CN201375014Y - Particle stalk production system - Google Patents
Particle stalk production system Download PDFInfo
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- CN201375014Y CN201375014Y CN200920093048U CN200920093048U CN201375014Y CN 201375014 Y CN201375014 Y CN 201375014Y CN 200920093048 U CN200920093048 U CN 200920093048U CN 200920093048 U CN200920093048 U CN 200920093048U CN 201375014 Y CN201375014 Y CN 201375014Y
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Abstract
The utility model relates to a particle stalk production system which is sequentially connected with a first feeding machine, a first vibrating conveyer, a water tank type tobacco stalk steam conditioner, a second vibrating conveyer, a drum-type conditioning charging machine, a third vibrating conveyer, a first belt-type conveyer, an inching conveyer, a vertically opposite storage cabinet, a second belt-type conveyer, a first spiral measuring device, a fourth belt-type conveyer, a first smashing granulator, a sixth belt-type conveyer, an eighth belt-type conveyer, a first circle-vibrating sieve, a tenth belt-type conveyer, an eleventh belt-type conveyer, a second feeding machine, a fourth vibrating conveyer, a drum-type thin-plate drier, a fifth vibrating conveyer, a twelfth belt-type conveyer, a third feeding machine, a microwave recovering device, a hoisting machine, a winnowing device, a pneumatic pipeline, a blanking device, a fourth feeding machine, an electronic scale, a vibrating screen classifier, a drum-type aromatic flavoring machine and a sixth vibrating conveyer. The utility model systematically combines the traditional tobacco equipment and the microwave device to form a relative continuous production line.
Description
Technical field
The utility model relates to a kind of cigarette process units, particularly relates to a kind of granule peduncle production system.
Background technology
At present, the developing direction of Chinese style cigarette is the cigarette that produces low tar, low harm, and the preparation of granule peduncle was also just produced as a trial in research institute at present, did not put in the actual production.The technological process of the granule peduncle that prepared in research institute in the past is: former stalk obtains the stalk that expands by microwave expansion equipment, the stalk that expands is stored good laggard pedestrian worker's moisture regain, take beating crusher again and smash granulation, take the microwave restorer again and carry out microwave and recover the last granule peduncle that manually particle screening is become suitable size smashing granule peduncle after the granulation.Whole process flow all is interrupted as can be seen, so not only lost time, but also waste of manpower, and from the granule peduncle that technological angle is prepared can't feed in raw material, perfuming, handle moisture content also inadequately continuously, stable.
Summary of the invention
The purpose of this utility model is to remedy the deficiencies in the prior art, and a kind of safe and reliable, time saving and energy saving, granule peduncle production system that can realize process of industrialization is provided.
The purpose of this utility model is achieved through the following technical solutions.
The utility model granule peduncle production system; it comprises feeding machine; jigging conveyer; water tank type regaining moisture of cabo machine; drum-type humidifying charging machine; ribbon conveyer; to the top storage cabinet; the adjusting microinching conveyer; two-way ribbon conveyer; the spiral quantitative device; smash comminutor; the round sieve that shakes; drum-type thin plate dryer; the microwave recovery device; elevator; pneumatic separation device; air delivery pipe; feeder; electronic belt scale; vibrating screen classifier and drum-type Perfuming machine; be connected with the input of first jigging conveyer on the output of described first feeding machine; be connected with the input of water tank type regaining moisture of cabo machine on the output of first jigging conveyer; be connected with the input of second jigging conveyer on the output of water tank type regaining moisture of cabo machine; be connected with the input of drum-type humidifying charging machine on the output of second jigging conveyer; be connected with the input of the 3rd jigging conveyer on the output of drum-type humidifying charging machine; be connected with the input of first ribbon conveyer on the output of the 3rd jigging conveyer; be connected with the input of adjusting microinching conveyer on the output of first ribbon conveyer; be connected with input on the output of adjusting microinching conveyer to the top storage cabinet; be connected with the first two-way ribbon conveyer and the second two-way ribbon conveyer on two outputs to the top storage cabinet respectively; be connected with the input of second ribbon conveyer on one output of the first two-way ribbon conveyer and the second two-way ribbon conveyer; be connected with the input of the first spiral quantitative device on the output of second ribbon conveyer; be connected with the input of four-tape formula conveyer on the output of the first spiral quantitative device; be connected with first input of smashing comminutor on the output of four-tape formula conveyer; first smashes the input that is connected with the 6th ribbon conveyer on the output of comminutor; be connected with the input that first circle shakes and sieves on the output of the 6th ribbon conveyer; be connected with the input of the 8th ribbon conveyer on one output of the first round sieve that shakes; be connected with the same input of the first spiral quantitative device on the output of the 8th ribbon conveyer; be connected with the input of the 3rd ribbon conveyer on another output of the described first two-way ribbon conveyer and the second two-way ribbon conveyer; be connected with the input of the second spiral quantitative device on the output of the 3rd ribbon conveyer; be connected with the input of the 5th ribbon conveyer on the output of the second spiral quantitative device; be connected with second input of smashing comminutor on the output of the 5th ribbon conveyer; second smashes the input that is connected with the 7th ribbon conveyer on the output of comminutor; be connected with the input that second circle shakes and sieves on the output of the 7th ribbon conveyer; be connected with the input of the 9th ribbon conveyer on the output of the second round sieve that shakes; be connected with the same input of the second spiral quantitative device on the output of the 9th ribbon conveyer; be connected with the input of the tenth ribbon conveyer on another output of described first round the shake sieve and the second round sieve that shakes; be connected with the input of the 11 ribbon conveyer on the output of the tenth ribbon conveyer; be connected with the input of second feeding machine on the output of the 11 ribbon conveyer; be connected with the input of the 4th jigging conveyer on the output of second feeding machine; be connected with the input of drum-type thin plate dryer on the output of the 4th jigging conveyer; be connected with the input of the 5th jigging conveyer on the output of drum-type thin plate dryer; be connected with the input of the 12 ribbon conveyer on the output of the 5th jigging conveyer; be connected with the input of the 3rd feeding machine on the output of the 12 ribbon conveyer; be connected with the input of microwave recovery device on the output of the 3rd feeding machine; the output of microwave recovery device is connected with the input of elevator; be connected with pneumatic separation device on the output of elevator; be connected with the input of air delivery pipe on the output of pneumatic separation device; be connected with the input of feeder on the output of air delivery pipe; be connected with the input of the 4th feeding machine on the output of feeder; be connected with the input of electronic belt scale on the output of the 4th feeding machine; be connected with the input of vibrating screen classifier on the output of electronic belt scale; be connected with the input of drum-type Perfuming machine on the output of vibrating screen classifier, be connected with the input of the 6th jigging conveyer on the output of drum-type Perfuming machine.
The beneficial effect of the utility model granule peduncle production system is: stability and the practicality of utilizing original conventional tobacco equipment, add the novelty and the uniqueness of microwave device, offal is become a reality from the former granule peduncle of filling cigarette that obstructs, this production system is that conventional tobacco equipment and microwave device are organically combined, form continuous relatively production line, realized industrialized process.
Description of drawings
Fig. 1 is the connection status schematic diagram of the utility model granule peduncle production system.
Fig. 2 is that the A-A of Fig. 1 is to view.
Fig. 3 is that the B-B of Fig. 1 is to view.
Fig. 4 is that the C-C of Fig. 1 is to view.
Fig. 5 is that the D-D of Fig. 1 is to view.
Fig. 6 is that the E-E of Fig. 1 is to cutaway view.
Fig. 8 is that the G-G of Fig. 1 is to view.
Fig. 9 is that the H-H of Fig. 1 is to view.
Figure 10 is that the I-I of Fig. 1 is to view.
Figure 11 is that the L-L of Fig. 1 is to view.
Among the figure, 1; first feeding machine 2; first jigging conveyer 3; water tank type regaining moisture of cabo machine 4; second jigging conveyer 5; drum-type humidifying charging machine 6; the 3rd jigging conveyer 7; first ribbon conveyer 8; to top storage cabinet 9; adjusting microinching conveyer 10; the first two-way ribbon conveyer 11; the second two-way ribbon conveyer 12; second ribbon conveyer 13; the 3rd ribbon conveyer 14; the first spiral quantitative device 15; four-tape formula conveyer 16; first smashes comminutor 17; the 6th ribbon conveyer 18; first circle shakes and sieves 19; the 8th ribbon conveyer 20; the second spiral quantitative device 21; the 5th ribbon conveyer 22; second smashes comminutor 23; the 7th ribbon conveyer 24; second circle shakes and sieves 25; the 9th ribbon conveyer 26; the tenth ribbon conveyer 27; the 11 ribbon conveyer 28; second feeding machine 29; the 4th jigging conveyer 30; drum-type thin plate dryer 31; the 5th jigging conveyer 32; the 12 ribbon conveyer 33; the 3rd feeding machine 34; microwave recovery device 35; elevator 36; pneumatic separation device 37; air delivery pipe 38; feeder 39; the 4th feeding machine 40; electronic belt scale 41; vibrating screen classifier 42; drum-type Perfuming machine 43; the 6th jigging conveyer
The specific embodiment
Below in conjunction with accompanying drawing the utility model is elaborated.
Extremely shown in Figure 11 as Fig. 1; the utility model granule peduncle production system; it comprises feeding machine; jigging conveyer; water tank type regaining moisture of cabo machine; drum-type humidifying charging machine; ribbon conveyer; to the top storage cabinet; the adjusting microinching conveyer; two-way ribbon conveyer; the spiral quantitative device; smash comminutor; the round sieve that shakes; drum-type thin plate dryer; the microwave recovery device; elevator; pneumatic separation device; air delivery pipe; feeder; electronic belt scale; vibrating screen classifier and drum-type Perfuming machine; be connected with the input of first jigging conveyer 2 on the output of described first feeding machine 1; be connected with the input of water tank type regaining moisture of cabo machine 3 on the output of first jigging conveyer 2; be connected with the input of second jigging conveyer 4 on the output of water tank type regaining moisture of cabo machine 3; be connected with the input of drum-type humidifying charging machine 5 on the output of second jigging conveyer 4; be connected with the input of the 3rd jigging conveyer 6 on the output of drum-type humidifying charging machine 5; be connected with the input of first ribbon conveyer 7 on the output of the 3rd jigging conveyer 6; be connected with the input of adjusting microinching conveyer 9 on the output of first ribbon conveyer 7; be connected with input on the output of adjusting microinching conveyer 9 to top storage cabinet 8; be connected with the first two-way ribbon conveyer 10 and the second two-way ribbon conveyer 11 on two outputs to top storage cabinet 8 respectively; be connected with the input of second ribbon conveyer 12 on the output of the first two-way ribbon conveyer 10 and the second two-way ribbon conveyer 11; be connected with the input of the first spiral quantitative device 14 on the output of second ribbon conveyer 12; be connected with the input of four-tape formula conveyer 15 on the output of the first spiral quantitative device 14; be connected with first input of smashing comminutor 16 on the output of four-tape formula conveyer 15; first smashes the input that is connected with the 6th belt 17 conveyers on the output of comminutor 16; be connected with the input of the first round sieve 18 that shakes on the output of the 6th ribbon conveyer 17; be connected with the input of the 8th ribbon conveyer 19 on one output of the first round sieve 18 that shakes; be connected with the same input of the first spiral quantitative device 14 on the output of the 8th ribbon conveyer 19; be connected with the input of the 3rd ribbon conveyer 13 on another output of the described first two-way ribbon conveyer 10 and the second two-way ribbon conveyer 11; be connected with the input of the second spiral quantitative device 20 on the output of the 3rd ribbon conveyer 13; be connected with the input of the 5th ribbon conveyer 21 on the output of the second spiral quantitative device 20; be connected with second input of smashing comminutor 22 on the output of the 5th ribbon conveyer 21; second smashes the input that is connected with the 7th ribbon conveyer 23 on the output of comminutor 22; be connected with the input of the second round sieve 24 that shakes on the output of the 7th ribbon conveyer 23; be connected with the input of the 9th ribbon conveyer 25 on the output of the second round sieve 24 that shakes; be connected with the same input of the second spiral quantitative device 20 on the output of the 9th ribbon conveyer 25; be connected with the input of the tenth ribbon conveyer 26 on another output of described first round the sieve 18 and second round sieve 24 that shakes that shakes; be connected with the input of the 11 ribbon conveyer 27 on the output of the tenth ribbon conveyer 26; be connected with the input of second feeding machine 28 on the output of the 11 ribbon conveyer 27; be connected with the input of the 4th jigging conveyer 29 on the output of second feeding machine 28; be connected with the input of drum-type thin plate dryer 30 on the output of the 4th jigging conveyer 29; be connected with the input of the 5th jigging conveyer 31 on the output of drum-type thin plate dryer 30; be connected with the input of the 12 ribbon conveyer 32 on the output of the 5th jigging conveyer 31; be connected with the input of the 3rd feeding machine 33 on the output of the 12 ribbon conveyer 32; be connected with the input of microwave recovery device 34 on the output of the 3rd feeding machine 33; the output of microwave recovery device 34 is connected with the input of elevator 35; be connected with pneumatic separation device 36 on the output of elevator 35; be connected with the input of air delivery pipe 37 on the output of pneumatic separation device 36; be connected with the input of feeder 38 on the output of air delivery pipe 37; be connected with the input of the 4th feeding machine 39 on the output of feeder 38; be connected with the input of electronic belt scale 40 on the output of the 4th feeding machine 39; be connected with the input of vibrating screen classifier 41 on the output of electronic belt scale 40; be connected with the input of drum-type Perfuming machine 42 on the output of vibrating screen classifier 41, be connected with the input of the 6th jigging conveyer 43 on the output of drum-type Perfuming machine 42.
In the utility model; described feeding machine, jigging conveyer, water tank type regaining moisture of cabo machine, drum-type humidifying charging machine, ribbon conveyer, to top storage cabinet, adjusting microinching conveyer, two-way ribbon conveyer, spiral quantitative device, to smash shake sieve, drum-type thin plate dryer, microwave recovery device, elevator, pneumatic separation device, air delivery pipe, feeder, electronic belt scale, vibrating screen classifier and drum-type Perfuming machine of comminutor, circle be prior art, its structure is no longer described in detail.
During concrete enforcement; the horizontal conveying belt that the expansion of storing is obstructed by first feeding machine 1 is transported to the elevator belt discharging opening; then be transported to first jigging conveyer 2 that links to each other with first feeding machine 1; deliver to by first jigging conveyer in the tank of water tank type regaining moisture of cabo machine 3; circulating water flow in the tank will expand to obstruct and be transported to the lifting mesh bag; be transported on second jigging conveyer 4 by promoting mesh bag again; second jigging conveyer 4 with the material vibrating transportation in the cylinder of drum-type humidifying charging machine 5; by the cylinder that rotates material is delivered on the 3rd jigging conveyer 6; through the 3rd jigging conveyer to first ribbon conveyer 7; and then to adjusting microinching conveyer 9; material is delivered on the stone car to top storage cabinet 8 by the adjusting microinching conveyer; the stone car buffer memory in the cabinet that again material tiled; material is transported on the first two-way ribbon conveyer 10 and the second two-way ribbon conveyer 11 by the tail band of cabinet again; again material is transported on second ribbon conveyer 12 and the 3rd ribbon conveyer 13 respectively; this material is transported to again in the first spiral quantitative device 14 and the second spiral quantitative device 20; by screw mechanism in the spiral quantitative device with mass transport on four-tape formula conveyer 15 and the 5th ribbon conveyer 21; and then mass transport to the first is smashed comminutor 16 and second smash comminutor 22; be transported in first round the sieve 18 and second round sieve 24 that shakes that shakes through the 6th ribbon conveyer 17 and the 7th ribbon conveyer 23 after material is broken; two circles shake to sieve the material of smashing are sieved; the material that particle is big turns back in the first spiral quantitative device 14 and the second spiral quantitative device 20 through the 8th ribbon conveyer 19 and the 9th ribbon conveyer 25; again smash screening; suitable material then enters on the tenth ribbon conveyer 26 and the 11 ribbon conveyer 27 by the round discharging opening that shakes sieve; enter into the feed bin of second feeding machine 28 through the 11 ribbon conveyer 27; material is transported on the elevator belt of second feeding machine through the tail band of feed bin; enter into the 4th jigging conveyer 29 by elevator belt; material is transported in the cylinder of drum-type thin plate dryer 30 by the groove that shakes; the cylinder that rotates is with mass transport to the five jigging conveyers 31; material enters on the 12 ribbon conveyer 32 through the 5th jigging conveyer 31 then; be transported in the feed bin of the 3rd feeding machine 33 through the 12 ribbon conveyer 32 again; material is transported on the elevator belt of the 3rd feeding machine 33 through the tail band of feed bin; be transported in the quantity tube by elevator belt again; be transported on the cavity belt of microwave recovery device 34 from quantity tube at last; material enters into microwave cavity by the cavity belt; through behind the microwave action; be transported on the elevator belt of elevator 35 by the cavity belt again; by elevator belt with mass transport in pneumatic separator 36; material enters into the feed bin of the 4th feeding machine 39 by feeder 38 through air delivery pipe 37; material enters into the elevator belt of the 4th feeding machine 39 through the feed bin tail band; through quantity tube to electronic belt scale 40; material is transported on the sieve that shakes of vibrating screen classifier 41 through electronic belt scale again; the sieve that shakes will sieve suitable mass transport in drum-type Perfuming machine 42; material is transported on the 6th jigging conveyer 43 behind the moisture regain perfuming in the cylinder that rotates at last, finally obtains the finished particle stalk.
Claims (1)
1; a kind of granule peduncle production system; it is characterized in that: it comprises feeding machine; jigging conveyer; water tank type regaining moisture of cabo machine; drum-type humidifying charging machine; ribbon conveyer; to the top storage cabinet; the adjusting microinching conveyer; two-way ribbon conveyer; the spiral quantitative device; smash comminutor; the round sieve that shakes; drum-type thin plate dryer; the microwave recovery device; elevator; pneumatic separation device; air delivery pipe; feeder; electronic belt scale; vibrating screen classifier and drum-type Perfuming machine; be connected with the input of first jigging conveyer (2) on the output of described first feeding machine (1); be connected with the input of water tank type regaining moisture of cabo machine (3) on the output of first jigging conveyer (2); be connected with the input of second jigging conveyer (4) on the output of water tank type regaining moisture of cabo machine (3); be connected with the input of drum-type humidifying charging machine (5) on the output of second jigging conveyer (4); be connected with the input of the 3rd jigging conveyer (6) on the output of drum-type humidifying charging machine (5); be connected with the input of first ribbon conveyer (7) on the output of the 3rd jigging conveyer (6); be connected with the input of adjusting microinching conveyer (9) on the output of first ribbon conveyer (7); be connected with input on one output of adjusting microinching conveyer (9) to top storage cabinet (8); be connected with the first two-way ribbon conveyer (10) and the second two-way ribbon conveyer (11) on two outputs to top storage cabinet (8) respectively; be connected with the input of second ribbon conveyer (12) on one output of the first two-way ribbon conveyer (10) and the second two-way ribbon conveyer (11); be connected with the input of the first spiral quantitative device (14) on the output of second ribbon conveyer (12); be connected with the input of four-tape formula conveyer (15) on the output of the first spiral quantitative device (14); be connected with first on the output of four-tape formula conveyer (15) and smash the input of comminutor (16); first smashes the input that is connected with the 6th belt (17) conveyer on the output of comminutor (16); be connected with the input of first round sieve (18) that shake on the output of the 6th ribbon conveyer (17); be connected with the input of the 8th ribbon conveyer (19) on one output of the first round sieve (18) that shakes; be connected with the same input of the first spiral quantitative device (14) on the output of the 8th ribbon conveyer (19); be connected with the input of the 3rd ribbon conveyer (13) on another output of the described first two-way ribbon conveyer (10) and the second two-way ribbon conveyer (11); be connected with the input of the second spiral quantitative device (20) on the output of the 3rd ribbon conveyer (13); be connected with the input of the 5th ribbon conveyer (21) on the output of the second spiral quantitative device (20); be connected with second on the output of the 5th ribbon conveyer (21) and smash the input of comminutor (22); second smashes the input that is connected with the 7th ribbon conveyer (23) on the output of comminutor (22); be connected with the input of second round sieve (24) that shake on the output of the 7th ribbon conveyer (23); be connected with the input of the 9th ribbon conveyer (25) on the output of second round sieve (24) that shake; be connected with the same input of the second spiral quantitative device (20) on the output of the 9th ribbon conveyer (25); be connected with the input of the tenth ribbon conveyer (26) on another output of described first round the shake sieve (18) and the second round sieve (24) that shakes; be connected with the input of the 11 ribbon conveyer (27) on the output of the tenth ribbon conveyer (26); be connected with the input of second feeding machine (28) on the output of the 11 ribbon conveyer (27); be connected with the input of the 4th jigging conveyer (29) on the output of second feeding machine (28); be connected with the input of drum-type thin plate dryer (30) on the output of the 4th jigging conveyer (29); be connected with the input of the 5th jigging conveyer (31) on the output of drum-type thin plate dryer (30); be connected with the input of the 12 ribbon conveyer (32) on the output of the 5th jigging conveyer (31); be connected with the input of the 3rd feeding machine (33) on the output of the 12 ribbon conveyer (32); be connected with the input of microwave recovery device (34) on the output of the 3rd feeding machine (33); the output of microwave recovery device (34) is connected with the input of elevator (35); be connected with pneumatic separation device (36) on the output of elevator (35); be connected with the input of air delivery pipe (37) on the output of pneumatic separation device (36); be connected with the input of feeder (38) on the output of air delivery pipe (37); be connected with the input of the 4th feeding machine (39) on the output of feeder (38); be connected with the input of electronic belt scale (40) on the output of the 4th feeding machine (39); be connected with the input of vibrating screen classifier (41) on the output of electronic belt scale (40); be connected with the input of drum-type Perfuming machine (42) on the output of vibrating screen classifier (41), be connected with the input of the 6th jigging conveyer (43) on the output of drum-type Perfuming machine (42).
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CN200920093048U CN201375014Y (en) | 2009-02-20 | 2009-02-20 | Particle stalk production system |
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CN200920093048U CN201375014Y (en) | 2009-02-20 | 2009-02-20 | Particle stalk production system |
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CN200920093048U Expired - Lifetime CN201375014Y (en) | 2009-02-20 | 2009-02-20 | Particle stalk production system |
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RU2452344C1 (en) * | 2011-02-21 | 2012-06-10 | Олег Иванович Квасенков | Method for production of non-smoking products of rustic tobacco |
RU2452345C1 (en) * | 2011-02-21 | 2012-06-10 | Олег Иванович Квасенков | Method for production of non-smoking products of rustic tobacco |
RU2460418C1 (en) * | 2011-06-10 | 2012-09-10 | Олег Иванович Квасенков | Method for production of non-smoking products of tobacco (versions) |
CN103222672A (en) * | 2013-04-19 | 2013-07-31 | 江苏华正环保科技有限公司 | Process and device for recovering tobacco processing wastes |
CN103734903A (en) * | 2014-01-09 | 2014-04-23 | 云南烟草科学研究院 | Device for production line of microwave expansion tobacco stem |
CN104522865A (en) * | 2014-11-17 | 2015-04-22 | 河南中烟工业有限责任公司 | Process and device for tobacco shred structure on-line adjustment and control |
CN104522865B (en) * | 2014-11-17 | 2016-08-24 | 河南中烟工业有限责任公司 | The equipment that a kind of Cut tobacco regulates and controls online |
CN109619653A (en) * | 2018-11-28 | 2019-04-16 | 湖北中烟工业有限责任公司 | A kind of ramuscule tobacco leaf silk flexibility selection by winnowing processing unit (plant) and its processing technology |
CN109619653B (en) * | 2018-11-28 | 2021-10-22 | 湖北中烟工业有限责任公司 | Flexible winnowing processing device and processing technology for fine tobacco leaf shreds |
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