CN205413203U - A ash ball briquettes grinds device for haydite preparation - Google Patents

Abstract

This patent belongs to the production facility field of haydite, discloses an ash ball briquettes grinds device for haydite preparation, and including interior bucket and outer bucket, interior bucket lies in outer bucket, and interior bucket is the back taper shape, and outer bucket is the toper form, and the upper and lower both ends of outer bucket all are connected with the lateral wall of interior bucket, have placed a set of steel ball in the cavity of formation between outer barrel and interior barrel, the upper portion of interior bucket lateral wall is equipped with the last gap that can supply fly ash to pass through, and the size that goes up the gap is less than the size of steel ball, and go up the gap and the cavity communicates with each other, the lateral wall of interior bucket is equipped with the hot -blast main including the inlayer and the skin that form the inner chamber on. An ash ball briquettes grinds device for haydite preparation that this patent provided has solved present ash ball briquettes and has weared out when garrulous, lead to because of the water content in the fly ash is higher the powder glue easily stick on a ball -milling section of thick bamboo with the steel ball on technical problem.

Description

The coal ash ball mill apparatus prepared for haydite

Technical field

This utility model belongs to the production apparatus field of haydite, is specifically related to a kind of coal ash ball mill apparatus prepared for haydite.

Background technology

Haydite, is the granule of ceramic, and its appearance is one layer of hard shell, and this layer of shell is ceramic or enamel, has water proof and protects gas effect, and gives the intensity that haydite is higher.Haydite has the features such as density is low, cylindrical compress strength is high, voidage is high, coefficient of softing is high, frost resistance is good, alkali resistant aggregate reaction is good, is now widely used for the fields such as construction material, green material application, dietetic hygiene material and industrial filter material.

The raw material of haydite can select flyash, clay etc., but clay haydite is in recent years owing to being limited by land resource, has been prohibited in certain areas to produce and use；And flyash is as Litter, it is used for producing haydite and can realize twice laid, low cost, and environmental protection, be therefore widely used.

Flyash produces the technique of haydite and generally includes batch mixing, abrasive material, pelletizes, burns swollen etc., and wherein abrasive material refers to flyash and the additive through just mixing is put into and crushed in ball mill, and makes its further mix homogeneously, to facilitate follow-up granulating process.But, in the first mixed process of flyash and additive, additive is the most all to be spilled into as a solution in flyash, this water content allowed in flyash is higher, and the higher flyash of water content is when carrying out ball milling, due to collision and the extruding of steel ball, powder is easily sticky on ball grinding cylinder barrel and cannot draw off, utilize on steel ball, the response rate causing flyash broken is low, and powder on time length ball grinding cylinder long afterwards and steel ball is viscous glutinous ball milling effect too much can be made to be deteriorated.

Utility model content

This utility model is intended to provide a kind of coal ash ball mill apparatus prepared for haydite, during to solve current flyash ball mill crushing, causes powder to be easily sticky on ball grinding cylinder and the technical problem on steel ball because the water content in flyash is higher.

The coal ash ball mill apparatus prepared for haydite in this programme, including inner barrel and outer barrel, interior bucket is positioned at outer barrel, interior bucket is reverse tapered shape, the tapered shape of outer barrel, the two ends up and down of outer barrel all sidewalls with interior bucket are connected, and are placed with one group steel ball in the cavity formed between outer barrel and inner barr；The top of interior bucket sidewall is provided with and is available for the upper gap that flyash passes through, the size being smaller in size than steel ball in upper gap, and upper gap communicates with described cavity；The sidewall of described interior bucket includes internal layer and the outer layer forming inner chamber, and outer layer is provided with warm-air pipe.

Use the coal ash ball mill apparatus prepared for haydite in this programme, including inner barrel and outer barrel, interior bucket is reverse tapered shape, thus along with the rotation of interior bucket, flyash in interior bucket can gradually sidewall along interior bucket up move under the influence of centrifugal force, and along with the rotation of outer barrel, steel ball moves on outer barrel sidewall, owing to can not get the support of outer barrel sidewall, steel ball down can drop under the action of gravity of self, thus and flyash collide or collide between steel ball and steel ball, flyash is broken up, it is achieved flyash broken；The top of interior bucket sidewall is provided with gap, and upper gap is available for flyash and passes through, and when the flyash in interior bucket gradually moves upward supreme gap along with interior bucket sidewall, can enter to through upper gap crush in the cavity outer barrel and inner barr；The size being smaller in size than steel ball in upper gap, thus flyash collision high with water content in avoiding steel ball to enter to interior bucket；The sidewall of interior bucket includes internal layer and the outer layer forming inner chamber, and outer layer is provided with warm-air pipe, thus can be passed through hot blast by the inside intracavity of warm-air pipe, is conveniently dried the flyash risen along interior bucket sidewall, reduces the water content of flyash.

Know-why of the present utility model and technique effect be: flyash puts into bottom of the barrel from the top of interior bucket, rotation along with interior bucket, flyash up can move along the sidewall of interior bucket, owing to there is no the collision of steel ball, extruding, flyash will not be sticky on the sidewall of interior bucket, during moving upward, in interior bucket sidewall, flyash can be dried by the hot blast of intracavity, to reduce the water content in flyash, when flyash moves upward supreme gap, i.e. enter to carry out in the cavity outer barrel and inner barr ball milling through upper gap, broken, during owing to carrying out ball mill crushing in this cavity, moisture content less in flyash, therefore, even if there being the collision of steel ball, extruding, flyash is not easy to be sticky on steel ball or on the sidewall of outer barrel and inner barr, the response rate making flyash ball mill crushing is high.

The following is preferred version based on such scheme:

Preferred version one: the bottom of described interior bucket is concordant with the bottom of outer barrel, the lower sidewall of interior bucket is provided with and is available for the lower gap that flyash passes through, the downside in lower gap overlaps with the bottom of interior bucket, the size being smaller in size than steel ball in lower gap, and lower gap communicates with described cavity.Thus a part of flyash can reenter to interior bucket through lower gap in the cavity between outer barrel and inner barr, carries out after drying.

Preferred version two: based on preferred version one, the sidewall of said tub also includes internal layer and the outer layer forming inner chamber, this outer layer is also provided with warm-air pipe.Thus flyash ball milling, broken during also can be dried, reduce the water content in flyash further.

Preferred version three: based on preferred version two, described inner barrel and outer barrel removably connects.Thus convenient by inner barrel and outer barrel separation, it is simple to the flyash in the cavity between outer barrel and inner barr is drawn off.

Preferred version four: based on preferred version three, the lower end of said tub is connected with the sidewall thread of interior bucket, is provided with block on the downside of the lower end of outer barrel, and block offsets on the downside of the lower end of interior bucket, is provided with snap close between upper end and the sidewall of interior bucket of outer barrel.Thus realize removably connecting between inner barrel and outer barrel, and when can avoid rotating, inner barrel and outer barrel falls off.

Preferred version five: based on preferred version four, the top of said tub is provided with pitching pipe.Pitching pipe puts into steel ball in the cavity between outer barrel and inner barr, if outer barrel and inner barr is dismantled pitching again, owing to outer barrel bottom is level, steel ball easily rolls on bottom, wayward, by contrast, by pitching pipe put into steel ball be easier to control, more convenient.

Accompanying drawing explanation

Fig. 1 is the structural representation of the coal ash ball mill apparatus that this utility model embodiment is prepared for haydite.

Detailed description of the invention

Below by detailed description of the invention, this utility model is described in further detail:

Reference in Figure of description includes: outer barrel 1, warm-air pipe 2, interior bucket 3, cavity 4, inner chamber 5, snap close 6, pitching pipe 7, gear 8, block 9.

As shown in Figure 1, the coal ash ball mill apparatus prepared for haydite, including interior bucket 3 and outer barrel 1, interior bucket 3 is positioned at outer barrel 1, interior bucket 3 is in reverse tapered shape, the tapered shape of outer barrel 1, outer barrel 1 lower end is connected with the sidewall thread of interior bucket 3, block 9 it is provided with on the downside of the lower end of outer barrel 1, block 9 offsets on the downside of the lower end of interior bucket 3, and the upper end of outer barrel 1 coordinates with the sidewall spacers of interior bucket 3, interior bucket 3 and outer barrel 1 is dismantled to facilitate, and between the sidewall of the upper end of outer barrel 1 and interior bucket 3, it is provided with snap close 6, it is to avoid there is mutual sliding axially when rotating in interior bucket 3 and outer barrel 1；The upper end of interior bucket 3 is provided with top cover, and the outer wall of outer barrel 1 is toothed around, and gear teeth meshing has gear 8；It is placed with one group of steel ball in the cavity 4 formed between outer barrel 1 and interior bucket 3；The top of interior bucket 3 sidewall is provided with and is available for the upper gap that flyash passes through, the size being smaller in size than steel ball in upper gap, and the cavity 4 between upper gap with outer barrel 1 and interior bucket 3 communicates；The bottom of interior bucket 3 is concordant with the bottom of outer barrel 1, and the lower sidewall of interior bucket 3 is provided with and is available for the lower gap that flyash passes through, and the downside in lower gap overlaps with the bottom of interior bucket 3, the size being smaller in size than steel ball in lower gap, and lower gap communicates with described cavity 4；The sidewall of described interior bucket 3 and the sidewall of outer barrel 1 all include internal layer and the outer layer forming inner chamber 5, and the outer layer of interior bucket 3 and outer barrel 1 is equipped with warm-air pipe 2；The top of outer barrel 1 sidewall is additionally provided with pitching pipe 7, is provided with capping at pitching pipe 7.

In specific implementation process, in two inner chambers 5, it is passed through hot blast by two warm-air pipes 2, open top cover, flyash is put into interior bucket 3 from the top of interior bucket 3, gear 8 drives outer barrel 1 and interior bucket 3 to rotate, flyash bottom interior bucket 3 up moves along the sidewall of interior bucket 3 under the influence of centrifugal force, gradually dries out during motion, it is achieved be dried；Enter in the cavity 4 outer barrel 1 and interior bucket 3 through upper gap when flyash moves at upper gap and collide with steel ball, extrude, it is achieved crush；After ball milling, broken end, open snap close 6, interior bucket 3 is taken out, the flyash in above-mentioned cavity 4 can be drawn off.Due to flyash with steel-ball collision, extruding before, flyash is dried, and water content reduces, and therefore, flyash is difficult to be sticky on steel ball or on the sidewall of outer barrel 1 and interior bucket 3, the response rate of flyash ball mill crushing height.

For a person skilled in the art; on the premise of without departing from this utility model structure; can also make some deformation and improvement, these also should be considered as protection domain of the present utility model, and these are all without affecting effect and the practical applicability that this utility model is implemented.

Claims (6)

1. the coal ash ball mill apparatus prepared for haydite, it is characterised in that include inner barrel and outer barrel, interior bucket is positioned at outer barrel, and interior bucket is reverse tapered shape, the tapered shape of outer barrel, the two ends up and down of outer barrel all sidewalls with interior bucket are connected, and are placed with one group steel ball in the cavity formed between outer barrel and inner barr；The top of interior bucket sidewall is provided with and is available for the upper gap that flyash passes through, the size being smaller in size than steel ball in upper gap, and upper gap communicates with described cavity；The sidewall of described interior bucket includes internal layer and the outer layer forming inner chamber, and outer layer is provided with warm-air pipe.

The coal ash ball mill apparatus prepared for haydite the most according to claim 1, it is characterized in that: the bottom of described interior bucket is concordant with the bottom of outer barrel, the lower sidewall of interior bucket is provided with and is available for the lower gap that flyash passes through, the downside in lower gap overlaps with the bottom of interior bucket, the size being smaller in size than steel ball in lower gap, and lower gap communicates with described cavity.

The coal ash ball mill apparatus prepared for haydite the most according to claim 2, it is characterised in that: the sidewall of said tub also includes internal layer and the outer layer forming inner chamber, and this outer layer is also provided with warm-air pipe.

The coal ash ball mill apparatus prepared for haydite the most according to claim 3, it is characterised in that: described inner barrel and outer barrel removably connects.

The coal ash ball mill apparatus prepared for haydite the most according to claim 4, it is characterized in that: the lower end of said tub is connected with the sidewall thread of interior bucket, being provided with block on the downside of the lower end of outer barrel, block offsets on the downside of the lower end of interior bucket, is provided with snap close between upper end and the sidewall of interior bucket of outer barrel.

The coal ash ball mill apparatus prepared for haydite the most according to claim 5, it is characterised in that: the top of said tub is provided with pitching pipe.