CN110744601A

CN110744601A - Coarse grain bread slitting equipment with scrap recycling mechanism and working method thereof

Info

Publication number: CN110744601A
Application number: CN201910876172.8A
Authority: CN
Inventors: 王梦红; 曹亮; 高雄; 高晓玲; 王楠启
Original assignee: Fengtai Jinggu Grain And Oil Trading Co Ltd
Current assignee: Fengtai Jinggu Grain And Oil Trading Co Ltd
Priority date: 2019-09-17
Filing date: 2019-09-17
Publication date: 2020-02-04

Abstract

The invention discloses a coarse grain bread slitting device with a chip recovery mechanism and a working method thereof, which can solve the problems that when the existing coarse grain bread slitting device is used, when the slitting specification needs to be adjusted, the position of a cutter is generally adjusted or the position of a cutting plate for placing coarse grain bread is adjusted, the mode is only suitable for the condition that the specification of each piece of the slit coarse grain bread is always limited to be a fixed value, when the specification of each piece of the slit coarse grain bread needs to be divided into a plurality of different sizes, the position of each cutter needs to be adjusted manually, the operation is troublesome, the adjustment result is difficult to control accurately, and the coarse grain bread blocks are easy to stick to each other after the slitting is finished, so that the slitting effect is poor. Comprises a movable frame, a splitting mechanism, a cutting plate assembly and a base.

Description

Coarse grain bread slitting equipment with scrap recycling mechanism and working method thereof

Technical Field

The invention relates to the field of coarse grain bread slitting equipment, in particular to coarse grain bread slitting equipment with a scrap recycling mechanism and a working method of the coarse grain bread slitting equipment.

Background

The coarse grain bread needs to be cut by using a cutting device in the processing process, so that a whole block of large coarse grain bread is cut into small blocks with required specifications and then packaged for factory sale. However, current coarse grain bread equipment of cutting still has certain defect when using, lack the subassembly of the timely recovery of piece that produces when cutting, and at the in-process of cutting, when the specification of cutting is adjusted to needs, generally only adopt to adjust the cutter position or only adjust the cutting plate position of placing the coarse grain bread, this kind of mode is only applicable to the condition of being injectd all the time to the coarse grain bread specification of each piece of cutting for the fixed value, when the coarse grain bread specification of each piece of cutting need be divided into multiple different sizes, need artifical manual position to each cutter to adjust, it is comparatively troublesome, and the result of adjustment also is difficult to control accurately, and because after cutting the completion, easily mutual gluing between coarse grain bread piece and the coarse grain bread piece, thereby lead to cutting the effect poor.

Disclosure of Invention

The invention aims to provide a coarse grain bread slitting device with a scrap recycling mechanism and a working method thereof, which can solve the problems that the conventional coarse grain bread slitting device is lack of a component for timely recycling scraps generated during slitting when in use, and in the slitting process, when the slitting specification needs to be adjusted, the position of a cutter or the position of a cutting plate for placing coarse grain bread is generally adjusted only by adopting the mode that the specification of each slit coarse grain bread is always limited to a fixed value, when the specification of each slit coarse grain bread needs to be divided into a plurality of different sizes, the position of each cutter needs to be adjusted manually, which is troublesome, the adjustment result is difficult to control accurately, and the coarse grain bread blocks are easy to stick to each other after the slitting is finished, resulting in the defect of poor slitting effect.

The purpose of the invention can be realized by the following technical scheme:

a coarse grain bread slitting device with a scrap recycling mechanism comprises a movable frame, a slitting mechanism, a slitting plate assembly and a base, wherein a power supply is mounted on the side wall of the movable frame, the movable frame is mounted at the top of the base, a support is fixedly mounted on the movable frame, a sliding plate is mounted at the bottom of the support, a row of top air pumps which are uniformly distributed are mounted at the top of the support, and the slitting mechanism is mounted at the bottom of the sliding plate;

the slitting mechanism comprises a row of uniformly distributed slitting heads, the top end of each slitting head is connected with a pneumatic rod, the pneumatic rods are connected with a top air pump through pipelines, and the top end of the pneumatic rod is provided with a top pulley embedded in a groove in the sliding plate, the bottom end of each crop is provided with a suction nozzle, the side wall of the suction nozzle is connected with a guide pipe connected with the storage bags, the bottom end of the suction nozzle is connected with a cutter, one side of each cutting head close to the movable frame is provided with one storage bag fixed at the bottom of the support, the top of each storage bag is connected with a high-pressure suction fan positioned at the top of the support through an air pipe, a small air pump is arranged between every two adjacent cutting heads, the outer walls of two sides of the small air pump are respectively connected with a pneumatic connecting rod, and one end of each pneumatic connecting rod is connected to the outer wall of one cutting head;

a sliding rod is installed inside the base, a sliding seat is sleeved on the sliding rod, the top end of the sliding seat is connected with the movable frame, one side of the sliding seat is connected with a hydraulic telescopic rod of a hydraulic pump located inside the base, a cutting plate assembly is installed at the top of the base, and a sliding groove is formed below the cutting plate assembly;

the cutting board assembly faces the splitting mechanism, the cutting board assembly comprises a row of uniformly distributed splitting boards, a cutting groove is formed between every two adjacent splitting boards, the top of each splitting board is divided into a left separating part and a right separating part, a bottom pulley embedded into a sliding groove is installed at the bottom of each splitting board, a small air pump is installed between every two adjacent splitting boards in the same mode, a built-in air pump is installed inside each splitting board, pneumatic telescopic rods are connected to the outer walls of the two sides of each built-in air pump, and one end of each pneumatic telescopic rod is connected with one separating part.

Preferably, each cutting groove corresponds to one cutter, and the width of the cutting groove at the beginning is matched with the thickness of the cutter.

Preferably, the movable frame is connected with the base in a sliding mode through the hydraulic pump, and the sliding direction of the movable frame is the same as the direction of the sliding rod.

Preferably, two adjacent cutting heads are movably connected through a small air pump and a pneumatic connecting rod.

Preferably, two adjacent sub-plates are movably connected through a small air pump and a pneumatic connecting rod.

Preferably, the two separated parts at the top end of the split plate are movably connected through a pneumatic telescopic rod.

A working method of coarse grain bread slitting equipment with a scrap recycling mechanism comprises the following specific steps:

the method comprises the following steps: firstly, laying the coarse grain bread blocks to be cut on a cutting board assembly, then adjusting a cutting mechanism and the cutting board assembly together according to the size of the required cutting specification of each actual coarse grain bread block, firstly starting all small air pumps of the cutting mechanism, starting each built-in air pump of the cutting board assembly, driving each small air pump by using an external controller to control the distance between a cutter and the cutter, driving each built-in air pump by using the external controller to drive the telescopic length of a pneumatic telescopic rod to adjust the length of the top end of each cutting board, and enabling each coarse grain bread block to reach the required cutting specification, when the top end of the split plate is unfolded long to cause that the cutting groove is not enough to pass through the cutting knife, the small air pump is started to adjust the width of the cutting groove, the cutter always keeps right against the cutting groove, and the thickness of the cutter is always matched with the width of the cutting groove;

step two: after the adjustment is finished, the top air pump is started to drive the cutting head to move downwards to be close to the cutting groove, the hydraulic pump is started to pull the movable frame to slide along the direction of the sliding rod, the integral cutting is realized, the high-pressure suction fan provides high-pressure suction force for the suction nozzle all the time in the cutting process, and the suction nozzle sucks the fragments generated by cutting into the storage bag all the time;

step three: when finishing cutting, the small air pump inside the cutting plate assembly is started to adjust the distance between the dividing plate and the dividing plate, and the small air pump is utilized to drive the pneumatic connecting rod to extend to separate the cut coarse grain bread blocks from the coarse grain bread blocks.

The invention has the beneficial effects that: because a small air pump is arranged between two adjacent cutting heads in the slitting mechanism, a small air pump is also arranged between two adjacent dividing plates, a built-in air pump is arranged in each dividing plate, the outer walls of the two sides of the built-in air pump are connected with a pneumatic telescopic rod, one end of each pneumatic telescopic rod is respectively connected with a separating part positioned at the top end of the dividing plate, when the cutting mechanism needs to be adjusted, all the small air pumps of the slitting mechanism are started, each built-in air pump of the cutting plate assembly is started, each small air pump is driven by an external controller to control the distance between the cutter and the cutter, the external controller is used for driving each built-in air pump to drive the telescopic length of the pneumatic telescopic rod to adjust the length of the top end of each dividing plate, each coarse grain bread block can reach the required slitting specification, and the cutter is always kept facing the cutting groove, therefore, the cutting equipment can cut various coarse grain breads with different specifications at the same time, and the position of the cutter does not need to be adjusted manually;

due to the existence of the high-pressure suction fan, the storage bag and the suction nozzle, the high-pressure suction fan always provides high-pressure suction force for the suction nozzle in the slitting process, so that the suction nozzle always sucks the scraps generated by slitting into the storage bag, and the influence of the scraps on the slitting effect can be effectively avoided;

because also install a small-size air pump between adjacent two minute boards equally, make when dividing the length that the board top expanded, lead to the grooving when not enough passing through the cutter, small-size air pump starts, adjust the grooving width, and when accomplishing when cutting, the inside small-size air pump of cutting plate subassembly can start to adjust the interval between minute board and the minute board this moment, utilize the extension of small-size air pump drive pneumatic connecting rod to come to separate between accomplishing the coarse grain bread piece of cutting and the coarse grain bread piece, avoid gluing each other.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a side view of the present invention;

FIG. 3 is a schematic view of a slitting mechanism according to the present invention;

FIG. 4 is a schematic view of the cutting board assembly of the present invention;

FIG. 5 is a schematic view of the cutting head structure of the present invention;

FIG. 6 is a schematic view of the structure of the sub-board of the present invention;

in the figure: 1. a movable frame; 2. a support; 3. a power source; 4. a slitting mechanism; 5. a base; 6. a chute; 7. a cutting board assembly; 8. a storage bag; 9. an air duct; 10. a high pressure suction fan; 11. a top air pump; 12. a slide rod; 13. a slide base; 14. a hydraulic pump; 15. cutting the head; 16. a suction nozzle; 17. a cutter; 18. a conduit; 19. dividing the plates; 20. a bottom pulley; 21. grooving; 22. a small air pump; 23. a pneumatic connecting rod; 24. a top pulley; 25. an air pump is arranged inside; 26. a pneumatic telescopic rod; 27. a slide board.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, a coarse grain bread slitting device with a scrap recycling mechanism comprises a movable frame 1, a slitting mechanism 4, a slitting plate assembly 7 and a base 5, wherein a power supply 3 is mounted on the side wall of the movable frame 1, the movable frame 1 is mounted at the top of the base 5, a support 2 is fixedly mounted on the movable frame 1, a sliding plate 27 is mounted at the bottom of the support 2, a row of top air pumps 11 which are uniformly distributed are mounted at the top of the support 2, and the slitting mechanism 4 is mounted at the bottom of the sliding plate 27;

the slitting mechanism 4 comprises a row of uniformly distributed cutting heads 15, the top end of each cutting head 15 is connected with a pneumatic rod, the pneumatic rods are connected with a top air pump 11 through pipelines, a top pulley 24 embedded into a groove in the sliding plate 27 is installed at the top end of the pneumatic rod, a suction nozzle 16 is installed at the bottom end of each cutting head 15, a guide pipe 18 connected with a storage bag 8 is connected to the side wall of each suction nozzle 16, a cutter 17 is connected to the bottom end of each suction nozzle 16, a storage bag 8 fixed to the bottom of the support 2 is installed on one side, close to the movable frame 1, of each cutting head 15, the top of each storage bag 8 is connected with a high-pressure suction fan 10 located at the top of the support 2 through an air pipe 9, a small air pump 22 is installed between every two adjacent cutting heads 15, pneumatic connecting rods 23 are connected to the outer walls of the two sides of each small air pump 22, and one end of each pneumatic connecting rod 23 is;

a slide rod 12 is arranged in the base 5, a slide seat 13 is sleeved on the slide rod 12, the top end of the slide seat 13 is connected with the movable frame 1, one side of the slide seat 13 is connected with a hydraulic telescopic rod of a hydraulic pump 14 positioned in the base 5, a cutting plate assembly 7 is arranged at the top of the base 5, and a sliding groove 6 is arranged below the cutting plate assembly 7;

cutting board subassembly 7 faces cutting mechanism 4, cutting board subassembly 7 includes one row of evenly distributed's minute board 19, be provided with grooving 21 between two adjacent minute boards 19, every minute board 19 top is all divided into about two separation parts, every minute board 19 bottom all installs a bottom pulley 20 of embedding spout 6 inside, same one small-size air pump 22 of installing between two adjacent minute boards 19, every minute board 19 is inside all to be installed one and to be built-in air pump 25, all be connected with a pneumatic telescopic link 26 on the outer wall of built-in air pump 25 both sides, two pneumatic telescopic link 26 one end are connected with a separation part respectively.

Each cutting groove 21 corresponds to one cutting knife 17, and the width of the cutting groove 21 is matched with the thickness of the cutting knife 17.

The movable frame 1 is connected with the base 5 in a sliding way through the hydraulic pump 14, and the sliding direction of the movable frame 1 is the same as that of the slide rod 12.

Two adjacent cutting heads 15 are movably connected through a small air pump 22 and a pneumatic connecting rod 23.

Two adjacent sub-plates 19 are movably connected through a small air pump 22 and a pneumatic connecting rod 23.

The two separated parts at the top end of the sub-plate 19 are movably connected through a pneumatic telescopic rod 26.

the method comprises the following steps: firstly, laying the coarse grain bread blocks to be cut on a cutting board assembly 7, then adjusting the cutting mechanism 4 and the cutting board assembly 7 together according to the size of the required cutting specification of each actual coarse grain bread block, firstly starting all small air pumps 22 of the cutting mechanism 4, starting each built-in air pump 25 of the cutting board assembly 7, driving each small air pump 22 by using an external controller to control the distance between a cutter 17 and the cutter 17, driving each built-in air pump 25 by using the external controller to drive the telescopic length of a pneumatic telescopic rod 26 to adjust the length of the top end of each cutting board 19, so that each coarse grain bread block reaches the required cutting specification, when the slit 21 is not sufficiently passed through the cutter 17 due to the long spread of the top end of the divided plate 19, the small air pump 22 is actuated to adjust the width of the slit 21, the cutting knife 17 always faces the cutting groove 21, and the thickness of the cutting knife 17 is always matched with the width of the cutting groove 21;

step two: after the adjustment is finished, the top air pump 11 is started to drive the cutting head 15 to move downwards to be close to the cutting groove 21, the hydraulic pump 14 is started to pull the movable frame 1 to slide along the direction of the sliding rod 12, the integral cutting is realized, the high-pressure suction fan 10 always provides high-pressure suction for the suction nozzle 16 in the cutting process, and the suction nozzle 16 always sucks the fragments generated by cutting into the storage bag 8;

step three: when the cutting is finished, the small air pump 22 in the cutting plate assembly 7 is started to adjust the distance between the cutting plate 19 and the cutting plate 19, and the small air pump 22 is used for driving the pneumatic connecting rod 23 to extend to separate the cut coarse grain bread blocks from the coarse grain bread blocks.

The invention has the beneficial effects that: because a small air pump 22 is arranged between two adjacent cutting heads 15 in the slitting mechanism 4, a small air pump 22 is also arranged between two adjacent dividing plates 19, a built-in air pump 25 is arranged in each dividing plate 19, two outer walls of two sides of the built-in air pump 25 are connected with a pneumatic telescopic rod 26, one end of each pneumatic telescopic rod 26 is respectively connected with a separating part positioned at the top end of the dividing plate 19, when the cutting mechanism needs to be adjusted, all the small air pumps 22 of the slitting mechanism 4 are firstly cut, each built-in air pump 25 of the dividing plate assembly 7 is started, each small air pump 22 is driven by an external controller to control the distance between the cutter 17 and the cutter 17, the external controller is used for driving each built-in air pump 25 to drive the telescopic length of the pneumatic telescopic rod 26 to adjust the length at the top end of each dividing plate 19, so that each coarse grain block reaches the required slitting specification, the cutter 17 always faces the cutting groove 21, so that the cutting equipment can cut various coarse grain breads with different specifications at the same time, and the position of the cutter 17 does not need to be adjusted manually;

due to the existence of the high-pressure suction fan 10, the storage bag 8 and the suction nozzle 16, the high-pressure suction fan 10 always provides high-pressure suction force for the suction nozzle 16 in the slitting process, so that the suction nozzle 16 always sucks the scraps generated by slitting into the storage bag 8, and the influence of the scraps on the slitting effect can be effectively avoided;

because a small air pump 22 is also installed between two adjacent branch boards 19, when the top ends of the branch boards 19 are unfolded to be long, the cutting grooves 21 are not enough to pass through the cutters 17, the small air pump 22 is started to adjust the width of the cutting grooves 21, when the cutting is completed, the small air pump 22 inside the cutting board assembly 7 can be started to adjust the distance between the branch boards 19 and the branch boards 19, the small air pump 22 is used for driving the pneumatic connecting rod 23 to extend to separate the coarse grain bread blocks which are completely cut from the coarse grain bread blocks, and mutual adhesion is avoided.

When the cutting device is used, firstly, the whole device is assembled, the movable frame 1 is arranged on the sliding seat 13, the movable frame 1 is connected with a hydraulic telescopic rod of a hydraulic pump 14, then, the cutting plate assembly 7 is arranged on the top of the base 5, the support 2 is fixed on one side of the top of the movable frame 1, the cutting mechanism 4 is arranged at the bottom of the support 2, each suction nozzle 16 of the cutting mechanism 4 is connected with the storage bag 8 through a guide pipe 18, each storage bag 8 is connected with the high-pressure suction fan 10 through an air pipe 9, and each cutting knife 17 of the installed cutting mechanism 4 is ensured to be right opposite to a cutting groove 21 of one cutting plate assembly 7 in the initial time. After the assembly is finished, the coarse food grain bread blocks to be cut are flatly laid on the cutting board assembly 7, then the cutting mechanism 4 and the cutting board assembly 7 are adjusted together according to the size of the cutting specification required by each actual coarse food grain bread block, because a small air pump 22 is arranged between two adjacent cutting heads 15 in the cutting mechanism 4, a small air pump 22 is also arranged between two adjacent cutting boards 19, a built-in air pump 25 is arranged in each cutting board 19, two outer walls on two sides of the built-in air pump 25 are connected with a pneumatic telescopic rod 26, one end of each pneumatic telescopic rod 26 is respectively connected with a separating part positioned at the top end of the cutting board 19, therefore, when the adjustment is required, all the small air pumps 22 of the cutting mechanism 4 are firstly started, each built-in air pump 25 of the cutting board assembly 7 is started, each small air pump 22 is driven by an external controller to control the distance between the cutter 17 and the cutter 17, the external controller is used for driving each built-in air pump 25 to drive the telescopic length of the pneumatic telescopic rod 26 to adjust the length of the top end of each dividing plate 19, so that each coarse grain bread block reaches the required cutting specification, and the cutter 17 always faces the cutting groove 21, so that the cutting equipment can simultaneously cut various coarse grain breads with different specifications, and the position of the cutter 17 does not need to be adjusted manually; when the adjustment is completed, the top air pump 11 is started to drive the cutting head 15 to move downwards to be close to the cutting groove 21, the hydraulic pump 14 is started to pull the movable frame 1 to slide along the direction of the slide rod 12, the integral cutting is realized, the high-pressure suction fan 10 always provides high-pressure suction force for the suction nozzle 16 in the cutting process, so that the suction nozzle 16 always sucks the chips generated by the cutting into the storage bag 8, and because a small air pump 22 is also arranged between two adjacent sub-plates 19, when the top ends of the sub-plates 19 are unfolded to be longer, the cutting groove 21 is not enough to pass through the cutter 17, the small air pump 22 is started to adjust the width of the cutting groove 21, and when the cutting is completed, the small air pump 22 in the cutting plate assembly 7 can be started to adjust the distance between the sub-plates 19 and 19, the elongation of the pneumatic connecting rod 23 is driven by the small air pump 22 to separate the coarse bread blocks and the coarse bread blocks which are, avoid sticking each other.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The coarse grain bread slitting equipment with the scrap recycling mechanism comprises a movable frame (1), a slitting mechanism (4), a slitting plate assembly (7) and a base (5), and is characterized in that a power supply (3) is installed on the side wall of the movable frame (1), the movable frame (1) is installed at the top of the base (5), a support (2) is fixedly installed on the movable frame (1), a sliding plate (27) is installed at the bottom of the support (2), a row of top air pumps (11) which are uniformly distributed are installed at the top of the support (2), and the slitting mechanism (4) is installed at the bottom of the sliding plate (27);

the slitting mechanism (4) comprises a row of uniformly distributed cutting heads (15), wherein each cutting head (15) is connected with an air rod at the top end, the air rods are connected with a top air pump (11) through a pipeline, a top pulley (24) embedded into an inner groove of a sliding plate (27) is installed at the top end of each air rod, a suction nozzle (16) is installed at the bottom end of each cutting head (15), a guide pipe (18) connected with a storage bag (8) is connected onto the side wall of each suction nozzle (16), a cutter (17) is connected at the bottom end of each suction nozzle (16), one side, close to a movable frame (1), of each cutting head (15) is provided with the storage bag (8) fixed at the bottom of a support (2), and the top of each storage bag (8) is connected with a high-pressure air suction fan (10) located at the top of the support (2) through a air pipe (9), a small air pump (22) is arranged between every two adjacent cutting heads (15), the outer walls of two sides of each small air pump (22) are connected with a pneumatic connecting rod (23), and one end of each pneumatic connecting rod (23) is connected to the outer wall of one cutting head (15);

a sliding rod (12) is installed inside the base (5), a sliding seat (13) is sleeved on the sliding rod (12), the top end of the sliding seat (13) is connected with the movable frame (1), one side of the sliding seat (13) is connected with a hydraulic telescopic rod of a hydraulic pump (14) located inside the base (5), a cutting plate assembly (7) is installed at the top of the base (5), and a sliding groove (6) is formed below the cutting plate assembly (7);

the cutting board assembly (7) is right opposite to the slitting mechanism (4), the cutting board assembly (7) comprises a row of uniformly distributed dividing boards (19), two adjacent dividing boards (19) are provided with cutting grooves (21) therebetween, the top of each dividing board (19) is divided into a left separating part and a right separating part, the bottom of each dividing board (19) is provided with a bottom pulley (20) embedded into the sliding groove (6), two adjacent dividing boards (19) are provided with a small air pump (22) therebetween, each dividing board (19) is internally provided with a built-in air pump (25), the outer walls of two sides of the built-in air pump (25) are connected with a pneumatic telescopic rod (26), and one end of each pneumatic telescopic rod (26) is connected with one separating part.

2. The roughage bread slitting device with chip recovery mechanism of claim 1, characterized in that each of the cutting grooves (21) corresponds to a cutter (17), and the width of the cutting groove (21) is adapted to the thickness of the cutter (17).

3. The coarse grain bread slitting device with the scrap recycling mechanism according to claim 1, wherein the movable frame (1) is connected with the base (5) in a sliding mode through a hydraulic pump (14), and the sliding direction of the movable frame (1) is the same as that of the sliding rod (12).

4. The coarse grain bread slitting device with the scrap recycling mechanism according to claim 1, wherein two adjacent slitting heads (15) are movably connected through a small air pump (22) and a pneumatic connecting rod (23).

5. The coarse grain bread slitting device with the scrap recycling mechanism according to claim 1, wherein two adjacent dividing plates (19) are movably connected through a small air pump (22) and a pneumatic connecting rod (23).

6. The coarse grain bread slitting device with the scrap recycling mechanism according to claim 1, wherein the two separated parts at the top end of the dividing plate (19) are movably connected through a pneumatic telescopic rod (26).

7. A working method of coarse grain bread slitting equipment with a scrap recycling mechanism is characterized by comprising the following specific steps:

the method comprises the following steps: firstly, coarse grain bread blocks needing to be cut are flatly laid on a cutting board assembly (7), then, a cutting mechanism (4) and the cutting board assembly (7) are adjusted together according to the size of the cutting specification required by each actual coarse grain bread block, all small air pumps (22) of the cutting mechanism (4) are started, each built-in air pump (25) of the cutting board assembly (7) is started, each small air pump (22) is driven by an external controller to control the distance between a cutter (17) and the cutter (17), each built-in air pump (25) is driven by the external controller to drive the telescopic length of a pneumatic telescopic rod (26) to adjust the length of the top end of each dividing board (19), so that each coarse grain bread block reaches the required cutting specification, and when the top end of the dividing board (19) is unfolded to be longer, the cutting groove (21) cannot pass through the cutter (17) enough, the small air pumps (22) are started, the width of the cutting groove (21) is adjusted, the cutting knife (17) always faces the cutting groove (21), and the thickness of the cutting knife (17) is always matched with the width of the cutting groove (21);

step two: after the adjustment is finished, the top air pump (11) is started to drive the cutting head (15) to downwards approach the cutting groove (21), the hydraulic pump (14) is started to pull the movable frame (1) to slide along the direction of the sliding rod (12), the integral cutting is realized, in addition, the high-pressure suction fan (10) always provides high-pressure suction for the suction nozzle (16) in the cutting process, and the suction nozzle (16) always sucks the fragments generated by the cutting into the storage bag (8);

step three: when the cutting is finished, the small air pump (22) in the cutting plate assembly (7) is started to adjust the distance between the dividing plate (19) and the dividing plate (19), and the small air pump (22) is used for driving the pneumatic connecting rod (23) to extend to separate the cut roughage bread blocks from the roughage bread blocks.