CN219849327U - Raw material mixing device for preparing balls from carbon powder - Google Patents

Abstract

The utility model relates to the technical field of carbon powder mixing, and discloses a raw material mixing device for preparing balls from carbon powder, which comprises a bottom plate, a supporting plate fixedly connected to the upper end of the bottom plate, and a stirring and screening mechanism arranged above the bottom plate, wherein the stirring and screening mechanism comprises a filtering and screening mechanism arranged above the bottom plate, a stirring and crushing mechanism is arranged above the filtering and screening mechanism, a gear can be driven to rotate by starting a double-headed motor, the gear can drive a stirring cylinder fixedly connected with a tooth block to rotate, a belt pulley assembly can be driven to rotate by rotating a first rotating rod, a second rotating rod can be driven to rotate by rotating a second rotating rod, so that full stirring and crushing of powder are completed, and meanwhile, the rotating direction of the second rotating rod is opposite to the rotating direction of the stirring cylinder, so that the powder in the second rotating rod, the crushing knife and the stirring rod move in opposite directions, so that stirring and crushing are more full.

Description

Raw material mixing device for preparing balls from carbon powder

Technical Field

The utility model relates to the technical field of carbon powder mixing, in particular to a raw material mixing device for preparing balls from carbon powder.

Background

In China, whether a coking plant or a semi-coke plant or a calcium carbide plant or other submerged arc furnace plants, under-screen substances and carbon material powder can be produced in the normal production and use processes of carbon materials, and most enterprises mix and re-pelletize the carbon material powder at present so as to save energy.

The drum-type raw material mixing device for preparing balls from carbon powder disclosed in Chinese patent CN212942615U mainly solves the problems that carbon powder entering a cavity from a port can be stirred and the carbon powder with larger volume can be crushed through stirring blades and crushing blades arranged on the surface of a supporting shaft, so that the carbon powder is fully mixed, and the device is convenient to use in preparing balls in later stage.

This mixing arrangement stirs the charcoal powder and smashes the sword through stirring leaf that the back shaft outer wall set up and smashes the charcoal powder that the volume is great to use when later stage preparation balling, but the cylinder in this mixing arrangement is the same with stirring leaf, the direction of rotation of smashing the sword, the flow direction of the inside powder of cylinder just can be the same with stirring leaf and the direction of smashing the sword like this, when stirring crushing, just so can not make it more abundant go on, because the powder size in the charcoal is different, need carry out abundant stirring crushing to it to this just can lead to stirring and kibbling quality decline, influence efficiency.

Disclosure of Invention

The utility model aims to provide a raw material mixing device for preparing balls from carbon material powder, which solves the problems that the rotation directions of a roller, a stirring blade and a crushing blade in the mixing device are the same, so that the flowing direction of powder in the roller is the same as the directions of the stirring blade and the crushing blade, the stirring and the crushing cannot be performed more fully when the stirring and the crushing are performed, and the stirring and the crushing are reduced in quality and the efficiency are influenced because the powder in the carbon material is different in size.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a raw material mixing device for preparing balls from carbon powder comprises a bottom plate;

the supporting plate is fixedly connected to the upper end of the bottom plate;

and including setting up the stirring screening mechanism in the bottom plate top, stirring screening mechanism is including installing the filtration screening mechanism in the bottom plate top, the stirring crushing mechanism is installed to filtration screening mechanism top.

Preferably, stirring crushing mechanism includes fixed plate on bottom plate top, fixed plate outer wall fixedly connected with stud motor, stud motor output fixedly connected with first bull stick, first bull stick outer wall fixedly connected with gear, gear engagement has the tooth piece, tooth piece outer wall fixedly connected with churn, first bull stick outer wall fixedly connected with belt pulley assembly, belt pulley assembly other end fixedly connected with second bull stick, the second bull stick passes through the bearing rotation to be connected at the backup pad outer wall, second bull stick outer wall fixedly connected with crushing sword, second bull stick outer wall fixedly connected with puddler, logical groove has been seted up to churn one end, should lead to inslot wall fixedly connected with feed pipe, blanking plate one end fixedly connected with handle, churn keeps away from handle one end intercommunication and is provided with the tooth piece, and alright drive the gear through the stud motor in the stirring crushing mechanism of start-up, and rotate through the rotatable churn of gear, and the rotation direction of the churn and gear at this moment is reverse belt pulley assembly, through first bull stick rotation drive assembly through the rotation of the rotation pulley, and the inside through the rotatable pulley drive the rotatable through the rotatable second bull stick and the rotatable to make the inside of the crushing sword, so that the inside is fully rotates with the rotatable powder through the rotatable second through the rotatable impeller, the rotatable carrier, the inside is the crushing sword and the inside is fully crushed with the rotation of the stirring rod.

Preferably, the filtration screening mechanism is including seting up the spout on bottom plate top, this spout inner wall sliding connection has a sliding support rod, sliding support rod keeps away from spout one end fixedly connected with rose box, the logical groove has been seted up to the rose box outer wall, should lead to inslot wall fixedly connected with slide bar, slide bar outer wall sliding connection has the slider, slider top fixedly connected with spring, slider one end fixedly connected with at the spout inner wall is kept away from to the spring, slider outer wall fixedly connected with filter screen, filter screen one end fixedly connected with connecting rod is kept away from to the slider, connecting rod outer wall fixedly connected with fixed baffle, connecting rod outer wall bottom fixedly connected with lug, lug bottom contact has the rotation kicking block, rotate kicking block outer wall fixedly connected with third bull stick, third bull stick keeps away from rotation kicking block one end fixedly connected with at the double-end motor output, rotates through the third bull stick in the filtration screening mechanism, just can drive rotation kicking block through rotating the kicking block and just can receive the extrusion drive the connecting rod and upwards move, drives fixed baffle and upwards moves simultaneously, so fixed baffle just can always to lead to the spout and be closed state, prevent to rebound and move the slider through the slider, so that the powder from moving down through the slider is carried out the filtration that the filtration is carried out repeatedly to the filtration, so that the powder can be carried out under the filter screen.

Preferably, the stirring rods are eight in number, the crushing cutters are eight in number, and the stirring rods and the crushing cutters are installed on the outer wall of the second rotating rod in a staggered and penetrating mode.

Preferably, the length and the width of the fixed baffle are larger than the size of the through groove formed in the outer wall of the filter box.

Preferably, the outer wall of the blanking plate is matched with the inner wall of the through groove formed in one end of the stirring cylinder.

Preferably, the outer wall of the filter screen is matched with the inner wall of the filter box.

The utility model provides a raw material mixing device for preparing balls from carbon powder. The raw material mixing device for preparing the balls from the carbon powder has the following beneficial effects:

the double-headed motor in the stirring and crushing mechanism can drive the gear to rotate, the stirring cylinder fixedly connected with the tooth block can be driven to rotate through the rotation of the gear, the rotation direction of the stirring cylinder at the moment is opposite to that of the gear, the belt pulley assembly is driven to rotate through the rotation of the first rotating rod, the second rotating rod can be driven to rotate through the belt pulley assembly, the crushing cutter and the stirring rod can be driven to rotate through the rotation of the second rotating rod, so that the full stirring and crushing of powder are completed, and meanwhile, the rotation direction of the second rotating rod is opposite to that of the stirring cylinder, so that the powder in the stirring cylinder, the crushing cutter and the stirring rod move in opposite directions, and stirring and crushing can be enabled to be more full;

this raw materials mixing arrangement for charcoal powder ball system rotates through the third bull stick in the filtration screening mechanism, just can drive to rotate the kicking block and rotate, just contact the lug through the rotation that rotates the kicking block, the lug of this moment just can receive the extrusion and drive the connecting rod and reciprocate, drive fixed stop simultaneously and reciprocate, fixed stop just can carry out closure state to logical groove throughout like this, prevent that the powder from flowing out, it just can drive the slider at the slide bar outer wall upwards to reciprocate to remove through the slider, just can extrude the spring through the removal of slider, rebound through the spring just can drive the slider and slide downwards, so repeatedly make the slider reciprocate, thereby drive the filter screen and vibrate, accomplish the filtration screening to the powder, the powder of staying on the filter screen just can carry out secondary stirring and smash.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the internal cross-sectional structure of the present utility model;

FIG. 3 is a schematic structural view of the stirring and pulverizing mechanism of the present utility model;

FIG. 4 is a schematic diagram of a filtering and screening mechanism according to the present utility model;

FIG. 5 is an enlarged view of the structure of the utility model at A

In the figure: 1. a bottom plate; 2. a support plate; 3. a stirring and screening mechanism; 31. a stirring and crushing mechanism; 311. a fixing plate; 312. a double-ended motor; 313. a first rotating lever; 314. a gear; 315. tooth blocks; 316. a stirring cylinder; 317. a pulley assembly; 318. a second rotating rod; 319. a crushing knife; 3110. a stirring rod; 3111. a feed pipe; 3112. a blanking plate; 3113. a handle; 32. a filtering and screening mechanism; 321. a sliding support rod; 322. a filter box; 323. a third rotating rod; 324. rotating the ejector block; 325. a bump; 326. a connecting rod; 327. a fixed baffle; 328. a slide bar; 329. a slide block; 3210. a spring; 3211. and (3) a filter screen.

Description of the embodiments

As shown in fig. 1-5, the present utility model provides a technical solution.

Examples

The utility model provides a preferred embodiment of a raw material mixing device for preparing balls from carbon powder: the utility model provides a raw materials mixing arrangement for charcoal powder ball making, including bottom plate 1, the backup pad 2 of fixed connection in bottom plate 1 upper end, and including setting up stirring screening mechanism 3 in bottom plate 1 top, stirring screening mechanism 3 is including installing the filtration screening mechanism 32 in bottom plate 1 top, filtration screening mechanism 32 top is installed stirring crushing mechanism 31, stirring crushing mechanism 31 includes fixed plate 311 of fixed connection in bottom plate 1 top, fixed plate 311 outer wall fixedly connected with double-end motor 312, double-end motor 312 output fixedly connected with first bull stick 313, first bull stick 313 outer wall fixedly connected with gear 314, gear 314 meshing has tooth piece 315, tooth piece 315 outer wall fixedly connected with churn 316, first bull stick 313 outer wall fixedly connected with belt pulley assembly 317, the other end fixedly connected with second bull stick 318 of belt pulley assembly 317, second bull stick 318 passes through the bearing rotation and connects at backup pad 2 outer wall, the outer wall of the second rotating rod 318 is fixedly connected with crushing cutters 319, the outer wall of the second rotating rod 318 is fixedly connected with stirring rods 3110, the number of the stirring rods 3110 is eight, the number of the crushing cutters 319 is eight, the stirring rods 3110 and the crushing cutters 319 are installed on the outer wall of the second rotating rod 318 in a staggered and penetrating mode, a through groove is formed in one end of each stirring cylinder 316, a blanking plate 3112 is slidingly connected to the inner wall of the through groove, the outer wall of each blanking plate 3112 is matched with the inner wall of the through groove formed in one end of each stirring cylinder 316, a handle 3113 is fixedly connected to one end of each blanking plate 3112, a feeding pipe 3111 is arranged at one end of each stirring cylinder 316, powder is fed into each stirring cylinder through the feeding pipes 3111 which are arranged at the outer wall of each stirring cylinder 316, then a double-headed motor 312 is started, the output end of each double-headed motor 312 drives a first rotating rod 313 to rotate, and when the first rotating rod 313 rotates, gears 314 are driven to rotate, the rotation of the gear 314 drives the stirring cylinder 316 fixedly connected with the tooth block 315, the rotation direction of the stirring cylinder 316 is opposite to the rotation direction of the gear 314, the first rotating rod 313 drives the belt pulley assembly 317 to rotate, so as to drive the second rotating rod 318 to rotate, the crushing cutter 319 fixedly connected to the outer wall of the second rotating rod 318 rotates with the stirring rod 3110 when the second rotating rod 318 rotates, so that the powder in the stirring cylinder 316 can be crushed and refined, and simultaneously fully stirred, the rotation directions of the second rotating rod 318 and the stirring cylinder 316 are opposite, so that the rotation direction of the powder is opposite to the directions of the crushing cutter 319 and the stirring rod 3110, the stirring is more complete, the crushing is more complete, and the discharging plate 3112 is pulled outwards by pulling the handle 3113 to move after the crushing is completed, and the discharging is completed.

In this embodiment, the gear 314 is driven to rotate by starting the double-headed motor 312 in the stirring and pulverizing mechanism 31, the stirring cylinder 316 fixedly connected with the toothed block 315 is driven to rotate by the rotation of the gear 314, the rotation direction of the stirring cylinder 316 at this time is opposite to that of the gear 314, the pulley assembly 317 is driven to rotate by the rotation of the first rotating rod 313, the second rotating rod 318 is driven to rotate by the pulley assembly 317, the pulverizing knife 319 and the stirring rod 3110 are driven to rotate by the rotation of the second rotating rod 318, so that the powder is sufficiently stirred and pulverized, and meanwhile, the rotation direction of the second rotating rod 318 is opposite to that of the stirring cylinder 316, so that the powder inside the stirring cylinder moves in the opposite directions to the pulverizing knife 319 and the stirring rod 3110, and the stirring and pulverizing can be more sufficiently achieved.

Examples

On the basis of the embodiment 1, the utility model provides a preferable embodiment of a raw material mixing device for preparing balls from carbon powder: the filtration screening mechanism 32 includes the spout of seting up on bottom plate 1 top, this spout inner wall sliding connection has slide supporting rod 321, slide supporting rod 321 keeps away from spout one end fixedly connected with rose box 322, the logical groove has been seted up to rose box 322 outer wall, this logical inslot wall fixedly connected with slide bar 328, slide bar 328 outer wall sliding connection has slider 329, slider 329 top fixedly connected with spring 3210, slider 329 one end fixed connection is in the spout inner wall is kept away from to spring 3210, slider 329 outer wall fixedly connected with filter screen 3211, filter screen 3211's outer wall and rose box 322 inner wall looks adaptation, slider 329 keeps away from filter screen 3211 one end fixedly connected with connecting rod 326, connecting rod 326 outer wall fixedly connected with fixed baffle 327, the length and the width of fixed baffle 327 are greater than the logical groove size that the rose box 322 outer wall was seted up, connecting rod 326 outer wall bottom fixedly connected with lug 325, lug bottom contact has rotation kicking block 324, rotation kicking block 324 outer wall fixedly connected with third bull stick 323, rotation kicking block 324 one end is kept away from rotation kicking block 324 one end fixedly connected with, output end is kept away from rotation kicking block 324, output drive third bull stick 323 through the double-end motor 312, so that can drive rotation kicking block 324, so that will drive rotation kicking block 326 rotates, rotate and take rotation block 326 and rotate the slider 325, and then drive the slider 325 and rotate the slider and push up and move the slider 3210 and push down, and move upwards and push down the slider 325 and move down, and can be pushed down in the slider and move down, and push down the slider 3210 and then move upwards and push down and move down and push down the slider. The filter screen 3211 is vibrated repeatedly, so that powder is filtered and screened, and the powder staying on the filter screen 3211 is stirred and crushed again.

In this embodiment, the third rotating rod 323 in the filtering and screening mechanism 32 rotates to drive the rotating top block 324 to rotate, the rotating top block 324 rotates to contact the protruding block 325, the protruding block 325 is extruded to drive the connecting rod 326 to move upwards, and meanwhile the fixing baffle 327 is driven to move upwards, so that the fixing baffle 327 always closes the through groove to prevent powder from flowing out, when the connecting rod 326 moves upwards, the sliding block 329 is driven to slide upwards on the outer wall of the sliding rod 328, the spring 3210 is extruded through the movement of the sliding block 329, the sliding block 329 is driven to slide downwards through the rebound of the spring 3210, so that the sliding block 329 repeatedly moves up and down to drive the filter screen 3211 to vibrate, filtering and screening of the powder are completed, and the powder staying on the filter screen 3211 is stirred and crushed secondarily.

Claims (7)

1. The raw material mixing device for preparing the balls from the carbon powder comprises a bottom plate (1);

the supporting plate (2) is fixedly connected to the upper end of the bottom plate (1);

and including setting up stirring screening mechanism (3) in bottom plate (1) top, its characterized in that: the stirring screening mechanism (3) comprises a filtering screening mechanism (32) arranged above the bottom plate (1), and a stirring crushing mechanism (31) is arranged above the filtering screening mechanism (32).

2. The raw material mixing device for preparing balls from carbon powder according to claim 1, wherein: stirring reducing mechanism (31) are including fixed plate (311) of fixed connection on bottom plate (1) top, fixed plate (311) outer wall fixedly connected with double-end motor (312), double-end motor (312) output fixedly connected with first bull stick (313), first bull stick (313) outer wall fixedly connected with gear (314), gear (314) meshing has tooth piece (315), tooth piece (315) outer wall fixedly connected with churn (316), first bull stick (313) outer wall fixedly connected with belt pulley assembly (317), belt pulley assembly (317) other end fixedly connected with second bull stick (318), second bull stick (318) are through bearing rotation connection in backup pad (2) outer wall, second bull stick (318) outer wall fixedly connected with crushing sword (319), second bull stick (318) outer wall fixedly connected with puddler (3110), logical groove has been seted up to churn (316) one end, and this logical inslot wall sliding connection has blanking plate (3112), blanking plate (3112) one end fixedly connected with handle (3113), stirring drum (316) one end is kept away from feed pipe (3113).

3. The raw material mixing device for preparing balls from carbon powder according to claim 1, wherein: the utility model provides a filtering screening mechanism (32) is including seting up the spout on bottom plate (1) top, this spout inner wall sliding connection has sliding support pole (321), spout one end fixedly connected with rose box (322) are kept away from to sliding support pole (321), logical groove has been seted up to rose box (322) outer wall, this logical inslot wall fixedly connected with slide bar (328), slide bar (328) outer wall sliding connection has slider (329), slider (329) top fixedly connected with spring (3210), slider (329) one end fixedly connected with is kept away from in the spout inner wall, slider (329) outer wall fixedly connected with filter screen (3211), slider (329) are kept away from filter screen (3211) one end fixedly connected with connecting rod (326), connecting rod (326) outer wall fixedly connected with fixed stop (327), connecting rod (326) outer wall bottom fixedly connected with lug (325), lug (324) bottom contact has rotation kicking block (324), rotation kicking block (324) outer wall fixedly connected with third bull stick (323), rotation kicking block (324) one end fixedly connected with connecting rod (326) are kept away from rotation kicking block (324) output at 312).

4. The raw material mixing device for preparing balls from carbon powder according to claim 2, wherein: the stirring rods (3110) are eight in number, the crushing cutters (319) are eight in number, and the stirring rods (3110) and the crushing cutters (319) are installed on the outer wall of the second rotating rod (318) in a staggered and penetrating mode.

5. A raw material mixing device for producing balls from carbon powder according to claim 3, wherein: the length and the width of the fixed baffle plates (327) are larger than the size of a through groove formed in the outer wall of the filter box (322).

6. The raw material mixing device for preparing balls from carbon powder according to claim 2, wherein: the outer wall of the blanking plate (3112) is matched with the inner wall of a through groove formed in one end of the stirring cylinder (316).

7. A raw material mixing device for producing balls from carbon powder according to claim 3, wherein: the outer wall of the filter screen (3211) is matched with the inner wall of the filter box (322).