CN218190955U - Divide screen (ing) machine convenient to remove - Google Patents

Abstract

The utility model relates to a branch sieve separator technical field just discloses a branch sieve separator convenient to remove, including quick-witted case, screening mechanism, buffer gear, pushing equipment, feeding mechanism and moving mechanism, screening mechanism is located the inside of quick-witted case, buffer gear is located the top of quick-witted incasement portion, pushing equipment is located the right-hand member of quick-witted case, feeding mechanism is located the left end of quick-witted case, moving mechanism is located the lower extreme of quick-witted case, buffer gear includes feeder hopper, inlet pipe, first motor, first transmission shaft, driving gear, driven gear, buffer tube and buffer blade, feeder hopper fixed mounting is in the top of quick-witted case. This branch sieve machine convenient to remove through setting up buffer gear, first motor drives first transmission shaft and driving gear and rotates to drive driven gear and rotate, drive buffer tube and buffering blade and rotate, buffering blade can cushion the screening material that the branch sieve machine was put into, prevents that disposable feeding is too much, and causes the screening net to transship.

Description

Divide screen (ing) machine convenient to remove

Technical Field

The utility model relates to a divide screen (ing) machine technical field, specifically be a divide screen (ing) machine convenient to remove.

Background

Among the prior art, when screening some graininess materials, the inside of putting into the screening machine with the material of treating to screen once only is sieved, and can not cushion the material, leads to the speed of unloading too fast, and the material is once only piled up on the screening net excessively, causes the screening net to transship easily, and has increased the degree of difficulty of screening to after the screening is finished, need the manual work to carry the material, it is more time-consuming and laboursome.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

An object of the utility model is to provide a divide screen (ing) machine convenient to remove to in proposing prior art among the above-mentioned background art of solution, when utilizing the screening machine to carry out the screening to some graininess materials, can not cushion the material, lead to the material once only to pile up on the screening net excessively, cause the screening net to transship easily, after the screening is finished, need the manual work to carry out the problem of carrying to the material.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a branch sieve machine convenient to remove, includes quick-witted case, screening mechanism, buffer gear, pushing equipment, feeding mechanism and moving mechanism, screening mechanism is located the inside of quick-witted case, buffer gear is located the top of quick-witted incasement portion, pushing equipment is located the right-hand member of quick-witted case, feeding mechanism is located the left end of quick-witted case, moving mechanism is located the lower extreme of quick-witted case, buffer gear includes feeder hopper, inlet pipe, first motor, first transmission shaft, driving gear, driven gear, buffer tube and buffering blade, feeder hopper fixed mounting is in the top of quick-witted case, the fixed intercommunication of inlet pipe is at the lower extreme of feeder hopper, the inlet pipe run through quick-witted case and with quick-witted case fixed connection, first motor fixed mounting is in the left side of quick-witted case upper end, first transmission shaft fixed mounting is at the lower extreme of first motor transmission end, driving gear fixed mounting is at the lower extreme of first transmission shaft, driven gear movable mounting is at the lower extreme of driving gear, driven gear movable mounting is at the right-hand member of driving gear, the driving gear meshes with the driven gear, buffer tube fixed mounting is in the inner at the buffer tube, buffering blade fixed mounting is at the lower extreme of buffering blade fixed mounting in the buffer tube, buffering blade is the equidistance and arranges, through setting up, can prevent to sift, and the screening from crossing, and cause the disposable feeding to cause the minute net overload.

Preferably, pushing equipment includes electric putter, output pole and push pedal, electric putter fixed mounting is at the right-hand member of quick-witted case, electric putter's quantity is three, electric putter is the equidistance and arranges, output pole fixed mounting is at the left end of electric putter output, push pedal fixed mounting is at the left end of output pole, and through setting up pushing equipment, can push away the material after sieving on the screening net from the machine case, accomplishes the ejection of compact.

Preferably, the feeding mechanism comprises a feeding groove, a feeding guide plate, a feeding seat, a second motor, a second transmission shaft, a first transmission wheel, a feeding belt, a second transmission wheel and a driven shaft, the feeding groove is fixedly arranged at the left end of the case, the feeding groove is arranged at equal intervals, the feeding guide plate is fixedly arranged inside the feeding groove and extends to the outside of the feeding groove, the feeding seat is fixedly arranged at the left end of the feeding guide plate, the feeding seat is arranged at equal intervals, and materials are pushed into the feeding groove and output to the upper end of the feeding belt from the feeding guide plate by arranging the feeding mechanism.

Preferably, second motor fixed mounting is in the rear end of pay-off seat, second transmission shaft fixed mounting is in the front end of second motor transmission end, first transmission wheel fixed mounting is in the front end of second transmission shaft, feeding belt swivelling joint is in the outer end of first transmission wheel, second drive wheel movable mounting is on the right side of feeding belt inner, feeding belt movable mounting is in the upper end of pay-off seat, driven shaft fixed mounting is in the inner of second drive wheel, driven shaft and pay-off seat swing joint, second motor drive second transmission shaft, first transmission wheel rotate to drive feeding belt, second transmission wheel and driven shaft and rotate, thereby can carry away the material after the screening.

Preferably, screening mechanism includes first screening net, second screening net, third screening net, goes out hopper, discharging pipe, sealed lid and bobbing machine, first screening net fixed mounting is in the top of quick-witted incasement end, second screening net fixed mounting is in the below of first screening net, third screening net fixed mounting is in the below of second screening net, go out hopper fixed mounting and at the lower extreme of third screening net, the discharging pipe is fixed to be communicated at the lower extreme of a hopper, the discharging pipe runs through the below of quick-witted case and extends to quick-witted case, sealed lid threaded connection is in the outer end of discharging pipe, bobbing machine fixed mounting is the lower extreme at quick-witted case, the bobbing machine is the symmetric distribution, sieves the mechanism through setting up, can sieve the material step by step.

Preferably, the moving mechanism comprises a first moving wheel and a second moving wheel, the first moving wheel is fixedly installed at the lower end of the case, the first moving wheel is symmetrically distributed, the second moving wheel is fixedly installed at the lower end of the feeding seat, and the second moving wheel is symmetrically distributed.

Compared with the prior art, the beneficial effects of the utility model are that:

1. according to the movable screening machine, the buffering mechanism is arranged, the first motor drives the first transmission shaft and the driving gear to rotate, so that the driven gear is driven to rotate, the buffer tube and the buffering blade are driven to rotate, the buffering blade can buffer screening materials put into the screening machine, and the phenomenon that a screening net is overloaded due to excessive feeding at one time is prevented;

2. this branch sieve separator convenient to remove through setting up feeding mechanism, the second motor drives secondary drive axle, first drive wheel and rotates to drive pay-off belt, secondary drive wheel and driven shaft and rotate, thereby can carry away the material after the screening, do not need artifical pay-off.

Drawings

FIG. 1 is a schematic view of the three-dimensional structure of the present invention;

FIG. 2 is a schematic sectional view of the present invention;

FIG. 3 is a schematic top view of a cross-sectional structure of the buffering blade of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 2 according to the present invention;

fig. 5 is an enlarged schematic view of the structure at B in fig. 2 according to the present invention.

In the figure: 1. a chassis; 2. a screening mechanism; 201. a first screening net; 202. a second screening mesh; 203. a third screening net; 204. a discharge hopper; 205. a discharge pipe; 206. a sealing cover; 3. a buffer mechanism; 301. a feed hopper; 302. a feed pipe; 303. a first motor; 304. a first drive shaft; 305. a driving gear; 306. a driven gear; 307. a buffer tube; 308. a buffer blade; 4. a material pushing mechanism; 401. an electric push rod; 402. an output rod; 403. pushing the plate; 5. a feeding mechanism; 501. a feed chute; 502. a feeding guide plate; 503. a feeding seat; 504. a second motor; 505. a second drive shaft; 506. a first drive pulley; 507. a feeding belt; 508. a second transmission wheel; 509. a driven shaft; 6. a moving mechanism; 601. a first moving wheel; 602. a second moving wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a screening machine convenient to move comprises a machine case 1, a screening mechanism 2, a buffer mechanism 3, a material pushing mechanism 4, a feeding mechanism 5 and a moving mechanism 6, wherein the screening mechanism 2 is positioned inside the machine case 1, the buffer mechanism 3 is positioned above the inside of the machine case 1, the material pushing mechanism 4 is positioned at the right end of the machine case 1, the feeding mechanism 5 is positioned at the left end of the machine case 1, the moving mechanism 6 is positioned at the lower end of the machine case 1, the buffer mechanism 3 comprises a feed hopper 301, a feed pipe 302, a first motor 303, a first transmission shaft 304, a driving gear 305, a driven gear 306, a buffer pipe 307 and a buffer blade 308, the feed hopper 301 is fixedly arranged above the machine case 1, the feed pipe 302 is fixedly communicated with the lower end of the feed hopper 301, the feed pipe 302 penetrates through the machine case 1 and is fixedly connected with the machine case 1, the first motor 303 is fixedly arranged at the left side of the upper end of the machine case 1, the first transmission shaft 304 is fixedly arranged at the lower end of the transmission end of the first motor 303, the driving gear 305 is fixedly arranged at the lower end of the first transmission shaft 304, the driven gear 306 is movably arranged at the right end of the driving gear 305, the driving gear 305 is meshed with the driven gear 306, the buffer tube 307 is fixedly arranged at the inner end of the driven gear 306, the buffer tube 307 is movably arranged at the outer end of the feed pipe 302, the buffer blades 308 are fixedly arranged at the lower end of the buffer tube 307, the buffer blades 308 are arranged at equal intervals, and by arranging the buffer mechanism 3, the first motor 303 drives the first transmission shaft 304 and the driving gear 305 to rotate, so as to drive the driven gear 306 to rotate, further drive the buffer tube 307 and the buffer blades 308 to rotate, and the buffer blades 308 can buffer the screening materials put into the screen grader, so that excessive one-time feeding is prevented, and the overload of the screening net is caused;

the pushing mechanism 4 comprises electric push rods 401, output rods 402 and push plates 403, the electric push rods 401 are fixedly mounted at the right end of the case 1, the number of the electric push rods 401 is three, the electric push rods 401 are arranged at equal intervals, the output rods 402 are fixedly mounted at the left end of the output end of the electric push rods 401, the push plates 403 are fixedly mounted at the left end of the output rods 402, the electric push rods 401 drive the output rods 402 and the push plates 403 to move left and right by arranging the pushing mechanism 4, and when the output rods and the push plates 403 move left, screened materials on the screening net can be pushed out of the case 1 to finish discharging; the feeding mechanism 5 comprises a feeding groove 501, a feeding guide plate 502, a feeding seat 503, a second motor 504, a second transmission shaft 505, a first transmission wheel 506, a feeding belt 507, a second transmission wheel 508 and a driven shaft 509, the feeding groove 501 is fixedly arranged at the left end of the case 1, the feeding groove 501 is arranged at equal intervals, the feeding guide plate 502 is fixedly arranged inside the feeding groove 501, the feeding guide plate 502 extends to the outside of the feeding groove 501, the feeding seat 503 is fixedly arranged at the left end of the feeding guide plate 502, the feeding seat 503 is arranged at equal intervals, and by arranging the feeding mechanism 5, materials are pushed into the feeding groove 501 and output from the feeding guide plate 502 to the upper end of the feeding belt 507; the second motor 504 is fixedly arranged at the rear end of the feeding seat 503, the second transmission shaft 505 is fixedly arranged at the front end of the transmission end of the second motor 504, the first transmission wheel 506 is fixedly arranged at the front end of the second transmission shaft 505, the feeding belt 507 is rotatably connected to the outer end of the first transmission wheel 506, the second transmission wheel 508 is movably arranged at the right side of the inner end of the feeding belt 507, the feeding belt 507 is movably arranged at the upper end of the feeding seat 503, the driven shaft 509 is fixedly arranged at the inner end of the second transmission wheel 508, the driven shaft 509 is movably connected with the feeding seat 503, and the second motor 504 drives the second transmission shaft 505 and the first transmission wheel 506 to rotate, so that the feeding belt 507, the second transmission wheel 508 and the driven shaft 509 are driven to rotate, and screened materials can be conveyed out;

the screening mechanism 2 comprises a first screening net 201, a second screening net 202, a third screening net 203, a discharge hopper 204, a discharge pipe 205, a sealing cover 206 and a vibrating machine, wherein the first screening net 201 is fixedly arranged above the inner end of the case 1, the second screening net 202 is fixedly arranged below the first screening net 201, the third screening net 203 is fixedly arranged below the second screening net 202, the discharge hopper 204 is fixedly arranged at the lower end of the third screening net 203, the discharge pipe 205 is fixedly communicated with the lower end of the discharge hopper 204, the discharge pipe 205 penetrates through the case 1 and extends to the lower part of the case 1, the sealing cover 206 is in threaded connection with the outer end of the discharge pipe 205, the vibrating machine is fixedly arranged at the lower end of the case 1, the vibrating machine is symmetrically distributed, the vibrating machine drives the device to vibrate by arranging the screening mechanism 2, the first screening net 201, the second screening net 202 and the third screening net 203 can screen materials step by step under the vibrating action, and finally the materials with the smallest particles are screened from the third screening net 203, the discharge hopper 204, the discharge pipe 205 and discharged from the discharge hopper 205; the moving mechanism 6 comprises a first moving wheel 601 and a second moving wheel 602, the first moving wheel 601 is fixedly arranged at the lower end of the case 1, the first moving wheel 601 is symmetrically distributed, the second moving wheel 602 is fixedly arranged at the lower end of the feeding seat 503, the second moving wheel 602 is symmetrically distributed, and the first moving wheel 601 and the second moving wheel 602 can drive the device to move by arranging the moving mechanism 6; the output rods 402 are arranged at equal intervals, and the push plates 403 are arranged at equal intervals.

The working principle is as follows: the material is put into the case 1 from the feeder hopper 301 inside, the first motor 303 drives the first transmission shaft 304 and the driving gear 305 to rotate, thereby drive the driven gear 306 to rotate, and then drive the buffer tube 307 and buffer blade 308 to rotate, buffer blade 308 can buffer the screening material that the sieve machine put into, prevent that once only the feeding is too much, then, the bobbing machine drives this device to vibrate, first screening net 201, the second screening net 202, the third screening net 203 can carry out the step-by-step screening to the material under the vibration effect, electric putter 401 drives output rod 402 and push pedal 403 side-to-side motion, when moving left, can push away the material after screening on the screening net from the case 1, accomplish the ejection of compact, the material of the minimum granule that remains at last is sieved from the third screening net 203, open sealed lid 206, discharge from hopper 204 and discharging pipe 205.

It should be finally noted that the above only serves to illustrate the technical solution of the present invention, and not to limit the scope of the present invention, and that simple modifications or equivalent replacements performed by those skilled in the art to the technical solution of the present invention do not depart from the spirit and scope of the technical solution of the present invention.

Claims (7)

1. The utility model provides a divide screen (ing) machine convenient to remove, includes quick-witted case (1), screening mechanism (2), buffer gear (3), pushing equipment (4), feeding mechanism (5) and moving mechanism (6), its characterized in that: the screening mechanism (2) is located inside the case (1), the buffer mechanism (3) is located above the inside of the case (1), the pushing mechanism (4) is located at the right end of the case (1), the feeding mechanism (5) is located at the left end of the case (1), the moving mechanism (6) is located at the lower end of the case (1), the buffer mechanism (3) comprises a feed hopper (301), a feed pipe (302), a first motor (303), a first transmission shaft (304), a driving gear (305), a driven gear (306), a buffer blade (307) and a buffer blade (308), the feed hopper (301) is fixedly installed above the case (1), the feed pipe (302) is fixedly communicated with the lower end of the feed hopper (301), the feed pipe (302) penetrates through the case (1) and is fixedly connected with the case (1), the first motor (303) is fixedly installed at the left side of the upper end of the case (1), the first transmission shaft (304) is fixedly installed at the lower end of the first motor (303), the driving gear (305) is fixedly installed at the lower end of the first transmission shaft (304), the driven gear (306) is movably installed at the right end of the driving gear (305) and is meshed with the driven gear (306), the buffer tube (307) is fixedly arranged at the inner end of the driven gear (306), the buffer tube (307) is movably arranged at the outer end of the feeding tube (302), the buffer blades (308) are fixedly arranged at the lower end of the buffer tube (307), and the buffer blades (308) are arranged at equal intervals.

2. A portable sizing mill according to claim 1, wherein: pushing equipment (4) include electric putter (401), output pole (402) and push pedal (403), electric putter (401) fixed mounting is at the right-hand member of quick-witted case (1), electric putter (401)'s quantity is three, electric putter (401) are the equidistance and arrange, output pole (402) fixed mounting is at the left end of electric putter (401) output, push pedal (403) fixed mounting is at the left end of output pole (402).

3. A portable sizing mill according to claim 2, wherein: the feeding mechanism (5) comprises a feeding groove (501), a feeding guide plate (502), a feeding seat (503), a second motor (504), a second transmission shaft (505), a first transmission wheel (506), a feeding belt (507), a second transmission wheel (508) and a driven shaft (509), wherein the feeding groove (501) is fixedly arranged at the left end of the case (1), the feeding groove (501) is arranged at equal intervals, the feeding guide plate (502) is fixedly arranged in the feeding groove (501), the feeding guide plate (502) extends to the outside of the feeding groove (501), the feeding seat (503) is fixedly arranged at the left end of the feeding guide plate (502), and the feeding seat (503) is arranged at equal intervals.

4. A portable sizing mill according to claim 3, wherein: the second motor (504) is fixedly installed at the rear end of the feeding seat (503), the second transmission shaft (505) is fixedly installed at the front end of the transmission end of the second motor (504), the first transmission wheel (506) is fixedly installed at the front end of the second transmission shaft (505), the feeding belt (507) is rotatably connected to the outer end of the first transmission wheel (506), the second transmission wheel (508) is movably installed on the right side of the inner end of the feeding belt (507), the feeding belt (507) is movably installed at the upper end of the feeding seat (503), the driven shaft (509) is fixedly installed at the inner end of the second transmission wheel (508), and the driven shaft (509) is movably connected with the feeding seat (503).

5. A portable screening machine according to claim 4 wherein: screening mechanism (2) are including first screening net (201), second screening net (202), third screening net (203), play hopper (204), discharging pipe (205), sealed lid (206) and bobbing machine (207), first screening net (201) fixed mounting is in the inner top of quick-witted case (1), second screening net (202) fixed mounting is in the below of first screening net (201), third screening net (203) fixed mounting is in the below of second screening net (202), go out hopper (204) fixed mounting at the lower extreme of third screening net (203), discharging pipe (205) fixed intercommunication is at the lower extreme that goes out hopper (204), discharging pipe (205) run through quick-witted case (1) and extend to the below of quick-witted case (1), threaded connection in the outer end of discharging pipe (205) is fought to bobbing machine (207) fixed mounting is at the lower extreme of quick-witted case (1), bobbing machine (207) is the symmetric distribution.

6. A portable sizing mill according to claim 5, wherein: the moving mechanism (6) comprises a first moving wheel (601) and a second moving wheel (602), the first moving wheel (601) is fixedly installed at the lower end of the case (1), the first moving wheel (601) is symmetrically distributed, the second moving wheel (602) is fixedly installed at the lower end of the feeding seat (503), and the second moving wheel (602) is symmetrically distributed.

7. A portable sizing mill according to claim 6, wherein: the output rod (402) is arranged at an equal distance, and the push plate (403) is arranged at an equal distance.

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