive the lifting secondary stirring device to rise to facilitate the transportation of raw materials to the inside of the mixing barrel. After the addition of materials is completed, the first cylinder is reset and then the drive motor drives the worm at the front end to rotate. During the rotation, it meshes with the worm gear on the left end and further drives the mixing barrel to rotate, so that the electrolyte raw materials inside the mixing barrel are initially mixed, and then starts the two-way cylinder inside the lifting secondary stirring device and drives the two left and right groups of moving slides through the two-way cylinder. The block performs reciprocating horizontal movement. At the same time, the plug-in sliding connection between the moving slide block and the guide groove of the installation plate can further ensure the stability of the moving slide block during its movement. Then the active moving slide blocks at the left and right ends are hingedly connected. The "L"-shaped connecting rod is connected to the reciprocating rotating frame to realize the reciprocating rotation movement of the reciprocating rotating frame, and then the cooperation between the reciprocating rotating frame and the "L"-shaped connecting rod further drives the moving sliders at the front and rear ends to reciprocate. Horizontal movement (the moving slides at the front and rear ends are not connected to the two-way cylinder) and then drive the four sets of stirring plates at the bottom through two sets of moving slides with synchronous relative motion to stir the electrolyte raw materials to improve the secondary mixing efficiency. After the mixing is completed, the The second cylinder drives the frustum baffle plate down, and then the electrolyte raw material falls to the unloading feeding pipe under the action of gravity and enters the feeding box through the feeding hole, and then drives the pushing box through the third cylinder at the left end of the feeding box. Movement realizes the discharging and conveying of electrolyte raw materials. During the movement of the push box, the guide bar at the top of the inside of the feed box cooperates with the groove on the top of the push box to improve the stability during the movement and cooperate with the bottom walking wheel to reduce the pushing speed. The friction force of the material box movement, and finally the cleaning brush is used to avoid residual electrolyte raw materials inside the material box.

The above are the preferred embodiments of the present invention. For those of ordinary skill in the art, according to the teachings of the present invention, changes, modifications, and modifications may be made to the embodiments without departing from the principles and spirit of the present invention. Substitutions and modifications still fall within the scope of the invention.

Claims (5)

1. The utility model provides a compound solid electrolyte mixing apparatus, includes supporting platform (1), mixing box (2), operating panel (3), heat dissipation window (4), over-and-under type secondary stirring device (5), its characterized in that: the supporting platform (1) is of a four-side rectangular structure, the top end of the supporting platform is provided with a mixing box (2) fixed by bolts, the middle part of the front end of the mixing box (2) is provided with an operation panel (3) fixed by bolts, the left end and the right end of the mixing box (2) are provided with radiating windows (4) symmetrically distributed, and the top of the mixing box (2) is provided with a lifting secondary stirring device (5) of a split structure.

2. A composite solid electrolyte mixing apparatus as claimed in claim 1, wherein: first cylinder (6), mixing tank (7), worm wheel (8), worm (9), driving motor (10), bearing (11), electrolyte transportation discharging device (12) are installed to mixing tank (2) inboard, bolt-fixed first cylinder (6) are installed to lift secondary stirring device (5) bottom, mixing tank (7) of embedded structure are installed to first cylinder (6) front end, worm wheel (8) of bond connection are installed to mixing tank (7) circumference surface bottom, worm wheel (8) right-hand member is installed meshing connection worm (9), worm (9) rear end mid-mounting has driving motor (10) of bond connection and articulates fixedly through bearing (11), electrolyte transportation discharging device (12) are installed to mixing tank (7) bottom.

3. A composite solid electrolyte mixing apparatus as claimed in claim 1, wherein: the lifting secondary stirring device (5) comprises a mounting control box (13), a mounting plate (14), a connecting disc (15), a bidirectional cylinder (16), a movable slide block (17), a first connecting rod (18), a guide groove (19), a stirring plate (20), a second connecting rod (21), 'L' -shaped connecting rod (22) and a reciprocating rotating frame (23), wherein the mounting control box (13) is of a double-section structure, the bottom end of the mounting control box is provided with the mounting plate (14) with a cylindrical structure and is fixedly connected with the mounting plate through four groups of connecting discs (15), the middle part of the top end of the mounting plate (14) is provided with the bidirectional cylinder (16) fixed by bolts, the bidirectional cylinder (16) is fixed by bolts with a first connecting rod (18) at the top of a movable slide block (17) at the left end and the right end, the movable slide block (17) is embedded in the inner side of the guide groove (19) on the surface of the mounting plate (14) and is in sliding connection, the bottom end of the movable slide block (17) is provided with the stirring paddle (20) fixed by bolts, one side of the stirring paddle (20) is provided with the second connecting rod (21) fixed by welding, the other end of the second connecting rod (21) is fixed by the reciprocating rotating frame (22) fixed by bolts, the other end of the second connecting rod (22) is hinged on the surface of the movable slide bar (21), the reciprocating rotary frame (23) is hinged and fixed in the middle of the bottom end of the mounting disc (14) through a bearing (11) at the top.

4. A composite solid electrolyte mixing apparatus as claimed in claim 2, wherein: mixing drum (7) are including mixing drum outer wall (24), corrosion-resistant inner wall (25), frustum feed opening (26), frustum striker plate (27), second cylinder (28), cylinder mounting bracket (29), unloading conveying pipeline (30), corrosion-resistant inner wall (25) are installed to mixing drum outer wall (24) inboard, open in the middle part of the inboard bottom of mixing drum outer wall (24), corrosion-resistant inner wall (25) has frustum feed opening (26), frustum striker plate (27) of grafting connection are installed to frustum feed opening (26) inboard bottom, bolted connection's second cylinder (28) are installed to frustum striker plate (27) bottom, cylinder mounting bracket (29) inboard in the bottom is installed to second cylinder (28), cylinder mounting bracket (29) are installed in unloading conveying pipeline (30) inboard bottom.

5. A composite solid electrolyte mixing apparatus as claimed in claim 2, wherein: electrolyte is carried discharging device (12) including conveying case (31), feed port (32), gib block (33), pushing away case (34), caulking groove (35), walking wheel (36), clear material brush (37), third cylinder (38), conveying case (31) are open quadrilateral box structure, open at conveying case (31) top middle part has feed port (32) and is connected with unloading conveying pipeline (30) through the bolt, the gib block (33) of countersunk head screw fixation are installed at conveying case (31) inboard top right-hand member, caulking groove (35) grafting sliding connection at gib block (33) and bottom pushing away case (34) top, pushing away case (34) bottom and installing embedded bolt fixation's walking wheel (36), pushing away case (34) right-hand member bottom and installing countersunk head screw fixation's clear material brush (37), pushing away case (34) left end mid-mounting has bolt fixation's third cylinder (38).