CN219989598U - Boxing mechanism for rod-shaped materials - Google Patents

Abstract

The utility model discloses a boxing mechanism for rod-shaped materials, which comprises a base plate, a thrust mechanism, an incoming material conveying mechanism, a material box conveying mechanism, a baffle plate assembly and a driving unit, wherein the base plate is arranged on the base plate; wherein the pushing mechanism and the incoming material conveying mechanism are matched to form a rod-shaped material conveying line, and the material box conveying mechanism forms a material box conveying line; rod-shaped material transfer chain and magazine transfer chain are located same vertical plane, and rod-shaped material transfer chain is located magazine transfer chain position top, links up through baffle assembly's sliding plate between rod-shaped material transfer chain and the magazine transfer chain position. This boxing mechanism of bar-shaped material simple structure uses and maintains conveniently, forms bar-shaped material transfer chain through thrust mechanism and feed conveying mechanism cooperation to and the boxing that the magazine conveying mechanism constitutes the magazine transfer chain can realize bar-shaped material like the boxing of filter rod for cigarette, makes the material on the bar-shaped material transfer chain can be through the slip flitch landing to the magazine on the magazine transfer chain in, thereby replaces current acquisition and the higher sabot machine of cost of maintenance.

Description

Boxing mechanism for rod-shaped materials

Technical Field

The utility model relates to the field of mechanical equipment, in particular to a boxing mechanism for rod-shaped materials.

Background

A filter rod is an accessory for cigarettes or cigarettes and is generally composed of a plastic tube and a quantity of filter cotton. The filter stick of the cigarette holder has the function of filtering harmful substances in tobacco, so that smoking is healthier. Meanwhile, the cigarette holder filter stick can enable the smoke taste to be softer, reduce the burning speed of tobacco and prolong the smoking time. The cigarette holder filter stick can reduce the harm to the body, but the harm of smoking is still needed to be noted.

At present, in the filter rod production link, the filter rod produced by the forming machine firstly passes through the filter rod storage warehouse to reach the solidification time and then enters the cigarette production process through the transmitter, secondly is transported to the dense warehouse for storage after being palletized by the palletizer, and then enters the next process after being discharged from the dense warehouse and being palletized by the palletizer during use. The second mode can better meet the requirements of long curing time and flexible production scheduling, so that the mode is widely used. However, in the second mode, the filter rods must be boxed by adopting a tray loader in terms of hardware equipment, and the existing tray loader has a complex structure and very high purchase and maintenance costs, so that the investment cost of the system is high.

Disclosure of Invention

In order to solve the problems, the utility model provides a boxing mechanism for rod-shaped materials, which can replace the existing tray loader to realize the boxing function of filter sticks, and has the advantages of high efficiency, convenient use and maintenance and low cost.

The utility model adopts the technical scheme that:

the boxing mechanism for the rod-shaped materials comprises a base plate, a thrust mechanism, an incoming material conveying mechanism, a material box conveying mechanism, a baffle plate assembly and a driving unit;

the pushing mechanism, the feeding conveying mechanism and the material box conveying mechanism are all arranged on one side of the substrate, wherein the pushing mechanism and the feeding conveying mechanism are matched to form a rod-shaped material conveying line, and the material box conveying mechanism forms a material box conveying line;

the rod-shaped material conveying line and the material box conveying line are positioned on the same vertical plane, the rod-shaped material conveying line is positioned above the material box conveying line, and the rod-shaped material conveying line is connected with the material box conveying line through a sliding plate of the baffle assembly, so that materials on the rod-shaped material conveying line can slide into the material box on the material box conveying line through the sliding plate;

the driving unit is arranged on the other side of the substrate and is in transmission connection with the thrust mechanism, the feeding conveying mechanism and the material box conveying mechanism.

Further, the thrust mechanism and the feeding conveying mechanism are located on the same vertical plane and are arranged in parallel, the thrust mechanism and the feeding conveying mechanism are conveying mechanisms formed by matching belt wheels with conveying belts, and a channel through which rod-shaped materials can pass is formed between the thrust mechanism and the feeding conveying mechanism.

Further, the thrust mechanism comprises a first driving gear train, a first driven gear train, a transition gear train and a first conveying belt; the first driving gear train, the first driven gear train and the transition gear train are distributed in a triangle shape; the wheel shafts of the first driving wheel system, the first driven wheel system and the transition wheel system are rotatably arranged on the base plate through bearing blocks, and the wheel shaft of the first driving wheel system penetrates through the base plate to be in transmission connection with the driving unit; the first conveyer belt is installed between first driving gear train, first driven gear train and transition gear train.

Further, the feeding conveying mechanism comprises a second driving gear train, a second driven gear train and a second conveying belt; the second driving gear train and the second driven gear train are positioned at the same horizontal height, the wheel shafts of the second driving gear train and the second driven gear train are rotatably arranged on the base plate through bearing blocks, and the wheel shaft of the second driving gear train penetrates through the base plate to be in transmission connection with the driving unit; the second conveyer belt is installed between second driving gear train and second driven gear train, and the top surface of second conveyer belt is parallel to the bottom surface of first conveyer belt each other.

Further, the material box conveying mechanism is positioned below the feeding conveying mechanism, and the extension length of the material box conveying mechanism is longer than that of the pushing mechanism and the feeding conveying mechanism, and the material box conveying mechanism comprises a third driving gear train, a third driven gear train and a third conveying belt; the third driving gear train and the third driven gear train are positioned at the same horizontal height, wheel shafts of the third driving gear train and the third driven gear train are rotatably arranged on the base plate through bearing seats, and the wheel shaft of the third driving gear train penetrates through the base plate to be in transmission connection with the driving unit; the third conveyer belt is arranged between the driving gear train and the driven gear train.

Further, the baffle assembly comprises a back plate, a cover plate, a sliding plate, an auxiliary passing plate, a guide plate and a cover plate;

the back plate and the cover plate are arranged on two sides of the rod-shaped material conveying line, and are matched with the bottom surface of the first conveying belt and the top surface of the second conveying belt to form a conveying channel with the front end being a rod-shaped material outlet and the rear end being a rod-shaped material inlet;

the sliding plate and the auxiliary passing plate are arranged between the rod-shaped material conveying line and the material box conveying line, the high-point ends of the sliding plate and the auxiliary passing plate are respectively connected with the front ends of the second conveying belt and the first conveying belt, the low-point ends of the sliding plate and the auxiliary passing plate extend to the upper part of the third conveying belt, and rod-shaped materials on the rod-shaped material conveying line can slide to the material box conveying line through the sliding plate and the auxiliary passing plate;

the cover plate is arranged above the material box conveying line, and the rear end of the cover plate is connected with the auxiliary material passing plate; the guide plates are arranged on two sides of the third conveying belt and can assist in guiding the material box; the cover plate is matched with the top surface of the third conveying belt, and the guide plate forms a conveying channel with the front end being a material box outlet and the rear end being a material box inlet.

Further, the baffle assembly further comprises an auxiliary conveying plate which is arranged inside the thrust mechanism and the incoming material conveying mechanism and can support the first conveying belt and the first conveying belt.

Further, a plugboard which is bifurcated to two sides is formed at the low-point end of the sliding material plate, and the plugboard can extend to the inside of a material box on the material box conveying line; the material box on the material box conveying line is a box body with an opening at the top, and the box walls of the front end face and the rear end face of the material box are provided with openings matched with the plugboards.

Further, the driving unit comprises a first driving mechanism in transmission connection with the feeding conveying mechanism and the thrust mechanism and a second driving mechanism in transmission connection with the material box conveying mechanism;

the first driving mechanism comprises a first motor speed reducer, a transmission sprocket, a feeding conveying sprocket, a thrust sprocket and a chain, wherein the first motor speed reducer is fixedly arranged on a substrate through a mounting seat, the output end of the first motor speed reducer is provided with the first driving sprocket, the transmission sprocket is fixedly arranged on the substrate, the feeding conveying sprocket and the thrust sprocket are respectively arranged on wheel shafts of a first driving gear train and a second driving gear train, and the first driving sprocket, the transmission sprocket, the feeding conveying sprocket and the thrust sprocket are in transmission connection through the chain;

the second driving mechanism comprises a second motor speed reducer, a transmission sprocket, a material box conveying sprocket and a chain, the second motor speed reducer is fixedly arranged on the base plate through a mounting seat, the second driving sprocket is arranged at the output end of the second motor speed reducer, the transmission sprocket is fixedly arranged on the base plate, the material box conveying sprocket is arranged on a wheel shaft of a third driving wheel train wheel, and the second driving sprocket, the transmission sprocket and the material box conveying sprocket are in transmission connection through the chain.

Further, the boxing mechanism for the rod-shaped materials further comprises a controller, wherein the controller is respectively connected with the first motor speed reducer and the second motor speed reducer in a control manner; and the substrate and the material box are provided with reflective photoelectric sensors.

The beneficial effects of the utility model are as follows:

compared with a tray loader, the boxing mechanism for the rod-shaped materials is simple in structure and convenient to use and maintain; the rod-shaped material conveying line is formed by matching the pushing mechanism and the incoming material conveying mechanism, and the box-shaped material box conveying line is formed by the box conveying mechanism, so that the boxing of rod-shaped materials such as filter sticks for cigarettes can be realized, and the conventional tray loader with higher purchase and maintenance cost is replaced. The boxing mechanism for the rod-shaped materials is high in efficiency, flexible automatic boxing of the rod-shaped materials can be achieved, the boxing mechanism can be used for constructing a boxing system for the rod-shaped materials, and the intensive storage investment cost of the rod-shaped materials is reduced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a boxing mechanism for rod-shaped materials;

FIG. 2 is a schematic view of the rear end face structure of the boxing mechanism for rod-like materials in the present utility model;

FIG. 3 is a top view showing the overall structure of the boxing mechanism for rod-like materials in accordance with the present utility model;

in fig. 1-3, 1-base plate, 2-rod material conveyor line, 3-magazine conveyor line, 4-filter rod, 5-magazine, 6-first driving train, 7-first driven train, 8-transition train, 9-first conveyor belt, 10-second driving train, 11-second driven train, 12-second conveyor belt, 13-third driving train, 14-third driven train, 15-third conveyor belt, 16-back plate, 17-cover plate, 18-slide plate, 19-auxiliary passing plate, 20-guide plate, 21-cover plate, 22-auxiliary conveyor plate, 23-insert plate, 24-opening, 25-first motor reducer, 26-first driving sprocket, 27-driving sprocket, 28-feeding conveyor sprocket, 29-thrust sprocket, 30-chain, 31-second motor reducer, 32-second driving sprocket, 33-driving sprocket, 34-magazine conveyor sprocket, 35-chain.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without any inventive effort, are intended to be within the scope of the utility model.

To current sabot machine structure complicacy, acquisition and cost of maintenance higher problem, this embodiment provides a boxing mechanism of bar-shaped material, can replace current sabot machine through the boxing mechanism of this bar-shaped material, realizes the boxing function of filter rod, and this boxing mechanism of bar-shaped material is efficient, uses and maintains conveniently, low cost.

Specifically, as shown in fig. 1, the boxing mechanism for the rod-shaped materials comprises a base plate 1, a thrust mechanism, an incoming material conveying mechanism, a material box conveying mechanism, a baffle plate assembly and a driving unit. Wherein, thrust mechanism, feed conveying mechanism and magazine conveying mechanism all install in one side of base plate 1, and wherein thrust mechanism and feed conveying mechanism cooperation constitute bar-shaped material transfer chain 2, and magazine conveying mechanism constitutes magazine transfer chain 3. The rod-shaped material conveying line 2 and the material box conveying line 3 are located on the same vertical plane, the rod-shaped material conveying line 2 is located above the material box conveying line 3, the rod-shaped material conveying line 2 is connected with the material box conveying line 3 through a sliding plate 18 of a baffle assembly, the filter rod 4 is conveyed by the rod-shaped material conveying line 2, the material box 5 is conveyed by the material box conveying line 3, and the filter rod 4 on the rod-shaped material conveying line 2 can slide into the material box 5 on the material box conveying line 3 through the sliding plate 18, so that the boxing function of the filter rod 4 is realized. The driving unit is arranged on the other side of the base plate 1 and is in transmission connection with the pushing mechanism, the feeding conveying mechanism and the material box conveying mechanism.

The specific structures of the thrust mechanism, the feed conveying mechanism, the magazine conveying mechanism, the baffle plate assembly and the driving unit are also provided in the embodiment, as shown in fig. 1-3:

thrust mechanism and incoming material conveying mechanism:

the pushing mechanism and the feeding conveying mechanism are positioned on the same vertical plane and are arranged in parallel, the pushing mechanism and the feeding conveying mechanism are all conveying mechanisms formed by matching belt wheels with a conveying belt, and a channel through which rod-shaped materials can pass is formed between the pushing mechanism and the feeding conveying mechanism.

The thrust mechanism comprises a first driving gear train 6, a first driven gear train 7, a transition gear train 8 and a first conveying belt 9. The first driving gear train 6, the first driven gear train 7 and the transition gear train 8 are arranged in a triangle; the wheel shafts of the first driving wheel system 6, the first driven wheel system 7 and the transition wheel system 8 are rotatably arranged on the base plate 1 through bearing seats, and the wheel shaft of the first driving wheel system 6 penetrates through the base plate 1 to be in transmission connection with the driving unit. The first conveyor belt 9 is mounted between the first driving train 6, the first driven train 7 and the transition train 8. The feed conveying mechanism comprises a second driving gear train 10, a second driven gear train 11 and a second conveying belt 12. The second driving gear train 10 and the second driven gear train 11 are positioned at the same horizontal height, the wheel shafts of the second driving gear train 10 and the second driven gear train 11 are rotatably arranged on the base plate 1 through bearing seats, and the wheel shaft of the second driving gear train 10 penetrates through the base plate 1 to be in transmission connection with a driving unit. The second conveyor belt 12 is installed between the second driving gear train 10 and the second driven gear train 11, and the top surface of the second conveyor belt 12 is parallel to the bottom surface of the first conveyor belt 9.

Magazine conveying mechanism:

the magazine conveying mechanism is located below the feeding conveying mechanism, and the extension length of the magazine conveying mechanism is larger than that of the pushing mechanism and the feeding conveying mechanism, and the magazine conveying mechanism comprises a third driving gear train 13, a third driven gear train 14 and a third conveying belt 15. The third driving gear train 13 and the third driven gear train 14 are positioned at the same horizontal height, the wheel shafts of the third driving gear train 13 and the third driven gear train 14 are rotatably arranged on the base plate 1 through bearing seats, and the wheel shaft of the third driving gear train 13 penetrates through the base plate 1 to be in transmission connection with a driving unit. The third conveyor belt 15 is mounted between the driving train and the driven train.

Baffle assembly:

the baffle assembly includes a back plate 16, a cover plate 17, a slide plate 18, an auxiliary pass plate 19, a guide plate 20, and a cover plate 21. Wherein, the back plate 16 and the cover plate 17 are arranged at two sides of the rod-shaped material conveying line 2, the back plate 16 can be directly arranged on the base plate 1, and the cover plate 17 can be arranged on the material sliding plate 18 or the base plate 1 so as to fix the position; the back plate 16 and the cover plate 17 are matched with the bottom surface of the first conveyer belt 9 and the top surface of the second conveyer belt 12 to form a conveyer passage with a front end being a rod-shaped material outlet and a rear end being a rod-shaped material inlet. The sliding plate 18 and the auxiliary passing material are arranged between the rod-shaped material conveying line 2 and the material box conveying line 3, and the sliding plate 18 and the auxiliary passing material plate 19 can be directly arranged on the base plate 1; the high point ends of the sliding plate 18 and the auxiliary passing plate 19 are respectively connected with the front ends of the second conveying belt 12 and the first conveying belt 9, the low point ends of the sliding plate 18 and the auxiliary passing plate 19 extend to the upper side of the third conveying belt 15, and rod-shaped materials on the rod-shaped material conveying line 2 can slide down to the material box conveying line 3 through the sliding plate 18 and the auxiliary passing plate 19. The cover plate 21 is arranged above the material box conveying line 3, the rear end of the cover plate 21 is connected with the auxiliary material passing plate 19, and the cover plate 21 can be directly arranged on the base plate 1; the guide plates 20 are arranged on two sides of the third conveying belt 15, and the guide plates 20 can be directly arranged on the base plate 1 and can assist in guiding the material box 5; the cover plate 21 cooperates with the top surface of the third conveyor belt 15 and the guide plate 20 to form a conveying channel with the front end being the outlet of the magazine conveying line 3 and the rear end being the inlet of the magazine conveying line 3.

A driving unit:

the driving unit comprises a first driving mechanism in transmission connection with the feeding conveying mechanism and the pushing mechanism and a second driving mechanism in transmission connection with the material box conveying mechanism. The first driving mechanism comprises a first motor reducer 25, a driving sprocket 27, a feeding conveying sprocket 28, a thrust sprocket 29 and a chain 30, wherein the first motor reducer 25 is fixedly arranged on the base plate 1 through a mounting seat, the output end of the first motor reducer 25 is provided with a first driving sprocket 26, the driving sprocket 27 is fixedly arranged on the base plate 1, the feeding conveying sprocket 28 and the thrust sprocket 29 are respectively arranged on wheel shafts of the first driving gear train 6 and the second driving gear train 10, and the first driving sprocket 26, the driving sprocket 27, the feeding conveying sprocket 28 and the thrust sprocket 29 are in transmission connection through the chain 30. The second driving mechanism comprises a second motor speed reducer 31, a transmission chain wheel 33, a material box conveying chain wheel 34 and a chain 35, wherein the second motor speed reducer 31 is fixedly arranged on the base plate 1 through a mounting seat, the second driving chain wheel 32 is arranged at the output end of the second motor speed reducer 31, the transmission chain wheel 33 is fixedly arranged on the base plate 1, the material box conveying chain wheel 34 is arranged on a wheel shaft of the third driving gear train 13, and the second driving chain wheel 32, the transmission chain wheel 33 and the material box conveying chain wheel 34 are in transmission connection through the chain 35.

The working principle of the boxing mechanism for the rod-shaped materials is as follows:

firstly, a second motor speed reducer 31 is started, and the second motor speed reducer 31 drives a third driving gear train 13 of a material box conveying mechanism to rotate through a second driving chain wheel 32, a driving chain wheel 33, a material box conveying chain wheel 34 and a chain 35; the third driving gear train 13 rotates and simultaneously drives the third conveyer belt 15 to anticlockwise operate through the third driven gear train 14; the material box 5 is placed on the third conveying belt 15 from the inlet of the rear end of the material box conveying line 3, and the second motor speed reducer 31 is stopped after the tail of the material box 5 moves to the position below the material sliding plate 18.

Then, starting a first motor reducer 25, wherein the first motor reducer 25 drives a first driving gear train 6 of a thrust mechanism and a second driving gear train 10 of the feed conveying mechanism to synchronously rotate through a first driving sprocket 26, a driving sprocket 27, a feed conveying sprocket 28, a thrust sprocket 29 and a chain 30; the first driving gear train 6 rotates and simultaneously drives the first conveyer belt 9 to run clockwise through the first driven gear train 7 and the transition gear train 8, and the second driving gear train 10 rotates and simultaneously drives the second conveyer belt 12 to run anticlockwise through the second driven gear train 11; the filter rods 4 are put in batches from the inlets at the rear ends of the rod-shaped material conveying lines 2, and under the action of the first conveying belt 9 and the second conveying belt 12, the filter rods 4 are conveyed to the positions of the sliding plate 18 and the auxiliary passing plate 19 forwards and slide into the material boxes 5 on the material box conveying lines 3 from the sliding plate 18 under the action of gravity.

After the cartridge 5 is filled with the filter rod 4, the first motor reducer 25 is stopped, the second motor reducer 31 is started, the cartridge conveyor line 3 is operated, the subsequent empty cartridge 5 on the cartridge conveyor line 3 is moved forward to the position below the slide plate 18, and the above steps are repeated to continue the boxing of the filter rod 4.

Further, as a preferable technical solution of the present embodiment, in order to ensure stable operation of the first conveyor belt 9 and the second conveyor belt 12, deformation is not generated due to the influence of the weight of the rod-shaped material, as shown in fig. 1, in this embodiment, the baffle assembly further includes an auxiliary conveying plate 22 disposed inside the pushing mechanism and the feeding conveying mechanism, and capable of supporting the first conveyor belt 9 and the first conveyor belt 9.

Further, as a preferable technical solution of the present embodiment, in order to enable the rod-shaped materials entering the material box 5 to be stacked neatly, as shown in fig. 2 and 3, in the present embodiment, the lower point end of the material plate is designed to form a plugboard 23 bifurcated to two sides, and meanwhile, the material box 5 on the material box conveying line 3 is designed to be a box body with an open top, and the box walls on the front and rear end surfaces thereof are provided with openings 24 matching with the plugboard 23; the design makes the low point end of the sliding plate 18 extend to the bottom in the material box 5, ensures that the bar-shaped materials can be piled neatly, and meanwhile, the sliding plate 18 can not influence the movement of the material box 5.

In addition, in order to enable the boxing mechanism of the rod-shaped materials to meet flexible automatic boxing of the rod-shaped materials, intelligent control is achieved. The boxing mechanism for the rod-shaped materials can be additionally provided with a controller, such as: the Siemens 6ES7517-3AP00-0AB0 PLC programmable controller is respectively connected with the first motor reducer 25 and the second motor reducer 31 in a control manner and is used for controlling the start and stop of the first motor reducer 25 and the second motor reducer 31; by mounting reflective photosensors on the substrate 1 and the cartridge 5 at the same time, such as: the OMRON E3T-FL21 ultra-thin photoelectric sensor detects the in-place signal of the material box 5 on the material box conveying line 3 through the reflection type photoelectric sensor, so that the material box can accurately stay below the sliding plate 18.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. Boxing mechanism for rod-shaped materials, and is characterized in that: the boxing mechanism for the rod-shaped materials comprises a base plate, a thrust mechanism, an incoming material conveying mechanism, a material box conveying mechanism, a baffle plate assembly and a driving unit;

the pushing mechanism, the feeding conveying mechanism and the material box conveying mechanism are all arranged on one side of the substrate, wherein the pushing mechanism and the feeding conveying mechanism are matched to form a rod-shaped material conveying line, and the material box conveying mechanism forms a material box conveying line;

the rod-shaped material conveying line and the material box conveying line are positioned on the same vertical plane, the rod-shaped material conveying line is positioned above the material box conveying line, and the rod-shaped material conveying line is connected with the material box conveying line through a sliding plate of the baffle assembly, so that materials on the rod-shaped material conveying line can slide into the material box on the material box conveying line through the sliding plate;

the driving unit is arranged on the other side of the substrate and is in transmission connection with the thrust mechanism, the feeding conveying mechanism and the material box conveying mechanism.

2. The cartoning mechanism of rod-like materials of claim 1, wherein: the pushing mechanism and the feeding conveying mechanism are located on the same vertical plane and are arranged in parallel, the pushing mechanism and the feeding conveying mechanism are conveying mechanisms formed by matching belt wheels with conveying belts, and a channel through which rod-shaped materials can pass is formed between the pushing mechanism and the feeding conveying mechanism.

3. The cartoning mechanism of rod-like materials of claim 2, wherein: the thrust mechanism comprises a first driving gear train, a first driven gear train, a transition gear train and a first conveying belt; the first driving gear train, the first driven gear train and the transition gear train are distributed in a triangle shape; the wheel shafts of the first driving wheel system, the first driven wheel system and the transition wheel system are rotatably arranged on the base plate through bearing blocks, and the wheel shaft of the first driving wheel system penetrates through the base plate to be in transmission connection with the driving unit; the first conveyer belt is installed between first driving gear train, first driven gear train and transition gear train.

4. The cartoning mechanism of rod-like materials of claim 2, wherein: the feeding conveying mechanism comprises a second driving gear train, a second driven gear train and a second conveying belt; the second driving gear train and the second driven gear train are positioned at the same horizontal height, the wheel shafts of the second driving gear train and the second driven gear train are rotatably arranged on the base plate through bearing blocks, and the wheel shaft of the second driving gear train penetrates through the base plate to be in transmission connection with the driving unit; the second conveyer belt is installed between second driving gear train and second driven gear train, and the top surface of second conveyer belt is parallel to the bottom surface of first conveyer belt each other.

5. The cartoning mechanism of rod-like materials of claim 4, wherein: the feed box conveying mechanism is positioned below the feed conveying mechanism, and the extension length of the feed box conveying mechanism is longer than that of the thrust mechanism and the feed conveying mechanism, and the feed box conveying mechanism comprises a third driving gear train, a third driven gear train and a third conveying belt; the third driving gear train and the third driven gear train are positioned at the same horizontal height, wheel shafts of the third driving gear train and the third driven gear train are rotatably arranged on the base plate through bearing seats, and the wheel shaft of the third driving gear train penetrates through the base plate to be in transmission connection with the driving unit; the third conveyer belt is arranged between the driving gear train and the driven gear train.

6. The cartoning mechanism of rod-like materials of claim 5, wherein: the baffle plate assembly comprises a back plate, a cover plate, a sliding plate, an auxiliary passing plate, a guide plate and a cover plate;

the back plate and the cover plate are arranged on two sides of the rod-shaped material conveying line, and are matched with the bottom surface of the first conveying belt and the top surface of the second conveying belt to form a conveying channel with the front end being a rod-shaped material outlet and the rear end being a rod-shaped material inlet;

the sliding plate and the auxiliary passing plate are arranged between the rod-shaped material conveying line and the material box conveying line, the high-point ends of the sliding plate and the auxiliary passing plate are respectively connected with the front ends of the second conveying belt and the first conveying belt, the low-point ends of the sliding plate and the auxiliary passing plate extend to the upper part of the third conveying belt, and rod-shaped materials on the rod-shaped material conveying line can slide to the material box conveying line through the sliding plate and the auxiliary passing plate;

the cover plate is arranged above the material box conveying line, and the rear end of the cover plate is connected with the auxiliary material passing plate; the guide plates are arranged on two sides of the third conveying belt and can assist in guiding the material box; the cover plate is matched with the top surface of the third conveying belt, and the guide plate forms a conveying channel with the front end being a material box outlet and the rear end being a material box inlet.

7. The cartoning mechanism of rod-like materials of claim 6, wherein: the baffle assembly further comprises an auxiliary conveying plate which is arranged inside the thrust mechanism and the incoming material conveying mechanism and can support the first conveying belt and the first conveying belt.

8. The cartoning mechanism of rod-like materials of claim 6, wherein: the lower point end of the sliding material plate is provided with a plugboard which is bifurcated to two sides, and the plugboard can extend into a material box on the material box conveying line; the material box on the material box conveying line is a box body with an opening at the top, and the box walls of the front end face and the rear end face of the material box are provided with openings matched with the plugboards.

9. The cartoning mechanism of rod-like materials of claim 5, wherein: the driving unit comprises a first driving mechanism in transmission connection with the feeding conveying mechanism and the thrust mechanism and a second driving mechanism in transmission connection with the material box conveying mechanism;

the first driving mechanism comprises a first motor speed reducer, a transmission sprocket, a feeding conveying sprocket, a thrust sprocket and a chain, wherein the first motor speed reducer is fixedly arranged on a substrate through a mounting seat, the output end of the first motor speed reducer is provided with the first driving sprocket, the transmission sprocket is fixedly arranged on the substrate, the feeding conveying sprocket and the thrust sprocket are respectively arranged on wheel shafts of a first driving gear train and a second driving gear train, and the first driving sprocket, the transmission sprocket, the feeding conveying sprocket and the thrust sprocket are in transmission connection through the chain;

the second driving mechanism comprises a second motor speed reducer, a transmission sprocket, a material box conveying sprocket and a chain, the second motor speed reducer is fixedly arranged on the base plate through a mounting seat, the second driving sprocket is arranged at the output end of the second motor speed reducer, the transmission sprocket is fixedly arranged on the base plate, the material box conveying sprocket is arranged on a wheel shaft of a third driving wheel train wheel, and the second driving sprocket, the transmission sprocket and the material box conveying sprocket are in transmission connection through the chain.

10. The cartoning mechanism of rod-like materials of claim 9, wherein: the boxing mechanism for the rod-shaped materials further comprises a controller, wherein the controller is respectively connected with the first motor speed reducer and the second motor speed reducer in a control manner; and the substrate and the material box are provided with reflective photoelectric sensors.