CN216315175U - Bidirectional slitting conveying equipment - Google Patents

Abstract

The utility model discloses bidirectional slitting conveying equipment which comprises a flour pressing hoister, a lifting conveyor, a bidirectional slitting conveyor and a steamed bun forming machine, wherein the flour pressing hoister and the bidirectional slitting conveyor are connected through the lifting conveyor, and the steamed bun forming machine is arranged below the bidirectional slitting conveyor; the noodle pressing hoister comprises a prepressing part, a transition roller part and a pressing part, wherein the transition roller part is arranged between the prepressing part and the pressing part; the bidirectional slitting conveyor comprises conveying rollers, dough sheets enter the steamed bun forming machine through the conveying rollers, a dragon and a hob are arranged in the steamed bun forming machine, and the dough sheets are uniformly divided into round steamed bun blanks with equal sizes through the steamed bun forming machine. The utility model has high automation degree, increases the stability of the production process, greatly improves the production efficiency of steamed bread, lightens the working strength of workers, reduces the contact of hands of the workers and dough, and improves the sanitary standard.

Description

Bidirectional slitting conveying equipment

Technical Field

The utility model relates to a bidirectional cutting and conveying device for producing steamed bread, and belongs to the technical field of cooking machinery.

Background

At present, the steamed bun production conveying equipment in the market needs operators to manually cut and carry large doughs to a designated position, and the size and the transportation time of the doughs are unstable, so that the production process is fast and slow, the labor intensity of the operators is high, the working efficiency is low, the contact time between hands and the doughs is long, and the food sanitation is influenced.

Disclosure of Invention

The utility model aims to solve the technical problem of the prior art, and provides a bidirectional slitting conveying device, which replaces old equipment and manual operation with intelligent induction automation equipment, realizes automatic production, improves the working efficiency, reduces the working difficulty and increases the working process stability.

In order to solve the technical problem, the utility model provides bidirectional slitting conveying equipment which comprises a flour pressing hoister, a lifting conveyor, a bidirectional slitting conveyor and a steamed bun forming machine, wherein the flour pressing hoister and the bidirectional slitting conveyor are connected through the lifting conveyor, and the steamed bun forming machine is arranged below the bidirectional slitting conveyor; the dough pressing hoister comprises a pre-pressing part, a transition roller part and a pressing part, the transition roller part is arranged between the pre-pressing part and the pressing part, well kneaded dough is pre-pressed by the pre-pressing part and then conveyed to the pressing part through the transition roller to be kneaded and pressed, dough after twice pressing is formed into rectangular dough sheets, the pressed dough sheets enter a lifting conveyor, the dough sheets are conveyed to a bidirectional slitting conveyor through the lifting conveyor to be slit, the bidirectional slitting conveyor comprises conveying rollers, the dough sheets enter a steamed bun forming machine through the conveying rollers, flood dragon and a hob are arranged in the steamed bun forming machine, the dough sheets are uniformly divided into equally-sized circular steamed bun blanks through the steamed bun forming machine, and then the next procedure is carried out.

The lifting conveyor comprises a first lifting adjusting supporting leg, a first supporting frame, a first conveying belt, a first conveying driven roller and a first conveying driving roller, wherein one end of the first adjusting supporting leg is placed on the ground, and the other end of the first adjusting supporting leg is fixedly connected with the first supporting frame; the first support frame is of an L-shaped structure, one end of the first support frame is connected with the dough pressing hoister, the other end of the first support frame is fixedly supported with a first conveying belt, the first conveying conveyor is arranged near one end of the dough pressing hoister, a first conveying belt surrounds the first conveying belt and a first conveying driving roller near one end of the bidirectional slitting conveyor, and the dough sheet is conveyed to the bidirectional slitting conveyor through the first conveying belt to be slit.

The bidirectional slitting conveyor comprises a second adjusting support leg, a second support frame, a conveying support frame, a dough sheet conveying frame, a second conveying belt, a first photoelectric switch, conveying rollers, a first photoelectric switch support, a dough sheet slitting fixing frame, a slitting driven belt pulley, a slitting driving belt pulley, a dough sheet slitting cutter, a sliding block, a guide rail, a second speed reducer, a second photoelectric switch support, a transmission belt, a third speed reducer, a counting gear and a counting photoelectric switch, wherein one end of the second adjusting support leg is placed on the ground, the other end of the second adjusting support leg is fixedly connected with the second support frame, the second support frame is fixedly connected with the conveying support frame to support the conveying rollers, the second support frame is further provided with the dough sheet conveying frame, and the second conveying belt is arranged on the dough sheet conveying frame to convey the slit dough sheets to a designated end; conveying rollers are arranged at two ends of the dough sheet conveying frame, rollers are supported on the conveying rollers, and dough sheets enter the next procedure through the conveying rollers.

The tail end of the conveying roller is provided with a third photoelectric switch bracket, and the third photoelectric switch is fixedly arranged on the third photoelectric switch bracket and used for detecting whether a surface exists or not; a dough sheet slitting fixing frame is fixed at the top end of the supporting frame II, two sides of the bottom of the outer side of the dough sheet slitting fixing frame are fixedly connected with a photoelectric switch bracket I, and the photoelectric switch I is arranged on the photoelectric switch bracket I and used for detecting dough sheets; the dough sheet is conveyed to a designated position through the first conveying belt, the photoelectric switch transmits a signal to the host when detecting the dough sheet, the host issues an instruction, and the first conveying belt stops conveying.

A dovetail-shaped guide rail is fixed in the dough sheet slitting fixing frame, a sliding block is correspondingly installed on the guide rail and fixedly connected with a transmission belt through a fixing block, the sliding block is fixedly connected with the dough sheet slitting fixing frame, a dough sheet slitting cutter is fixedly installed on the dough sheet slitting fixing frame, the transmission belt is wound on a slitting driven pulley and a slitting driving pulley, the slitting driving pulley starts to work after the photoelectric switch detects a dough sheet, the transmission belt and the slitting driven pulley are driven to move, meanwhile, the dough sheet slitting cutter is driven to start to work for slitting, and the transmission belt continues to convey after slitting is finished; a counting gear and a counting photoelectric switch are mounted at one end, close to the slitting driving belt wheel, of the first conveying belt, the first conveying belt is wound around the counting gear, when the first conveying belt starts to work, the counting gear and the counting photoelectric switch also start to work, namely the counting gear starts to rotate, the counting photoelectric switch starts to record the number of teeth rotated by the counting gear, when the counting gear rotates to the set number of teeth, the first conveying belt stops conveying, and the slit dough sheet falls to a dough sheet conveying frame from one end part of the conveying belt; and the upper sides of the two ends of the dough sheet conveying frame are respectively and fixedly provided with a photoelectric switch bracket II, the photoelectric switch bracket II is arranged on the photoelectric switch bracket II and is used for detecting whether a dough sheet passes through, if the dough sheet is detected on the left side of the dough sheet conveying frame, the conveying belt II conveys the dough sheet to the right side, and after the photoelectric switch bracket II detects that the dough sheet passes through, the conveying belt II stops conveying to wait for the next process.

The number of teeth that the count gear rotated is the fixed value, effectively guarantees the even cutting of dough sheet.

The second speed reducer is fixedly installed on the dough sheet slitting fixing frame, the second speed reducer provides power for the slitting driving belt wheel, and the third speed reducer is fixedly installed at the bottom of the dough sheet conveying frame and provides power for a dough sheet conveying structure in the dough sheet conveying frame.

A flood dragon and a hob are arranged in the steamed bun forming machine, and the dough sheets are uniformly divided into round steamed bun blanks with equal sizes through the steamed bun forming machine.

Has the advantages that: according to the utility model, the bidirectional slitting conveyor is arranged to equally slit dough, and through photoelectric detection, the dough can be effectively conveyed according to the requirements of the steamed bun forming machines at the left end and the right end, so that the automation degree is high, the next process is continuously and stably carried out, the stability of the production process is increased, and two assembly line operations are arranged, so that the production efficiency of the steamed buns is greatly improved, the working intensity of workers is reduced, the contact between the hands of the workers and the dough is reduced, on one hand, the sanitary standard is improved, on the other hand, manpower is liberated, and the automation degree of the equipment is increased. The equipment realizes the automation of steamed bun production and processing, and has beneficial effects.

Drawings

FIG. 1 is a front view of the present invention in a schematic configuration;

FIG. 2 is a schematic view of the lifting conveyor and bi-directional slitting conveyor combination of the present invention;

FIG. 3 is a front view of the conveying and slitting apparatus of the present invention;

FIG. 4 is an enlarged view of the section A-A of FIG. 3 of the present invention;

FIG. 5 is an enlarged view of the utility model taken at B-B in FIG. 3;

FIG. 6 is an enlarged view of the present invention taken at C-C in FIG. 3.

In the figure: 1. a flour pressing hoister; 2. a lifting conveyor; 3. a bidirectional slitting conveyor; 4. a steamed bun forming machine; 201. adjusting the first support leg; 202. a first support frame; 203. a first conveying belt; 204. a conveying driven roller; 205. a conveying drive roll; 301. adjusting the second support leg; 302. a second support frame; 303. conveying the support frame; 304. a dough sheet conveying frame; 305. a second conveying belt; 306. a first photoelectric switch; 307. a conveying roller; 308. a photoelectric switch bracket I; 309. a dough sheet slitting fixing frame; 310. slitting the driven belt wheel; 311. slitting the driving belt wheel; 312. a dough sheet slicing knife; 313. a slider; 314. a guide rail; 315. a second speed reducer; 316. a photoelectric switch II; 317. a photoelectric switch bracket II; 318. a transmission belt; 319. a third speed reducer; 320. a counting gear; 321. a counting photoelectric switch; 322. a photoelectric switch III; 323. and a third photoelectric switch bracket.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

As shown in fig. 1-6, the utility model provides a bidirectional slitting conveying device, which comprises a flour pressing hoister 1, a lifting conveyor 2, a bidirectional slitting conveyor 3 and a steamed bun forming machine 4, wherein the flour pressing hoister 1 and the bidirectional slitting conveyor 3 are connected through the lifting conveyor 2, and the steamed bun forming machine 4 is arranged below the bidirectional slitting conveyor 3; the dough pressing hoister 1 comprises a pre-pressing part, a transition roller part and a pressing part, the transition roller part is arranged between the pre-pressing part and the pressing part, the well-kneaded dough is pre-pressed by the pre-pressing part and then conveyed to the pressing part through the transition roller to be kneaded, dough which is pre-pressed and pressed for two times forms a rectangular dough sheet with certain thickness and certain width, the thickness of the dough sheet can be set through adjusting a corresponding adjusting hand wheel, the width of the dough sheet is equal to the width of an outlet of the dough pressing hoister 1, the pressed dough sheet enters a lifting conveyor 2, the dough sheet is conveyed to a bidirectional slitting conveyor 3 through the lifting conveyor 2 to be slit, the bidirectional slitting conveyor 3 comprises a conveying roller 307, the dough sheet enters a steamed bun forming machine 4 through the conveying roller 307, a dragon and a hob are arranged in the steamed bun forming machine 4, and the dough sheet is uniformly divided into round steamed bun blanks with equal size through the steamed bun forming machine 4, and then the next process is carried out.

The lifting conveyor 2 comprises a first lifting adjusting supporting leg 201, a first supporting frame 202, a first conveying belt 203, a first conveying driven roller 204 and a first conveying driving roller 205, wherein one end of the first adjusting supporting leg 201 is placed on the ground, and the other end of the first adjusting supporting leg is fixedly connected with the first supporting frame 202; the first support frame 202 is of an L-shaped structure, one end of the first support frame is connected with the flour pressing hoister 1, the first support conveyer belt 203 is fixedly supported at the other end of the first support frame, the first lifting conveyer 2 is close to one end of the flour pressing hoister 1 and is provided with a conveying driven roller 204, the first conveyer belt 203 surrounds the conveying driven roller 204 and a conveying driving roller 205 close to one end of the bidirectional slitting conveyer 3, and the dough sheet is conveyed to the bidirectional slitting conveyer 3 through the first conveyer belt 203 to be slit.

The bidirectional slitting conveyor 3 comprises a second adjusting supporting leg 301, a second supporting frame 302, a conveying supporting frame 303, a dough sheet conveying frame 304, a second conveying belt 305, a first photoelectric switch 306, a conveying roller 307, a first photoelectric switch support 308, a dough sheet slitting fixing frame 309, a slitting driven belt wheel 310, a slitting driving belt wheel 311, a dough sheet slitting knife 312, a sliding block 313, a guide rail 314, a second speed reducer 315, a second photoelectric switch 316, a second photoelectric switch support 317, a conveying belt 318, a third speed reducer 319, a counting gear 320 and a counting photoelectric switch 321, one end of the second adjusting supporting leg 301 is placed on the ground, the other end of the second adjusting supporting leg 302 is fixedly connected with the second supporting frame 302, the second supporting frame 302 is fixedly connected with the conveying supporting frame 303 to support the conveying roller 307, the second supporting frame 302 is further provided with the dough sheet conveying frame 304, and the second conveying belt 305 is arranged on the dough sheet conveying frame 304 to convey the slit dough sheets to a designated end; conveying rollers 307 are arranged at two ends of the dough sheet conveying frame 304, roller supports are arranged on the conveying rollers 307, the conveying rollers 307 are enabled to rotate in the same direction, and dough sheets enter the next working procedure through the conveying rollers 307.

A third photoelectric switch bracket 323 is arranged at the tail end of the conveying roller 307, and the third photoelectric switch 322 is fixedly arranged on the third photoelectric switch bracket 323 and used for detecting whether a surface exists; a dough sheet slitting fixing frame 309 is fixed at the top end of the second supporting frame 302, two sides of the bottom of the outer side of the dough sheet slitting fixing frame 309 are fixedly connected with a first photoelectric switch bracket 308, and a first photoelectric switch 306 is installed on the first photoelectric switch bracket 308 and used for detecting dough sheets; the dough sheet is conveyed to a specified position through the first conveying belt 203, the first photoelectric switch 306 transmits a signal to the host computer when detecting the dough sheet, the host computer issues an instruction, and the first conveying belt 203 stops conveying.

A dovetail-shaped guide rail 314 is fixed in the dough sheet slitting fixing frame 309, a sliding block 313 is correspondingly installed on the guide rail 314, the sliding block 313 is fixedly connected with a transmission belt 318 through a fixing block, the sliding block 313 is fixedly connected with the dough sheet slitting fixing frame 309, a dough sheet slitting knife 312 is fixedly installed on the dough sheet slitting fixing frame 309, the transmission belt 318 is wound on a slitting driven pulley 310 and a slitting driving pulley 311, the slitting driving pulley 311 starts to work after the photoelectric switch I306 detects a dough sheet, the transmission belt 318 and the slitting driven pulley 310 are driven to move, meanwhile, the dough sheet slitting knife 312 is driven to start to work for slitting, and the transmission belt I203 continues to transmit after slitting is finished; a counting gear 320 and a counting photoelectric switch 321 are mounted at one end, close to the slitting driving belt wheel 311, of the first conveying belt 203, the first conveying belt 203 is wound around the counting gear 320, when the first conveying belt 203 starts to work, the counting gear 320 and the counting photoelectric switch 321 also start to work, namely, the counting gear 320 starts to rotate, the counting photoelectric switch 321 starts to record the number of teeth rotated by the counting gear 320, when the counting gear 320 rotates to the set number of teeth, the first conveying belt 203 stops conveying, and the slit dough sheet falls to the dough sheet conveying frame 304 from the end part of the first conveying belt 203; the upper sides of the two ends of the dough sheet conveying frame 304 are respectively and fixedly provided with a photoelectric switch bracket II 317, the photoelectric switch II 316 is arranged on the photoelectric switch bracket II 317 and used for detecting whether a dough sheet passes through, if the dough sheet is detected on the left side of the dough sheet conveying frame 304, the conveying belt II 305 conveys the dough sheet to the right side, and after the electric switch II 316 detects that the dough sheet passes through, the conveying belt II 305 stops conveying and waits for the next process.

The number of teeth that counter gear 320 rotated is the fixed value, effectively guarantees the even cutting of dough sheet.

The second speed reducer 315 is fixedly installed on the dough sheet slitting fixing frame 309, the second speed reducer 315 provides power for the slitting driving belt wheel 311, and the third speed reducer 319 is fixedly installed at the bottom of the dough sheet conveying frame 304 and provides power for a dough sheet conveying structure in the dough sheet conveying frame 304.

The use method of the bidirectional slitting conveying equipment comprises the following steps:

1) the dough sheet is conveyed by the first conveying belt 203, when the first photoelectric switch 306 does not detect the dough surface, the first conveying belt 203 keeps conveying at a constant speed all the time, when the first photoelectric switch 306 detects the dough surface, the first conveying belt 203 stops conveying, the dough sheet slicing knife 312 starts working, and the dough sheet slicing knife 312 moves from one side of the dough to the other side of the dough to complete transverse slitting;

2) the dough sheet slicing knife 312 finishes working, the first conveyer belt 203 continues to convey, meanwhile, the counting gear 320 rotates, the counting photoelectric switch 321 starts to record the number of teeth rotated by the counting gear 320, a set value is reached, the first conveyer belt 203 and the counting gear 320 stop rotating,

3) the cut dough sheet is conveyed to the tail end of the first conveying belt 203, and then falls off to a dough sheet conveying frame 304, and meanwhile, the next dough sheet is cut; the dough sheet slicing knife 312 moves transversely to the initial position, and the dough sheet is sliced;

4) the photoelectric switches three 322 at the two ends start to detect whether the surface exists, if the surfaces are not detected at the two ends, the conveying belt II 305 conveys to a set original end, if the surface exists at one end and the surface does not exist at the other end, the conveying belt II conveys to the end without the surface, and if the surfaces exist at the two ends, the conveying belt II does not convey;

5) waiting for the former two conditions in the step 4), when the second conveyer belt 305 has a surface, the first conveyer belt 203 does not work, namely the dough sheet is not conveyed, and the first conveyer belt 203 starts to convey until the conveying of the dough sheet on the second conveyer belt 305 is finished;

6) if the dough sheet falls off the second conveying belt 305, the photoelectric switches three 322 at the two ends sense the presence of the dough, the first conveying belt 202, the dough sheet cutting blade 312 and the second conveying belt 305 do not work until the photoelectric switches three 322 sense the absence of the dough at one end, and the second conveying belt 305 conveys the dough to the end without the dough;

7) if the third photoelectric switch 322 senses that the two ends of the dough sheet are provided with the dough sheets in the process of slitting the dough sheets by the dough sheet slitting knife 312, the dough sheet slitting knife 312 stops working until the third photoelectric switch 322 senses that one end of the dough sheet is not provided with the dough sheet, the second conveying belt 305 conveys the dough sheet to the end without the dough sheet, and the dough sheet slitting knife 312 continues slitting;

8) after cutting, the first conveyer belt 203 conveys, and in the second conveyer belt 305 conveying process, after the second 316 photoelectric switch detects that a surface passes through, the second 305 conveyer belt stops conveying and waits for the next process to start.

The utility model utilizes a dough pressing lifter to roll dough into a square dough sheet with a certain thickness and a certain width, the dough sheet is conveyed to a conveying and cutting device through a lifting conveyor, a photoelectric switch is arranged on the conveying and cutting device, when the dough sheet reaches a specified position and the conveying belt stops conveying, a dough sheet cutting knife starts cutting, the conveying belt conveys a specified distance again, at the moment, the counting photoelectric switch starts recording the number of teeth rotated by a counting gear, the conveying belt stops conveying when reaching a set value, the upper dough sheet falls off to a dough sheet conveying frame, the width of the next dough sheet to be cut is the distance taken away by the conveying belt, and so on, the conveying and cutting device equally divides the dough sheet, the dough sheet falling on the dough sheet conveying frame is conveyed to one end without sensing the dough sheet through the photoelectric switch, two sides of the conveying and cutting device are matched with two steamed bread forming machines, and the dough sheet with the same size enters the steamed bread forming machine for forming, forming uniform round steamed bread blanks with equal size; and two sides of the conveying and cutting equipment are provided with steamed bun forming machines for processing and forming steamed buns. The utility model shortens the production process of the steamed bread, improves the working efficiency and has high automation degree.

The above-described embodiments of the utility model are intended to be illustrative only and are not intended to be limiting, as all changes that come within the scope of or equivalence to the utility model are intended to be embraced therein.

Claims (7)

1. The utility model provides a conveying equipment is cut to two-way which characterized in that: the steamed bun making machine comprises a flour pressing lifting machine (1), a lifting conveyor (2), a bidirectional slitting conveyor (3) and a steamed bun making machine (4), wherein the flour pressing lifting machine (1) is connected with the bidirectional slitting conveyor (3) through the lifting conveyor (2), and the steamed bun making machine (4) is arranged below the bidirectional slitting conveyor (3); the dough pressing hoister (1) comprises a pre-pressing part, a transition roller part and a pressing part, the transition roller part is arranged between the pre-pressing part and the pressing part, well-kneaded dough is conveyed to the pressing part through a transition roller after being pre-pressed by the pre-pressing part and is kneaded and pressed, dough after two times of pressing forms a rectangular dough sheet, the pressed dough sheet enters a lifting conveyor (2), the dough sheet is conveyed to a two-way cutting conveyor (3) through the lifting conveyor (2) to be cut, the two-way cutting conveyor (3) comprises a conveying roller (307), the dough sheet enters a steamed bun forming machine (4) through the conveying roller (307), a flood dragon and a hob are arranged in the steamed bun forming machine (4), and the dough sheet is uniformly divided into round steamed bun blanks with the same size through the steamed bun forming machine (4) and then enters the next procedure.

2. The bidirectional slitting conveying apparatus according to claim 1, wherein: the bidirectional slitting conveyor (3) comprises a second adjusting supporting leg (301), a second supporting frame (302), a first conveying supporting frame (303), a dough sheet conveying frame (304), a second conveying belt (305), a first photoelectric switch (306), a conveying roller (307), a first photoelectric switch support (308), a dough sheet slitting fixing frame (309), a slitting driven belt wheel (310), a slitting driving belt wheel (311), a dough sheet slitting knife (312), a sliding block (313), a guide rail (314), a second speed reducer (315), a second photoelectric switch (316), a second photoelectric switch support (317), a transmission belt (318), a third speed reducer (319), a counting gear (320) and a counting photoelectric switch (321), wherein one end of the second adjusting supporting leg (301) is placed on the ground, the other end of the second adjusting supporting leg (301) is fixedly connected with the second supporting frame (302), and the second supporting frame (302) is fixedly connected with the conveying supporting frame (303) to support the conveying roller (307), a dough sheet conveying frame (304) is further mounted on the second supporting frame (302), and a second conveying belt (305) is arranged on the dough sheet conveying frame (304) to convey the cut dough sheets to a designated end; conveying rollers (307) are arranged at two ends of the dough sheet conveying frame (304), roller supports are arranged on the conveying rollers (307), and dough sheets enter the next working procedure through the conveying rollers (307).

3. The bidirectional slitting conveying apparatus according to claim 1, wherein: a third photoelectric switch bracket (323) is arranged at the tail end of the conveying roller (307), and the third photoelectric switch (322) is fixedly arranged on the third photoelectric switch bracket (323) and used for detecting whether a surface exists or not; a dough sheet slitting fixing frame (309) is fixed at the top end of the second supporting frame (302), two sides of the bottom of the outer side of the dough sheet slitting fixing frame (309) are fixedly connected with a first photoelectric switch bracket (308), and a first photoelectric switch (306) is installed on the first photoelectric switch bracket (308) and used for detecting dough sheets.

4. The bidirectional slitting conveying apparatus according to claim 2, characterized in that: a dovetail-shaped guide rail (314) is fixed in the dough sheet slitting fixing frame (309), a sliding block (313) is correspondingly installed on the guide rail (314), the sliding block (313) is fixedly connected with a transmission belt (318) through a fixing block, the sliding block (313) is fixedly connected with the dough sheet slitting fixing frame (309), a dough sheet slitting knife (312) is fixedly installed on the dough sheet slitting fixing frame (309), and the transmission belt (318) is wound on the slitting driven pulley (310) and the slitting driving pulley (311); one end of the first conveying belt (203), which is close to the slitting driving belt wheel (311), is provided with a counting gear (320) and a counting photoelectric switch (321), the first conveying belt (203) is wound around the counting gear (320), and when the first conveying belt (203) starts to work, the counting gear (320) and the counting photoelectric switch (321) also start to work; and the upper sides of the two ends of the dough sheet conveying frame (304) are respectively and fixedly provided with a photoelectric switch bracket II (317), and the photoelectric switch II (316) is arranged on the photoelectric switch bracket II (317) and used for detecting whether a dough sheet passes through.

5. The bidirectional slitting conveying apparatus according to claim 2 or 4, characterized in that: the second speed reducer (315) is fixedly installed on the dough sheet slitting fixing frame (309), the second speed reducer (315) provides power for the slitting driving belt wheel (311), and the third speed reducer (319) is fixedly installed at the bottom of the dough sheet conveying frame (304) and provides power for a dough sheet conveying structure in the dough sheet conveying frame (304).

6. The bidirectional slitting conveyor apparatus according to any one of claims 1 to 4, wherein: the lifting conveyor (2) comprises a first lifting adjusting supporting leg (201), a first supporting frame (202), a first conveying belt (203), a first conveying driven roller (204) and a first conveying driving roller (205), one end of the first adjusting supporting leg (201) is placed on the ground, and the other end of the first adjusting supporting leg is fixedly connected with the first supporting frame (202); the supporting frame I (202) is an L-shaped structure, one end of the supporting frame I is connected with the flour pressing hoister (1), the other end of the supporting frame I (203) is fixedly supported by a conveying belt I, the lifting conveyor (2) is close to one end of the flour pressing hoister (1) and is provided with a conveying driven roller (204), the conveying belt I (203) surrounds the conveying driven roller (204) and is close to a conveying driving roller (205) at one end of the bidirectional slitting conveyor (3), and the dough sheet is conveyed to the bidirectional slitting conveyor (3) through the conveying belt I (203) to be slit.

7. The bidirectional slitting conveying apparatus according to claim 5, wherein: the lifting conveyor (2) comprises a first lifting adjusting supporting leg (201), a first supporting frame (202), a first conveying belt (203), a first conveying driven roller (204) and a first conveying driving roller (205), one end of the first adjusting supporting leg (201) is placed on the ground, and the other end of the first adjusting supporting leg is fixedly connected with the first supporting frame (202); the supporting frame I (202) is an L-shaped structure, one end of the supporting frame I is connected with the flour pressing hoister (1), the other end of the supporting frame I (203) is fixedly supported by a conveying belt I, the lifting conveyor (2) is close to one end of the flour pressing hoister (1) and is provided with a conveying driven roller (204), the conveying belt I (203) surrounds the conveying driven roller (204) and is close to a conveying driving roller (205) at one end of the bidirectional slitting conveyor (3), and the dough sheet is conveyed to the bidirectional slitting conveyor (3) through the conveying belt I (203) to be slit.

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