CN217929530U - A drying device for processing of high-purity graphite powder - Google Patents

Abstract

The utility model belongs to the technical field of graphite processing, especially, a drying device for high-purity graphite powder processing is heated inhomogeneously to current graphite powder, and the poor problem of air flow nature proposes following scheme now, and it includes the carriage, the hole fixed mounting on carriage right side has the telescoping cylinder, the output of telescoping cylinder runs through the hole and the welding on the inside right side of carriage and has the rack, the flank of tooth meshing of rack bottom has the ratch, the left hole in ratch surface articulates there is the hinge bar, the bottom of hinge bar articulates there is the fluted disc, and the telescoping cylinder passes through the rack and drives the ratch and rotate, and the ratch can drive the fluted disc through the hinge bar and rotate, and the fluted disc can drive the gear wheel through the pinion and rotate, and the gear wheel can drive the pivot through the drive wheel and rotate, and the pivot can drive stoving mechanism vibration from top to bottom through the eccentric wheel, utilizes the vibration to vibrate the upset to inside graphite powder, lets the graphite powder can thermally equivalent, reinforcing stoving effect.

Description

A drying device for processing of high-purity graphite powder

Technical Field

The utility model relates to a graphite processing technology field especially relates to a drying device for processing of high-purity graphite powder.

Background

The graphite powder processing process needs to be carried out through a plurality of processes, wherein the drying is one of the important processes, at the moment, a drying device is needed, and the drying device generally uses an electric heating plate and the like for heating and drying.

But the heating surface of the in-process device that present drying device was drying to graphite powder often only contacts with partial graphite powder, and other graphite powder can only absorb the heat through that partial graphite powder, lead to the graphite powder to be heated inhomogeneously, and the inside air flow of drying device is slow or even not mobile moreover, can't fully stir steam, influences the stoving effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects of uneven heating and poor air flowability of the graphite powder in the prior art and providing a drying device for processing high-purity graphite powder.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a drying device for processing of high-purity graphite powder, includes the carriage, the hole fixed mounting on carriage right side has the telescoping cylinder, the output of telescoping cylinder runs through the hole and the welding on the inside right side of carriage and has the rack, the flank of tooth meshing of rack bottom has the ratch, the left hole in ratch surface articulates there is the hinge bar, the bottom of hinge bar articulates there is the fluted disc, the left side meshing of fluted disc has the pinion, the left side welding of pinion has the gear wheel, the top meshing of gear wheel has the drive wheel, the fixed pivot that has cup jointed in axle center department of drive wheel, the both ends of pivot all cup joint with the inside rotation of carriage, the both ends on pivot surface all are fixed the cup jointed to have the eccentric wheel, the top of pivot is provided with two eccentric wheel sliding connection's stoving mechanism, and the telescoping cylinder can drive the ratch through the rack and rotate, and the ratch can drive the fluted disc through the hinge bar and rotate, and the fluted disc can drive the gear wheel through the pinion and rotate, and the gear wheel can drive the pivot through the eccentric wheel and dry the mechanism vibration from top to bottom, utilize the vibration to overturn to inside graphite powder, let the graphite powder can thermally equivalent, reinforcing stoving effect.

Preferably, stoving mechanism includes stoving case, filling tube, transfer line and stirring frame, the inside sliding connection of the surface of stoving case and carriage, the bottom of filling tube runs through the hole at carriage top and extends to the inside of stoving case, stoving case and filling tube intercommunication, the both sides of stoving bottom of the case portion respectively with the spout sliding connection at two eccentric wheel tops, the bottom on filling tube surface is articulated with the top of transfer line, the bottom of transfer line is articulated with the right side of stirring frame axle center department, the axle center department of stirring frame is connected with the inside rotation of stoving case, and the pivot can drive the stoving case vertical vibration through the eccentric wheel, utilizes the vibration to vibrate the graphite powder of stoving incasement portion and overturns, lets graphite powder can thermally equivalent, and the filling tube can drive through the transfer line and stir the frame and rotate, stirs the frame and can stir the inside air of stoving case, reinforcing stoving effect.

Preferably, the rear side of rack and the inside sliding connection of carriage, the ratch comprises the gear of rear side and the connecting plate of gear front side to the connecting plate of ratch is located the front side of rack, the axle center department of ratch is connected with the inside rotation of carriage, and the rack passes through slide rail and carriage slip setting, lets the rack can steadily remove about, makes things convenient for the rack to drive the ratch and rotates, and the rack can drive the gear rotation of ratch, and the gear can drive the connecting plate and rotate, lets the connecting plate drive the hinge bar and remove, and the rack can be avoided colliding with the connecting plate with the position of rack to the connecting plate, and the driven smooth and easy of guarantee structure, the ratch is rotated spacingly by the carriage, makes things convenient for the ratch to drive the hinge bar and rotates.

Preferably, the flank of tooth of fluted disc is located the left side of fluted disc, the axle center department of fluted disc is articulated with the inside of carriage, and the hinge bar can drive the fluted disc and rotate, and the flank of tooth position of fluted disc lets pivoted fluted disc can drive the pinion and rotate, and the fluted disc is rotated spacingly by the carriage, makes things convenient for the rotation of fluted disc.

Preferably, the flank of tooth of pinion is located the right side, the axle center department of gear wheel is connected with the inside left side rotation of carriage, and the flank of tooth structure of pinion lets the fluted disc can mesh with the pinion, makes things convenient for the fluted disc to drive the pinion and rotates, and the pinion can drive the gear wheel and rotate, and the gear wheel is rotated spacingly by the carriage.

Preferably, the stirring frame comprises a connecting wheel at the middle part and a stirring plate outside the connecting wheel, the bottom end of the transmission rod is connected with the connecting wheel of the stirring frame, the transmission rod is connected with the connecting wheel, the transmission rod can drive the connecting wheel to rotate, the connecting wheel can drive the stirring plate to rotate in the rotating process, the stirring plate can naturally drive air and graphite powder to move in the rotating process, the graphite powder is uniformly heated, and the drying effect is enhanced.

Has the advantages that: the telescoping cylinder passes through the rack and can drive the ratch and rotate, the ratch can drive the fluted disc through the hinge bar and rotate, the fluted disc can drive the gear wheel through the pinion and rotate, the gear wheel can drive the pivot through the drive wheel and rotate, the pivot can drive stoving case vibration from top to bottom through the eccentric wheel, utilize the vibration to vibrate the upset to the graphite powder of stoving incasement portion, let graphite powder can the thermally equivalent, the filling tube can drive through the transfer line and mix the frame and rotate, mix the frame and can mix the air of stoving incasement portion, reinforcing stoving effect.

Drawings

Fig. 1 is a schematic front view of a drying device for processing high-purity graphite powder provided by the utility model;

fig. 2 is a schematic diagram of a fluted disc structure of a drying device for processing high-purity graphite powder provided by the utility model;

fig. 3 is a schematic diagram of a right-side view structure of a pinion of the drying device for processing high-purity graphite powder provided by the utility model;

fig. 4 is a three-dimensional schematic view of a rack bar of a drying device for processing high-purity graphite powder provided by the utility model.

In the figure: 1. a support frame; 2. a drying mechanism; 21. drying box; 22. a feed tube; 23. a transmission rod; 24. a stirring frame; 3. a telescopic cylinder; 4. a rack; 5. a rack bar; 6. a hinged lever; 7. a fluted disc; 8. a pinion gear; 9. a bull gear; 10. a driving wheel; 11. a rotating shaft; 12. an eccentric wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-4, a drying device for processing high-purity graphite powder comprises a support frame 1, a telescopic cylinder 3 is fixedly installed in a hole on the right side of the support frame 1, the telescopic cylinder 3 is an electric push rod or a hydraulic rod and can be started when a power supply or hydraulic power equipment is switched on, an output end of the telescopic cylinder 3 penetrates through the hole on the right side inside the support frame 1 and is welded with a rack 4, the telescopic cylinder 3 can drive the rack 4 to move, a toothed bar 5 is meshed with a toothed surface at the bottom of the rack 4, the rack 4 can drive the toothed bar 5 to rotate, the rear side of the rack 4 is connected with the inside of the support frame 1 in a sliding manner, the toothed bar 5 is composed of a gear on the rear side and a connecting plate on the front side of the gear, the connecting plate of the toothed bar 5 is positioned on the front side of the rack 4, the axis of the toothed bar 5 is connected with the inside of the support frame 1 in a rotating manner, the rack 4 is arranged with the support frame 1 in a sliding manner through a sliding manner that the rack 4 can be stably moved left and right, the rack 4 can conveniently drive the toothed bar 5 to rotate, the rack 4 can drive the gear of the toothed bar 5 to rotate, the gear can drive the connecting plate to rotate, the connecting plate drives the hinge rod 6 to move, the position of the connecting plate and the rack 4 can avoid the collision between the rack 4 and the connecting plate, the smooth transmission of the structure is ensured, the toothed bar 5 is limited by the rotation of the supporting frame 1, the rack 5 can conveniently drive the hinge rod 6 to rotate, the hole on the left side of the surface of the toothed bar 5 is hinged with the hinge rod 6, the toothed bar 5 can drive the hinge rod 6 to move up and down, the bottom end of the hinge rod 6 is hinged with the fluted disc 7, the hinge rod 6 can drive the fluted disc 7 to rotate, the tooth surface of the fluted disc 7 is positioned on the left side of the fluted disc 7, the axle center of the fluted disc 7 is hinged with the inside of the supporting frame 1, the hinge rod 6 can drive the fluted disc 7 to rotate, the tooth surface position of the fluted disc 7 can drive the pinion 8 to rotate, the fluted disc 7 is limited by the rotation of the supporting frame 1, which is convenient for the rotation of the fluted disc 7, the left side of the fluted disc 7 is meshed with a pinion 8, the fluted disc 7 can drive the pinion 8 to rotate, the left side of the pinion 8 is welded with a gearwheel 9, the pinion 8 can drive the gearwheel 9 to rotate, the flank of the pinion 8 is positioned on the right side, the axle center of the gearwheel 9 is rotatably connected with the left side inside the supporting frame 1, the flank structure of the pinion 8 allows the fluted disc 7 to be meshed with the pinion 8, which is convenient for the fluted disc 7 to drive the pinion 8 to rotate, the pinion 8 can drive the gearwheel 9 to rotate, the gearwheel 9 is limited by the rotation of the supporting frame 1, the top of the gearwheel 9 is meshed with a driving wheel 10, the gearwheel 9 can drive the driving wheel 10 to rotate, the axle center of the driving wheel 10 is fixedly sleeved with a rotating shaft 11, the driving wheel 10 can drive a rotating shaft 11 to rotate, both ends of the rotating shaft 11 are rotatably sleeved with the inside of the supporting frame 1, both ends of the surface of the rotating shaft 11 are fixedly sleeved with eccentric wheels 12, the rotating shaft 11 can drive the eccentric wheel 12 to rotate, the top end of the rotating shaft 11 is provided with a drying mechanism 2 which is connected with the two eccentric wheels 12 in a sliding manner, the drying mechanism 2 is connected with the supporting frame 1 in a sliding manner, the eccentric wheel 12 can drive the drying mechanism 2 to rotate, the top end of the eccentric wheel 12 is in rapid vertical reciprocating motion in the rotating process, the eccentric wheel 12 can drive the drying box 21 to vertically reciprocate, and the motion becomes vertical vibration due to high speed, the vertical vibration in the drying box 21 can vibrate graphite powder, the graphite powder can be overturned and rolled up and down and suspended in the drying box 21, the graphite powder can be uniformly heated, the drying mechanism 2 comprises the drying box 21, a feeding pipe 22, a transmission rod 23 and a stirring frame 24, electric heating equipment is arranged in the drying box 21, and can be common industrial grade electric heating sheets in the market, the surface of a discharge pipe at the bottom of the drying box 21 is connected with a discharge pipe in a sliding manner, the drying box 21 is convenient to vibrate up and down by utilizing a sliding structure, the bottom of the discharge pipe can also be communicated with a hose structure, the friction of the discharge pipe can be reduced by the structure, the surface of the drying box 21 is in sliding connection with the inside of the supporting frame 1, the drying box 21 is arranged with the supporting frame 1 in a sliding manner through a slide rail, so that the drying box 21 can vibrate up and down stably, the bottom end of a feed pipe 22 penetrates through a hole at the top of the supporting frame 1 and extends into the drying box 21, the drying box 21 is communicated with the feed pipe 22, the top end of the feed pipe 22 adopts a funnel structure, so that graphite powder is convenient to be added into the drying box 21, the two sides at the bottom of the drying box 21 are respectively in sliding connection with sliding grooves at the tops of two eccentric wheels 12, the tops of the eccentric wheels 12 are in a high-speed up and down moving state, so that the drying box 21 can vibrate up and down, the bottom end of the surface of the charging pipe 22 is hinged with the top end of the transmission rod 23, when the drying box 21 vibrates up and down, the charging pipe 22 is restricted by the supporting frame 1 and can not move, and the charging pipe 22 moves up and down relative to the drying box 21, the bottom end of the transmission rod 23 is hinged with the right side of the axle center of the stirring frame 24, the charging pipe 22 can drive the transmission rod 23 to move up and down, the transmission rod 23 can drive the stirring frame 24 to rotate forward and backward, the axle center of the stirring frame 24 is rotatably connected with the inside of the drying box 21, the rotating shaft 11 can drive the drying box 21 to vibrate up and down through the eccentric wheel 12, the graphite powder inside the drying box 21 is vibrated and overturned by vibration, so that the graphite powder can be uniformly heated, the charging pipe 22 can drive the stirring frame 24 to rotate through the transmission rod 23, the stirring frame 24 can stir the air inside the drying box 21, the drying effect is enhanced, the stirring frame 24 is composed of the connecting wheel in the middle and the stirring plate outside the connecting wheel, the bottom of transfer line 23 is connected with the fifth wheel that stirs frame 24, transfer line 23 is connected with the fifth wheel, let transfer line 23 can drive the fifth wheel and rotate, the fifth wheel rotates the in-process and can drive and stir the board and rotate, stir board rotation in-process and just can drive air and graphite powder removal naturally, let graphite powder thermally equivalent, reinforcing stoving effect, telescoping cylinder 3 can drive ratch 5 through rack 4 and rotate, ratch 5 can drive fluted disc 7 through hinge bar 6 and rotate, fluted disc 7 can drive gear wheel 9 through pinion 8 and rotate, gear wheel 9 can drive pivot 11 through drive wheel 10 and rotate, pivot 11 can drive stoving mechanism 2 vibration from top to bottom through eccentric wheel 12, utilize the vibration to vibrate the inside graphite powder and overturn, let graphite powder thermally equivalent, reinforcing stoving effect.

The working principle is as follows: graphite powder is poured into the drying box 21 through a feeding pipe 22, heating equipment in the drying box 21 is started to heat and dry, an electric push rod or a hydraulic rod is adopted as a telescopic cylinder 3, a power supply or hydraulic power equipment is switched on, the telescopic cylinder 3 can drive a rack 4 to move leftwards, the rack 4 can drive a rack rod 5 to rotate anticlockwise, the rack rod 5 firstly drives a hinge rod 6 to move downwards and then drives the hinge rod 6 to move upwards, when the rack rod 5 drives the hinge rod 6 to move downwards, the hinge rod 6 can drive a fluted disc 7 to rotate clockwise, the fluted disc 7 can drive a pinion 8 to rotate, the pinion 8 can drive a gearwheel 9 to rotate, the gearwheel 9 can drive a driving wheel 10 to rotate, the driving wheel 10 can drive a rotating shaft 11 to rotate, the rotating shaft 11 can drive an eccentric wheel 12 to rotate, the top end of the eccentric wheel 12 is in a rotating process of rapid up-down reciprocating motion, and down reciprocating motion of the drying box 21 can be driven by the eccentric wheel 12, and because the speed is fast, the movement becomes up-and-down vibration, the up-and-down vibration in the drying box 21 can vibrate the graphite powder, the graphite powder can roll up and down in the drying box 21, the graphite powder can be uniformly heated, meanwhile, the feeding pipe 22 is fixed by the support frame 1, the drying box 21 slides up and down on the surface of the feeding pipe 22, the feeding pipe 22 moves up and down relative to the drying box 21, the feeding pipe 22 drives the transmission rod 23 to move up and down, the transmission rod 23 can drive the stirring frame 24 to rotate forward and backward, the stirring plate can be used for stirring the air and the graphite powder in the drying box 21 during the forward and backward rotation of the stirring frame 24, a large amount of graphite powder is suspended in the drying box 21, the heat and the graphite powder are uniformly distributed, the drying effect is enhanced, and the discharge pipe is connected to the surface of the discharge pipe at the bottom of the drying box 21 in a sliding manner, the sliding structure is utilized to facilitate the up-and-down vibration of the drying box 21, and the bottom of the discharge pipe can be communicated with a hose structure.

The above, only be the embodiment of the preferred of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, which are designed to be replaced or changed equally, all should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a drying device for processing of high-purity graphite powder, includes carriage (1), its characterized in that, the hole fixed mounting on carriage (1) right side has telescoping cylinder (3), the output of telescoping cylinder (3) runs through the hole and the welding on carriage (1) inside right side has rack (4), the flank of tooth meshing of rack (4) bottom has toothed bar (5), the left hole in toothed bar (5) surface articulates there is hinge bar (6), the bottom of hinge bar (6) articulates there is fluted disc (7), the left side meshing of fluted disc (7) has pinion (8), the left side welding of pinion (8) has gear wheel (9), the top meshing of gear wheel (9) has drive wheel (10), the axle center department of drive wheel (10) has connect fixed cover pivot (11), the both ends of pivot (11) all cup jointed with the inside rotation of carriage (1), the both ends on pivot (11) surface all are fixed eccentric wheel (12) of having cup jointed, the top of pivot (11) is provided with two drying mechanism (2) sliding connection of eccentric wheel (12).

2. The drying device for processing the high-purity graphite powder, according to claim 1, is characterized in that the drying mechanism (2) comprises a drying box (21), a feeding pipe (22), a transmission rod (23) and a stirring frame (24), the surface of the drying box (21) is slidably connected with the inside of the support frame (1), the bottom end of the feeding pipe (22) penetrates through a hole at the top of the support frame (1) and extends into the inside of the drying box (21), the drying box (21) is communicated with the feeding pipe (22), two sides of the bottom of the drying box (21) are respectively slidably connected with chutes at the tops of two eccentric wheels (12), the bottom end of the surface of the feeding pipe (22) is hinged with the top end of the transmission rod (23), the bottom end of the transmission rod (23) is hinged with the right side of the axis of the stirring frame (24), and the axis of the stirring frame (24) is rotatably connected with the inside of the drying box (21).

3. The drying device for processing the high-purity graphite powder is characterized in that the rear side of the rack (4) is connected with the inside of the supporting frame (1) in a sliding mode, the rack rod (5) consists of a gear on the rear side and a connecting plate on the front side of the gear, the connecting plate of the rack rod (5) is located on the front side of the rack (4), and the axis of the rack rod (5) is connected with the inside of the supporting frame (1) in a rotating mode.

4. The drying device for processing the high-purity graphite powder, according to claim 1, is characterized in that the tooth surface of the fluted disc (7) is positioned at the left side of the fluted disc (7), and the axis of the fluted disc (7) is hinged with the inner part of the supporting frame (1).

5. The drying device for processing high-purity graphite powder as claimed in claim 1, wherein the tooth surface of the small gear (8) is located on the right side, and the axis of the large gear (9) is rotatably connected with the left side inside the supporting frame (1).

6. The drying device for processing high-purity graphite powder according to claim 2, wherein the stirring frame (24) consists of a connecting wheel in the middle and a stirring plate outside the connecting wheel, and the bottom end of the transmission rod (23) is connected with the connecting wheel of the stirring frame (24).

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