Disclosure of Invention
The embodiment of the invention aims to provide a conveyor for conveying new energy lithium battery materials, and aims to solve the problem that the new energy lithium battery materials are often accumulated at the bent part of a conveying pipeline in the conveying process, so that the conveying efficiency of the new energy lithium battery materials is influenced.
The invention is realized in this way, a conveyer for conveying new energy lithium battery materials, which comprises a conveying pipeline, a corner plate arranged at the bending part of the conveying pipeline, and further comprises:
the device comprises a sealing box, a first guide slide block, a movable plate and a guide plate;
the sealing box is connected with the conveying pipeline, a first guide chute is arranged in the sealing box, the first guide sliding block is connected in the first guide chute in a sliding manner, the moving plate is fixed on the first guide sliding block, a guide seat is fixed in the sealing box, the guide plate is connected in the guide seat in a sliding manner, a first fixed shaft is fixed on the guide plate, and the corner plate is rotationally connected to the first fixed shaft;
the transmission assembly is arranged in the seal box and drives the first guide sliding block to slide left and right through the pressure in the conveying pipeline;
the vibration assembly is arranged on the corner plate and drives the corner plate to vibrate in a reciprocating rotation mode through the transmission assembly;
the pulling assembly is arranged on the guide plate and drives the corner plate to move away from the direction of the conveying pipeline through the transmission assembly.
Further technical scheme, drive assembly includes piston housing, piston, first pressure spring, first guiding axle and connecting plate, piston housing fixes on pipeline, piston sliding connection is in piston housing, and the piston is close to pipeline's one end and pipeline inner wall shape the same, first pressure spring sets up in piston housing, first guiding axle is fixed on the piston, the connecting plate is fixed on first direction slider, be provided with the oblique slot that pushes away on the connecting plate, and first guiding axle and oblique slot sliding fit push away.
Further technical scheme, it has the regulating plate still to slide connection in the piston housing, threaded connection has the bolt on the piston housing, and the terminal and the regulating plate normal running fit of bolt, threaded connection has fastening bolt on the bolt.
A further technical scheme, the vibration subassembly includes second fixed axle, second pressure spring, fixed cover, telescopic link, third pressure spring and driving lever subassembly, the second fixed axle is fixed on the deflector, be provided with the arc wall on the bent angle board, second fixed axle and arc wall sliding fit, the second pressure spring sets up in the arc wall, fixed cover is fixed on the bent angle board, be provided with the second guide way in the fixed cover, and telescopic link sliding connection is in the second guide way, the third pressure spring sets up in the second guide way, the driving lever subassembly sets up on the movable plate, the driving lever subassembly is used for intermittent type nature to promote the telescopic link and rotates.
Further technical scheme, the driving lever subassembly includes mounting panel, mount pad, poker rod and extension spring, the mounting panel is fixed on the movable plate, the mount pad is fixed on the mounting panel, the poker rod rotates to be connected on the mount pad, be provided with the mounting groove on the mount pad, the extension spring sets up in the mounting groove, and the both ends of extension spring respectively with poker rod and mounting groove inner wall connection.
According to a further technical scheme, the mounting seat, the poke rod, the mounting groove and the tension spring are provided with multiple groups.
According to the technical scheme, the pulling assembly comprises a V-shaped guide groove and a second guide shaft, the V-shaped guide groove is formed in the movable plate, one end of the V-shaped guide groove is horizontally arranged, the second guide shaft is fixed to the guide plate, and the second guide shaft is in sliding fit with the V-shaped guide groove.
According to the conveyor for conveying the new energy lithium battery material, when the new energy lithium battery material is accumulated at a bent position in a conveying pipeline, the pressure at the right end of the conveying pipeline is increased, the transmission assembly drives the vibration assembly and the pulling assembly to work through high pressure at the right end of the conveying pipeline, the vibration assembly drives the corner plate to vibrate in a reciprocating rotation mode through the transmission assembly, so that the new energy lithium battery material accumulated in the conveying pipeline is loosened, the flowability of the new energy lithium battery material in the conveying pipeline is further improved, the new energy lithium battery material accumulated in the conveying pipeline is discharged, when the conveying pipeline cannot be dredged only through vibration, the pulling assembly drives the corner plate to move away from the conveying pipeline through the transmission assembly, the corner plate is further separated from the conveying pipeline, the new energy lithium battery material accumulated at the bent position of the conveying pipeline falls off, the conveying pipeline is further dredged, the conveying pipeline is self-dredged through the pressure change in the conveying pipeline, manpower is saved, an opening is formed in the lower end of a sealing box, and a sealing cover is connected to the opening through threads.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
Specific implementations of the present invention are described in detail below with reference to specific embodiments.
As shown in fig. 1, a conveyor for conveying a new energy lithium battery material provided for an embodiment of the present invention includes a conveying pipe 101, a corner plate 102 disposed at a bending position of the conveying pipe 101, and further includes:
a seal box 103, a first guide slider 105, a moving plate 106, and a guide plate 108;
the sealing box 103 is connected with the conveying pipeline 101, a first guide sliding groove 104 is arranged in the sealing box 103, the first guide sliding block 105 is connected in the first guide sliding groove 104 in a sliding manner, the moving plate 106 is fixed on the first guide sliding block 105, a guide seat 107 is fixed in the sealing box 103, the guide plate 108 is connected in the guide seat 107 in a sliding manner, a first fixed shaft 109 is fixed on the guide plate 108, and the corner plate 102 is rotatably connected on the first fixed shaft 109;
the transmission assembly 2 is arranged in the seal box 103, and the transmission assembly 2 drives the first guide slide block 105 to slide left and right through the pressure in the conveying pipeline 101;
the vibration assembly 4 is arranged on the corner plate 102, and the vibration assembly 4 drives the corner plate 102 to vibrate in a reciprocating rotation mode through the transmission assembly 2;
pulling assembly 6, pulling assembly 6 sets up on deflector 108, pulling assembly 6 drives bent angle board 102 through drive assembly 2 and keeps away from the motion of pipeline 101 direction.
In the embodiment of the invention, in the using process, when new energy lithium battery materials are accumulated at the bent part in the conveying pipeline 101, the pressure at the right end of the conveying pipeline 101 is increased, the transmission assembly 2 drives the vibration assembly 4 and the pulling assembly 6 to work through the high pressure at the right end of the conveying pipeline 101, the vibration assembly 4 drives the corner plate 102 to vibrate in a reciprocating rotation mode through the transmission assembly 2, so that the new energy lithium battery materials accumulated in the conveying pipeline 101 become loose, the flowability of the new energy lithium battery materials in the conveying pipeline 101 is improved, the new energy lithium battery materials accumulated in the conveying pipeline 101 are discharged, when the conveying pipeline 101 cannot be dredged only through vibration, the pulling assembly 6 drives the corner plate 102 to move away from the conveying pipeline 101 through the transmission assembly 2, the corner plate 102 is further separated from the conveying pipeline 101, the new energy lithium battery materials accumulated at the bent part of the conveying pipeline 101 fall down, the conveying pipeline 101 is dredged through the pressure change in the conveying pipeline 101, manpower is saved, the lower end of the sealing box 103 is provided with an opening, and the sealing cover is connected with a sealing cover through threads.
As shown in fig. 1 and fig. 2, as a preferred embodiment of the present invention, the transmission assembly 2 includes a piston housing 201, a piston 202, a first compression spring 203, a first guide shaft 204, and a connecting plate 206, the piston housing 201 is fixed on the conveying pipe 101, the piston 202 is slidably connected in the piston housing 201, and one end of the piston 202 close to the conveying pipe 101 has the same shape as the inner wall of the conveying pipe 101, the first compression spring 203 is disposed in the piston housing 201, the first guide shaft 204 is fixed on the piston 202, the connecting plate 206 is fixed on the first guide slider 105, the connecting plate 206 is provided with an inclined push groove 205, and the first guide shaft 204 is slidably engaged with the inclined push groove 205.
In the embodiment of the present invention, the upper end of the piston housing 201 is communicated with the conveying pipe 101, when the pressure at the right end of the conveying pipe 101 is increased, the pressure pushes the piston 202 to move downward, the piston 202 drives the first guide shaft 204 to move downward, the first guide shaft 204 pushes the connecting plate 206 to move leftward through the inclined push groove 205, the connecting plate 206 pushes the first guide slider 105 to move leftward, when the pressure in the conveying pipe 101 is restored, the first pressure spring 203 pushes the piston 202 to move upward and reset, and the connecting plate 206 drives the first guide slider 105 to move rightward and reset.
As shown in fig. 1, as a preferred embodiment of the present invention, an adjusting plate 301 is further slidably connected in the piston housing 201, a bolt 302 is threadedly connected to the piston housing 201, a tip of the bolt 302 is rotatably engaged with the adjusting plate 301, and a fastening bolt 303 is threadedly connected to the bolt 302.
In the embodiment of the invention, when the elastic potential energy of the first compressed spring 203 is required, the bolt 302 is rotated, the bolt 302 drives the adjusting plate 301 to move up and down in a manner of being in threaded fit with the piston housing 201, the elastic potential energy of the first compressed spring 203 is increased when the adjusting plate 301 moves up, and the elastic potential energy of the first compressed spring 203 is reduced when the adjusting plate 301 moves up.
As shown in fig. 1 to fig. 3, as a preferred embodiment of the present invention, the vibration assembly 4 includes a second fixed shaft 401, a second compressed spring 403, a fixed sleeve 404, a telescopic rod 406, a third compressed spring 407, and a lever assembly 5, the second fixed shaft 401 is fixed on the guide plate 108, the curved plate 102 is provided with an arc-shaped groove 402, the second fixed shaft 401 is slidably engaged with the arc-shaped groove 402, the second compressed spring 403 is disposed in the arc-shaped groove 402, the fixed sleeve 404 is fixed on the curved plate 102, the fixed sleeve 404 is provided with a second guide groove 405, the telescopic rod 406 is slidably connected in the second guide groove 405, the third compressed spring 407 is disposed in the second guide groove 405, the lever assembly 5 is disposed on the moving plate 106, and the lever assembly 5 is configured to intermittently push the moving rod 406 to rotate.
In the embodiment of the present invention, when the moving plate 106 moves to the left, the moving plate 106 drives the shift lever assembly 5 to move to the left, and then the telescopic rod 406 and the fixing sleeve 404 push the corner plate 102 to rotate clockwise, until the shift lever assembly 5 is not in contact with the telescopic rod 406, the second compression spring 403 pushes the corner plate 102 to rotate reversely and reset, so that the corner plate 102 vibrates in a reciprocating rotation manner, when the corner plate 102 moves to the lower left corner, the telescopic rod 406 is in contact with the mounting plate 501, so as to compress the second compression spring 403, and reduce the height of the telescopic rod 406, so that when the corner plate 102 moves to the lower left corner, the shift lever assembly 5 can still push the corner plate 102 to rotate.
As shown in fig. 3 and 4, as a preferred embodiment of the present invention, the shift lever assembly 5 includes a mounting plate 501, a mounting seat 502, a shift lever 503 and a tension spring 505, the mounting plate 501 is fixed on the moving plate 106, the mounting seat 502 is fixed on the mounting plate 501, the shift lever 503 is rotatably connected to the mounting seat 502, a mounting groove 504 is arranged on the mounting seat 502, the tension spring 505 is arranged in the mounting groove 504, two ends of the tension spring 505 are respectively connected to the shift lever 503 and an inner wall of the mounting groove 504, and the mounting seat 502, the shift lever 503, the mounting groove 504 and the tension spring 505 are provided with multiple sets.
In the embodiment of the present invention, when the moving plate 106 moves to the left, the poke rod 503 pushes the telescopic rod 406 to rotate clockwise, and by providing multiple sets of the mounting seat 502, the poke rod 503, the mounting groove 504 and the tension spring 505, the telescopic rod 406 intermittently rotates, so as to drive the corner plate 102 to intermittently vibrate, and when the moving plate 106 moves to the right and is reset, the telescopic rod 406 pushes the poke rod 503 to rotate counterclockwise for avoiding.
As shown in fig. 1 and 2, as a preferred embodiment of the present invention, the pulling assembly 6 includes a V-shaped guide groove 601 and a second guide shaft 602, the V-shaped guide groove 601 is disposed on the moving plate 106, one end of the V-shaped guide groove 601 is disposed horizontally, the second guide shaft 602 is fixed on the guide plate 108, and the second guide shaft 602 is slidably engaged with the V-shaped guide groove 601.
In the embodiment of the invention, when the moving plate 106 moves rightwards, because the left end of the V-shaped guide groove 601 is horizontally arranged, when the moving plate 106 moves leftwards, the V-shaped guide groove 601 cannot push the guide plate 108 to move leftwards and downwards through the second guide shaft 602, at this time, the new energy lithium battery materials accumulated at the bent part of the conveying pipeline 101 are dredged only through the vibration of the bent angle plate 102, when the new energy lithium battery materials accumulated at the bent part of the conveying pipeline 101 cannot be dredged only through vibration, the pressure at the right end of the conveying pipeline 101 is continuously increased, so that the moving plate 106 continues to move leftwards, the moving plate 106 is matched with the second guide shaft 602 through the right half section of the V-shaped guide groove 601, so as to drive the guide plate 108 to move leftwards and downwards, the guide plate 108 drives the left side guide plate 102 to move leftwards, so that the new energy lithium battery materials accumulated at the bent part of the conveying pipeline 101 fall out, and the bent angle plate 102 continues to vibrate at the same time, so as to improve the discharge efficiency of the new energy lithium battery materials accumulated at the bent part of the conveying pipeline 101.
The embodiment of the invention provides a conveyor for conveying a new energy lithium battery material, in the using process, when the new energy lithium battery material is accumulated at a bent part in a conveying pipeline 101, the pressure at the right end of the conveying pipeline 101 is increased, the upper end of a piston shell 201 is communicated with the conveying pipeline 101, when the pressure at the right end of the conveying pipeline 101 is increased, the pressure pushes a piston 202 to move downwards, the piston 202 drives a first guide shaft 204 to move downwards, the first guide shaft 204 pushes a connecting plate 206 to move leftwards through an inclined push groove 205, the connecting plate 206 pushes a first guide slider 105 to move leftwards, when a moving plate 106 moves leftwards, the moving plate 106 drives a deflector rod assembly 5 to move leftwards, and further pushes a corner plate 102 to rotate clockwise through an expansion link 406 and a fixing sleeve 404 until the deflector rod assembly 5 is not in contact with the expansion link 406, a second pressure spring 403 pushes the corner plate 102 to rotate reversely and reset, further, the corner plate 102 is vibrated in a reciprocating manner, when the corner plate 102 moves to the lower left corner, the telescopic rod 406 contacts the mounting plate 501, so as to compress the second compression spring 403, and the height of the telescopic rod 406 is reduced, so that when the corner plate 102 moves to the lower left corner, the shift lever assembly 5 can still push the corner plate 102 to rotate, so that the new energy lithium battery material accumulated in the conveying pipeline 101 becomes loose, further the fluidity of the new energy lithium battery material in the conveying pipeline 101 is improved, the new energy lithium battery material accumulated in the conveying pipeline 101 is discharged, when the conveying pipeline 101 cannot be dredged only by vibration, when the moving plate 106 moves to the right, due to the horizontal arrangement of the left end of the V-shaped guide groove 601, when the moving plate 106 moves to the left, the V-shaped guide groove 601 cannot push the guide plate 108 to move to the left and downwards through the second guide shaft 602, at this moment, the new energy lithium battery materials accumulated at the bent part of the conveying pipeline 101 are dredged only by means of vibration of the corner plate 102, when the new energy lithium battery materials accumulated at the bent part of the conveying pipeline 101 cannot be dredged only by means of vibration, the pressure at the right end of the conveying pipeline 101 is continuously increased, so that the moving plate 106 continues to move leftwards, the moving plate 106 is matched with the second guide shaft 602 through the right half section of the V-shaped guide groove 601, so that the guide plate 108 is driven to move leftwards and downwards, the guide plate 108 drives the corner plate 102 to move leftwards and downwards, so that the new energy lithium battery materials accumulated at the bent part of the conveying pipeline 101 fall out, meanwhile, the corner plate 102 continues to vibrate, so that the discharge efficiency of the new energy lithium battery materials accumulated at the bent part of the conveying pipeline 101 is improved, the conveying pipeline 101 is dredged by itself through pressure change in the conveying pipeline 101, and manpower is saved.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.