CN2920439Y - Ultra fine powder three force sifting machine - Google Patents

Abstract

The utility model discloses an ultra fine powder three force sifting machine. Adopting a wandering frame with suspending design, the utility model suspends the whole sifting-boat component, and with the cooperation of an eccentric pivot and active support, gives the inertial connection stand transmission inertial force to and fro motion and eccentric pivot mechanical force, which, owning to the elastic connection between vibration-prevention connection element and sifting-boat component, are transmitted to the sifting-boat component, namely, the sifting-boat body; in addition, a vibration source arranged on the sifting-boat component produces vertical vibration, amplitude of vibration and high frequency, giving at the same time the sifting-boat amplitude of vibration and high frequency. Materials in the sifting-boat, under the effect of transmission inertial force, eccentric pivot mechanical force as well as amplitude of vibration and high frequency, rotate frontward and backward, upward and downward, leftward and rightward as well as in plane direction, thereby grading precisely the materials by fineness and conducting the separation. With advantages of simple structure and convenient usage, the utility model can classify the materials according to fineness, product and impurity as well as weight.

Description

Three-kind-force sieving machine for superfine powder

Technical field

The utility model relates to a kind of screening machine, is a kind of a kind of sizing screening equipment that is used for feed, food, chemical industry, medicine and other fields, particularly a kind of three-kind-force sieving machine for superfine powder.

Background technology

In industry production processes such as feed, food, chemical industry, medicine, classifying screen is a kind of main equipment, common rotary flat sieve, high frequency shale shaker is arranged, drops down sieve, winnowing machine etc., reaches by different technological means the thickness particle of raw material is done classification.

To the classification of ultra micro powder raw material, mostly adopt the selection by winnowing classification to achieve the goal, but the classification of pneumatic concentration can not reach hundred-percent equal fineness (as the existence of 40 orders～60 order particles is arranged in 80 orders) at present.In addition, be lighter than the raw material and the impurity of finish fineness in the raw material, as the skin of beans Hectometer, shell, chemical fibre fishnet in the fish meal raw material in the expanded material by elongated fibers impurity after pulverizing etc., since be subjected to the windage effect difference and can't classification, the qualification rate of finished product is reduced, directly influence the quality and the fineness of finished product, be unfavorable for the purity of feeding effect, food security, medicine.

Summary of the invention

Technical problem to be solved in the utility model provides a kind of simple in structure, easy to use, adopt transmission inertia force, eccentric shaft mechanical force, vibration and amplitude and high frequency power, the combined type three-kind-force sieving machine for superfine powder of three power unifications shortcoming such as can't distinguish to overcome product separating particles inequality that prior art exists and impurity.

The technical scheme of the utility model technical solution problem is as follows:

A kind of three-kind-force sieving machine for superfine powder comprises bracing frame, drive unit and sieve ship assembly, and described sieve ship assembly is provided with material inlet and material outlet, it is characterized in that, also comprises: the underframe that moves about, eccentric shaft, movable support frame and inertia link; The described underframe that moves about is arranged on the bracing frame by hoist cable is unsettled; Described drive unit is fixedly installed on and drives the eccentric shaft rotation on the underframe that moves about; Fixedly connected with the inertia link in described eccentric shaft upper end; Described sieve ship assembly is connected with inertia link elasticity by keeping away the Connection Block that shakes, and the relative horizontal plane in described sieve ship assembly bottom surface is downward-sloping to material outlet by material inlet, is fixed with vibration source on the described sieve ship assembly; Described sieve ship assembly comprises the sieve ship and drops down plate, and the described plate that drops down is by envelope band and the both sides sealing-in of sieve ship of being flexible coupling, and movable support frame is arranged on nearly material outlet one end in the inertia link left and right sides, and it is connected with the underframe that moves about with the inertia link respectively at two ends up and down.

By above disclosed technical scheme as can be known, the move about underframe of the utility model by adopting unsettled design is with the unsettled setting of whole sieve ship assembly, cooperating eccentric shaft and movable support frame to make the inertia link obtain plane transmission inertia force seesaws, the eccentric shaft mechanical force, because keeping away the Connection Block that shakes is connected with sieve ship assembly elasticity, thereby transmission inertia force is seesawed, the eccentric shaft mechanical force passes to sieve ship assembly and just sieves hull, the vibration source that is arranged in addition on the sieve ship assembly produces up-down vibration, amplitude and high-frequency, make the sieve ship obtain amplitude and high-frequency simultaneously, make the interior material of sieve ship at transmission inertia force, the eccentric shaft mechanical force, under the effect of amplitude and high-frequency three power, before and after realizing, up and down, about, rotate on the plane, and then make material can and obtain by the accurate classification of fineness separating.

The utlity model has following advantage:

1, transmission inertia force, the eccentric shaft mechanical force, vibration, amplitude, high frequency power, the unification of three power acts on compass screen surface, makes the micro mist that is difficult to classification be able to hundred-percent classification.

2, the plane transmission inertia force and the eccentric shaft machinery masterpiece relative motion that seesaws have solved the high vibration that uses single inertia force and eccentric shaft motoricity to bring, and make the sieve ship be able to steady safety.

3, employing keeps away the Connection Block that shakes between sieve hull and the inertia link, inertia link and move about employing movable support frame and eccentric shaft applied in any combination between the underframe, it is violent and steady that the sieve boatman is done, the combining ability that three power are produced passes to compass screen surface simultaneously, the assurance compass screen surface is optimally sized, can make particle by thickness grading, by finished product and impurity classification, by the weight classification.

4, sieve ship and the split combination of dropping down plate have solved resonance and the noise that large-area metal board plane that original sieve ship caused brings under amplitude and high-frequency effect.

Description of drawings

Fig. 1 faces the face structural representation for the utility model three-kind-force sieving machine for superfine powder;

Fig. 2 is the utility model three-kind-force sieving machine for superfine powder side-looking structural representation;

Fig. 3 is an inertia link planar structure schematic diagram;

Fig. 4 is an embodiment side-looking of sieve ship assembly structural representation;

Fig. 5 is another embodiment side-looking structural representation of sieve ship assembly;

Fig. 6～Fig. 8 is three embodiment of movable support frame;

Fig. 9 keeps away the Connection Block structural representation that shakes for the utility model.

The specific embodiment

Further specify the utility model below in conjunction with accompanying drawing and embodiment.

As Fig. 1, Fig. 2 and shown in Figure 4, the utility model three-kind-force sieving machine for superfine powder, comprise bracing frame 1, drive unit 2 and sieve ship assembly 3, described sieve ship assembly 3 is provided with material inlet 301 and material outlet 302, also comprises: the underframe 4 that moves about, eccentric shaft 5, movable support frame 6 and inertia link 7; The described underframe 2 that moves about is by hoist cable 8 unsettled being arranged on the bracing frame 1; Described drive unit 2 is fixedly installed on and drives eccentric shaft 5 rotations on the underframe 4 that moves about; Fixedly connected with inertia link 7 in described eccentric shaft 5 upper ends; Described sieve ship assembly 3 is connected with inertia link 7 elasticity by keeping away the Connection Block 10 that shakes, and the relative horizontal plane in described sieve ship assembly 3 bottom surfaces is downward-sloping to material outlet by material inlet, is fixed with vibration source 9 on the described sieve ship assembly 3; Described sieve ship assembly 3 comprises sieve ship 303 and drops down plate 304, described drop down plate 304 by the envelope that is flexible coupling be with 308 with sieve ship 303 both sides sealing-ins, movable support frame 6 is arranged on nearly material outlet 302 1 ends in inertia link 7 left and right sides, and it is connected with the underframe 4 that moves about with inertia link 7 respectively at two ends up and down.Screenings is discharged by dropping down plate 14, and oversize is discharged by material outlet 302.The dust of raising out when the envelope that is flexible coupling does not release screenings to drop down plate and screen with 305 is sealed in the bottom of sieve ship.Material inlet 301 is sent raw material into the sieve ship, oversize material outlet 302 with underproof material discharge, screenings drops down plate 304 finished product is sent the sieve ship under the effect that plane transmission and eccentric shaft seesaw.The independent design screenings drop down plate 304, it is excessive thoroughly to have solved metallic plate, resonance that brings during dither and noise phenomenon.

Drive unit 2 comprises motor 201, belt pulley 202, thereby power is provided for eccentric shaft 5.

Described vibration source 9 is arranged on 1/3rd places or 2/5ths places of sieve ship 303 length overalls, near material inlet 301 1 ends.Vibration source 9 can be arranged on place in the middle of sieve ship 303 bottoms, as shown in Figure 5, also can be arranged on sieve ship 303 left and right sides, as shown in Figure 4.Vibration source can be 1 or many, front and back arrange or about arrange, in the same way or phase transmission in opposite directions, its riding position can be on sieve ship 303 both sides or bottom.

The tilt angle alpha of the relative horizontal plane in described sieve ship assembly 3 bottom surfaces is 2 °～30 °.

Two-layer screen cloth 305,306 up and down is set in the described sieve ship 303, between the two-layer screen cloth grid is set, be provided with cleaning piece or cleaning ball 307 in the grid, under the effect of three power, before and after cleaning piece or cleaning ball 307 are done, up and down, about, thereby the plane rotates and constantly scrubs sieve aperture, will sieve the end to rub and clean out.

Also comprise balance pole 11, described balance pole is arranged on eccentric shaft one side, and it is rotationally connected with the inertia link 7 and the underframe 4 that moves about respectively at two ends up and down.Balance pole 11 is made the usefulness of inertia link 7 balances.

Described movable support frame 6 can have various ways, cylinder column link as shown in Figure 6 or board-like column link, and this moment fixedlys connected with the underframe 4 that moves about with inertia link 7 respectively in the two ends up and down of movable support frame; Also can be eccentric connecting axle shown in Figure 7 or active link shown in Figure 8, this moment, the two ends up and down of movable support frame were rotationally connected with the inertia link 7 and the underframe 4 that moves about respectively.

As shown in Figure 9, for the utility model is kept away the Connection Block structural representation that shakes, the described Connection Block 10 that shakes of keeping away is kept away the part that shakes for the spring building rubber compound, it comprises the upper bracket 1001 of fixedlying connected with sieve ship 303, the undersetting 1002 of fixedlying connected with inertia link 7, cylinder type rubber sleeve 1003, spring 1004 and adjusts screw 1009 that upper bracket 1001 lower surfaces are fixed with positioning sleeve 1005 on the spring; Undersetting 1002 upper surfaces are fixed with positioning sleeve 1006 under the spring, outside the positioning sleeve 1005,1006, keep at a certain distance away between the positioning sleeve up and down about described spring 1004 is set in, as the space of spring compression; Cylinder type rubber sleeve 1003 is set in outside the spring 1004; Also be fixed with metal protection protector 1007 on described undersetting 1002 upper surfaces, the height of metal protection protector 1007 is less than the distance between the last undersetting, and described rubber sleeve 1003 is arranged in the metal protection protector 1007; Described adjustment screw 1009 upper ends are arranged in the positioning sleeve 1005 fixedlys connected with the lower surface of upper bracket 1001, and its lower end is passed down positioning sleeve 1006 and with setscrew nut 1009 upper bracket 1001 fixedlyed connected with undersetting 1002 by adjustment spring 1008 with the through hole 1011 on the undersetting.By adopting the design of middle springs, the rubber-coated circle in outer ring, make spring performance elastic reaction, rubber ring plays the effect of shaking, removing noise that keeps away, and the position-limiting action of 1007 pairs of rubber rings of complexed metal protective sleeve prevents to damage because of the violent swing of rubber ring simultaneously.As depicted in figs. 1 and 2, the described Connection Block 10 that shakes of keeping away is symmetricly set on the both sides, all around of sieving between ship and the link.

The above is the utility model preferred embodiment only, is not to be used for limiting the utility model practical range.All equalizations of being done according to the utility model scope change and modify, and are the utility model and contain.

Claims (8)

1. three-kind-force sieving machine for superfine powder, comprise bracing frame (1), drive unit (2) and sieve ship assembly (3), described sieve ship assembly (3) is provided with material and advances (301) and material outlet (302), it is characterized in that, also comprise: the underframe that moves about (4), eccentric shaft (5), movable support frame (6) and inertia link (7); The described underframe that moves about (2) is arranged on the bracing frame (1) by hoist cable (8) is unsettled; Described drive unit (2) is fixedly installed on the underframe that moves about (4) and goes up driving eccentric shaft (5) rotation; Fixedly connected with inertia link (7) in described eccentric shaft (5) upper end; Described sieve ship assembly (3) is connected with inertia link (7) elasticity by keeping away the Connection Block that shakes (10), and the relative horizontal plane in described sieve ship assembly (3) bottom surface is downward-sloping to material outlet by material inlet, is fixed with vibration source (9) on the described sieve ship assembly (3); Described sieve ship assembly (3) comprises sieve ship (303) and drops down plate (304), the described plate (304) that drops down is by envelope band (308) and the both sides sealing-in of sieve ship (303) of being flexible coupling, movable support frame (6) is arranged on nearly material outlet (302) one ends in inertia link (7) left and right sides, and it is connected with the underframe that moves about (4) with inertia link (7) respectively at two ends up and down.

2. three-kind-force sieving machine for superfine powder according to claim 1 is characterized in that, also comprises balance pole (11), and described balance pole is arranged on eccentric shaft one side, and it is rotationally connected with inertia link (7) and the underframe that moves about (4) respectively at two ends up and down.

3. three-kind-force sieving machine for superfine powder according to claim 1 is characterized in that, described vibration source (9) is arranged on 1/3rd or 2/5ths places of sieve ship (303) length overall, near material inlet (301) one ends.

4. three-kind-force sieving machine for superfine powder according to claim 3 is characterized in that, sieve ship (303) left and right sides is located or be arranged on to described vibration source (9) in the middle of being arranged on sieve ship (303) bottom.

5. three-kind-force sieving machine for superfine powder according to claim 1 is characterized in that, the angle of inclination of the relative horizontal plane in described sieve ship assembly (3) bottom surface is 2 °～30 °.

6. three-kind-force sieving machine for superfine powder according to claim 1 is characterized in that, two-layer screen cloth (305,306) up and down is set in the described sieve ship (303), between the two-layer screen cloth grid is set, and is provided with cleaning piece or cleaning ball (307) in the grid.

7. three-kind-force sieving machine for superfine powder according to claim 1 is characterized in that, described movable support frame (6) is one of eccentric connecting axle, active link, cylinder column link or board-like column link.

8. three-kind-force sieving machine for superfine powder according to claim 1, it is characterized in that, the described Connection Block that shakes (10) of keeping away comprises the upper bracket (1001) of fixedlying connected with sieve ship (303), the undersetting (1002) of fixedlying connected with inertia link (7), cylinder type rubber sleeve (1003), spring (1004) and adjusts screw (1009), upper bracket (1001) lower surface is fixed with positioning sleeve (1005), undersetting (1002) upper surface is fixed with down positioning sleeve (1006), and described spring (1004) is set in up and down outside the positioning sleeve (1005,1006); Rubber sleeve (1003) is set in outside the spring (1004); Also be fixed with metal protection protector (1007) on described undersetting (1002) upper surface, described rubber sleeve (1003) is arranged in the metal protection protector (1007); Described adjustment screw (1009) upper end is arranged in the positioning sleeve (1005) fixedlys connected with the lower surface of upper bracket (1001), and its lower end is passed down positioning sleeve (1006) and with setscrew nut (1009) upper bracket (1001) fixedlyed connected with undersetting (1002) by adjustment spring (1008) with the through hole (1011) on the undersetting.

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