SUMMERY OF THE UTILITY MODEL
The utility model aims at the above-mentioned problem, provide a graphite stirring coating equipment.
In order to achieve the above purpose, the utility model adopts the following technical proposal:
the utility model provides a graphite stirring coating equipment, includes the frame, and feed assembly and graphite entry all set up in the frame, still be equipped with frame pivoted one-way ejection of compact mixing mechanism relatively in the frame, one-way ejection of compact mixing mechanism and feed assembly and graphite entry homogeneous phase intercommunication, if and only when one-way ejection of compact mixing mechanism along clockwise or anticlockwise rotation, material in the one-way ejection of compact mixing mechanism can slide outside one-way ejection of compact mixing mechanism.
In foretell graphite stirring coating equipment, one-way ejection of compact mixing mechanism is including setting up the shell body in the frame, have the mixing cavity who communicates with feeding subassembly and graphite entry homogeneous phase in the shell body, the ejection of compact track of fixed connection at the shell body internal surface has in the mixing cavity, the ejection of compact track extends along shell body axial lead direction spiral, still includes that one end is linked together with ejection of compact track, and the other end extends to the outside discharge gate of mixing cavity.
In foretell graphite stirring coating equipment, the ejection of compact track includes a plurality of outstanding guide rib in the shell body internal surface that arrange in proper order, the guide rib extends along shell body axial lead direction spiral, has the direction passageway between two adjacent guide ribs of shell body axial lead direction or between guide rib and the shell body, the direction passageway is linked together with the discharge gate.
In foretell graphite stirring coating equipment, the discharge gate includes the play flitch with shell body fixed connection, goes out the upper surface and the ejection of compact track of flitch and is linked together, it separates the baffle to go out flitch to be close to one side edge fixedly connected with of hybrid cavity.
In the graphite stirring and coating equipment, the graphite stirring and coating equipment further comprises a driving mechanism which is fixedly connected to the frame and can drive the one-way discharging and mixing mechanism to rotate.
In the graphite stirring and coating device, the driving mechanism comprises a bidirectional rotating motor fixedly connected to the frame and a gear ring fixedly sleeved on the outer surface of the unidirectional discharging and mixing mechanism, a transmission gear is fixedly connected to an output shaft of the bidirectional rotating motor, and the transmission gear is meshed with the gear ring.
In foretell graphite stirring coating equipment, the feeding subassembly is including setting up feeder hopper and the vibrator of fixed connection in the feeder hopper bottom surface in the frame, the feeder hopper is linked together through feedstock channel and one-way ejection of compact mixing mechanism, still including the feeding control subassembly of connection in the frame, rotates the feeding control subassembly and can open or cut off feedstock channel.
In foretell graphite stirring coating equipment, the feed control subassembly includes that fixed connection drives actuating cylinder in the frame, the output shaft that drives actuating cylinder rotates and is connected with the swinging boom, and the swinging boom is kept away from the one end fixedly connected with rotary rod that drives actuating cylinder, and the both ends of rotary rod all rotate with the frame and be connected, still fixedly connected with rotates the baffle on the rotary rod, rotate the rotary rod can make rotate the baffle and laminate mutually with the feedstock channel upper surface or form the gap between the feedstock channel upper surface.
In the graphite stirring and coating equipment, a roller component is further arranged between the unidirectional discharging and mixing mechanism and the rack, the roller component is rotatably connected with the rack, the cross section of the unidirectional discharging and mixing mechanism is circular, and the unidirectional discharging and mixing mechanism is pressed on the roller component and is in rolling connection with the roller component.
In the graphite stirring and coating device, the roller assembly comprises a rolling rod rotatably connected with the frame through a bearing, two ends of the rolling rod are respectively and fixedly connected with a roller, and the unidirectional discharging and mixing mechanism is pressed on the rollers and is in rolling connection with the rollers.
Compared with the prior art, the utility model has the advantages of:
1. the utility model discloses usable one-way ejection of compact mixing mechanism realizes the coating of material surface graphite and the ejection of compact of the material that the coating was accomplished, the manual operation of the coating process that has significantly reduced, and production efficiency is higher, is applicable to mechanized production.
2. The utility model discloses easily control the diffusion of graphite in mixing process, compare in prior art manual operation and lead to the unrestrained condition everywhere to the operation scene of graphite, safety ring protects more.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
As shown in fig. 1, a graphite stirring coating equipment, including frame 1, feeding subassembly 2 and graphite entry 3 all set up in frame 1, still be equipped with relative frame 1 pivoted one-way ejection of compact mixing mechanism 4 in frame 1, one-way ejection of compact mixing mechanism 4 and feeding subassembly 2 and graphite entry 3 homogeneous phase intercommunication, if and only when one-way ejection of compact mixing mechanism 4 along clockwise or anticlockwise rotation, the material in one-way ejection of compact mixing mechanism 4 can the landing outside one-way ejection of compact mixing mechanism 4, when one-way ejection of compact mixing mechanism 4 rotated along a direction, for example along anticlockwise rotation, the ejection of compact can be realized to the material in one-way ejection of compact mixing mechanism 4, and the counter-rotation, one-way ejection of compact mixing mechanism 4 along clockwise rotation, the material in one-way ejection of compact mixing mechanism 4 can only realize mixing, and unable ejection of compact.
The utility model discloses, during the use, treat the material of coating graphite, for example the bar copper, add to one-way ejection of compact mixing mechanism 4 from feeding subassembly 2 in, graphite passes through graphite entry 3 and adds to one-way ejection of compact mixing mechanism 4 in, rotates the mixture of one-way ejection of compact mixing mechanism 4 realization material and graphite for the material surface is coated to graphite, and the coating is accomplished the back, and one-way ejection of compact mixing mechanism 4 is rotated towards opposite direction, in order to accomplish the ejection of compact, so the utility model discloses the ejection of compact of the material that coating and coating of material surface graphite were accomplished is realized to usable one-way ejection of compact mixing mechanism 4, the manual operation of the coating process that has significantly reduced, and production efficiency is higher, is applicable.
As shown in fig. 1, the unidirectional discharging mixing mechanism 4 includes an outer casing 41 disposed on the frame 1, a mixing cavity 42 communicating with both the feeding assembly 2 and the graphite inlet 3 is disposed in the outer casing 41, a discharging track 43 fixedly connected to the inner surface of the outer casing 41 is disposed in the mixing cavity 42, the discharging track 43 extends spirally along the axial line direction of the outer casing 41, and a discharging port 44 having one end communicating with the discharging track 43 and the other end extending to the outside of the mixing cavity 42, preferably, the discharging port 44 extends spirally along the discharging track 43, and the discharging port 44 is disposed at one end of the outer casing 41 away from the feeding assembly 2 and the graphite inlet 3, so as to facilitate discharging.
During the use, material and graphite add to mixing cavity 42 in, shell body 41 rotates along the same spiral direction with ejection of compact track 43 for material and graphite misce bene accomplish the coating, change shell body 41 rotation direction, make shell body 41 rotate along the opposite spiral direction with ejection of compact track 43, and the material passes through discharge gate 44 and accomplishes the ejection of compact.
Specifically, the discharging track 43 includes a plurality of guiding ribs 45 protruding from the inner surface of the outer shell 41, the guiding ribs 45 are arranged in sequence, the guiding channels 46 are arranged between two adjacent guiding ribs 45 along the axial direction of the outer shell 41 or between the guiding ribs 45 and the outer shell 41, and the guiding channels 46 are communicated with the discharging port 44, which is just an example of a specific structure of the discharging track 43, the discharging track 43 can also be realized by replacing the guiding ribs 45 with guiding plates fixedly connected to the inner surface of the outer shell 41 and spirally extending along the axial direction of the outer shell 41 or other specific structures in the prior art, as long as the discharging track 43 can play a discharging role when the outer shell 41 rotates along a spiral direction opposite to the discharging track 43.
Preferably, shell body 41 both ends are equipped with the apron that can close mixing cavity 42, and like this in mixing process, usable apron keeps apart mixing cavity 42 and external, so the utility model discloses easily control the diffusion of graphite in mixing process, compare in prior art manual operation and lead to the unrestrained condition everywhere to the operation scene of graphite, safety ring protects more.
As shown in fig. 1, the discharge port 44 includes a discharge plate 47 fixedly connected with the outer shell 41, an upper surface of the discharge plate 47 is communicated with the discharge rail 43, the discharge plate 47 is close to one side edge of the mixing cavity 42 and is fixedly connected with a separation baffle 48, the material is discharged along the discharge plate 47, and the separation baffle 48 can prevent the material from falling back into the mixing cavity 42 in the material finding and discharging process, so that the discharge rate is increased.
As shown in fig. 1 and fig. 2, the device further comprises a driving mechanism 5 fixedly connected to the frame 1 and capable of driving the unidirectional discharging mixing mechanism 4 to rotate, wherein the driving mechanism 5 comprises a bidirectional rotating motor 51 fixedly connected to the frame 1 and a gear ring 52 fixedly sleeved on the outer surface of the unidirectional discharging mixing mechanism 4, namely, the gear ring 52 can synchronously rotate with the unidirectional discharging mixing mechanism 4, the bidirectional rotating motor 51 can conveniently drive the outer shell 41 of the unidirectional discharging mixing mechanism 4 to rotate in two directions, a transmission gear 53 is fixedly connected to an output shaft of the bidirectional rotating motor 51, the transmission gear 53 is meshed with the gear ring 52, and when the device is used, the bidirectional rotating motor 51 drives the gear ring 52 to rotate through the transmission gear 53, and the gear ring 52 drives the unidirectional discharging mixing mechanism 4 to rotate.
As shown in fig. 3, the feeding assembly 2 includes a feeding hopper 21 disposed on the frame 1 and a vibrator 22 fixedly connected to the bottom surface of the feeding hopper 21, the feeding hopper 21 is communicated with the unidirectional discharging mixing mechanism 4 through a feeding channel 23, and further includes a feeding control assembly 24 connected to the frame 1, the feeding channel 23 can be opened or cut off by rotating the feeding control assembly 24, the feeding control assembly 24 includes a driving cylinder 25 fixedly connected to the frame 1, an output shaft of the driving cylinder 25 is rotatably connected with a rotating arm 26, one end of the rotating arm 26 far away from the driving cylinder 25 is fixedly connected with a rotating rod 27, both ends of the rotating rod 27 are rotatably connected with the frame 1, the rotating rod 27 is further fixedly connected with a rotating partition plate 28, and the rotating rod 27 can make the rotating partition plate 28 fit with the upper surface of the feeding channel 23 or form a gap with the upper surface, wherein, the gap width is less than the material diameter, just so can play the effect of stopping the material to get into one-way ejection of compact mixing mechanism 4.
During the use, vibrator 22 vibrates feeder hopper 21, make the material of treating coating graphite in feeder hopper 21 pass through feedstock channel 23 and get into one-way ejection of compact mixing mechanism 4, after the material addition volume reached suitable volume, drive actuating cylinder 25 drive swinging boom 26, make swinging boom 26 drive rotary rod 27 take place to rotate, rotate baffle 28 and take place synchronous slewing motion, make feedstock channel 23 cut off, after accomplishing the ejection of compact, it rotates baffle 28 to drive actuating cylinder 25 secondary drive, make feedstock channel 23 opened, the material of treating coating graphite in feeder hopper 21 gets into one-way ejection of compact mixing mechanism 4.
The graphite inlet 3 can adopt a structure similar to that of the feeding component 2, and can also adopt a concrete structure that a feeding funnel is communicated with a feeding pipeline which is communicated with the one-way discharging mixing mechanism 4.
As shown in fig. 3, a roller assembly 6 is further disposed between the unidirectional discharging mixing mechanism 4 and the frame 1, the roller assembly 6 is rotatably connected with the frame 1, the cross section of the unidirectional discharging mixing mechanism 4 is circular, the unidirectional discharging mixing mechanism 4 is pressed on the roller assembly 6 and is in rolling connection with the roller assembly 6, the roller assembly 6 includes a rolling rod 61 rotatably connected with the frame 1 through a bearing 62, two ends of the rolling rod 61 are respectively and fixedly connected with a roller 63, and the unidirectional discharging mixing mechanism 4 is pressed on the roller 63 and is in rolling connection with the roller 63, so that the unidirectional discharging mixing mechanism 4 only generates rolling friction force in the rotating process, the rotating resistance of the unidirectional discharging mixing mechanism 4 is reduced, and the energy consumption is saved.
Preferably, two roller assemblies 6 are arranged and symmetrically arranged at two sides of the unidirectional discharging and mixing mechanism 4, so that the stability of the placement of the unidirectional discharging and mixing mechanism 4 can be ensured.
Preferably, the end of the roller 63 is further fixedly connected with a limiting plate pressed at two ends of the unidirectional discharging and mixing mechanism 4, so that the unidirectional discharging and mixing mechanism 4 can be prevented from sliding along the axial lead direction in the mixing process.
The utility model discloses a theory of operation is: when the device is used, the vibrator 22 vibrates the feed hopper 21, so that the material to be coated with graphite in the feed hopper 21 enters the mixing cavity 42 through the feed channel 23, when the material addition amount reaches a proper amount, the driving cylinder 25 drives the rotating arm 26, the rotating arm 26 drives the rotating rod 27 to rotate, the rotating partition plate 28 synchronously rotates, so that the feed channel 23 is partitioned, graphite is added into the mixing cavity 42 through the graphite inlet 3, at the moment, the bidirectional rotating motor 51 drives the gear ring 52 to rotate through the transmission gear 53, the gear ring 52 drives the outer shell 41 to rotate, at the moment, the outer shell 41 rotates in the same spiral direction as the discharge track 43, so that the material and the graphite are uniformly mixed, after coating is completed, the driving direction of the bidirectional rotating motor 51 is changed, thereby the rotating direction of the outer shell 41 is changed, and the outer shell 41 rotates in the opposite spiral direction, the material passes through discharge gate 44 and accomplishes the ejection of compact, accomplishes the ejection of compact after, drives actuating cylinder 25 and drives once more and rotate baffle 28 for feedstock channel 23 is opened, and the material of treating coating graphite in the feeder hopper 21 gets into mixing cavity 42, carries out the graphite coating of next batch of material, so the utility model discloses the ejection of compact of the material that coating and coating completion of material surface graphite are realized to usable one-way ejection of compact mixing mechanism 4, the manual operation of the coating process that has significantly reduced, and production efficiency is higher, is applicable to mechanized production.
The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.
Although the terms of the frame 1, the feeding assembly 2, the graphite inlet 3, the one-way discharging mixing mechanism 4, the driving mechanism 5, the roller assembly 6, the feeding hopper 21, the vibrator 22, the feeding passage 23, the feeding control assembly 24, the driving cylinder 25, the rotating arm 26, the rotating rod 27, the rotating partition 28, the outer housing 41, the mixing cavity 42, the discharging rail 43, the discharging port 44, the guide rib 45, the guide passage 46, the discharging plate 47, the partition plate 48, the two-way rotating motor 51, the gear ring 52, the transmission gear 53, the rolling rod 61, the bearing 62, the roller 63, and the like are used more frequently herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.