CN217490767U - Prilling granulator convenient to material propelling movement and screening - Google Patents

Abstract

The utility model discloses a prilling granulator convenient to material propelling movement and screening belongs to graphite processing technology field. A prilling device for facilitating material pushing and screening, comprising: the device comprises a granulation box, a discharge barrel connected to the bottom of the granulation box and a feed pipe connected to the top of the granulation box; the inside of granulation case has set gradually funnel, rubbing crusher structure and screening mechanism from last to down to separate the inner chamber of granulation case for feeding chamber, crushing chamber, screening chamber and ejection of compact chamber in proper order, ejection of compact chamber and play feed cylinder intercommunication are provided with discharge mechanism in going out the feed cylinder. The utility model discloses a stone mill raw materials accessible inlet pipe gets into the feeding chamber, converges to crushing chamber by the funnel again, carries out in order crushing to the raw materials by rubbing crusher, and the material after smashing gets into the screening chamber, and the material after screening mechanism sieves and filters flows in out the feed cylinder through ejection of compact chamber to accomplish ejection of compact operation under discharge mechanism's effect.

Description

Prilling granulator convenient to material propelling movement and screening

Technical Field

The utility model relates to a graphite processing technology field, concretely relates to prilling granulator convenient to material propelling movement and screening.

Background

The description of the background art of the present invention pertains to the related art related to the present invention, and is only for the purpose of illustrating and facilitating the understanding of the contents of the present invention, and it is not to be understood that the applicant definitely considers or presumes that the applicant considers the present invention as the prior art of the application date of the present invention which is filed for the first time.

The graphite electrode is divided into an artificial graphite electrode and a natural graphite electrode, wherein the artificial graphite electrode is a high-temperature-resistant graphite conductive material which is prepared by using petroleum coke and pitch coke as aggregates and coal pitch as an adhesive through raw material calcination, crushing and grinding, batching, kneading, molding, roasting, impregnation, graphitization and machining, and the natural graphite electrode is prepared by using natural graphite as a raw material.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a prilling granulator convenient to material propelling movement and screening to solve current granulator and do not possess the technical problem of material propelling movement and material screening function.

The utility model provides an above-mentioned technical problem's technical scheme as follows:

a prilling device for facilitating material pushing and screening, comprising: the device comprises a granulation box, a discharge barrel connected to the bottom of the granulation box and a feed pipe connected to the top of the granulation box;

the inside of granulation case has set gradually funnel, rubbing crusher structure and screening mechanism from last to down, and the inner chamber of granulation case separates for feeding chamber, crushing chamber, screening chamber and ejection of compact chamber in proper order, ejection of compact chamber and play feed cylinder intercommunication to be provided with discharge mechanism in going out the feed cylinder.

The utility model discloses a stone mill raw materials accessible inlet pipe gets into the feeding chamber, converges to crushing chamber by the funnel again, carries out orderly crushing to the raw materials by rubbing crusher structure, and the material after smashing gets into the screening chamber, and the material after screening mechanism screening filters flows into out the feed cylinder through ejection of compact chamber to accomplish ejection of compact operation under discharge mechanism's effect.

Further, the above-mentioned crushing mechanism includes: at least two crushing driving pieces that are located the granulation case outside and the crushing roller that is connected with the crushing driving piece respectively, two crushing driving pieces's direction of rotation is opposite to the clearance between two crushing rollers corresponds with the export of funnel.

The utility model discloses a smash the driving piece and provide the power supply, drive and smash the roller and rotate and extrude the material and smash.

Further, the screening mechanism includes: the screen cloth and with screen cloth end connection's vibrations driving piece, screen cloth slope sets up, its both ends respectively with the inner wall connection of granulation case.

The utility model discloses drive the screen cloth vibrations by the vibrations driving piece to the material to the screening intracavity sieves and filters. The screen cloth slope sets up, the material holding volume of multiplicable screening intracavity.

Furthermore, a discharge opening corresponding to the lower end of the screen is formed in the side wall of the granulating box, and a plug is detachably connected to the discharge opening.

The utility model discloses a set up the bin outlet and be used for getting rid of the raw materials of remaining on the screen cloth, avoid it to cause the screen cloth to block up.

Further, the top of above-mentioned granulation box is provided with rabbling mechanism, and rabbling mechanism includes: connect and be connected and extend to the (mixing) shaft in feeding chamber and connect the stirring vane in the (mixing) shaft bottom at the (mixing) shaft driving piece, the top of granulation roof wall with the stirring driving piece, stirring vane is located feeding intracavity portion.

The utility model discloses a stirring driving piece accessible (mixing) shaft drives stirring vane and carries out rotatory stirring to the raw materials of feeding intracavity, and the discharge rate of multiplicable raw materials process funnel.

Furthermore, the discharging cavity is of a conical structure with a large upper part and a small lower part, and the bottom end of the discharging cavity is communicated with the discharging barrel.

The utility model discloses a setting is toper play material chamber, and the material after the convenient screening filters gets into out the feed cylinder fast.

Further, the discharging mechanism comprises: the ejection of compact driving piece be connected with ejection of compact section of thick bamboo lateral wall, the ejection of compact axle and the spiral setting be at the ejection of compact blade on ejection of compact axle surface of being connected with ejection of compact driving piece, and a plurality of discharge openings have been seted up to the tip lateral wall that ejection of compact driving piece was kept away from to the ejection of compact section of thick bamboo.

The utility model discloses an ejection of compact driving piece rotates, drives ejection of compact axle and ejection of compact blade and rotates in step, drives the material and carries out the helical motion along the extending direction of play feed cylinder to finally accomplish the ejection of compact through the discharge opening.

Furthermore, the end part of the discharging shaft, which is far away from the discharging driving part, is connected with a cutting blade, and the cutting blade is positioned on the outer side of the discharging barrel.

The utility model discloses a set up the blank blade and rotate with the ejection of compact axle is synchronous for carry out the cutting operation to discharge opening exhaust material.

Furthermore, the top of the feeding pipe is detachably connected with a blocking cover.

The utility model discloses a set up the blanking cover and can seal the inlet pipe to avoid impurity to sneak into.

Furthermore, a plurality of support legs are detachably connected to the bottom of the granulating tank.

The utility model discloses a set up the stabilizer blade and be used for supporting the granulation case, can play certain dampproofing effect.

The utility model discloses following beneficial effect has:

stone mill raw materials accessible the utility model discloses an inlet pipe gets into the feeding chamber, converges to crushing chamber by the funnel again, carries out orderly crushing to the raw materials by rubbing crusher structure, and the material after smashing gets into the screening chamber, and the material after screening mechanism sieves filters flows in out the feed cylinder through ejection of compact chamber to accomplish ejection of compact operation under discharge mechanism's effect, make the material ejection of compact even, and reduce the material obstructed condition and take place, reduce the cost of labor.

Drawings

FIG. 1 is a schematic view of the internal structure of a granulation apparatus for facilitating material pushing and sieving of the present invention;

FIG. 2 is a schematic view of the external structure of the granulation apparatus of the present invention for facilitating material pushing and sieving;

fig. 3 is a schematic view of the top view structure of the crushing mechanism of the present invention.

In the figure: 10-a granulation box; 101-a feed chamber; 102-a crushing chamber; 103-a screening chamber; 104-a discharge cavity; 11-a funnel; 12-a crushing mechanism; 121-a crushing drive; 122-a crushing roller; 13-a screening mechanism; 131-a screen mesh; 132-a vibration driver; 14-a stirring mechanism; 141-stirring driving member; 142-a stirring shaft; 143-stirring blade; 17-a discharge outlet; 171-plug; 20-discharging barrel; 21-a discharging mechanism; 211-discharge drive; 212-a discharge shaft; 213-discharge blade; 22-a discharge hole; 23-cutting blade.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

With reference to fig. 1 and 2, a granulation device for facilitating material pushing and screening, comprises: the device comprises a granulation box 10, a discharge barrel 20 connected to the bottom of the granulation box 10 and a feed pipe 30 connected to the top of the granulation box 10. Graphite raw materials can enter the inner cavity of the granulation box 10 through the feeding pipe 30, granulation operation is completed in the inner cavity of the granulation box 10, and finally the graphite raw materials are discharged through the discharging barrel 20. The top of inlet pipe 30 can be dismantled and be connected with blanking cover 31, and blanking cover 31 is used for sealing inlet pipe 30, and shutoff inlet pipe 30 can avoid impurity sneaking into after reinforced finishing.

The bottom edge of the granulation box 10 can be detachably connected with a plurality of support legs 40, and the bottom of the granulation box 10 is suspended through the support legs 40, so that a certain moisture-proof effect is achieved. And the supporting legs 40 with different lengths can be replaced according to the requirement of the suspended height, so that the use flexibility of the whole device is improved.

The inside of the granulation box 10 is provided with a funnel 11, a crushing mechanism 12 and a screening mechanism 12 from top to bottom in sequence, and the inner cavity of the granulation box 10 is divided into a feeding cavity 101, a crushing cavity 102, a screening cavity 103 and a discharging cavity 104 in sequence. The graphite raw material directly enters the feeding cavity 101 through the feeding pipe 30, is gathered above the hopper 11 and flows out from the bottom outlet of the hopper 11. Granulation box 10 top still is provided with rabbling mechanism 14, and rabbling mechanism 14 includes: a stirring driving member 141 connected to the top wall of the granulation tank 10, a stirring shaft 142 connected to the stirring driving member 141 at the top end and extending to the feeding chamber 101, and a stirring blade 143 connected to the bottom end of the stirring shaft 142, the stirring blade 143 being located inside the feeding chamber 101. Stirring driving member 141 can drive stirring vane 43 piece through (mixing) shaft 1421 and carry out rotatory stirring to the raw materials in feeding chamber 101, the discharge rate of multiplicable raw materials through the funnel. The stirring driver 141 is located outside the granulation tank 10, and a protective casing is provided outside the stirring driver 141.

Referring to fig. 1 and 3, the crushing mechanism 12 includes: at least two crushing driving members 121 located outside the granulation tank 10 and crushing rollers 122 connected to the crushing driving members 121, respectively, the two crushing driving members 121 are rotated in opposite directions, and a gap between the two crushing rollers 122 corresponds to an outlet of the hopper 11. When the graphite raw material is discharged through the hopper 11 and falls off to a position away from the gap between the two grinding rollers 122, the graphite raw material cannot flow out directly from the gap when the grinding rollers 122 are not rotated. The two crushing rollers 122 are rotated in opposite directions by the two crushing driving members 121 to crush the graphite raw material in the crushing chamber 102, and the crushed material can flow into the sieving chamber 103 through the gap. The pulverization driving member 121 is located outside the granulation tank 10, and a protection case is provided outside the pulverization driving member 121.

Referring to fig. 1 and 2, the sifting mechanism 13 includes: the screen 131 and the vibration driving member 132 connected with the end of the screen 131, the screen 131 is obliquely arranged, and two ends of the screen 131 are respectively connected with the inner wall of the granulation box 10, so that the material containing amount in the screening cavity 103 can be increased. The vibration driver 132 is located on the top and bottom surfaces of the screen 131. the vibration driver 132 may be a vibration motor in the prior art. The screen 131 is vibrated by the vibration driving member 132, so as to screen and filter the material in the screening chamber 103. No matter what after the screening filters gets into storage cavity 104, goes out the tapered structure that material cavity 104 is big-end-up, and its bottom communicates with play feed cylinder 20, and the material after the convenient screening filters gets into out feed cylinder 20 fast.

The sidewall of the granulation tank 10 is formed with a discharge opening 17 corresponding to the lower end of the screen 131, and the discharge opening 17 is detachably connected to a plug 171. The material discharging opening 17 is used for discharging the material remained on the screen 131, so that the screen 131 is prevented from being blocked. The plug 171 is used for plugging the discharge hole 17, so that the materials are prevented from being discharged through the discharge hole 17 by mistake in the screening and filtering process.

The discharging barrel 20 is horizontally arranged and connected to the outer side of the bottom of the granulation box 10. The inner cavity of the discharging barrel 20 is communicated with the discharging cavity 104, and a discharging mechanism 21 is arranged in the discharging barrel 20. The discharging mechanism 21 includes: the discharging device comprises a discharging driving member 211 connected with the side wall of the discharging barrel 20, a discharging shaft 212 connected with the discharging driving member 211, and a discharging blade 213 spirally arranged on the surface of the discharging shaft 212. The side wall of the end of the discharging barrel 20 far away from the discharging driving member 211 is provided with a plurality of discharging holes 22. The discharging driving member 211 rotates to drive the discharging shaft 212 and the discharging blade 213 to rotate synchronously, so as to drive the material to perform spiral movement along the extending direction of the discharging barrel 20, and finally, the discharging is completed through the discharging hole 22. The discharging driving member 211 is located outside the discharging barrel 20, and a protective casing is provided outside the discharging driving member 211.

The end part of the discharging shaft 212 far away from the discharging driving part 211 is connected with a material cutting blade 23, the material cutting blade 23 is positioned outside the discharging barrel 20, and the material cutting blade 23 and the discharging shaft 212 synchronously rotate and are used for cutting materials discharged from the discharging hole 22.

The utility model discloses a 10 outer walls of granulation case still are provided with the touch screen that corresponds, and the inside of touch screen is provided with the controller with each part communication connection, and the intelligent control to each part is realized to the accessible touch screen for whole granulation process is more intelligent.

The utility model discloses in mentioned crushing driving piece 121, stirring driving piece 141 and ejection of compact driving piece 211 respectively for can carry out rotary motion's power component, include but not limited to: a stepping motor, a rotary cylinder, a rotary hydraulic cylinder and the like.

When carrying out the granulation operation, graphite raw materials accessible inlet pipe 30 gets into feed cavity 101, converges to crushing cavity 102 by funnel 11 again, carries out orderly crushing to the raw materials by rubbing crusher mechanism 12, and the material after smashing gets into screening chamber 103, and the material after screening mechanism 13 screens filters flows into out feed cylinder 20 through ejection of compact chamber 104 to accomplish ejection of compact operation under discharge mechanism 21's effect.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. A prilling granulator convenient to material propelling movement and screening which characterized in that includes: the device comprises a granulation box (10), a discharge barrel (20) connected to the bottom of the granulation box (10) and a feeding pipe (30) connected to the top of the granulation box (10);

the inside of granulation case (10) is from last to having set gradually funnel (11), rubbing crusher structure (12) and screening mechanism (13) down, the inner chamber of granulation case (10) is separated for feeding chamber (101), crushing chamber (102), screening chamber (103) and ejection of compact chamber (104) in proper order, ejection of compact chamber (104) with play feed cylinder (20) intercommunication, and be provided with discharge mechanism (21) in play feed cylinder (20).

2. A granulation device to facilitate the pushing and sieving of a material, according to claim 1, characterized in that said crushing means (12) comprise: the device comprises at least two crushing driving parts (121) positioned outside the granulating tank (10) and crushing rollers (122) respectively connected with the crushing driving parts (121), wherein the rotating directions of the two crushing driving parts (121) are opposite, and a gap between the two crushing rollers (122) corresponds to an outlet of the hopper (11).

3. Pelletizing device facilitating the pushing and screening of materials according to claim 2, characterized in that the screening means (13) comprise: the screen (131) and with the vibrations driving piece (132) of screen (131) end connection, screen (131) slope sets up, its both ends respectively with the inner wall of granulation case (10) is connected.

4. A granulator device facilitating the pushing and sieving of materials according to claim 3 characterized in that the sidewall of the granulator box (10) is opened with a discharge opening (17) corresponding to the lower end of the screen (131), and the discharge opening (17) is detachably connected with a plug (171).

5. A granulator device facilitating the pushing and sieving of materials according to claim 3 characterized by the fact that the top of said tank (10) is provided with a stirring mechanism (14), said stirring mechanism (14) comprising: the stirring device comprises a stirring driving part (141) connected to the top wall of the granulating box (10), a stirring shaft (142) of which the top end is connected with the stirring driving part (141) and extends to the feeding cavity (101), and a stirring blade (143) connected to the bottom end of the stirring shaft (142), wherein the stirring blade (143) is positioned inside the feeding cavity (101).

6. A granulator device facilitating the pushing and sifting of materials according to claim 5 characterized by that, the discharge chamber (104) is a cone structure with big top and small bottom, and the bottom end thereof is connected to the discharge barrel (20).

7. Granulation device to facilitate the pushing and sieving of materials according to claim 1, characterized in that said discharge mechanism (21) comprises: with ejection of compact driving piece (211) that ejection of compact section of thick bamboo (20) lateral wall is connected, with ejection of compact axle (212) and the spiral setting that ejection of compact driving piece (211) are connected are in ejection of compact blade (213) on ejection of compact axle (212) surface, a plurality of discharge openings (22) have been seted up to ejection of compact section of thick bamboo (20) the tip lateral wall of keeping away from ejection of compact driving piece (211).

8. A granulator device facilitating the push and sifting of materials according to claim 7 characterized by the fact that the end of the discharge shaft (212) far from the discharge driving element (211) is connected with a cutting blade (23), the cutting blade (23) being located outside the discharge drum (20).

9. A granulator device facilitating the pushing and sieving of materials according to claim 1 characterized by the fact that the top of the feeding pipe (30) is removably connected with a cap (31).

10. Granulation device facilitating material pushing and sieving according to any of the claims 1 to 9, characterized in that a plurality of feet (40) are detachably connected to the bottom of said granulation tank (10).

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