CN113927634B - Cutting board supporting structure of tobacco slicing machine - Google Patents

Abstract

The invention provides a cutting board supporting structure of a tobacco slicer, which is arranged at the output end of a roller of a conveying belt, and comprises the following components: the fixed chopping block comprises a chopping block body, one side of the chopping block body is a vertical plane, an upper supporting block is arranged on the upper part of the chopping block body, and a lower supporting block is arranged on the lower part of the chopping block body; the cutter bar is connected with the top surface of the upper supporting block, the cutter bar covers the top surface of the chopping block body, and the lower part of the cutter bar is provided with a notch; the two fixed blocks are respectively arranged at the two ends of the chopping block body in the length direction, and each fixed block is connected with the frame supporting plate. After the chopping board supporting structure is arranged, the cutting of the blade and the chopping board supporting structure can be formed, so that the manual intervention caused by continuous cutting of the paper sheet tobacco bale is thoroughly eliminated, and meanwhile, the labor intensity of operators is greatly reduced.

Description

Cutting board supporting structure of tobacco slicing machine

Technical Field

The invention relates to the technical field of tobacco slicer manufacturing, in particular to a cutting board supporting structure of a tobacco slicer.

Background

As shown in fig. 1 and 2, when the conventional slicer is used, a first step of moving a paper sheet tobacco bale 5 to an output end of a conveyor belt roller 1 under the transmission of a conveyor belt 11 outside the conveyor belt roller 1; secondly, moving a movable cutting board 21 and a lower supporting board 3 which are arranged on the movable frame body 2 to the output end of the conveyor belt roller 1, wherein a certain gap is reserved between the conveyor belt roller 1 and the movable cutting board 21, and the lower supporting board 3 is a bridge for filling the gap; thirdly, the baffle 4 moves to a preset blocking position; fourthly, the paper sheet tobacco bale 5 moves towards the baffle plate 4 under the pushing of the material pushing plate mechanism, and after the paper sheet tobacco bale 5 contacts with the baffle plate 4, a length measuring instrument on the material pushing plate mechanism moves the tobacco bale 5 to a preset cutting position; and fifthly, the blade 6 arranged between the output end of the conveyor roller 1 and the movable chopping board 21 moves downwards, and the blade 6 cuts the paper sheet tobacco bale 5. After the blade 6 cuts the paper sheet pack 5, the movable anvil 21, the lower blade 3 and the shutter 4 return to the original positions.

Although the lower supporting plate 3 is a bridge for filling gaps, the lower supporting plate 3 is similar to a scraping plate in shape and structure, so that the bottom material of the paper sheet tobacco bale 5 is clamped between the conveying belt 11 outside the conveying belt roller 1 and the movable chopping board 21 and the lower supporting plate 3 in the process of pushing the paper sheet tobacco bale 5 to the movable chopping board 21. The lower limit position of the blade 6 when moving downwards is 10mm of the horizontal surface of the conveying belt 11 outside the conveying belt roller 1, so that the blade 6 is suspended in the longitudinal direction and the transverse direction with a gap of more than 10mm between the blade and the conveying belt 11 outside the conveying belt roller 1, the cutter cannot cut off the bottom material of the paper sheet tobacco bale 5, and the bottom material is not cut off; or in the process that the movable chopping board 21 and the lower supporting plate 3 move to the output end of the conveyor belt roller 1, the movable chopping board 21 can touch the bottom material to block photoelectric detection, so that the stop alarm of the slicer is caused, and the uniformity of the flow of the production line is seriously influenced due to the fact that manual intervention is needed. The manual intervention is performed by switching the operation mode of the slicer into a manual operation mode and then performing a series of manual slicing operations to finish the manual intervention process of a paper sheet tobacco bale, so that the production takt of the production line is seriously influenced, the flow fluctuation of the production line is large, and the product quality is further influenced. Meanwhile, the workload of field device operators is increased. The cutter can not cut off the bottom material of the paper sheet tobacco bale 5, and the bottom material touches the movable chopping board on the movable frame body 2 as shown in figure 3.

The existing tobacco shred processing is modularized production, the paper sheet tobacco package accounts for about 25%, and the manual intervention proportion of the sheet tobacco package in a slicer is up to 98.12%. The uniformity of the discharging is seriously influenced, and the stability of the loosening and moisture regaining water in the next working procedure is influenced.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, an object of the present invention is to provide a cutting board support structure of a tobacco slicer for solving the above-mentioned problems of the prior art.

In order to solve the technical problem, the invention provides a cutting board supporting structure of a tobacco slicer, which is arranged at the output end of a roller of a conveying belt and comprises:

the fixed chopping block comprises a chopping block body, one side, far away from the conveying belt roller, of the chopping block body is a vertical plane, an upper supporting block is arranged on the upper portion of one side, close to the conveying belt roller, of the chopping block body, a lower supporting block is arranged on the lower portion of one side, close to the conveying belt roller, of the chopping block body, the length direction of the chopping block body, the upper supporting block and the length direction of the lower supporting block are all in the same direction with the axial direction of the conveying belt roller, the cross section of the upper supporting block is a right triangle, and the inclined side of the cross section of the upper supporting block faces the output end of the conveying belt roller; the cross section of the lower supporting block is a right triangle, and the inclined side of the cross section of the lower supporting block faces the output end of the conveying belt roller; the top surface of the upper supporting block is coplanar with the top surface of the chopping block body;

the cutter bar is connected with the top surface of the upper supporting block, covers the top surface of the chopping block body, and is provided with a notch part at the lower part of one side close to the output end of the conveying belt roller;

and the two fixing blocks are respectively arranged at two ends of the chopping block body in the length direction, and each fixing block is connected with a frame supporting plate of the slicing machine.

Preferably, a plurality of first mounting round holes are formed in the top surface of the upper supporting block, a plurality of strip through holes are formed in the cutter bar, the strip through holes correspond to the first mounting round holes one by one, and fastening screws penetrate through the strip through holes and the first mounting round holes to fixedly connect the cutter bar with the upper supporting block.

Preferably, two ends of the shaft of the conveyor belt roller are respectively sleeved with a frame supporting plate and a bearing seat of the slicer, each fixing block is positioned between the bearing seat and the frame supporting plate of the slicer, and the frame supporting plates, the fixing blocks and the bearing seats are connected in series by fastening screws.

Preferably, two first positioning holes are formed in the side face, close to the chopping block body, of each fixed block, second positioning holes corresponding to the first positioning holes are formed in the chopping block body, and positioning pins sequentially penetrate through the second positioning holes and the corresponding first positioning holes to connect the chopping block body with the fixed blocks in a positioning mode. After the positioning pin is precisely positioned, the positioning pin is fastened and fixed by a fastening screw.

The cutting board supporting structure of the tobacco slicing machine has the following beneficial effects:

the side of the chopping block body, which is far away from the roller of the conveying belt, is a vertical plane, and the outer side of the chopping block supporting structure is a straight plane; the upper supporting block, the chopping block body and the upper supporting block form a concave structure, and the concave structure is wedged on the outer side of the conveying belt roller; the size of the parts of the chopping block supporting structure is reduced, the strength is increased, and the front-back deformation instability of the chopping block body during the transportation of the paper sheet tobacco bale can be prevented; the lower part of the cutter bar is provided with a notch part which is wedged on the outer side of the conveying belt roller; after the chopping board supporting structure is arranged, the cutting of the blade and the chopping board supporting structure can be formed, so that the manual intervention caused by continuous cutting of the paper sheet tobacco bale is thoroughly eliminated, and meanwhile, the labor intensity of operators is greatly reduced. The service life of the blade is prolonged from changing the blade every two weeks to changing the blade every three weeks, and the service life of the blade is prolonged by 50%.

Drawings

Fig. 1 shows a schematic structure of a conventional shredder in which a movable cutting board and a lower blade are moved to an output end of a conveyor roller, a shutter is moved to a predetermined blocking position, and a paper sheet packet is moved to a predetermined cutting position.

Fig. 2 is a schematic diagram showing a conventional conveyor roller.

Fig. 3 shows a schematic structure of a movable cutting board on a movable frame body when a conventional cutter cannot cut off the bottom material of a paper sheet tobacco bale.

Fig. 4 is a schematic perspective view showing the cutting board support structure of the tobacco slicer according to the present embodiment.

Fig. 5 is a schematic perspective view showing a structure of the cutting board support structure of the tobacco slicer according to the present embodiment, in which no fixing block is provided at one end.

Fig. 6 is a schematic perspective view showing a cutter bar of the cutting board support structure of the tobacco slicer according to the present embodiment.

Fig. 7 is a schematic perspective view showing the upper support block of the cutting board support structure of the tobacco slicer according to the present embodiment.

Fig. 8 is a schematic perspective view showing an anvil block of the anvil supporting structure of the tobacco slicer according to the present embodiment.

Fig. 9 is a schematic perspective view showing a fixing block of the cutting board support structure of the tobacco slicer according to the present embodiment.

Fig. 10 is a schematic view showing the structure of the cutting board supporting structure of the tobacco slicer in this embodiment, in which the fixing block is connected to the bearing housing and the frame support.

Description of the reference numerals

1. Conveyer belt running roller

11. Conveying belt

2. Movable frame

21. Movable chopping block

3. Lower support plate

4. Baffle plate

5. Paper sheet tobacco package

6. Blade

100. Conveyer belt running roller

110. Conveying belt

200. Cutting board block

210. Second positioning hole

220. Fastening hole

300. Upper supporting block

310. First mounting round hole

400. Lower supporting block

500. Cutter strip

510. Notch portion

520. Strip through hole

600. Fixed block

610. First positioning hole

620. Threaded hole

810. Frame supporting plate

820. Bearing pedestal

Detailed Description

Further advantages and effects of the present invention will become apparent to those skilled in the art from the disclosure of the present invention, which is described by the following specific examples.

Please refer to the accompanying drawings. It should be understood that the structures, proportions, sizes, etc. shown in the drawings are for illustration purposes only and should not be construed as limiting the invention to the extent that it can be practiced, since modifications, changes in the proportions, or otherwise, used in the practice of the invention, are not intended to be critical to the essential characteristics of the invention, but are intended to fall within the spirit and scope of the invention. Also, the terms such as "upper," "lower," "left," "right," "middle," and "a" and the like recited in the present specification are merely for descriptive purposes and are not intended to limit the scope of the invention, but are intended to provide relative positional changes or modifications without materially altering the technical context in which the invention may be practiced.

As shown in fig. 4 to 10, the cutting board support structure of the tobacco slicer of this embodiment is mounted at the output end of the conveyor roller 100, and includes:

the fixed chopping block comprises a chopping block 200, one side of the chopping block 200, which is far away from the conveyor belt roller 100, is a vertical plane, an upper supporting block 300 is arranged at the upper part of one side of the chopping block 200, which is close to the conveyor belt roller 100, a lower supporting block 400 is arranged at the lower part of one side of the chopping block 200, which is close to the conveyor belt roller 100, the length directions of the chopping block 200, the upper supporting block 300 and the lower supporting block 400 are all in the same direction with the axial direction of the conveyor belt roller 100, the cross section of the upper supporting block 300 is a right triangle, and the bevel edge of the cross section of the upper supporting block 300 faces the output end of the conveyor belt roller 100; the cross section of the lower support block 400 is a right triangle, and the hypotenuse of the cross section of the lower support block 400 faces the output end of the conveyor belt roller 100; the top surface of the upper support block 300 is coplanar with the top surface of the anvil block 200;

the cutter bar 500 is connected with the top surface of the upper supporting block 300, the cutter bar 500 covers the top surface of the chopping block body 200, and the lower part of one side of the cutter bar 500, which is close to the output end of the conveying belt roller 100, is provided with a notch 510;

two fixing blocks 600 are respectively installed at both ends of the anvil block 200 in the length direction, and each fixing block 600 is connected to a frame stay 810 of the slicer.

The side of the anvil block 200 away from the conveyor roller 100 is a vertical plane, the outside of the anvil supporting structure is a flat plane; the upper supporting block 300, the chopping block 200 and the upper supporting block 300 form a concave structure, and the concave structure is wedged on the outer side of the conveying belt 110 of the conveying belt roller 100; this reduces the size and strength of the parts of the anvil support structure, and prevents the anvil block 200 from deforming and destabilizing back and forth during transport of the paper sheet packets; the lower part of the cutter bar 500 is provided with a notch part 510, and the notch part 510 is wedged on the outer side of the conveying belt 110 of the conveying belt roller 100; after the chopping board supporting structure is arranged, the cutting of the blade and the chopping board supporting structure can be formed, so that the manual intervention caused by continuous cutting of the paper sheet tobacco bale is thoroughly eliminated, and meanwhile, the labor intensity of operators is greatly reduced. The service life of the blade is prolonged from changing the blade every two weeks to changing the blade every three weeks, and the service life of the blade is prolonged by 50%.

Through increasing chopping block bearing structure, cancel current bottom plate, support paper thin slice tobacco bale with chopping block bearing structure, hang the mode of cutting to paper thin slice tobacco bale in the current structure, change the shearing mode of this embodiment into, make paper thin slice tobacco bale can cut off completely, cut thoroughly to realize reducing the manual intervention's target.

Each of the fixing blocks 600 is connected to a frame stay 810 of the slicer, respectively, and since the frame stay 810 is a structure on the existing slicer, the anvil supporting structure of the present invention can be directly mounted on the existing slicer.

The top surface of the upper supporting block 300 is provided with a plurality of first mounting round holes 310, the cutter bar 500 is provided with a plurality of strip through holes 520, the strip through holes 520 correspond to the first mounting round holes 310 one by one, and fastening screws penetrate through the strip through holes 520 and the first mounting round holes 310 to fixedly connect the cutter bar 500 with the upper supporting block 300.

The arrangement of the strip through holes 520 enables the relative fixing position between the cutter bar 500 and the fixed chopping board to be adjustable, so that the position between the chopping board supporting structure and the blade is adjusted, the gap between the chopping board supporting structure and the conveying belt 110 is adjusted, the cutter bar 500 is damaged in use in future, only the cutter bar 500 is needed, the fixed chopping board can be used for a long time without maintenance, and the follow-up use is convenient.

The two ends of the shaft of the conveyor roller 100 are respectively sleeved with a frame support plate 810 and a bearing seat 820 of the slicer, each fixing block 600 is positioned between the bearing seat 820 and the frame support plate 810 of the slicer, and the frame support plate 810, the fixing blocks 600 and the bearing seat 820 are connected in series by fastening screws.

In the conventional slicer, a bearing block 820 is provided at the outside of a frame support plate 810, and the frame support plate 810 is connected to the bearing block 820. In this embodiment, with the length of 12mm that is longer at both ends of the shaft of the conveyor roller 100 on the existing microtome, the two bearing blocks 820 respectively located at both ends are moved outwards by 10mm, so that a gap into which the fixing block 600 is inserted is formed between the bearing blocks 820 and the frame stay 810, which makes the installation of the fixing block 600 not affect the mechanism of the existing microtome.

Two first positioning holes 610 and three threaded holes 620 are formed in the side face, close to the chopping block body 200, of each fixing block 600, second positioning holes 210 corresponding to the first positioning holes 610 are formed in the chopping block body 200, fastening holes 220 corresponding to the threaded holes 620 one by one are formed in the chopping block body 200, 2 12mm positioning pins sequentially penetrate through the second positioning holes 210 and the corresponding first positioning holes 610, the chopping block body 200 is connected with the fixing blocks 600 in a positioning mode, and the 12mm positioning pins can guarantee position accuracy and strength of installation and use. After the chopping block 200 and the fixed block 600 are precisely positioned, the fastening screw sequentially penetrates through the fastening hole 220 and the threaded hole 620, the chopping block 200 is fastened and connected with the fixed block 600, and damage to the conveying belt 110 due to displacement and deformation of the chopping block 200 is prevented.

The invention is deployed on the loosening and conditioning process of the wire making wire slicing through improving the slicing machine. The manual intervention rate of the slicer is reduced to 0.96%, and 92.57%. Meanwhile, the uniformity of the flow of the dynamic balance after slicing is improved.

In conclusion, the invention effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles of the present invention and its effectiveness, and are not intended to limit the invention. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the invention. Accordingly, it is intended that all equivalent modifications and variations of the invention be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (3)

1. A tobacco slicer chopping block bearing structure, its characterized in that: install in output of conveyer belt running roller (100), chopping block bearing structure includes:

the fixed chopping block comprises a chopping block body (200), one side, far away from a conveying belt roller (100), of the chopping block body (200) is a vertical plane, an upper supporting block (300) is arranged at the upper part of one side, close to the conveying belt roller (100), of the chopping block body (200), a lower supporting block (400) is arranged at the lower part of one side, close to the conveying belt roller (100), of the chopping block body (200), the length directions of the chopping block body (200), the upper supporting block (300) and the lower supporting block (400) are all in the same direction as the axial direction of the conveying belt roller (100), the cross section of the upper supporting block (300) is a right triangle, and the inclined side of the cross section of the upper supporting block (300) faces the output end of the conveying belt roller (100); the cross section of the lower supporting block (400) is a right triangle, and the hypotenuse of the cross section of the lower supporting block (400) faces the output end of the conveyor belt roller (100); the top surface of the upper support block (300) is coplanar with the top surface of the anvil block (200); the upper supporting block (300), the chopping block body (200) and the upper supporting block (300) form a concave structure, and the concave structure is wedged on the outer side of a conveying belt (110) of the conveying belt roller (100);

the cutter bar (500) is connected with the top surface of the upper supporting block (300), the cutter bar (500) covers the top surface of the chopping block body (200), and a notch part (510) is formed in the lower part of one side, close to the output end of the conveying belt roller (100), of the cutter bar (500); the notch part (510) is wedged on the outer side of the conveying belt (110) of the conveying belt roller (100);

two fixing blocks (600) which are respectively arranged at two ends of the chopping block body (200) in the length direction, wherein each fixing block (600) is connected with a frame supporting plate (810) of the slicing machine;

be equipped with a plurality of first installation round holes (310) on the top surface of last supporting shoe (300), be equipped with a plurality of rectangular through-holes (520) on cutter strip (500), rectangular through-hole (520) with first installation round hole (310) one-to-one, fastening screw passes rectangular through-hole (520) with first installation round hole (310), will cutter strip (500) with go up supporting shoe (300) fixed connection.

2. A tobacco slicer anvil support structure according to claim 1 wherein:

the two ends of the shaft of the conveyor belt roller (100) are sleeved with a frame supporting plate (810) and a bearing seat (820) of the slicer, each fixing block (600) is positioned between the bearing seat (820) and the frame supporting plate (810) of the slicer, and the frame supporting plate (810), the fixing blocks (600) and the bearing seat (820) are connected in series by fastening screws.

3. A tobacco slicer anvil support structure according to claim 1 wherein:

two first positioning holes (610) are formed in the side face, close to the chopping block body (200), of each fixed block (600), second positioning holes (210) corresponding to the first positioning holes (610) are formed in the chopping block body (200), and positioning pins sequentially penetrate through the second positioning holes (210) and the corresponding first positioning holes (610) to enable the chopping block body (200) to be in positioning connection with the fixed blocks (600).

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