CN201394495Y - Vibration spiral dry sorting machine - Google Patents
Vibration spiral dry sorting machine Download PDFInfo
- Publication number
- CN201394495Y CN201394495Y CN2009200403897U CN200920040389U CN201394495Y CN 201394495 Y CN201394495 Y CN 201394495Y CN 2009200403897 U CN2009200403897 U CN 2009200403897U CN 200920040389 U CN200920040389 U CN 200920040389U CN 201394495 Y CN201394495 Y CN 201394495Y
- Authority
- CN
- China
- Prior art keywords
- spiral
- cylindrical shell
- helicla flute
- vibration
- bed surface
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Landscapes
- Combined Means For Separation Of Solids (AREA)
Abstract
The utility model discloses a vibration spiral dry sorting machine applicable to dry sorting of fine coal as well as applicable to the dry sorting of other fine minerals. The sorting machine mainly consists of a spiral cylinder, a vibration platform, a vibration device, a spiral slot bed surface, a chute as well as an inlet-outlet nozzle. The vibration spiral dry sorting machine adopts double motors to drive the spiral slot surface, generates the composite motion of vibration and twisting, and overcomes the defects of the existing fine coal dry sorting. A generated shearing force separates themullock and coal grains united and stuck together between grains, thus creating the preconditions for sorting by densities. As a radial obliquity exists in the spiral slot surface, which is higher inthe outside and lower in the inside, the grains are under the effects of inertia force, torque force, gravity, friction force and wind force and the materials move to the inside of the spiral slot simultaneously when moving upwards along the spiral slot surface, thus realizing the layering and zoning according to different densities, thereby separating. The device thereof has the advantages of simple structure, novel design conception, stable and reliable sorting, remarkable energy saving and consumption reduction, good sorting effect as well as broad practicability.
Description
Technical field
The utility model relates to a kind of oscillating spiral dry separator, is particularly useful for the dry separation of particulate coal, also is applicable to the dry separation of other fine mineral.
Background technology
Domestic coal dry separation technology mainly contains two classes at present: a class is the air dense medium fluid-bed separator by China Mining University's research and development; Another kind of is air table, be included in the FGX type Duplex dry separator of developing on the U.S. dry type vibratory shaking table basis, with the FX type dry method cull eliminator of on Russian air table basis, developing, and machine changes transmission device thus, adopts the CFX type differential type pneumatic separator of band transmission synchronously.The first kind is to utilize the gas-solid two-phase to realize the layering and then the separation of different densities granule materials under fluidized state; Second class is to utilize the compound action of wind-force and vibration force, makes material make spiral flip-flop movement (FGX type) or differential motion (FX type, CFX type) on the sorting bed and realizes layering and then separation.Yet for a large amount of fines (<6mm), its separating effect is unsatisfactory, both lowers limit of separation are 6mm.
Particulate coal (<6mm) reason of separating effect difference mainly contains: the one, and fine is owing to exist eduction, and making part low-density Coarse Coal enter sorting bed bottom is spoil layer and cause the cleaned coal loss; The 2nd, part high density particulate spoil can blow floating under the wind-force effect and enter the cleaned coal layer in bed top, causes the pollution of purpose mineral; The 3rd, there are effects such as liquid bridge power in the fine surface of comparison humidity, causes particulate coal and spoil conglomeration to adhere to each other, so can not realize effective separation.
Summary of the invention
The purpose of this utility model is at the problem that exists in the prior art, and a kind of compact conformation is provided, and is simple to operate, the oscillating spiral dry separator of good separation effect.
For achieving the above object, the technical solution of the utility model: comprise the spiral cylindrical shell, be located at the dust gathering arrester on the spiral cylindrical shell, the spiral cylinder inboard wall be provided with have certain vertical inclination angle and cross dip, high outside and low outside helicla flute bed surface, the dust gathering arrester top is provided with the corresponding air-vent of mider hole that is surrounded with the helicla flute bed surface; The side of spiral cylindrical shell is provided with to what helicla flute bed surface feed and light product were discharged and goes out the pan feeding mouth, and be provided with blast pipe to helicla flute bed surface bottom air feed, the bottom of spiral cylindrical shell is provided with the annular shaking platform that the middle part of matching with it has endoporus, below, spiral cylindrical shell middle part is provided with the discharge chute, both sides, annular shaking platform below are provided with vibrating device, and the bottom of vibrating device is provided with elastic support.
The vertical inclination angle of described helicla flute bed surface and cross dip all are about 5 degree; Described vibrating device is made of V-shaped groove vibrating motor seat and tilting vibrating motor in V-shaped groove; Described elastic support is made of leg and the rubber spring that is located on the leg.
Beneficial effect: adopt the Dual-motors Driving spiral groove face, produce the compound motion of vibration and twisting, overcome the shortcoming of present particulate coal dry separation.Spoil that the shearing force that is produced adheres to each other uniting between the particle and coal grain are separately created precondition for pressing density separation.Because there is radial rake in spiral groove face, high outside and low outside, particle under the effect of inertia force, torsion, gravity, frictional force, wind-force, material in the process that moves upward along spiral groove face also in lateral movement in helicla flute.Particle is constantly layering and pile up to helicla flute is inboard in the displacement process of vibration, makes material on the groove face form one and carves face, and promptly the cross section forms a triangle, and inboard thick, the outside is thin.Under the effect of vibration force, the light material on the inboard upper strata of helicla flute constantly glide to the helicla flute outside, and the high density material sinks to bottom land and shifts to the inboard under the effect of altitudinal gradient and gravity.Through reciprocation cycle repeatedly, finally make case of low density loads be distributed in the helicla flute outside, and the high density material is distributed in the helicla flute inboard.Realize the branch band of different densities material on groove face, intercept the material of different band respectively, promptly realized separation by different densities.This device separating effect is good, the design concept novelty, and device structure is simple, and stable and reliable separation is energy-saving and cost-reducing significant efficient dry separation equipment.
Description of drawings
Fig. 1 is an oscillating spiral dry separator structural front view of the present utility model;
Fig. 2 is an oscillating spiral dry separator structure side view of the present utility model;
Fig. 3 is an oscillating spiral dry separator structure vertical view of the present utility model;
Fig. 4 is the C-C profile of Fig. 1.
Among the figure: the 1-dust gathering arrester; 2-spiral cylindrical shell; The 3-shaking platform; 4-helicla flute bed surface; The 5-chute; 6-goes out the pan feeding mouth; The 7-rubber spring; The 8-leg; The 9-vibrating motor; 10-vibrating motor seat.
The specific embodiment
Below in conjunction with the embodiment in the accompanying drawing the utility model is further described:
Shown in Figure 1, the utility model oscillating spiral dry separator is mainly by spiral cylindrical shell 2, shaking platform 3, helicla flute bed surface 4, chute 5 with go out pan feeding mouth 6 and form.Helicla flute bed surface 4 is located on spiral cylindrical shell 2 inwalls, is certain vertical inclination angle and cross dip, high outside and low outside, and the vertical inclination angle of helicla flute bed surface 4 and cross dip all are about 5 degree; Be located at dust gathering arrester 1 on the spiral cylindrical shell 2, dust gathering arrester 1 top is provided with the corresponding air-vent of mider hole that is surrounded with helicla flute bed surface 4; The side of spiral cylindrical shell 2 is provided with to what helicla flute bed surface 4 feed and light product were discharged and goes out pan feeding mouth 6, and be provided with blast pipe to helicla flute bed surface 4 bottom air feeds, the bottom of spiral cylindrical shell 2 is provided with the annular shaking platform 3 that the middle part of matching with it has endoporus, below, spiral cylindrical shell 2 middle parts is provided with discharge chute 5, vibrating device is located at both sides, annular shaking platform 3 below, the lower central of spiral cylindrical shell 2 is provided with the chute 5 of discharging heavy product, vibrating device is made of V-shaped groove vibrating motor seat 10 and tilting vibrating motor 9 in V-shaped groove, vibrating motor 9 is power sources of oscillating spiral dry separator, provide vertical vibration power and horizontal torsion by it, the size of exciting force and the scope of operating frequency are depended in the selection of vibrating motor 9.Motor cabinet 10 can be that assembly welding forms, and also can cast forms.The bottom of vibrating device is provided with elastic support 8, and elastic support is made of leg 8 and the rubber spring 7 that is located on the leg 8, and rubber spring 7 is not only born the exciting force on the vertical direction, also bears the vibration torsion on the horizontal direction; Bearing 8 is as the support of entire equipment, and is as a whole, can be welded with channel-section steel, also can form with the model casting.Spiral cylindrical shell 2 is fixed frames of helicla flute bed surface 4, as the main part of vibratory equipment, is rolled by steel plate and to form the wiredrawn edge welding.Shaking platform 3 is the coupling components that connect the middle transition of spiral cylindrical shell 2 and vibration source system, as the link of the last string second line of a couplet, bears vibration torsion and shearing force.Shaking platform 3 can be whole to be welded by each parts as a group welding piece, also can be wholely to water the foundry goods casting as one and form.Will connect the work body on the shaking platform 3, be a circular cylinder body, will connect the vibrating motor bearing down, is a square supporting leg.Helicla flute bed surface 4 is working regions that material carries out sorting, and its structural configuration and surface appearance have determined the separating effect of material, and in order to guarantee the rigidity of bed surface, helicla flute bed surface 4 selects for use steel plate to make compass screen surface with holes; In order to guarantee preferable separating effect, the radial angle of bed working face and vertical angle are key factors, need when therefore making process in strict accordance with choosing parameter.The perforate of bed surface simultaneously also is the key point of making processing, should guarantee enough percent openings, will guarantee also that simultaneously each perforate is the circular hole of rule in the projection of horizontal plane.Certain thickness steel plate is chosen in the making of helicla flute bed surface 4, makes fan-shaped groove face steel plate according to certain angle, then according to groove face radially and vertically angle requirement, vertical drilling is carried out in hot briquetting on special molding fetal then.Carry out the inspection of groove face angle and percent opening after completing, at last the spiral groove face of making is linked to each other with inside and outside cylindrical shell with bolt.Chute 5 is discharging channels of inboard high density product (spoil).Go out the discharge chute that pan feeding mouth 6 comprises pan feeding chute and light product, pan feeding chute and light product chute are arranged in the helicla flute outside.Dust gathering arrester 1 is a cone, and spiral cylindrical shell 2 is covered, and its through hole links to each other with the cleaner intake stack, and working environment is under the air-tight state, the working environment of improvement equipment periphery.
The operation principle and the course of work: adopt Dual-motors Driving spiral groove face 4, produce the compound motion of vibration and twisting.Below groove face, supply with or periodically supply with a certain amount of air quantity, material feeds spiral groove face 4 backs under the effect of compound force field, particle is up along the contrary groove face of groove face, particle is realizing that radially the different densities material radially divides band at spiral groove face 4 simultaneously, thereby reaches the purpose of different densities feed separation.Concrete branch band mainly shows as case of low density loads in the spiral outside, the high density material is in the spiral inboard, material feeds groove face from the pan feeding mouth 6 that goes out in spiral cylindrical shell 2 outsides, under vibration force, torsion and wind-force effect, because there is radial rake in spiral groove face 4, high outside and low outside, particle under the effect of inertia force, torsion, gravity, frictional force, wind-force, material in the process that moves upward along spiral groove face 4 also in lateral movement in helicla flute.Particle is in vibration and do in the process of displacement constantly layering and to helicla flute 4 inboard accumulations, makes material on the groove face form one and carves face, and promptly the cross section forms a triangle, and inboard thick, the outside is thin.Under the effect of vibration force, the light material on the inboard upper strata of helicla flute constantly glide to the helicla flute outside, and the high density material sinks to bottom land and shifts to the inboard under the effect of altitudinal gradient and gravity.Through reciprocation cycle repeatedly, finally make case of low density loads be distributed in the helicla flute outside, and the high density material is distributed in the helicla flute inboard.Realize the branch band of different densities material on groove face, intercept the material of different band respectively, promptly realized separation by different densities.
Claims (4)
1. oscillating spiral dry separator, it is characterized in that: it comprises spiral cylindrical shell (2), be located at the dust gathering arrester (1) on the spiral cylindrical shell (2), spiral cylindrical shell (2) inwall be provided with have certain vertical inclination angle and cross dip, high outside and low outside helicla flute bed surface (4), dust gathering arrester (1) top is provided with the corresponding air-vent of mider hole that is surrounded with helicla flute bed surface (4); The side of spiral cylindrical shell (2) is provided with to what helicla flute bed surface (4) feed and light product were discharged and goes out pan feeding mouth (6), and be provided with blast pipe to helicla flute bed surface (4) bottom air feed, the bottom of spiral cylindrical shell (2) is provided with the annular shaking platform (3) that the middle part of matching with it has endoporus, below, spiral cylindrical shell (2) middle part is provided with discharge chute (5), both sides, annular shaking platform (3) below are provided with vibrating device, and the bottom of vibrating device is provided with elastic support (8).
2. oscillating spiral dry separator according to claim 1 is characterized in that: the vertical inclination angle of described helicla flute bed surface (4) and cross dip all are about 5 degree.
3. oscillating spiral dry separator according to claim 1 is characterized in that: described vibrating device is by V-shaped groove vibrating motor seat (10) and tilting vibrating motor (9) formation in V-shaped groove.
4. oscillating spiral dry separator according to claim 1 is characterized in that: described elastic support is made of leg (8) and the rubber spring (7) that is located on the leg (8).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2009200403897U CN201394495Y (en) | 2009-04-22 | 2009-04-22 | Vibration spiral dry sorting machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2009200403897U CN201394495Y (en) | 2009-04-22 | 2009-04-22 | Vibration spiral dry sorting machine |
Publications (1)
Publication Number | Publication Date |
---|---|
CN201394495Y true CN201394495Y (en) | 2010-02-03 |
Family
ID=41616985
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN2009200403897U Expired - Lifetime CN201394495Y (en) | 2009-04-22 | 2009-04-22 | Vibration spiral dry sorting machine |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN201394495Y (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101537385B (en) * | 2009-04-22 | 2011-08-10 | 中国矿业大学 | Oscillating spiral dry separator |
CN107350263A (en) * | 2017-06-19 | 2017-11-17 | 上海浦东新区兴盛路基材料有限公司 | A kind of decoration garbage and/or tear room rubbish joint disposal and Application way open |
CN112871401A (en) * | 2021-01-11 | 2021-06-01 | 河北工程大学 | Coal mine associated mineral product gravity separation screening system and method |
-
2009
- 2009-04-22 CN CN2009200403897U patent/CN201394495Y/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101537385B (en) * | 2009-04-22 | 2011-08-10 | 中国矿业大学 | Oscillating spiral dry separator |
CN107350263A (en) * | 2017-06-19 | 2017-11-17 | 上海浦东新区兴盛路基材料有限公司 | A kind of decoration garbage and/or tear room rubbish joint disposal and Application way open |
CN112871401A (en) * | 2021-01-11 | 2021-06-01 | 河北工程大学 | Coal mine associated mineral product gravity separation screening system and method |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN104353608A (en) | Rotary vibrating screening machine | |
CN201394495Y (en) | Vibration spiral dry sorting machine | |
CN103934199A (en) | Environment-friendly dry type dust-free manufactured sand production device | |
CN110026334A (en) | A kind of compound screening system of high-efficiency environment friendly solid material integral type | |
CN204710542U (en) | The separation equipment of a kind of building refuse brick and concrete | |
CN111298927A (en) | Integrated sand building making system | |
CN106362950B (en) | Cyclone Negative Pressure Screen | |
CN107233995A (en) | It is a kind of that bed dry coal dressing machine is fluidized from medium gas-particle two-phase based on bed point plate | |
CN107185830A (en) | It is a kind of to fluidize bed dry coal dressing machine from medium gas-particle two-phase | |
CN110227652A (en) | A kind of gravity separation equipment of power battery copper alumina particles | |
CN212189551U (en) | Coarse slime separation diaphragm jigger | |
CN101537385B (en) | Oscillating spiral dry separator | |
CN210304008U (en) | Dry-process fine sand making line | |
CN116764953A (en) | Coal mine transportation screening device and use method | |
CN111804422A (en) | Stepped fluidized mineral separator and separation method | |
CN203304191U (en) | Environment-friendly dry type dust-free machine-made sand production device | |
CN206652708U (en) | A kind of novel vibrating screen | |
CN212018081U (en) | Integrated sand building making system | |
CN201470596U (en) | Space-saving circular vibrating screen | |
CN105149079A (en) | Electromagnetic vibrating screening feedback device for ceramic material roll grinding machine | |
CN105013706A (en) | Light debris separating system for recycle disposal of building rubbish | |
CN209829577U (en) | Large-scale aerodynamic separation sieve | |
CN202087516U (en) | Triaxial oval-shaped banana vibratory screen | |
CN106140616A (en) | A kind of vibrating sieve machine processed for building waste | |
CN205463201U (en) | Tealeaves automatic separation device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20100203 Effective date of abandoning: 20090422 |
|
AV01 | Patent right actively abandoned |
Granted publication date: 20100203 Effective date of abandoning: 20090422 |