CN217826710U - Silk production system - Google Patents

Silk production system Download PDF

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Publication number
CN217826710U
CN217826710U CN202221957044.XU CN202221957044U CN217826710U CN 217826710 U CN217826710 U CN 217826710U CN 202221957044 U CN202221957044 U CN 202221957044U CN 217826710 U CN217826710 U CN 217826710U
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production line
line
production
tobacco
located downstream
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钟蔚
李鹏超
林晖
焦跃层
董文亮
林孟琰
刘雅君
陈毅哲
陈佳旭
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Xiamen Tobacco Industry Co Ltd
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Xiamen Tobacco Industry Co Ltd
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Abstract

The utility model discloses a cut tobacco production system relates to tobacco industry cut tobacco technology production field. The silk production system comprises a first production line, a second production line, a third production line, a fourth production line and a fifth production line. The first production line comprises slicing equipment, loosening and moisture regaining equipment and impurity removing equipment; the slicing equipment is positioned at the upstream of the loosening and conditioning equipment, and the loosening and conditioning equipment is positioned at the upstream of the impurity removing equipment. The second production line is located downstream of the first production line. The third production line is arranged in parallel with the second production line and is also positioned at the downstream of the first production line. The fourth production line is located downstream of the third production line. The fifth production line and the fourth production line are arranged in parallel and are also positioned at the downstream of the third production line. According to the technical scheme, one or more production lines are started as required, so that the production load of each production line is balanced, and the utilization rate of each production line is more balanced.

Description

Silk making production system
Technical Field
The utility model relates to a tobacco industry throwing technology production field, concretely relates to throwing production system.
Background
Types of smoking articles include medium, fine, beaded, and the like. New varieties of smoking articles are also under constant development. The silk-making workshop is provided with three independent production lines to meet the processing requirements of the cigarettes.
The inventor finds that at least the following problems exist in the prior art: the three production lines have unbalanced production capacity, the processing line of the medium and thin branch products is overloaded due to the rapid development of the medium and thin branch products, and the production line of the mixed type products is high in vacancy rate due to market shrinkage. The capacity allocation of each product line is unbalanced.
SUMMERY OF THE UTILITY MODEL
The utility model provides a system silk production system.
The embodiment of the utility model provides a system silk production system, include:
the first production line comprises a slicing device, a loosening and moisture regaining device and an impurity removing device; the slicing equipment is positioned at the upstream of the loose moisture regaining equipment, and the loose moisture regaining equipment is positioned at the upstream of the impurity removing equipment;
a second production line downstream of the first production line;
a third production line arranged in parallel with the second production line and located downstream of the first production line;
a fourth production line located downstream of the third production line; and
and the fifth production line is arranged in parallel with the fourth production line and is also positioned at the downstream of the third production line.
In some embodiments, the second production line comprises:
a first dosing device located downstream of the first production line;
the screening feeding device is positioned at the downstream of the first quantitative feeding device;
a first leaf storage device located downstream of the screening and feeding device;
a tobacco sheet humidifying apparatus located downstream of the first leaf storage apparatus;
the first storage feeding device is positioned at the downstream of the tobacco sheet humidifying device; and
and the thin plate cut-tobacco drier is positioned at the downstream of the first storage feeding equipment.
In some embodiments, the second production line further comprises:
a first wire cutting machine; the number of the first storage feeding devices is two, and the first shredder is arranged between the two first storage feeding devices; and
a warming humidifier located downstream of the first cut-tobacco machine and upstream of the sheet-cut-tobacco machine.
In some embodiments, the second production line further comprises:
a first air classification device located downstream of the sheet tobacco dryer.
In some embodiments, the second production line further comprises:
and the filtering device is positioned at the downstream of the first winnowing device so as to remove the broken filaments with the sizes smaller than the set size.
In some embodiments, the second production line further comprises:
and the first boxing equipment is positioned at the downstream of the first air separation equipment and is used for boxing the cut tobacco subjected to air separation by the first air separation equipment.
In some embodiments, the third production line comprises:
a second leaf storage apparatus downstream of the first production line;
a leaf humidifying apparatus located downstream of the second leaf storage apparatus;
the second storage feeding equipment is positioned at the downstream of the blade humidifying equipment;
the second shredder is positioned at the downstream of the second storage feeding device; and
a cut tobacco charging device located downstream of the second shredder.
In some embodiments, the fourth production line comprises:
a warming and humidifying device located downstream of the third production line; and
and the thin plate cut tobacco drying equipment is positioned at the downstream of the warming and humidifying equipment.
In some embodiments, the fifth production line comprises:
the cut tobacco moisture regaining equipment is positioned at the downstream of the third production line; and
a cut leaf roasting device located downstream of the cut leaf conditioning device.
In some embodiments, the silk production system further comprises:
the second air separation equipment is positioned at the downstream of the thin plate cut tobacco drying equipment;
a silk storage device positioned at the downstream of the second air separation device; and
a second box packing apparatus downstream of the second air classification apparatus;
wherein the second air classification device is located downstream of the fourth production line and the fifth production line.
In some embodiments, the second production line and the third production line are alternatively in a working state, or are simultaneously in a working state.
In some embodiments, the fourth production line and the fifth production line are alternatively in a working state, or are simultaneously in a working state.
In some embodiments, the flow rate of the fourth line is greater than the flow rate of the fifth line.
In some embodiments, the silk production system comprises three product lines:
the first product line: the production line comprises the first production line and the second production line;
a second product line: the first production line, the third production line and the fourth production line are included;
a third product line: the production line comprises a first production line, a third production line and a fifth production line.
The shred production system provided by the technical scheme is used for meeting the rapid development requirements of new products such as medium-grade products, fine products, bead blasting products and the like in the industry, and can overcome the defects of the shred production line of a cigarette factory in the aspects of capacity balance utilization, production process quality guarantee, product processing quality improvement and the like. The first production line of the silk production system is used for feeding, and materials of all the production lines are from the first production line, so that the use efficiency of the feeding system is greatly improved, and the idle rate of the feeding system is reduced. And the second, fourth and fifth production lines work independently, one or more of the production lines can be started as required, the production load of each production line is balanced, and the utilization rate of each production line is more balanced. Therefore, the tobacco shred manufacturing production system is a system integrating various requirements of individualized processing of module tobacco shreds, independent processing of burley tobacco shreds, grouped production of formula modules, parallel processing of flue-cured tobacco type and mixed type products and the like, realizes key processing flows of intensive production of the module tobacco shreds, drying and flexible processing of tobacco shreds, application of various types of products and the like, and creates a product production line integrating complete processing functions, flexible processing paths, flexible production organization and outstanding process innovation.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:
fig. 1 is a schematic view of a principle of a silk production system provided by the embodiment of the utility model.
Fig. 2 is a schematic flow diagram of a third production line, a fourth production line and a fifth production line of the silk making production system provided by the embodiment of the utility model.
Fig. 3 is a schematic view of a part of the components of the silk production system according to an embodiment of the present invention.
Fig. 4 is a schematic flow chart of a silk production method provided by the embodiment of the present invention.
Reference numerals:
1. a first production line; 2. a second production line; 3. a third production line; 4. a fourth production line; 5. a fifth production line; 6. a second winnowing device; 7. a wire storage device; 8. a second boxing apparatus;
11. slicing equipment; 12. loosening and dampening equipment; 13. impurity removal equipment;
21. a first dosing device; 22. screening and feeding equipment; 23. a first leaf storage device; 24. a tobacco sheet humidifying device; 25. a first storage feeding device; 26. a sheet tobacco dryer; 27. a first wire cutting machine; 28. a heating humidifier; 29. a first winnowing device; 201. a filtration device; 202. a first boxing apparatus; 203. a temporary storage cabinet; 204. a perfuming device;
31. a second leaf storage device; 32. a blade humidifying device; 33. a second storage feeding device; 34. a second filament cutter; 35. cut tobacco charging equipment;
41. a warming and humidifying device; 42. sheet cut tobacco drying equipment;
51. leaf shred dampening equipment; 52. leaf shred baking equipment.
Detailed Description
The technical solution provided by the present invention will be explained in more detail with reference to fig. 1 to 4.
Referring to fig. 1, an embodiment of the present invention provides a silk production system, including first production line 1, second production line 2, third production line 3, fourth production line 4 and fifth production line 5.
The first production line 1 comprises a slicing device 11, a loosening and dampening device 12 and an impurity removing device 13; the slicing device 11 is located upstream of the bulk conditioning device 12, and the bulk conditioning device 12 is located upstream of the trash removal device 13. In some embodiments, the stock is prepared prior to use of the slicing apparatus 11, and the prepared stock is unpacked and then transported to the slicing apparatus 11. After the material is sliced, the material is quantitatively conveyed to the loosening and conditioning equipment 12 according to the required processing flow. The loosening and conditioning equipment 12 adopts the existing equipment. The loosening and conditioning equipment 12 is used for loosening and conditioning the cut tobacco. The loosened and remoistened materials are conveyed to the impurity removing equipment 13. The impurity removing device 13 specifically adopts devices such as hemp removing and photoelectric impurity removing. After the material passes through the impurity removing equipment 13, the purity is higher. And the materials after impurity removal enter a second production line 2 or a third production line 3. In some embodiments, the second production line 2 and the third production line 3 are alternatively in an operating state. The second production line 2 and the third production line 3 comprise different devices and have different material processing modes, so that the processing requirements of more types of products can be met.
Referring to fig. 1, a second production line 2 is located downstream of the first production line 1.
In some embodiments, the second manufacturing line 2 includes a first dosing device 21, a screen feeding device 22, a first leaf storage device 23, a tobacco sheet moistening device 24, a first storage feeding device 25, and a sheet tobacco dryer 26. The first quantitative feeding device 21 is positioned downstream of the first production line 1; the screening and feeding device 22 is positioned at the downstream of the first quantitative feeding device 21; the first leaf storage device 23 is located downstream of the screening and feeding device 22; the tobacco sheet humidifying equipment 24 is positioned at the downstream of the first tobacco storage equipment 23; the first storage feeding device 25 is positioned at the downstream of the tobacco sheet humidifying device 24; a sheet dryer 26 is located downstream of the first storage feed device 25.
The first quantitative feeding device 21 is positioned at the downstream of the impurity removing device 13, the devices processed by the first quantitative feeding device 21 enter the screening and feeding device 22 according to the required flow rate, and the materials processed by the screening and feeding device 22 enter the first leaf storage device 23 for storage. When the processing production is needed, the material in the first leaf storage device 23 is conveyed to a tobacco sheet humidifying device 24 to be humidified. The quality of shredding described later is related to the temperature of the material, and if the temperature is low, the material is easily shredded during shredding. The second production line 2 comprises a tobacco flake humidifying device 24, and the tobacco flake humidifying device 24 improves the temperature and humidity of tobacco leaves before shredding, facilitates shredding, reduces shredding and breakage and improves shredding quality. The warming and humidifying equipment 41 improves the temperature and humidity of the tobacco leaves before shredding and reduces shredding and crushing.
The first storage feeding equipment 25 improves the uniformity of the discharging of the feeding machine before cut tobacco drying, avoids the fluctuation of cut tobacco drying flow, improves the stability of the temperature and the humidity of cut tobacco before cut tobacco drying and improves the quality of cut tobacco drying.
The second production line 2 can meet the processing requirements of the module tobacco shreds. The second production line 2 establishes a flexible processing production line of the module cut tobacco integrating various modes such as shredding, feeding, cut tobacco baking, cut tobacco sheet drying and the like aiming at the processing requirements and quality characteristics of the module cut tobacco.
In some embodiments, the second line 2 further comprises a first shredder 27. The number of the first storage feeding devices 25 is two, and a first shredder 27 is arranged between the two first storage feeding devices 25.
The material before entering the sheet cut-tobacco drier 26 is cut into shreds by the first shred cutter 27 and then enters the sheet cut-tobacco drier 26 to be dried.
In other embodiments, the second line 2 further comprises a warming humidifier 28, the warming humidifier 28 being located upstream of the sheet dryer 26 and downstream of the first warehouse feed device 25. The warming humidifier 28 is also referred to as HT. HT is downstream of the first cutter 27 and upstream of the sheet dryer 26.
The material before entering the sheet cut-tobacco drier 26 is cut into threads by the first thread cutter 27, then enters the heating and humidifying machine 28 for heating and humidifying, and then enters the sheet cut-tobacco drier 26 for drying threads.
The temperature and humidity of the material processed by the heating and humidifying machine 28 are more controllable, and the parameter control requirement is more satisfied, and then the material enters the thin plate cut tobacco drying machine 26 for cut tobacco drying treatment. The material processed by the process flow has more accurate parameters and higher material processing quality.
Referring to fig. 1, in some embodiments, the second manufacturing line 2 further includes a first air classification apparatus 29, the first air classification apparatus 29 being located downstream of the sheet tobacco dryer 26.
The material processed by the sheet cut-tobacco drier 26 enters a first winnowing device 29 for winnowing, and the winnowing material enters a temporary storage cabinet for storage. When needed, the fragrance is delivered to home equipment in a flow-rate-fixed mode. The type of perfume added is determined according to the requirements of different products.
Referring to fig. 1, in some embodiments, the second manufacturing line 2 further comprises a filtering apparatus 201, the filtering apparatus 201 being located downstream of the first winnowing apparatus 29 to exclude shredded fibers having a size smaller than a set size.
The set size is, for example, 1mm to 2mm. The filtering device 201 is used to filter out shredded fibers having a size of less than 1.0 mm. The shredded tobacco with the size is very small in size and is not required as a material for processing.
In some embodiments, the second manufacturing line 2 further comprises a first boxing apparatus 202, and the first boxing apparatus 202 is located downstream of the first winnowing apparatus 29 to box the cut tobacco winnowing by the first winnowing apparatus 29.
The flavored materials are boxed in a first boxing apparatus 202. The first boxing apparatus 202 loads the flavored materials into the wooden boxes. The wooden case structure is firm, and intensity is high. At the material in the transportation, because the material adopts the wooden case storage, the difficult broken damage of wooden case has consequently promoted the quality of transportation.
With continued reference to fig. 1, a third line 3 is arranged in parallel with the second line 2, also downstream of the first line 1.
The second production line 2 and the third production line 3 are used for processing requirements of different products. The second production line 2 and the third production line 3 can be used simultaneously, that is, the material conveyed from the first production line 1 can be partially conveyed to the second production line 2, and the rest is conveyed to the third production line 3. Of course, one of the production lines may be selected for use depending on the production requirements of the respective products.
The fourth line 4 is located downstream of the third line 3. The fifth line 5 is arranged in parallel with the fourth line 4, also downstream of the third line 3.
In some embodiments, the third production line 3 includes a second leaf storage facility 31, a leaf humidifying facility 32, a second warehouse feeding facility 33, a second filament cutter 34, and a leaf shred feeding facility 35. The second leaf storage device 31 is located downstream of the first line 1; the blade moistening device 32 is located downstream of the second blade storage device 31. The second storage feeding device 33 is positioned at the downstream of the blade humidifying device 32; the second shredder 34 is located downstream of the second warehouse feeding device 33; a cut tobacco charging device 35 is located downstream of the second shredder 34.
The material passing through the first production line 1 can selectively enter the second production line 2 or the third production line 3. The third production line 3 is an earlier stage process of the fourth production line 4 and the fifth production line 5, and the material passing through the third production line 3 is not the material after final processing. The material passing through the third production line 3 enters at least one of the fourth production line 4 and the fifth production line 5.
The second leaf storage device 31 receives the material conveyed by the first production line 1. The second leaf storage device 31 temporarily stores the material processed by the first production line 1. Then the materials enter a blade humidifying device 32 for humidifying treatment, and the materials after humidifying treatment enter a second storage feeding device 33. The second storage feeding device 33 is identical to the first storage feeding device 25 described above, except for the mounting position. The first storage feeding equipment 25 and the second storage feeding equipment 33 both adopt storage feeding equipment, and compared with cabinet type feeding equipment, the discharging is more uniform.
The second storage feeding device 33 filters the materials which do not meet the size requirement, namely, the tobacco flakes with the size less than or equal to 2.0 mm. The second storage feeding device 33 conveys the materials meeting the size requirement to the second tobacco cutter 34 for shredding, and the shredded materials are quantitatively conveyed to the cut tobacco feeding device 35. Then the tobacco shreds are conveyed to a tobacco shred temporary storage device for temporarily storing the tobacco shreds.
And conveying the temporarily stored tobacco shreds to at least one of the fourth production line 4 and the fifth production line 5 according to the requirement. In some embodiments, the fourth production line 4 and the fifth production line 5 are alternatively in a working state; alternatively, both the fourth production line 4 and the fifth production line 5 are in operation.
Referring to fig. 1, in some embodiments, the fourth process line 4 includes a warming and moisturizing apparatus 41 and a sheet cut-tobacco apparatus 42. The warming and humidifying equipment 41 is positioned at the downstream of the third production line 3; a sheet tobacco dryer apparatus 42 is located downstream of the warming and moistening apparatus 41. The temperature-increasing and humidity-increasing equipment 41 increases the temperature and humidity of the tobacco leaves before cut tobacco drying and improves the cut tobacco drying quality.
The flow of the fourth line 4 is greater than the flow of the fifth line 5. In some embodiments, the fourth line 4 has a flow of 3000kg/h and the fifth line 5 has a flow of 1000kg/h.
The process flow of the fourth production line 4 is as follows: the material temporarily stored in the third production line 3 is quantitatively fed to the temperature-increasing and humidity-increasing device 41, and the material is subjected to temperature and humidity change by the temperature-increasing and humidity-increasing device 41 and then enters the sheet cut tobacco-drying device 42 for cut tobacco drying.
In some embodiments, the fifth production line 5 comprises a leaf shred conditioning device 51 and a leaf shred baking device 52, the leaf shred conditioning device 51 being located downstream of the third production line 3. The leaf shred baking apparatus 52 is located downstream of the leaf shred conditioning apparatus 51. The cut tobacco roasting apparatus 52 may specifically be a THT cut tobacco roasting apparatus. The THT cut tobacco drying equipment has complete functions and good cut tobacco drying effect.
The cut tobacco processed by the fourth production line 4 and the fifth production line 5 enters a second air separation device 6, a cut tobacco storage device 7 and a second boxing device 8 which are described later for boxing.
Specifically, in some embodiments, the silk production system further comprises a second air separation device 6, a silk storage device 7 and a second boxing device 8. The second air separation device 6 is positioned downstream of the sheet cut-tobacco drying device 42; the silk storage device 7 is positioned at the downstream of the second winnowing device 6; the second boxing apparatus 8 is located downstream of the second winnowing apparatus 6. Wherein the second winnowing device 6 is located downstream of the fourth production line 4 and the fifth production line 5.
The second winnowing device 6 and the first winnowing device 29 described above both use wind as the power for tobacco shred screening, and the two devices may have the same structure, but are installed at different positions. The sizes of the two are set according to the flow of the materials to be winnowed.
The silk storage device 7 is used for storing the materials winnowed by the second winnowing device 6, and then the materials enter the second boxing device 8 from the silk storage device 7 to be boxed.
The second boxing device 8 loads the materials subjected to air separation into the wooden box. The wooden case structure is firm, and intensity is high, and difficult broken damage has so promoted the quality of transportation.
The silk production system that above-mentioned technical scheme provided has three product lines, is respectively: 1, a first production line 1 and a second production line 2 form a complete product line A;2, the first production line 1, the third production line 3 and the fourth production line 4 form a complete product line B;3 the first production line 1, the third production line 3 and the fifth production line 5 form a complete product line C.
The silk production system provided by the above technical scheme can be summarized as a 'one-end three-body two-tail' production system, wherein the 'one-end' means that materials in a first production line 1 and materials in a subsequent second production line 2, a subsequent third production line 3, a subsequent fourth production line 4 and a subsequent fifth production line 5 all come from the first production line 1.
Referring to fig. 1, in some embodiments, the complete process flow for product line a is: preparing materials, preparing the materials to be processed, unpacking the materials, slicing the materials by a slicing device 11, then quantitatively conveying the materials to a loosening and moisture regaining device 12, and then removing impurities in the materials by an impurity removing device 13. The material is subsequently conveyed through the first dosing device 21 to the screen feeding device 22 and then stored by the first leaf storage device 23. Then the tobacco sheets are humidified by a tobacco sheet humidifying device 24, and then the tobacco sheets sequentially pass through a first storage feeding device 25, a first cut tobacco machine 27 and another first storage feeding device 25, and then are quantitatively conveyed to a heating humidifier (HT for short) 28, a thin plate cut tobacco machine 26 and a first air separation device 29, and then conveyed to a temporary storage cabinet 203, then are quantitatively conveyed to a perfuming device 204, and finally are conveyed to a first boxing device 202 for boxing.
The three-body is the product lines A, B and C. By "two tails" is meant that the material conveyed in product line a is eventually packed in the first packing apparatus 202 and the material conveyed in product lines B and C is eventually packed in the second packing apparatus 8.
Referring to fig. 1 and 2, in some embodiments, the complete process flow for product line B is: : preparing materials, preparing the materials to be processed, unpacking the materials, slicing the materials by a slicing device 11, then quantitatively conveying the materials to a loosening and moisture regaining device 12, and then removing impurities in the materials by an impurity removing device 13. The material sequentially passes through a second leaf storage device 31, a leaf humidifying device 32, a second storage feeding device 33 and a second tobacco cutter 34, then is quantitatively conveyed to a cut tobacco feeding device 35, and then cut tobacco is temporarily stored. The cut tobacco sequentially passes through a warming and humidifying device 41, a thin plate cut tobacco drying device 42, a second air separation device 6, a cut tobacco storage device 7 and a second box packing device 8.
With continued reference to fig. 1 and 2, in some embodiments, the complete process flow for product line C is: preparing materials, preparing the materials to be processed, unpacking the materials, slicing the materials by a slicing device 11, then quantitatively conveying the materials to a loosening and moisture regaining device 12, and then removing impurities in the materials by an impurity removing device 13. . The material sequentially passes through a second leaf storage device 31, a leaf humidifying device 32, a second storage feeding device 33 and a second tobacco cutter 34, then is quantitatively conveyed to a cut tobacco feeding device 35, and then cut tobacco is temporarily stored. The cut tobacco is then quantitatively delivered, sequentially passes through a cut tobacco dampening device 51, and then is quantitatively delivered to a cut tobacco baking device 52, a second air separation device 6, a cut tobacco storage device 7 and a second boxing device 8.
The embodiment of the utility model provides a system silk production system has three product lines of A, B, C, can realize global function, flexibility, intelligent production such as individualized processing of pipe tobacco, burley tobacco independent processing, the production of formula module group, flue-cured tobacco type and mixed type product parallel processing. Because the working states of the three product lines are not interfered with each other, one or more product lines can be selected to process materials according to needs, and the processing mode of one end and two bodies of the burley tobacco line can be met, and the processing mode of one end, three bodies and two tails of the blades can also be met.
The processing mode of one end and two bodies of the burley tobacco line means that module tobacco shreds are fed by the first production line 1 and the third production line 3 and then enter a burley tobacco production room for two-body production. A whole refers to the operations performed by the fifth production line 5: the burley tobacco lining machine adds water into the module tobacco shreds, and then the module tobacco shreds enter the THT burley tobacco baking machine for drying. Another refers to the operations performed by the fourth production line 4: the material is heated and humidified by a roller type heating and humidifying machine 28, and then enters a thin plate cut-tobacco drying machine 26 for drying. The parameter control of the heating and humidifying of the roller type heating and humidifying machine 28 is more accurate.
The burley tobacco line can produce module tobacco shreds, and adopts a mode of feeding tobacco shreds and baking thin sheet cut tobacco shreds and THT shreds in parallel. The cut tobacco moisture regaining device 51 is located at the upstream of the THT cut tobacco baking device 52, so that the product layout is optimized, the cut tobacco baking effect is improved, and the product processing quality is improved.
The blade 'one-head three-body two-tail' mode means that: the module tobacco shreds and the mixed type cigarettes are fed by the first production line 1 and then divided into two paths, wherein one path of the module tobacco shreds enters the second production line 2 for processing, and the other path of the module tobacco shreds enters the third production line 3 for processing. The material entering the second production line 2 is mixed cut tobacco production. The material entering the third production line 3 enters a burley tobacco production room to produce the module tobacco shreds.
The cut tobacco production system provided by the technical scheme adopts a mode of feeding cut tobacco and baking thin plate and THT cut tobacco in parallel. Through process upgrading, a product processing main line is run through and optimized, various functions such as individualized processing of module tobacco shreds, independent treatment of burley tobacco, grouped production of formula modules, parallel processing of flue-cured tobacco type and mixed type products and the like are realized, a shred production system is high in flexibility, a required product line can be selected as required, and the processing intelligence degree is high.
The embodiment of the utility model provides a still provide a system silk production method, adopt the utility model discloses the system silk production system that arbitrary technical scheme provided realizes. For the introduction of the silk production system, reference is made to the above description and no further details are given here.
In some embodiments, the silk production method comprises the steps of:
s100, selecting a product line of materials; wherein, system silk production system includes three product lines: the first product line comprises a first production line 1 and a second production line 2; the second product line comprises a first production line 1, a third production line 3 and a fourth production line 4; the third product line comprises a first production line 1, a third production line 3 and a fifth production line 5;
and S200, conveying the material to the selected product line for processing.
In some embodiments, the silk production method further comprises the steps of:
and S300, loading the processed material into a wooden box.
The shredded tobacco production method provided by the technical scheme has multiple selectable product lines, is high in production flexibility, realizes multiple functions of individualized processing of module shredded tobacco, independent processing of burley tobacco, grouped production of formula modules, parallel processing of flue-cured tobacco type and mixed type products and the like, and is high in processing intelligence degree.
In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the scope of the present invention.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: it is to be understood that modifications may be made to the above-described arrangements in the embodiments or equivalents may be substituted for some of the features of the embodiments, but such modifications or substitutions do not depart from the spirit and scope of the present invention.

Claims (14)

1. A wire manufacturing production system, comprising:
the first production line (1) comprises a slicing device (11), a loosening and moisture regaining device (12) and an impurity removing device (13); the slicing device (11) is positioned at the upstream of the loose moisture regaining device (12), and the loose moisture regaining device (12) is positioned at the upstream of the impurity removing device (13);
a second production line (2) located downstream of the first production line (1);
a third line (3) arranged in parallel with the second line (2) and also downstream of the first line (1);
a fourth line (4) downstream of the third line (3); and
a fifth production line (5), arranged in parallel with the fourth production line (4), also downstream of the third production line (3).
2. A wire production system according to claim 1, wherein the second production line (2) comprises:
-a first dosing device (21) downstream of said first line (1);
-a screening feeding device (22) downstream of said first dosing device (21);
a first leaf storage device (23) located downstream of the screening and feeding device (22);
a tobacco sheet moistening device (24) located downstream of the first leaf storage device (23);
a first storage feeding device (25) located downstream of the tobacco sheet humidifying device (24); and
a sheet tobacco dryer (26) located downstream of the first warehouse feeding device (25).
3. A wire production system according to claim 2, wherein the second production line (2) further comprises:
a first wire cutter (27); the number of the first storage feeding devices (25) is two, and the first shredder (27) is arranged between the two first storage feeding devices (25); and
a warming and humidifying machine (28) located downstream of the first cut-tobacco machine (27) and upstream of the sheet-cut-tobacco machine (26).
4. A wire production system according to claim 2, wherein the second production line (2) further comprises:
a first air classification device (29) located downstream of the sheet tobacco dryer (26).
5. A wire production system according to claim 4, wherein the second production line (2) further comprises:
a filtering device (201) located downstream of said first winnowing device (29) to exclude shredded fibers having a size smaller than a set size.
6. A wire production system according to claim 5, wherein the second production line (2) further comprises:
a first boxing apparatus (202) located downstream of the first winnowing apparatus (29) for boxing the shredded tobacco winnowing by the first winnowing apparatus (29).
7. A system according to claim 1, wherein the third line (3) comprises:
-a second leaf storage device (31) downstream of said first line (1);
a leaf humidifying device (32) located downstream of the second leaf storage device (31);
a second storage feeding device (33) located downstream of the blade humidifying device (32);
a second shredder (34) located downstream of the second storage feeding device (33); and
a cut tobacco charging device (35) located downstream of the second shredder (34).
8. A system according to claim 1, wherein said fourth production line (4) comprises:
a warming and humidifying device (41) located downstream of the third production line (3); and
a thin board cut-tobacco drying device (42) is positioned at the downstream of the warming and humidifying device (41).
9. A wire production system according to claim 1, wherein the fifth production line (5) comprises:
a cut tobacco conditioning device (51) located downstream of the third production line (3); and
a leaf shred baking device (52) located downstream of the leaf shred conditioning device (51).
10. The wire production system according to claim 1, further comprising:
a second air classification device (6) located downstream of the sheet cut tobacco drying device (42);
a silk storage device (7) positioned at the downstream of the second winnowing device (6); and
-a second boxing apparatus (8) located downstream of said second winnowing apparatus (6);
wherein the second winnowing device (6) is located downstream of the fourth production line (4) and the fifth production line (5).
11. A wire-making production system according to claim 1, wherein the second production line (2) and the third production line (3) are alternatively or simultaneously in an operating state.
12. A wire production system according to claim 1, wherein the fourth production line (4) and the fifth production line (5) are in operation alternatively or simultaneously.
13. A wire production system according to claim 1, wherein the flow rate of the fourth production line (4) is greater than the flow rate of the fifth production line (5).
14. The system of claim 1, comprising three product lines:
the first product line: comprises the first production line (1) and the second production line (2);
a second product line: comprises the first production line (1), the third production line (3) and the fourth production line (4);
a third product line: comprises the first production line (1), the third production line (3) and the fifth production line (5).
CN202221957044.XU 2022-07-27 2022-07-27 Silk production system Active CN217826710U (en)

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CN202221957044.XU CN217826710U (en) 2022-07-27 2022-07-27 Silk production system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202221957044.XU CN217826710U (en) 2022-07-27 2022-07-27 Silk production system

Publications (1)

Publication Number Publication Date
CN217826710U true CN217826710U (en) 2022-11-18

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Family Applications (1)

Application Number Title Priority Date Filing Date
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Country Link
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