CN105107728B - A kind of Matter Transfer guipure multi-layer classification vibratory sieve - Google Patents

Abstract

The present invention relates to a kind of device of achievable fine Dewatering, especially a kind of Matter Transfer guipure multi-layer classification vibratory sieve.It includes：Mainframe, shock electric machine, classifying screen unit, chute mainframe, minus mesh bucket and drive mechanism, shock electric machine are fixed on mainframe；Classifying screen unit includes：Individual layer main frame, driving shaft, driven shaft and steel wire, individual layer main frame is fixed on mainframe, one first drive sprocket is connected with the two ends of driving shaft respectively, one first driven sprocket is connected with the two ends of driven shaft respectively, the both sides of steel wire respectively with two the first chain Joints；Minus mesh bucket is fixed on chute mainframe and is located at the underface of classifying screen unit, and minus mesh bucket bottom offers lower funnel discharging opening.Its simple structure, fault rate is low, easy to maintenance, low production cost, and screening and dewatering effect is preferable.

Description

A kind of Matter Transfer guipure multi-layer classification vibratory sieve

Technical field

The present invention relates to a kind of device of achievable fine Dewatering, especially a kind of Matter Transfer guipure multilayer Grading oscillating screen.

Background technology

At present, fine dehydration is always the key link that preferable solution is difficult in manufacturing enterprise, product moisture content and Contradiction between screen size and production cost required for material, is especially embodied in the grey process of dehydration drop to fine In.

The equipment sieved to fine is occurred in that in recent years, vibration sieve bend, the use of lamination sieve successively occurs, Especially lamination is sieved, and because foreign technology monopolization cost price is higher, and separate unit disposal ability is limited；Domestic production it is similar Equipment still has larger gap with foreign technology, it is impossible to preferably reach production target without the preferably grey efficiency of dehydration drop, vibrates The subject matter of sieve bend is not good to the screening effect of fine, and the subject matter of external lamination sieve is relatively costly, and Treating capacity is limited, and domestic similar lamination sieve screening effect is poor, it is impossible to meet production target demand.

The content of the invention

Present invention seek to address that above mentioned problem, there is provided a kind of Matter Transfer guipure multi-layer classification vibratory sieve, the letter of its structure Single, fault rate is low, easy to maintenance, low production cost, and preferably, the technical scheme that it is used is as follows for screening and dewatering effect：

A kind of Matter Transfer guipure multi-layer classification vibratory sieve, it is characterised in that including：

Mainframe, its exciting vibration spring and spring base and fixing base elastic connection by being arranged at its bottom；

Shock electric machine, it is fixed on mainframe；

At least one classifying screen unit, it includes：Individual layer main frame, driving shaft, driven shaft and surround a closed annular Steel wire, the individual layer main frame is fixed on mainframe, is connected with one first drive chain at the two ends of the driving shaft respectively Wheel, is connected with one first driven sprocket respectively at the two ends of the driven shaft, the two ends of the driving shaft and driven shaft are threaded onto In the bearing block on individual layer main frame, the driven sprocket positioned at the same side is connected with drive sprocket by the first chain Connect, the both sides of the steel wire respectively with two the first chain Joints；

Chute mainframe,

With the one-to-one minus mesh bucket of classifying screen unit, it is fixed on chute mainframe and is located at classifying screen unit Underface, the minus mesh bucket bottom offers lower funnel discharging opening；

And the drive mechanism for driving driving shaft to rotate.

On the basis of above-mentioned technical proposal, it is provided between two the first chains for belonging to same classifying screen unit some Bar is used for the link network lacing wire of supporting steel silk screen medial surface, and the two ends of the link network lacing wire are connected on two first chains.

On the basis of above-mentioned technical proposal, the classifying screen unit also includes that targeted particle size is classified screen cloth, the target grain The mesh size of the mesh size less than steel wire of degree classification screen cloth, the targeted particle size classification screen cloth is coated on the outer of steel wire At side, the both sides of the targeted particle size classification screen cloth are fixed on two first chains.

On the basis of above-mentioned technical proposal, the both sides of the targeted particle size classification screen cloth are provided with for tensing targeted particle size It is classified the targeted particle size classification screen cloth puller strap of screen cloth.

Optionally, the classifying screen unit is from top to bottom successively distributed, and the drive mechanism is main by motor, deceleration Machine and Hooks coupling universal coupling assembly are constituted, and the quantity of power source is identical with classifying screen unit and corresponds, the motor and Reductor is connected, and the reductor is connected with Hooks coupling universal coupling assembly, the output end of the Hooks coupling universal coupling assembly and master Moving axis Joint.

Preferably, the classifying screen unit is from top to bottom successively distributed, and the drive mechanism is main by motor, deceleration Machine, Hooks coupling universal coupling assembly and the transmission mechanism composition for the driving force of motor successively to be transmitted, the transmission mechanism One fewer than classifying screen unit of quantity, the transmission mechanism includes：Second drive sprocket, the second driven sprocket and the second chain Bar, for the adjacent classifying screen unit of two-layer up and down：Second drive sprocket is fixed on the driving shaft of classifying screen unit of lower floor, Second driven sprocket is fixed on the driving shaft of classifying screen unit on upper strata, the second drive sprocket by the second chain and second from Movable sprocket is connected.

On the basis of above-mentioned technical proposal, the both sides of the individual layer main frame are connected with for supporting the first chain first half Divide slide rail on the chain for sliding.

Optionally, the wire side of the steel wire of the classifying screen unit is set to inclined-plane high at low at driving shaft, driven shaft.

The invention has the advantages that：Material also has vibration on compass screen surface in addition to doing motion forward together with compass screen surface Power, the combination moved by both realizes the operation that sieve classification and drop ash are preferably carried out to material, thin to sieving Grain material has preferable effect, so as to solve the difficulty of the grey effect on driving birds is not good of stock grading drop, while solving and production cost Between contradiction.Structure is relatively simple, because being that combining form can need to carry out the selection of the number of plies according to production, due to being vertical Arrangement floor space is small, all parts of the equipment at home in the range of the part that produces can meet the need of equipment performance Will, low production cost, using effect is good, so as to solve the investment because required for Introduced From Abroad equipment well, also solves The technological production target that domestic current equipment is not reached, the equipment is simply efficient, and low cost effect is good, installs easy to adjust.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing The accompanying drawing to be used needed for having technology description is briefly described.It should be evident that drawings in the following description are only this A kind of embodiment of invention, for those of ordinary skill in the art, on the premise of not paying creative work, can be with Accompanying drawing according to providing is extended and obtains other implementation accompanying drawings.

Fig. 1 is the positive structure diagram that targeted particle size of the present invention is classified screen cloth

Fig. 2 is the overlooking the structure diagram of Fig. 1；

Fig. 3 is the structural representation after steel wire of the present invention and the first chain assembled；

Fig. 4 is the overlooking the structure diagram of Fig. 3；

Fig. 5 is the positive structure diagram (after the first chain of removal and steel wire) of classifying screen unit of the present invention；

Fig. 6 is the overlooking the structure diagram of Fig. 5；

Fig. 7 is the overlooking the structure diagram of minus mesh bucket of the present invention；

Fig. 8 is the positive structure diagram of classifying screen unit of the present invention；

Fig. 9 is the overlooking the structure diagram of Fig. 8；

Figure 10 is positive structure diagram of the invention；

Figure 11 is dimensional structure diagram of the invention；

Specific embodiment

The invention will be further described with example below in conjunction with the accompanying drawings：

A kind of Matter Transfer guipure multi-layer classification vibratory sieve as shown in Figure 1 to 11, it is characterised in that including：

Mainframe 26, its exciting vibration spring 27 and spring base 28 and fixing base elastic connection by being arranged at its bottom；

Shock electric machine 30, it is fixed on mainframe, is preferably installed at the top of mainframe；

At least one classifying screen unit, it includes：Individual layer main frame 15, driving shaft 18, driven shaft 19 and surround a closure The steel wire 8 of annular, the individual layer main frame 15 is fixed on mainframe, and one is connected with respectively at the two ends of the driving shaft 18 First drive sprocket 12, is connected with one first driven sprocket 16, the He of the driving shaft 18 respectively at the two ends of the driven shaft 19 The two ends of driven shaft 19 are threaded onto in the bearing block 11 on individual layer main frame 15, positioned at the He of driven sprocket 16 of the same side Drive sprocket 12 is connected by the first chain 6, the both sides of the steel wire 8 respectively with two Joints of the first chain 6；

Chute mainframe 32, it is separated with mainframe.

With the one-to-one minus mesh bucket 23 of classifying screen unit, it is fixed on chute mainframe 32 and is located at classifying screen list The underface of unit, the bottom of minus mesh bucket 23 offers lower funnel discharging opening 25；

And the drive mechanism for driving driving shaft 18 to rotate.Because each classifying screen unit is relatively independent, institute So that the number of plies of classifying screen unit, easy for installation, efficiency high, simultaneously because using right angle setting, section can be arranged as required to Installing space is saved, power demand is small.

As shown in fig. 7, the inner chamber of the minus mesh bucket 23 is preferably the inclined-plane that side is high, side is low, the lower funnel discharging Mouth 25 is connected with the inner chamber minimum point of minus mesh bucket 23, and the lower funnel discharging opening 25 is located at the bottom of the side of minus mesh bucket 23 At portion.The outline of the minus mesh bucket 23 is preferably V-shape.Lower funnel discharging opening 25 can connect an outfall sewer, so as to arrange Except backwater.

Preferably, some are provided between two the first chains 6 for belonging to same classifying screen unit for supporting steel The link network lacing wire 9 of the medial surface of silk screen 8, the two ends of the link network lacing wire 9 are connected on two first chains 6.The steel wire It is the large aperture steel wire of stainless steel metal establishment, with higher-strength, one is installed at interval of a certain distance on the first chain Root link network lacing wire, two first chains are connected, and improve the load-bearing of steel wire.

Preferably, the classifying screen unit also includes that targeted particle size is classified screen cloth 1, the targeted particle size classification screen cloth 1 Mesh size is less than the mesh size of steel wire 8, and the targeted particle size classification screen cloth 1 is coated at the lateral surface of steel wire 8, institute The both sides for stating targeted particle size classification screen cloth 1 are fixed on two first chains 6.

As shown in Figure 2, it is preferred that the both sides of the targeted particle size classification screen cloth 1 are provided with for tensing targeted particle size point The targeted particle size classification screen cloth puller strap 4 of level screen cloth.First chain 6 is laid on the first drive sprocket and the first driven sprocket And be tensioned, the steel wire 8 that metal establishment is set between two chains is used for support target grading screen cloth 1, in steel The targeted particle size classification screen cloth 1 that the laying classification above of silk screen 8 is used, is provided with specially at the both sides of the edge of targeted particle size classification screen cloth 1 Fixation is classified screen cloth fixing hole 3 with targeted particle size, and it is corresponding with the silk hole 10 processed on the first chain, is worn with bolt The connecting filament hole 10 of target grading screen cloth fixing hole 3 is crossed so as to targeted particle size classification screen cloth 1 is fixed on the first chain, by In bolt and the collective effect of targeted particle size classification screen cloth puller strap 4, targeted particle size classification screen cloth 1 is tensioning state.

As shown in figure 11, further, the classifying screen unit is from top to bottom successively distributed, and the drive mechanism is main by driving Dynamic motor 20, reductor 21, Hooks coupling universal coupling assembly 22 and the driver for the driving force of motor 20 successively to be transmitted Structure is constituted, one fewer than classifying screen unit of the quantity of the transmission mechanism, and the transmission mechanism includes：Second drive sprocket 40, Second driven sprocket 41 and the second chain 42, for the adjacent classifying screen unit of two-layer up and down：Second drive sprocket 40 is fixed in On the driving shaft 18 of the classifying screen unit of lower floor, the second driven sprocket 41 is fixed in the driving shaft 18 of the classifying screen unit on upper strata On, the second drive sprocket 40 is connected by the second chain 42 with the second driven sprocket 41.The motor 20 of the present embodiment sets It is placed at the classifying screen unit of basecoat, but is not limited only to this.If all various modifications using this principle are to art technology It is it will be apparent that then within the protection domain of the application for personnel.

As shown in figure 5, further, the both sides of the individual layer main frame 15 are connected with for supporting the upper half of the first chain 6 Slide rail 13 on the chain that part is slided.

Further, the wire side of the steel wire 8 of the classifying screen unit is set at driving shaft that (discharge end) low, driven shaft Place's (feed end) inclined-plane high, such as compass screen surface is into 5 °, and compass screen surface traffic direction is identical with feeding direction.

During use：Motor 20 is opened first, reductor 21 is rotated, driven by Hooks coupling universal coupling assembly 22 Bottom one layer of driving shaft of classifying screen unit 18 is rotated, so as to drive the first chain 6 to rotate by the first drive sprocket 12, is entered And drive the steel wire 8 being fixed on the first chain 6 and targeted particle size classification screen cloth 1 to rotate, while on driving shaft 18 second Drive sprocket 40 drives the second driven sprocket 41 to rotate by the second chain 42, so as to driving force is passed into last layer classifying screen The driving shaft of unit, drives this layer of compass screen surface to be moved, then will transmission by the second drive sprocket 40 on the driving shaft 18 of this layer Power passes to the driving shaft of the last layer classifying screen unit of this layer, and the rest may be inferred, drives all compass screen surfaces to be moved, and then opens Shock electric machine 30, produces vibration force, passes to mainframe, and now only classifying screen unit vibrates and minus mesh bucket does not vibrate, thing Expect by the high-end entrance at inclination angle, material, due to the effect of exciting force, produces vibration when being moved along compass screen surface, carries out Dewatering Operation, oversize is collected by the chute of discharge end, and the filtrate under sieve enters minus mesh bucket 23, by the both sides of minus mesh bucket 23 Lower funnel discharging opening 25 is concentrated and excluded.

The foregoing description of the disclosed embodiments, enables those skilled in the art to realize or uses the present invention.To this Various modifications of a little embodiments will be apparent for a person skilled in the art, and generic principles defined herein can In the case where principles and scope of the present invention are not departed from, to realize in other embodiments.Therefore, the present invention will not be limited It is formed on the embodiments shown herein, and is to fit to consistent with principles disclosed herein and features of novelty most wide Scope.

Claims (6)

1. a kind of Matter Transfer guipure multi-layer classification vibratory sieve, it is characterised in that including：

Mainframe (26), it is connected by being arranged at the exciting vibration spring (27) and spring base (28) of its bottom with fixing base elasticity Connect；

Shock electric machine (30), it is fixed on mainframe (26)；

At least one classifying screen unit, it includes：Individual layer main frame (15), driving shaft (18), driven shaft (19) and surround one and close The steel wire (8) of cyclization shape, the individual layer main frame (15) is fixed on mainframe, is distinguished at the two ends of the driving shaft (18) One first drive sprocket (12) is connected with, one first driven sprocket (16) is connected with the two ends of the driven shaft (19) respectively, The two ends of the driving shaft (18) and driven shaft (19) are threaded onto in the bearing block (11) on individual layer main frame (15), position Driven sprocket (16) in the same side is connected with drive sprocket (12) by the first chain (6), the both sides of the steel wire (8) Respectively with two the first chain (6) Joints；

Chute mainframe (32),

With the one-to-one minus mesh bucket (23) of classifying screen unit, it is fixed on chute mainframe (32) and positioned at classifying screen list The underface of unit, minus mesh bucket (23) bottom offers lower funnel discharging opening (25)；

And the drive mechanism for driving driving shaft (18) to rotate；

The classifying screen unit also includes that targeted particle size is classified screen cloth (1), the mesh size of targeted particle size classification screen cloth (1) Less than the mesh size of steel wire (8), the targeted particle size is classified screen cloth (1) and is coated at the lateral surface of steel wire (8), described The both sides of targeted particle size classification screen cloth (1) are fixed on two first chains (6), the both sides of the edge of targeted particle size classification screen cloth (1) Place is provided with fixation targeted particle size and is classified screen cloth fixing hole (3), and it is corresponding with the silk hole (10) processed on the first chain, uses Bolt is classified screen cloth fixing hole (3) connecting filament hole (10) and is fixed on so as to targeted particle size is classified into screen cloth (1) through targeted particle size On first chain, it is tensioning state that targeted particle size is classified screen cloth (1).

2. a kind of Matter Transfer guipure multi-layer classification vibratory sieve according to claim 1, it is characterised in that：The targeted particle size The both sides of classification screen cloth (1) are provided with and are classified screen cloth puller strap (4) for tensing the targeted particle size of targeted particle size classification screen cloth.

3. a kind of Matter Transfer guipure multi-layer classification vibratory sieve according to claim 1, it is characterised in that：The classifying screen list Unit is from top to bottom successively distributed, and the drive mechanism is main by motor (20), reductor (21) and Hooks coupling universal coupling assembly (22) constitute, the quantity of power source is identical with classifying screen unit and corresponds, the motor (20) and reductor (21) It is connected, the reductor (21) is connected with Hooks coupling universal coupling assembly (22), the output of the Hooks coupling universal coupling assembly (22) End and driving shaft (18) Joint.

4. a kind of Matter Transfer guipure multi-layer classification vibratory sieve according to claim 1, its feature exists：The classifying screen unit From top to bottom successively it is distributed, the drive mechanism is main by motor (20), reductor (21), Hooks coupling universal coupling assembly (22) Constituted with the transmission mechanism for the driving force of motor (20) successively to be transmitted, the quantity of the transmission mechanism compares classifying screen Unit is few one, and the transmission mechanism includes：Second drive sprocket (40), the second driven sprocket (41) and the second chain (42), For the adjacent classifying screen unit of two-layer up and down：Second drive sprocket (40) is fixed in the driving shaft of the classifying screen unit of lower floor (18) on, the second driven sprocket (41) is fixed on the driving shaft (18) of the classifying screen unit on upper strata, the second drive sprocket (40) It is connected with the second driven sprocket (41) by the second chain (42).

5. a kind of Matter Transfer guipure multi-layer classification vibratory sieve according to claim 1, it is characterised in that：The main frame of individual layer The both sides of frame (15) are connected with for slide rail (13) on the chain for supporting the slip of the first chain (6) top half.

6. a kind of Matter Transfer guipure multi-layer classification vibratory sieve according to claim 1, it is characterised in that：The classifying screen list The wire side of the steel wire (8) of unit is set to inclined-plane high at low at driving shaft, driven shaft.