CN204602587U - Automatical and efficient Multi-stage rotary sand sieving machine - Google Patents

Abstract

The utility model discloses a kind of automatical and efficient Multi-stage rotary sand sieving machine, comprise cylindrical shell, sub-material seat and regulation and control motor, cylindrical shell lower end is provided with rotating cylinder and cone cylinder successively, cutting plate is provided with between sub-material seat in cylindrical shell and the feed hopper on its top, filter screen is provided with in the discharge pipe of cylinder top, rotation wheel on rotating cylinder connects regulation and control motor by driving wheel, multiple cylinder that shakes out is provided with from inside to outside successively in cone cylinder, the cylinder that shakes out all is fastened on mesh screen on rotating cylinder inwall and slide plate respectively by swivel, rotating cylinder inwall is provided with multiple oscillating plate, the pneumatic tube of sub-material seat lower end is connected with air nozzle and air inlet pipe.The utility model sand sieving machine is simple to operate, and automatically can carry out multistage screening to mixing gravel, sieve aperture not easily blocks, and device screening efficiency is high, and screening speed is fast, pollutes little, the working environment of effective improving device.

Description

Automatical and efficient Multi-stage rotary sand sieving machine

Technical field

The utility model relates to construction implement field, particularly the automatical and efficient Multi-stage rotary sand sieving machine of one.

Background technology

Build, plaster and inlay the subdivisional work sand using amounts such as subsides by laying bricks or stones large, simultaneously strict to the quality of sand, Particle size requirements.Existing sand sieving machine is commonly open type vibratory sieve, and because material loading is more concentrated in work process, the gravel velocity of discharge that particle is larger is too fast, therefore causes device result of use poor, inefficiency; And gravel easily blocks mesh screen sieve aperture in screening process, cause screening, device screening effect weakens; And in screening process, dust is very large, and therefore open type vibratory sieve is to pollute, and affects operating personnel healthy.

Utility model content

The purpose of this utility model is the automatical and efficient Multi-stage rotary sand sieving machine providing a kind of efficiency high, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the utility model provides following technical scheme:

A kind of automatical and efficient Multi-stage rotary sand sieving machine, comprise cylindrical shell, sub-material seat and regulation and control motor, described cylindrical shell lower end is provided with rotating cylinder, rotating cylinder lower end is provided with cone cylinder, in the middle of described cylinder top, feed hopper is installed, described cylinder top side is also connected with discharge pipe, in described discharge pipe, filter screen is installed, described sub-material seat is arranged on cylinder inboard wall, cutting plate is connected with between described sub-material seat and feed hopper, described sub-material seat offers multiple feed opening be positioned at outside cutting plate, described rotating cylinder outer wall is installed with rotation wheel, described rotation wheel is engaged with driving wheel, described driving wheel is arranged on the output shaft of regulation and control motor, be provided with first in described cone cylinder from inside to outside successively to shake out cylinder, second shakes out cylinder, 3rd cylinder and the 4th that shakes out shakes out cylinder, described first cylinder that shakes out is fastened on the first mesh screen on rotating cylinder inwall by swivel, described second cylinder that shakes out also is fastened on the second mesh screen on rotating cylinder inwall by swivel, described 3rd cylinder that shakes out also is fastened on the 3rd mesh screen on rotating cylinder inwall by swivel, described 4th cylinder that shakes out also is fastened on the slide plate on rotating cylinder inwall by swivel, described rotating cylinder inwall installs multiple oscillating plate, described sub-material seat lower end is installed with pneumatic tube, described pneumatic tube lower end is provided with multiple air nozzle, the air inlet pipe through cylindrical shell is connected with in described pneumatic tube.

As further program of the utility model: described cutting plate is conic tube.

As further program of the utility model: described first mesh screen, the second mesh screen, the 3rd mesh screen and slide plate parallel oblique are arranged.

As the utility model further scheme: described first cylinder, second cylinder, the 3rd cylinder and the 4th height of cylinder in cylindrical shell that shake out that shake out that shake out that shake out reduces successively.

The invention also discloses the manufacture method of above-mentioned automatical and efficient multistage sand sieving machine, it is characterized in that, comprise following technology and step:

1) a kind of automatical and efficient multistage sand sieving machine, comprises cylindrical shell, sub-material seat and regulation and control motor, makes cylindrical tube, be installed into hopper, set out airduct, in discharge pipe, be provided with filter screen in cylinder top side in the middle of cylinder top;

2) be arranged in parallel sub-material seat in cylindrical shell lower inner wall, arranges up-small and down-big conical cutting plate, the sub-material seat of cutting plate lower limb offers multiple feed opening between sub-material seat and feed hopper;

3) rotating cylinder is set in cylindrical shell lower end, in rotating cylinder side, longitudinally regulation and control motor is set, the output shaft of regulation and control motor installs driving wheel, at rotating cylinder outer wall, wheel is set, the driving wheel of wheel engagement regulation and control motor, between rotating cylinder inwall, from top to bottom 1-5 object first mesh screen is set every preset distance, 7-20 object second mesh screen and 30-50 object the 3rd mesh screen, each mesh screen is suitable for reading to be fixed with rotating cylinder, the downward-sloping certain angle of end opening, conically, and the cylinder that independently shakes out is set respectively at opening part, namely the first mesh screen lower aperture place arranges first and to shake out cylinder, second mesh screen lower aperture place arranges second and to shake out cylinder, 3rd mesh screen lower aperture place arranges the 3rd and to shake out cylinder, at the rotating cylinder feather edge of the 3rd mesh screen bottom certain distance, taper slide plate is set, the lower aperture place of slide plate arranges the 4th and to shake out cylinder, a top that respectively shakes out all is flexibly connected with swivel with corresponding mesh screen lower aperture place, rotating cylinder between each mesh screen arranges oscillating plate, in rotating cylinder lower end, cone cylinder is set,

4) below the sub-material seat of cylindrical shell, arrange air inlet pipe, air inlet pipe connects circular gas blow pipe, and gas blow pipe is to having multiple air nozzle;

5) air inlet pipe is connected air compressor machine tracheae, regulation and control motor is connected power supply respectively with oscillating plate, to feed hopper conveying sand material mixture.

Utility model advantage

Compared with prior art, the beneficial effects of the utility model are: the utility model sand sieving machine is simple to operate, automatically multistage quick Effective selection can be carried out to mixing gravel by the effect of regulation and control motor and gases at high pressure, sieve aperture not easily blocks, device screening efficiency is high, and screening speed is fast, adopts closed structure with timer, pollute little, the working environment of effective improving device.

Accompanying drawing explanation

Fig. 1 is the structural representation of automatical and efficient Multi-stage rotary sand sieving machine.

Fig. 2 is the schematic diagram of cutting plate in automatical and efficient Multi-stage rotary sand sieving machine.

In figure: 1-cylindrical shell; 2-feed hopper; 3-cutting plate; 4-discharge pipe; 5-filter screen; 6-wheel; 7-regulates and controls motor; 8-pneumatic tube; 9-air nozzle; 10-air inlet pipe; 11-first mesh screen; 12-second mesh screen; 13-the 3rd mesh screen; 14-slide plate; 15-driving wheel; 16-oscillating plate; 17-swivel; 18-first shakes out cylinder; 19-second shakes out cylinder; 20-the 3rd shakes out cylinder; 21-the 4th shakes out cylinder; 22-sub-material seat; 23-feed opening; 24-rotating cylinder; 25-bores cylinder.

Detailed description of the invention

Below in conjunction with accompanying drawing, be clearly and completely described the technical solution of the utility model, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Embodiment 1: refer to Fig. 1 ~ 2, a kind of automatical and efficient Multi-stage rotary sand sieving machine, comprise cylindrical shell 1, sub-material seat 22 and regulation and control motor 7, cylindrical shell 1 lower end is provided with rotating cylinder 24, rotating cylinder lower end is provided with cone cylinder 25, in the middle of cylindrical shell 1 top, feed hopper 2 is installed, side, cylindrical shell 1 top is also connected with discharge pipe 4, filter screen 5 is installed in discharge pipe 4, sub-material seat 22 is arranged on cylindrical shell 1 inwall, the cutting plate 3 of conic tube is connected with between sub-material seat 22 and feed hopper 2, sub-material seat 22 offers multiple feed opening 23 be positioned at outside cutting plate 3, rotating cylinder 24 outer wall is installed with and rotates wheel 6, rotate in wheel 6 and be engaged with driving wheel 15, driving wheel 15 is arranged on the output shaft of regulation and control motor 7, be provided with first from inside to outside successively in cone cylinder 25 to shake out cylinder 18, second shakes out cylinder 19, 3rd cylinder 20 and the 4th that shakes out shakes out cylinder 21, and first shakes out cylinder 18, second shakes out cylinder 19, 3rd cylinder 20 and the 4th height of cylinder 21 in cylindrical shell 1 that shake out that shake out reduces successively, first cylinder 18 that shakes out is connected with the first mesh screen 11 be fixed on rotating cylinder 24 inwall by swivel 17, second cylinder 19 that shakes out also is connected with the second mesh screen 12 be fixed on rotating cylinder 24 inwall by swivel 17, 3rd cylinder 20 that shakes out also is connected with the 3rd mesh screen 13 be fixed on rotating cylinder 24 inwall by swivel 17, 4th cylinder 21 that shakes out also is connected with the slide plate 14 be fixed on rotating cylinder 24 inwall by swivel 17, first mesh screen 11, second mesh screen 12, 3rd mesh screen 13 and slide plate 14 parallel oblique are arranged, and the mesh of three mesh screens reduces successively, rotating cylinder 24 inwall installs multiple oscillating plate 16, and sub-material seat 22 lower end is installed with pneumatic tube 8, and pneumatic tube 8 lower end is provided with multiple air nozzle 9, is connected with the air inlet pipe 10 through cylindrical shell 1 in pneumatic tube 8.

The present embodiment also discloses the manufacture method of above-mentioned automatical and efficient multistage sand sieving machine, it is characterized in that, comprises following technology and step:

1) a kind of automatical and efficient multistage sand sieving machine, comprises cylindrical shell 1, sub-material seat 22 and regulation and control motor 7, makes cylindrical tube 1, be installed into hopper 2, set out airduct 4, be provided with filter screen 5 in discharge pipe 4 in side, cylindrical shell 1 top in the middle of cylindrical shell 1 top;

2) be arranged in parallel sub-material seat 22 in cylindrical shell 1 lower inner wall, arranges up-small and down-big conical cutting plate 3, the sub-material seat 22 of cutting plate 3 lower limb offers multiple feed opening 23 between sub-material seat 22 and feed hopper 2;

3) rotating cylinder 24 is set in cylindrical shell 1 lower end, in rotating cylinder 24 side, regulation and control motor 7 is longitudinally set, the output shaft of regulation and control motor 7 installs driving wheel 15, at rotating cylinder 24 outer wall, wheel 6 is set, wheel 6 engages the driving wheel 15 of regulation and control motor 7, between rotating cylinder 24 inwall, from top to bottom 1-5 object first mesh screen 11 is set every preset distance, 7-20 object second mesh screen 12 and 30-50 object the 3rd mesh screen 13, each mesh screen is suitable for reading and rotating cylinder 24 is fixing, the downward-sloping certain angle of end opening, conically, and the cylinder that independently shakes out is set respectively at opening part, namely the first mesh screen 11 lower aperture place arranges first and to shake out cylinder 18, second mesh screen 12 lower aperture place arranges second and to shake out cylinder 19, 3rd mesh screen 13 lower aperture place arranges the 3rd and to shake out cylinder 19, at rotating cylinder 24 feather edge of the 3rd mesh screen 13 bottom certain distance, taper slide plate 14 is set, the lower aperture place of slide plate 14 arranges the 4th and to shake out cylinder 20, a top that respectively shakes out all is flexibly connected with swivel 17 with corresponding mesh screen lower aperture place, rotating cylinder 24 between each mesh screen arranges oscillating plate 16, cone cylinder 25 is set in rotating cylinder 24 lower end,

4) below the sub-material seat 22 of cylindrical shell 1, arrange air inlet pipe 10, air inlet pipe 10 connects circular gas blow pipe 8, and gas blow pipe 8 is to having multiple air nozzle 9;

5) air inlet pipe 10 is connected air compressor machine tracheae, regulation and control motor 7 is connected power supply respectively with oscillating plate 16, carries sand material mixture to feed hopper 2.

Sand material mixture to be screened enters in cylindrical shell 1 from feed hopper 2, under the effect of cutting plate 3, sand material mixture enters on the mesh screen in cylindrical shell 1 by feed opening 23, first fall on the first mesh screen 11, regulation and control motor 7 is by driving wheel 15 and the engagement rotating wheel 6, rotating cylinder 24 and mesh screen is driven to do the rotary motion of certain rotating speed, mixing gravel is through the screening of the first mesh screen 11, enter the second mesh screen 12 by the gravel of the first mesh screen 11 and continue screening, be greater than 1 object not shaked out cylinder 18 discharging from first screening is direct afterwards by the bulky grain gravel of the first mesh screen 11, in like manner remaining gravel respectively through the screening of the second mesh screen 12 and the 3rd mesh screen 13 finally by the effect of slide plate 14, and by the 4th cylinder 21 that shakes out, gravel minimum for particle is transferred out, the gravel of the second mesh screen 12 and the screening of the 3rd mesh screen 13 transfers out from second cylinder 19 and the 3rd cylinder 20 that shakes out that shakes out respectively, thus realize the multistage screening of gravel, by regulating and controlling the effect of motor 7, energy implement device is to the multistage automatical and efficient screening of gravel, simultaneously in order to prevent gravel from blocking sieve aperture, the oscillating plate 16 arranged can regularly start, in air inlet pipe 10, be filled with gases at high pressure by air nozzle 9 to inject high pressure gas on mesh screen simultaneously, vibration and gas acting in conjunction under, the gravel of blocking mesh screen is removed, thus the timely cleaning reached mesh screen, gases at high pressure can also make gravel faster by mesh screen at different levels simultaneously, can raise the efficiency.

To those skilled in the art, obvious the utility model is not limited to the details of above-mentioned one exemplary embodiment, and when not deviating from spirit of the present utility model or essential characteristic, can realize the utility model in other specific forms.Therefore, no matter from which point, all should embodiment be regarded as exemplary, and be nonrestrictive, scope of the present utility model is limited by claims instead of above-mentioned explanation, and all changes be therefore intended in the implication of the equivalency by dropping on claim and scope are included in the utility model.Any Reference numeral in claim should be considered as the claim involved by limiting.

In addition, be to be understood that, although this description is described according to embodiment, but not each embodiment only comprises an independently technical scheme, this narrating mode of description is only for clarity sake, those skilled in the art should by description integrally, and the technical scheme in each embodiment also through appropriately combined, can form other embodiments that it will be appreciated by those skilled in the art that.

Claims (5)

1. an automatical and efficient Multi-stage rotary sand sieving machine, comprise cylindrical shell, sub-material seat and regulation and control motor, it is characterized in that, described cylindrical shell lower end is provided with rotating cylinder, rotating cylinder lower end is provided with cone cylinder, in the middle of described cylinder top, feed hopper is installed, described cylinder top side is also connected with discharge pipe, in described discharge pipe, filter screen is installed, described sub-material seat is arranged on cylinder inboard wall, cutting plate is connected with between described sub-material seat and feed hopper, described sub-material seat offers multiple feed opening be positioned at outside cutting plate, described rotating cylinder outer wall is installed with rotation wheel, described rotation wheel is engaged with driving wheel, described driving wheel is arranged on the output shaft of regulation and control motor, be provided with first in described cone cylinder from inside to outside successively to shake out cylinder, second shakes out cylinder, 3rd cylinder and the 4th that shakes out shakes out cylinder, described first cylinder that shakes out is fastened on the first mesh screen on rotating cylinder inwall by swivel, described second cylinder that shakes out also is fastened on the second mesh screen on rotating cylinder inwall by swivel, described 3rd cylinder that shakes out also is fastened on the 3rd mesh screen on rotating cylinder inwall by swivel, described 4th cylinder that shakes out also is fastened on the slide plate on rotating cylinder inwall by swivel, described rotating cylinder inwall installs multiple oscillating plate, described sub-material seat lower end is installed with pneumatic tube, described pneumatic tube lower end is provided with multiple air nozzle, the air inlet pipe through cylindrical shell is connected with in described pneumatic tube.

2. automatical and efficient Multi-stage rotary sand sieving machine according to claim 1, is characterized in that, described cutting plate is conic tube.

3. automatical and efficient Multi-stage rotary sand sieving machine according to claim 1, is characterized in that, described first mesh screen, the second mesh screen, the 3rd mesh screen and slide plate parallel oblique are arranged, and mesh reduces successively.

4. automatical and efficient Multi-stage rotary sand sieving machine according to claim 1, is characterized in that, described first cylinder, second cylinder, the 3rd cylinder and the 4th height of cylinder in cylindrical shell that shake out that shake out that shake out that shake out reduces successively.

5. the automatical and efficient multistage sand sieving machine according to claim 1 or 3, is characterized in that, the first described mesh screen is 1-5 order, and the second mesh screen is 7-20 order, and the 3rd mesh screen is 30-50 order.