CN205038898U - Real device of instructing of modularization tobacco tobacco cutting production line - Google Patents

Abstract

The utility model discloses a real device of instructing of modularization tobacco tobacco cutting production line, include: a feeding mechanism for providing the material, the belt weigher mechanism of weighing that is used for weighing material weight, the belt weigher mechanism of weighing is connected with feeding mechanism's discharge gate, the scouring machine that shakes that is used for the bulk material constructs, and the scouring machine that shakes constructs to be connected with the discharge gate of the belt weigher mechanism of weighing, be used for mixtures's roller mechanism, the discharge gate that the scouring machine that shakes constructs is connected to roller mechanism's pan feeding mouth, be used for the stuff chest mechanism of branch material, stuff chest mechanism is connected with roller mechanism's discharge gate, the discharge gate of stuff chest mechanism passes through feed back transport mechanism and is connected with feeding mechanism's pan feeding mouth, control mechanism, control mechanism are connected with feeding mechanism, the belt weigher mechanism of weighing, the scouring machine structure that shakes, roller mechanism, stuff chest mechanism and feed back transport mechanism respectively. The utility model discloses the simulation has realized the process of pipe tobacco production, and the production line flow has been simplified to the method that adopts the circulation to set up, has reduced production line throwing training process's the consumption of materials.

Description

A kind of modularization tobacco cutting production line actual training device

Technical field

The utility model relates to technical field of electromechanical control, particularly a kind of modularization tobacco cutting production line actual training device.

Background technology

At present, tobacco business is in a product competition day by day fierce period, ensures that tobacco product quality stability is the important magic weapon of tobacco enterprise Foreign Competition.

Fiber tow production link is the bottleneck improving cigarette quality, increase productivity effect.Therefore, the quality of primary processing line directly affects the market competitiveness of tobacco productive corporation, and it is the essential condition ensureing that tobacco productive corporation is normally produced that primary processing line can normally run.Can primary processing line operate fast and efficiently, very important to tobacco productive corporation, maintenance electrician in fiber tow production is as the major maintenance person of equipment, the ability of its process complex fault is directly connected to the operational efficiency of production line, therefore cultivates that to make a high-quality maintenance troop most important.

Present stage is the most frequently used and effective training method gives training its plant maintenance personnel, but training process directly can not be carried out at manufacturing line, because the equipment on production line is costly, and can not directly as training equipment.Present stage, the training method for plant maintenance personnel mainly adopts computer mould to fit the mode of instruction, seldom in conjunction with actual primary processing line.

Therefore, how combining reality and give training plant maintenance personnel, is the current technical issues that need to address of those skilled in the art.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of modularization tobacco cutting production line actual training device, and this device can simulate the process that tobacco cutting is produced, for production line training on operation realizes the saving of resource.

For achieving the above object, the utility model provides following technical scheme:

A kind of modularization tobacco cutting production line actual training device, comprising:

For providing the feeding machanism of material;

For weighing the belt scale mechanism of weighing of described weight of material, described in belt scale mechanism of weighing be connected with the discharging opening of described feeding machanism;

For the groove mechanism that shakes of loose described material, described in the groove mechanism that shakes be connected with the discharging opening of described belt scale mechanism of weighing;

For mixing the cylinder mechanism of described material, the discharging opening of the groove mechanism that shakes described in the feeding mouth connection of described cylinder mechanism;

For the stuff chest mechanism of sub-material, described stuff chest mechanism is connected with the discharging opening of described cylinder mechanism; The discharging opening of described stuff chest mechanism is connected with the feeding mouth of described feeding machanism by feed back connecting gear;

Control gear, described control gear respectively with described feeding machanism, described in weigh belt scale mechanism, described in shake groove mechanism, described cylinder mechanism, described stuff chest mechanism and described feed back connecting gear be connected.

Preferably, also comprise the process control mechanism for carrying feed liquid in described cylinder mechanism, described process control mechanism is connected with described cylinder mechanism and described belt scale mechanism of weighing respectively, claims the weight of material in mechanism to carry feed liquid in described cylinder mechanism for belt of weighing described in basis.

Preferably, described cylinder mechanism horizontal tilt is arranged, and angle of inclination is 2 degree to 5 degree, and the feeding mouth of described cylinder mechanism is higher than the discharging opening of described cylinder mechanism.

Preferably, described stuff chest mechanism comprises:

Be arranged on two tracks on stuff chest, two described tracks be respectively arranged with dolly that be connected with described control gear, that can slide along described track;

The cloth driving of twocouese transmission, the two ends of described cloth driving lay respectively at the top of two described dollies, fall on described dolly with the material realized in the driving of described cloth.

Preferably, described stuff chest mechanism also comprises photoelectric sensor for responding to described dolly shift position and/or laser range finder.

Preferably, described feeding machanism is weighed between belt scale mechanism with described, is respectively connected by a belt mechanism of climbing between described cylinder mechanism with described stuff chest mechanism, described climbing belt mechanism is provided with the sensor for responding to material transmission speed, described sensor is connected with described control gear.

Preferably, described cylinder mechanism comprises inner core and is nested in the urceolus outside described inner core, is provided with backgauge sheet in described inner core.

Preferably, described cylinder mechanism also comprises the air compressor for discharging residual moisture content in described cylinder mechanism.

Preferably, belt scale mechanism of weighing described in comprises LOAD CELLS, below the castor of belt scale mechanism of weighing described in described LOAD CELLS is arranged on.

Preferably, also comprise the touch-screen for checking running status, described touch-screen is connected with described control gear.

Modularization tobacco cutting production line actual training device provided by the utility model comprises feeding machanism, belt scale mechanism of weighing, the groove mechanism that shakes, cylinder mechanism, stuff chest mechanism and feed back connecting gear, said apparatus connects successively, form a complete transmission loop, and be all connected with control gear, accept control realization transmission and the work of control gear.

This device is the production line of a closed loop, produces the material obtained and also will store as processing materials.Material is sent to the groove mechanism that shakes for material being carried out loose process by belt scale mechanism of weighing, and obtain the material disperseed, this material is transferred in cylinder mechanism, simulates the mixed process of material and feed liquid in cylinder mechanism; Then, then by material stored respectively by stuff chest mechanism; Finally, feeding machanism is sent back by feed back connecting gear.In the process, complete material metage, process that perfuming, choosing are deposited, substantially simulate the overall process that pipe tobacco is produced, and adopt the method be circularly set to simplify the flow process of production line, and decrease the consumption of materials of production line, achieve the emulation to pipe tobacco production run.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiment of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

Fig. 1 provides by the utility model the structural representation of modularization tobacco cutting production line actual training device specific embodiment;

Fig. 2 is provided workstation structural representation in modularization tobacco cutting production line actual training device specific embodiment by the utility model;

Fig. 3 provides by the utility model the structural representation of feeding machanism in modularization tobacco cutting production line actual training device specific embodiment;

Fig. 4 provides by the utility model in modularization tobacco cutting production line actual training device specific embodiment the structural representation of belt mechanism of climbing;

Fig. 5 provides by the utility model in modularization tobacco cutting production line actual training device specific embodiment the structural representation of belt scale mechanism of weighing;

Fig. 6 provides by the utility model in modularization tobacco cutting production line actual training device specific embodiment the structural representation of the groove mechanism that shakes;

Fig. 7 provides by the utility model the structural representation of modularization tobacco cutting production line actual training device specific embodiment intermediate roll mechanism;

Fig. 8 provides by the utility model the structural representation of stuff chest mechanism in modularization tobacco cutting production line actual training device specific embodiment;

Fig. 9 provides by the utility model the hardware net structural topology figure of modularization tobacco cutting production line actual training device specific embodiment;

Figure 10 provides by the utility model the process chart of modularization tobacco cutting production line actual training device specific embodiment.

In figure, 1 is monitoring station, and 2 is workstation, and 3 is feeding machanism, and 4 is climbing belt mechanism, and 5 for weighing belt scale mechanism, and 6 for shaking groove mechanism, and 7 is cylinder mechanism, and 8 is process control mechanism, and 9 is stuff chest mechanism, and 10 is feed back connecting gear;

31 is pedestal, and 32 is feed belt, and 33 is outer cover, and 34 is blanking baffle plate, and 35 is capacitance switch;

41 is aluminium section bar installing base frame, and 42 is climbing belt, and 43 is organic glass charging conduit, and 44 is blanking scraper plate, and 45 is correlation Fibre Optical Sensor;

51 claim conveyer for belt conveyer scale of weighing, and 52 is LOAD CELLS, and 53 claim base plate for belt conveyer scale of weighing, and 54 is arc blanking panel beating;

61 is the groove travelling belt that shakes, and 62 is oscillator fixed head, and 63 is oscillator, and 64 is the groove feeding plate that shakes;

71 is cylinder support seat, and 72 is mixing machine;

91 is aluminium section bar pedestal, and 92 is belt, and 93 is organic glass outer cover, and 94 is dolly, and 95 is track, and 96 is laser range finder, and 97 is photoelectric sensor.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Core of the present utility model is to provide a kind of modularization tobacco cutting production line actual training device, and this device can simulate the process that tobacco cutting is produced, for training realizes the saving of resource.

Please refer to Fig. 1 to Figure 10, Fig. 1 to Fig. 8 be respectively the utility model the structural representation of modularization tobacco cutting production line actual training device specific embodiment, workstation structural representation, feeding machanism structural representation, conveyer structural representation, weighting device structure schematic diagram, the groove mechanism structural representation that shakes, cylinder mechanism structural representation, stuff chest mechanism structure schematic diagram are provided; Fig. 9 provides by the utility model the hardware net structural topology figure of modularization tobacco cutting production line actual training device specific embodiment; Figure 10 provides by the utility model the process chart of modularization tobacco cutting production line actual training device specific embodiment.

A kind of modularization tobacco cutting production line actual training device provided by the utility model, hereinafter referred to as actual training device, mainly comprise: feeding machanism 3, belt scale mechanism 5 of weighing, the groove mechanism 6 that shakes, cylinder mechanism 7, stuff chest mechanism 9, feed back transport sector 10 and control gear.

Control gear in said apparatus is arranged in the monitoring station 1 of Fig. 1, all the other mechanisms are all arranged in workstation 2, it is envisioned that monitoring station 1 and workstation 2 can be two devices separately, connected by data-interface therebetween or electric signal connection, also can be structure as a whole.

Above-mentioned feeding machanism 3 is for providing material to be processed for production line, and as storing the memory storage of the material that throwing obtains, due to the actual training device that this device is for training production line operation, so in order to save the raw-material use of material, end to end by production line, namely the feeding machanism 3 of material to be processed is provided to have discharging opening and feeding mouth, discharging opening is connected with belt scale mechanism 5 of weighing, send material to belt scale mechanism 5 of weighing, and feeding mouth is connected with feed back transport sector 10, can realize receiving the processing materials on feed back transport sector 10.

Belt scale mechanism 5 of weighing is the common belt transport structure with function of weighing, is provided with weighing machine or sensor in this belt scale mechanism 5 of weighing.The discharging opening of belt mechanism of weighing 5 connects the feeding mouth of the groove mechanism 6 that shakes, shake groove mechanism 6 for having the connecting gear of oscillator 63, material shaking, groove mechanism 6 is realized the dispersion of material by the oscillation action of oscillator 63, monoblock material or the material dispersion with certain contracted structure are come.Shake groove mechanism 6 outlet connect for by material and feed liquid mixing cylinder mechanism 7, the discharging opening of cylinder mechanism 7 connects the feeding mouth for the stuff chest mechanism 9 of depositing that divided into groups by material, and the discharging opening of stuff chest mechanism 9 is connected with the feeding mouth of feeding machanism 3 by feed back connecting gear 10.

Also comprise control gear in actual training device, control gear is connected with above-mentioned feeding machanism 3, belt scale mechanism 5 of weighing, the groove mechanism 6 that shakes, cylinder mechanism 7, stuff chest mechanism 9 and feed back connecting gear 10 respectively, operates for controlling said mechanism.

Due to, this device is used as the use training to tobacco production line, is not to obtain the material machined, so feeding machanism 3 is as the storing mechanism of material, not only for production line is supplied raw materials, also storing producing the material obtained, conveniently again recycling.So this device is the production line of a closed loop, produces the material obtained and also will store as processing materials.

The operating process of this actual training device is: first, material is placed into by feeding machanism 3 weighs on belt scale mechanism 5, material sent to the groove mechanism 6 that shakes for material being carried out loose process by belt scale mechanism 5 of weighing, obtain the material disperseed, this material is transferred in cylinder mechanism 7, material mixes with feed liquid by cylinder mechanism 7, obtains the material of sprinkle feed liquid; Then, then by material stored respectively by stuff chest mechanism 9; Finally, feeding machanism 3 is sent back by feed back connecting gear 10.

In the process, simulation completes the process that the weighing of material, perfuming and choosing are deposited, and substantially simulates the overall process that pipe tobacco is produced, and adopts the method be circularly set to simplify the flow process of production line, and decrease the consumption of materials of production line, achieve the emulation to pipe tobacco manufacturing process.

Lower mask body introduces structure and the use of each mechanism.

In a specific embodiment provided by the utility model, feeding machanism 3 comprises pedestal 31, be arranged on feed belt 32 on pedestal 31 and outer cover 33, in output one end of feed belt 32, be provided with blanking baffle plate 34, for prevent material in transmittance process quick slant to belt scale mechanism 5 of weighing.Outer cover 33 is the shell of feeding machanism 3, outer cover 33 is also provided with several capacitance switchs 35 for measuring feeding structure 3 internal capacity, capacitance switch 35 is connected with control gear, by opening capacitance switch 35, namely can complete the setting of alarm set point, capacitance switch 35 is mainly arranged on upper limit position and the lower position of feeding machanism 3 material position.

Optionally, outer cover 33 can be organic glass outer cover.Organic glass outer cover person easy to use can check internal state.

In a specific embodiment provided by the utility model, belt scale mechanism 5 of weighing mainly comprises belt conveyer scale of weighing and claims conveyer 51, this belt conveyer scale of weighing claims conveyer 51 to be common conveyor-belt apparatus, and belt conveyer scale of weighing claims conveyer 51 to be connected to belt conveyer scale of weighing to claim on base plate 53.Claim conveyer 51 to be provided with the instrument that weight measured by weighing machine etc. at belt conveyer scale of weighing.

Optionally, in order to better detect the flow of material, belt scale mechanism 5 of weighing adopts the weight of material on the symmetrical heavy belt scale mechanism 5 of LOAD CELLS 52 to carry out check weighing, LOAD CELLS 52 is arranged on below the castor of belt scale mechanism 5 of weighing, and belt conveyer scale of weighing claims base plate 53 to be arranged on the below of LOAD CELLS 52.

Optionally, above-mentioned belt conveyer scale of weighing claims the feeding mouth of conveyer 51 or discharging opening can adopt arc blanking panel beating 54, for being connected with adjacent mechanism.

In a specific embodiment provided by the utility model, the groove mechanism 6 that shakes is for including the conveyor-belt apparatus of oscillator 63.Particularly, oscillator fixed head 62 being provided with oscillator 63, oscillator 63 is provided with the groove travelling belt 61 that shakes, the discharging opening of groove travelling belt 61 that shakes being provided with in order to ensure the groove feeding plate 64 that shakes that material normally transmits.

Cylinder mechanism 7 is tubular structure part, for realizing mixing of material and feed liquid, in a specific embodiment provided by the utility model, in order to realize the adequacy that material mixes with feed liquid in cylinder mechanism 7, cylinder support seat 71 is provided with the mixing machine 72 holding material and feed liquid, mixing machine 72 can be rotated, in order to realize the mixing of material and feed liquid by mechanically actuated or electric control operation.Mixing machine 72 can adopt pmma material, convenient operation conditions of observing in mixing machine 72.

Optionally, by being connected with mixing machine 72 with the belt of machine shaft web member, the rotation of mixing machine 72 is realized.Motor can be connected with control gear, realizes the control to mixing machine 72 rotational speed.Certainly, additive method also can be adopted to realize the rotation of mixing machine 72, and concrete set-up mode can adjust according to user demand.

In a specific embodiment provided by the utility model, carry smoothly in cylinder mechanism 7 for the ease of material, cylinder mechanism 7 horizontal tilt is arranged, and angle of inclination is 2 degree to 5 degree, the feeding mouth of cylinder mechanism 7, higher than the discharging opening of cylinder mechanism 7, is convenient to the conveying of material.

In a specific embodiment provided by the utility model, cylinder mechanism 7 comprises inner core and is nested in the urceolus outside inner core, due to provided by the utility model be a kind of actual training device, in order to avoid wasting raw material, in cylinder mechanism, do not make material and feed liquid mix really, here the mixing of just simulation, so cylinder mechanism 7 comprises the inner core for transmitting material and sprays the urceolus of feed liquid, therebetween be not communicated with, inner core and urceolus all adopt nylon material and the bushing assembling of organic glass, make inner core and urceolus in order to check internal operation situation from outside.

Optionally, when running to prevent cylinder mechanism 7, material flies out outside mixing machine 72, is provided with backgauge sheet in inner core.

In a specific embodiment provided by the utility model, be also provided with the process control mechanism 8 for carrying feed liquid in cylinder mechanism 7, process control mechanism 8 is connected with cylinder mechanism 7 and belt scale mechanism 5 of weighing respectively.Process control mechanism 8 is connected with cylinder mechanism 7 and is used for realizing feed liquid transmission and recovery, and be connected with belt scale mechanism 5 of weighing, for coordinating the weight of material on belt scale mechanism 5 of weighing, adjustment inputs weight or the ratio of feed liquid in cylinder mechanism 7, realizes the rational proportion of material and feed liquid and the saving of feed liquid.

Optionally, the pipeline of process control mechanism 8 is divided into for the material spray liquid pipeline to cylinder mechanism output feed liquid with by the feed liquid inner loop pipeline of feed liquid recovery, feed liquid is injected in the urceolus of cylinder mechanism from material spray liquid pipeline, mixed feed liquid flows back in the material liquid tank of process control mechanism 8 through corresponding feed liquid inner loop pipeline, to realize the object of feed liquid recycling.

In a specific embodiment provided by the utility model, stuff chest mechanism 9 comprises: be arranged on two tracks, 95, two tracks 95 on stuff chest and be respectively arranged with the dolly 94 slided along track 95 that can be connected with control gear; The cloth driving of twocouese transmission, the two ends of cloth driving lay respectively at the top of two dollies 94, fall on dolly 94 with the material realized in cloth driving.

The cloth driving of the twocouese transmission of above-mentioned stuff chest mechanism 9 is positioned at the below of the discharging opening of cylinder mechanism 7, may be used for material to be sent to different directions, comprises aluminium section bar pedestal 91, belt 92 and organic glass outer cover 93.Be provided with dolly 94 in the below at cloth driving two ends, two dollies 94 are separately positioned on respective track 95, and dolly 94 controls to move along respective track 95 by accepting control gear, and two tracks 95 are placed on belt 92 respectively.Carry out in the process of sub-material in cloth driving, material is placed on different dollies 94, and then to be put into by material by dolly 94 on the belt of below, achieves the object of dividing into groups to material, namely on production line material select cabinet function.

In a specific embodiment provided by the utility model, stuff chest mechanism 9 also comprises photoelectric sensor 97 for responding to dolly 94 shift position and/or laser range finder 96.

The distance that laser range finder 96 is back and forth walked for measuring driving, the put detection of photoelectric sensor 97 for driving a vehicle.The two is connected with control gear respectively, and the adjustment of scope of dolly 94 being driven a vehicle by the control realization of control gear.

On the basis of any one embodiment above-mentioned, feeding machanism 3 is connected by a belt mechanism 4 of climbing with weighing between belt scale mechanism 5, also be connected by a belt mechanism 4 of climbing between cylinder mechanism 7 with stuff chest mechanism 9, climbing belt mechanism 4 is provided with the sensor for responding to material transmission speed, this sensor is connected with control gear.

Particularly, above-mentioned climbing belt mechanism 4 comprises aluminium section bar installing base frame 41, the climbing belt 42 be arranged in aluminium section bar installing base frame 41, one end of climbing belt 42 is provided with charging conduit and blanking scraper plate 44, blanking scraper plate 44 is arranged on charging conduit, blanking scraper plate 44 is provided with correlation Fibre Optical Sensor 45, for detecting the blanking speed of climbing belt mechanism 4.

Optionally, correlation Fibre Optical Sensor 45 is connected with control device, or is connected with the regulation device of climbing belt mechanism 4 self, realizes the position regulating blanking scraper plate 44 according to the speed of charging conduit place discharging, in case feed blocking appears in falling stop hopper place.

Optionally, described charging conduit is organic glass charging conduit 43.

In a specific embodiment provided by the utility model, in order to prevent moisture entrapment in cylinder mechanism 7 in cylinder, cause the damage to equipment, cylinder mechanism 7 also comprises the air compressor for discharging residual moisture content in cylinder and pipeline.Optionally, this air compressor is peripheral apparatus, is arranged on the outside of cylinder mechanism 7.The space of cylinder mechanism 7 can be saved like this, expand the inner space of cylinder mechanism 7, material and feed liquid are fully mixed.

On the basis of above-mentioned any embodiment, control gear can for two PLC controlled by supervisory control comuter, and one of them is as sub-PLC, for controlling to weigh belt scale mechanism 5; Another is as main PLC, for controlling other electric mechanisms.

Optionally, main PLC, by Industrial Ethernet network connexon PLC, connects frequency converter, valve island, by the other-end mechanism in remote I/O model calling actual training device by Devicenet network.

In a specific embodiment provided by the utility model, also comprise the touch-screen for checking running status, touch-screen can be arranged on monitoring station 1, and touch-screen is connected with control gear.Touch-screen, as the display device of assembly line operation status, after being connected, can showing production line real-time running state by the mode such as data, chart, and control gear be carried out to the adjustment of steering order by touch-screen with control gear.

Optionally, the position that each mechanism in actual training device connects all can arrange sensor, can be pressure transducer or displacement transducer, for responding to material transferring situation on each drive disk assembly and mechanism's ruuning situation, sensor can be connected with control gear and touch-screen.

Optionally, in the basis of above-mentioned any embodiment, adopt belt transport mode to carry out material transmission between each mechanism, each mechanism itself also has transmission material ability.Such as, but in actual training device, additive method also can be adopted to carry out material transmission, the mechanical arm that use & Control mechanism connects, the control of the controlled mechanism of mechanical arm is transmitted the material between each mechanism.

The main composition mechanism of the modularization tobacco cutting production line actual training device provided except above-described embodiment and annexation, the structure of other each several parts of this device please refer to prior art, repeats no more herein.

In this instructions, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar portion mutually see.

Above modularization tobacco cutting production line actual training device provided by the utility model is described in detail.Apply specific case herein to set forth principle of the present utility model and embodiment, the explanation of above embodiment just understands method of the present utility model and core concept thereof for helping.Should be understood that; for those skilled in the art; under the prerequisite not departing from the utility model principle, can also carry out some improvement and modification to the utility model, these improve and modify and also fall in the protection domain of the utility model claim.

Claims (10)

1. a modularization tobacco cutting production line actual training device, is characterized in that, comprising:

For providing the feeding machanism (3) of material;

For weighing the belt scale mechanism of weighing (5) of described weight of material, described in belt scale mechanism (5) of weighing be connected with the discharging opening of described feeding machanism (3);

For the groove mechanism that shakes (6) of loose described material, described in the groove mechanism (6) that shakes be connected with the discharging opening of described belt scale mechanism of weighing (5);

For mixing the cylinder mechanism (7) of described material, the discharging opening of groove mechanism (6) that shake described in the feeding mouth connection of described cylinder mechanism (7);

For the stuff chest mechanism (9) of sub-material, described stuff chest mechanism (9) is connected with the discharging opening of described cylinder mechanism (7); The discharging opening of described stuff chest mechanism (9) is connected with the feeding mouth of described feeding machanism (3) by feed back connecting gear (10);

Control gear, described control gear respectively with described feeding machanism (3), described in weigh belt scale mechanism (5), described in shake groove mechanism (6), described cylinder mechanism (7), described stuff chest mechanism (9) and described feed back connecting gear (10) be connected.

2. modularization tobacco cutting production line actual training device according to claim 1, it is characterized in that, also comprise the process control mechanism (8) for conveying feed liquid in described cylinder mechanism (7), described process control mechanism (8) is connected with described cylinder mechanism (7) and described belt scale mechanism of weighing (5) respectively, claims the conveying feed liquid in described cylinder mechanism (7) of the weight of material in mechanism (5) for belt of weighing described in basis.

3. modularization tobacco cutting production line actual training device according to claim 2, it is characterized in that, described cylinder mechanism (7) horizontal tilt is arranged, angle of inclination is 2 degree to 5 degree, and the feeding mouth of described cylinder mechanism (7) is higher than the discharging opening of described cylinder mechanism (7).

4. modularization tobacco cutting production line actual training device according to claim 1, is characterized in that, described stuff chest mechanism (9) comprising:

Be arranged on two tracks (95) on stuff chest, two described tracks (95) be respectively arranged with dolly (94) that be connected with described control gear, that can slide along described track (95);

The cloth driving of twocouese transmission, the two ends of described cloth driving lay respectively at the top of two described dollies (94), fall on described dolly (94) with the material realized in the driving of described cloth.

5. modularization tobacco cutting production line actual training device according to claim 4, it is characterized in that, described stuff chest mechanism (9) also comprises photoelectric sensor (97) for responding to described dolly (94) shift position and/or laser range finder (96).

6. the modularization tobacco cutting production line actual training device according to claim 1 to 5 any one, it is characterized in that, respectively be connected by a belt mechanism (4) of climbing between described feeding machanism (3) with described belt scale mechanism of weighing (5), between described cylinder mechanism (7) with described stuff chest mechanism (9), described climbing belt mechanism (4) is provided with the sensor for responding to material transmission speed, described sensor is connected with described control gear.

7. modularization tobacco cutting production line actual training device according to claim 6, is characterized in that, described cylinder mechanism (7) comprises inner core and is nested in the urceolus outside described inner core, is provided with backgauge sheet in described inner core.

8. modularization tobacco cutting production line actual training device according to claim 7, is characterized in that, described cylinder mechanism (7) also comprises the air compressor for discharging residual moisture content in described cylinder mechanism (7).

9. modularization tobacco cutting production line actual training device according to claim 8, it is characterized in that, described belt scale mechanism of weighing (5) comprises LOAD CELLS, below the castor of belt scale mechanism (5) of weighing described in described LOAD CELLS is arranged on.

10. modularization tobacco cutting production line actual training device according to claim 9, it is characterized in that, also comprise the touch-screen for checking running status, described touch-screen is connected with described control gear.