CN113331225A

CN113331225A - Dough processing equipment for flour product processing

Info

Publication number: CN113331225A
Application number: CN202110524084.9A
Authority: CN
Inventors: 林乐育
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-05-13
Filing date: 2021-05-13
Publication date: 2021-09-03

Abstract

The invention relates to dough processing equipment, in particular to dough processing equipment for processing flour products. The invention provides a dough processing device for processing flour products, which can automatically extrude and cut off and reduce waste. The utility model provides a dough processing equipment is used in flour goods processing, is equipped with two first support frames including bottom plate, first support frame and second support frame on the bottom plate, is equipped with the second support frame on the bottom plate, is equipped with extrusion mechanism on the bottom plate, and extrusion mechanism is connected with first support frame, is equipped with shutdown mechanism on the bottom plate, and shutdown mechanism and extrusion mechanism cooperate. The automatic extrusion device is provided with the reciprocating mechanism, the rotating mechanism operates to drive the reciprocating mechanism to operate, and the cutting mechanism operates to cut off the small dough, so that the purpose of automatic cutting is achieved.

Description

Dough processing equipment for flour product processing

Technical Field

The invention relates to dough processing equipment, in particular to dough processing equipment for processing flour products.

Background

At present, wheaten food is one of the foods popular with the masses, the demand of wheaten food is increasing day by day, and the main structure of the existing dough processing and forming equipment mainly uses stirring as the main part, the dough is extruded and processed after the stirring, so that the time for processing the flour is long, and then the processing efficiency of the wheaten food can be reduced, thereby a large amount of demands of the catering industry can not be met, and the existing dough processing equipment has a too simple structure, the degree of automation is lower, and then the labor intensity of workers is increased, and in addition, when the dough is extruded by the existing dough processing equipment, a large amount of flour waste can be caused.

Patent application CN108967457A, it is 2018.12.11 to disclose an automated processing equipment for dough, which comprises a base, the fixed plate, the processing case, clamp plate one, cylinder one, clamp plate two, cylinder two, the push pedal, cylinder three and clamp plate three etc, make motor work through control switch, the motor drives pivot work afterwards, make the pivot drive the rocker motion, and then make the rocker drive connecting rod and adjustable shelf activity, thereby make the adjustable shelf lower extreme drive the movable rod up-and-down motion in the sleeve, then make clamp plate three extrude the dough of processing incasement, process dough so, however, the device can not realize the purpose of automatic cutout dough.

Accordingly, there is a need to develop a dough processing apparatus for flour product processing that can automatically extrude, automatically cut, and reduce waste.

Disclosure of Invention

The invention aims to provide dough processing equipment for processing flour products, which can automatically extrude and cut off and reduce waste, so as to overcome the defects of low automation degree, high labor intensity and high waste of flour of the existing processing equipment in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a dough processing equipment is used in flour goods processing, is equipped with two first support frames including bottom plate, first support frame and second support frame on the bottom plate, is equipped with the second support frame on the bottom plate, is equipped with extrusion mechanism on the bottom plate, and extrusion mechanism is connected with first support frame, is equipped with shutdown mechanism on the bottom plate, and shutdown mechanism and extrusion mechanism cooperate.

Optionally, a first fixing block is arranged on the bottom plate, an air cylinder is arranged on the first fixing block, an extrusion frame is connected between the tops of the two first support frames, a first extrusion block is slidably arranged on the inner side of the extrusion frame and connected with the air cylinder, and three extrusion ports are formed in the extrusion frame.

Optionally, a second fixing block is arranged on the bottom plate, a first elastic assembly is slidably arranged on the inner side of the upper portion of the second fixing block, a cutter is arranged at the bottom of the first elastic assembly, and the cutter is matched with the extrusion opening.

Optionally, a slide rail is arranged on the extrusion frame, a rack is arranged on the slide rail in a sliding mode, the rack is connected with the first extrusion block, a third fixed block is arranged on the bottom plate, first rotating shafts are arranged on the extrusion frame and the third fixed block in an equal rotating mode, a directional gear is arranged on the first rotating shaft on one side close to the rack, the directional gear is meshed with the rack, a first transmission assembly is connected between the two first rotating shafts, a second rotating shaft is arranged on the inner side of the bottom plate in a rotating mode, a bevel gear set is arranged on the second rotating shaft and connected with the first rotating shaft on one side far away from the rack, two third rotating shafts are connected with the inner side of the second support frame in a rotating mode, a second transmission assembly is connected between the second rotating shaft and the third rotating shaft on one side close to the third fixed block, a conveyor belt is wound on the two third rotating shafts, and the conveyor belt is located inside the second support frame.

Optionally, a rotating frame is rotatably arranged on the inner side of the upper portion of the third fixing block, a third transmission assembly is connected between the rotating frame and a first rotating shaft on one side far away from the rack, six convex blocks are arranged on the rotating frame, a second elastic assembly is arranged on the second fixing block, a second extrusion block is slidably arranged on the second elastic assembly, the second extrusion block is matched with the convex blocks, and the second extrusion block is connected with the first elastic assembly.

Optionally, a fourth fixing block is arranged on the upper portion of the second fixing block, a loading frame is arranged on the fourth fixing block, a third elastic assembly is arranged on the inner side of the loading frame in a sliding mode, an inclined block is arranged on the cutter, and the third elastic assembly is matched with the inclined block.

Optionally, be equipped with rotatory piece in the third pivot of keeping away from one side of third fixed block, be equipped with two flexible subassemblies on the bottom plate, be connected with the screening frame between the flexible subassembly of front and back both sides, screening frame and second support frame cooperation are equipped with the connecting rod on the screening frame, connecting rod and second support frame sliding type connection, connecting rod and rotatory piece cooperation are equipped with the sloping on the bottom plate, and the sloping is connected with the second support frame, and the sloping is located the screening frame below.

Optionally, the material of the connecting rod is an alloy.

Compared with the prior art, the invention has the beneficial effects that:

1. the automatic extruding machine is provided with the extruding mechanism, so that people can operate the extruding mechanism to extrude large dough into small dough, and the purpose of automatic extruding is achieved;

2. according to the invention, the cutting mechanism is arranged, and after the extruding mechanism extrudes the small dough pieces, people enable the cutting mechanism to operate, so that the small dough pieces are cut off, and the purpose of cutting off the dough pieces is achieved, so that the operation is time-saving and labor-saving;

3. the rotary mechanism is arranged, the extrusion mechanism operates to drive the rotary mechanism to operate, so that the extruded small dough pieces move rightwards, and then the small dough pieces are taken down by people, so that the processed dough pieces can be conveniently collected by people;

4. the automatic cutting machine is provided with the reciprocating mechanism, the rotating mechanism operates to drive the reciprocating mechanism to operate, and then the cutting mechanism operates, so that small dough pieces are cut off, and the purpose of automatic cutting is achieved;

5. according to the flour anti-sticking device, the discharging mechanism is arranged, and the cutting mechanism operates to drive the discharging mechanism to operate, so that the discharging mechanism intermittently ejects flour, the flour can be prevented from being stuck in the rotating mechanism, and the anti-sticking effect is achieved;

6. according to the invention, the screening mechanism is arranged, the rotating mechanism operates to drive the screening mechanism to operate, the screening mechanism operates and screens the dough, so that the dough is separated from redundant flour, the purpose of automatic screening is achieved, and meanwhile, people can repeatedly utilize the screened flour, so that waste can be reduced.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the pressing mechanism of the present invention.

Fig. 3 is a schematic perspective view of the cutting mechanism of the present invention.

Fig. 4 is a schematic perspective view of the rotating mechanism of the present invention.

Fig. 5 is a schematic perspective view of the reciprocating mechanism of the present invention.

Fig. 6 is a schematic perspective view of the discharging mechanism of the present invention.

Fig. 7 is a schematic perspective view of the screening mechanism of the present invention.

The meaning of the reference symbols in the figures: 1: bottom plate, 2: first support frame, 3: second support frame, 4: pressing mechanism, 41: first fixing block, 42: cylinder, 43: first extrusion block, 44: extrusion frame, 45: extrusion opening, 5: cutting mechanism, 51: second fixed block, 52: first elastic member, 53: a cutter, 6: rotation mechanism, 61: rack, 62: slide rail, 63: directional gear, 64: first rotating shaft, 65: first transfer assembly, 66: third fixed block, 67: bevel gear set, 68: second rotation shaft, 69: second transmission assembly, 610: third rotating shaft, 611: conveyor belt, 7: reciprocating mechanism, 71: second extrusion block, 72: second elastic member, 73: bump, 74: rotating frame, 75: third transmission assembly, 8: discharge mechanism, 81: fourth fixed block, 82: charging frame, 83: third elastic component, 84: swash block, 9: screening mechanism, 91: rotation block, 92: connecting rod, 93: screening box, 94: telescoping assembly, 95: and (4) a sloping frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious 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. 1-7, the present invention provides a technical solution: a dough processing device for processing flour products comprises a bottom plate 1, a first support frame 2, a second support frame 3, an extrusion mechanism 4, a first fixed block 41, an air cylinder 42, a first extrusion block 43, an extrusion frame 44, an extrusion opening 45, a cutting mechanism 5, a second fixed block 51, a first elastic component 52, a cutter 53, a rotating mechanism 6, a rack 61, a slide rail 62, a directional gear 63, a first rotating shaft 64, a first transmission component 65, a third fixed block 66, a bevel gear set 67, a second rotating shaft 68, a second transmission component 69, a third rotating shaft 610, a transmission belt 611, a reciprocating mechanism 7, a second extrusion block 71, a second elastic component 72, a convex block 73, a rotating frame 74, a third transmission component 75, a discharge mechanism 8, a fourth fixed block 81, a loading frame 82, a third elastic component 83, an inclined block 84, a screening mechanism 9, a rotating block 91, a connecting rod 92, a screening frame 93, an expansion component 94 and an inclined frame 95, the rear portion is equipped with two first support frames 2 on the bottom plate 1, and the front portion is equipped with second support frame 3 on the bottom plate 1, is equipped with extrusion mechanism 4 on the bottom plate 1, and extrusion mechanism 4 is connected with first support frame 2, and the front side is equipped with shutdown mechanism 5 on the bottom plate 1, and shutdown mechanism 5 and extrusion mechanism 4 cooperate.

The rear side of the bottom plate 1 is provided with a first fixing block 41, the upper part of the front side of the first fixing block 41 is provided with an air cylinder 42, the tops of the first support frames 2 on the front side and the rear side are connected with an extrusion frame 44, a first extrusion block 43 is arranged on the inner side of the extrusion frame 44 in a sliding manner, the first extrusion block 43 is connected with the air cylinder 42, and the front side of the extrusion frame 44 is provided with three extrusion ports 45.

The front side is equipped with second fixed block 51 on bottom plate 1, and the inboard side in second fixed block 51 upper portion is equipped with first elastic component 52 of slidingtype, and first elastic component 52 bottom is equipped with cutter 53, and cutter 53 cooperates with extrusion mouth 45, and first elastic component 52 comprises a slide bar and a spring, and slide bar sliding type connection is inboard at second fixed block 51, and the slide bar bottom is connected with cutter 53, around having the spring on the slide bar, and spring coupling is between second fixed block 51 and slide bar.

A sliding rail 62 is arranged at the rear part of the extrusion frame 44, a rack 61 is arranged on the sliding rail 62 in a sliding manner, the rack 61 is connected with the first extrusion block 43, a third fixing block 66 is arranged at the front part of the left side of the base plate 1, a first rotating shaft 64 is arranged at the rear side of the lower part of the left side of the extrusion frame 44 and at the left side of the third fixing block 66 in a rotating manner, a directional gear 63 is arranged on the first rotating shaft 64 at the rear side, the directional gear 63 is meshed with the rack 61, a first transmission assembly 65 is connected between the two first rotating shafts 64, the first transmission assembly 65 is composed of two belt pulleys and a belt, the two belt pulleys are both connected on the first rotating shaft 64, the belt is wound between the two belt pulleys, a second rotating shaft 68 is arranged at the inner side of the left part of the base plate 1 in a rotating manner, a bevel gear set 67 is arranged at the rear side of the second rotating shaft 68, the bevel gear set 67 is connected with the first rotating shaft 64 at the front side, two third rotating shafts 610 are connected at the inner side of the second support frame 3 in a rotating manner, a second transmission assembly 69 is connected between the second rotating shaft 68 and the left third shaft 610, the second transmission assembly 69 is composed of two belt pulleys and a belt, the left belt pulley is connected to the second rotating shaft 68, the right belt pulley is connected to the left third rotating shaft 610, the belt is wound between the two belt pulleys, the left and right third rotating shafts 610 are wound with the transmission belt 611, and the transmission belt 611 is located inside the second supporting frame 3.

A rotating frame 74 is rotatably arranged on the inner side of the upper part of the third fixed block 66, a third transmission assembly 75 is connected between the left side of the rotating frame 74 and the first rotating shaft 64 on the front side, the third transmission assembly 75 is composed of two belt pulleys and a belt, the belt pulley on the upper side is connected to the rotating frame 74, the belt pulley on the lower side is connected to the first rotating shaft 64 on the front side, the belt is wound between the two belt pulleys, six convex blocks 73 are arranged on the right side of the rotating frame 74, a second elastic assembly 72 is arranged on the front part of the top side of the second fixed block 51, a second extrusion block 71 is slidably arranged on the second elastic assembly 72, the second extrusion block 71 is matched with the convex blocks 73, the second extrusion block 71 is connected with the first elastic assembly 52, the second elastic assembly 72 is composed of a sliding rod and a spring, the sliding rod is connected to the top of the second fixed block 51, the sliding rod is slidably connected with the second extrusion block 71, the sliding rod is wound with a spring, and the spring is connected between the second extrusion block 71 and the second fixed block 51.

The upper portion of the second fixing block 51 is provided with a fourth fixing block 81, the rear side of the fourth fixing block 81 is provided with a loading frame 82, the inner side of the loading frame 82 is provided with a third elastic component 83 in a sliding mode, the right portion of the top side of the cutter 53 is provided with an inclined block 84, the third elastic component 83 is matched with the inclined block 84, the third elastic component 83 is composed of a sliding rod and a spring, the sliding rod is connected to the inner side of the loading frame 82 in a sliding mode and is matched with the inclined block 84, the spring is wound on the sliding rod, and the spring is connected between the sliding rod and the loading frame 82.

Third pivot 610 front side on right side is equipped with rotatory piece 91, the right part is equipped with two flexible subassemblies 94 on bottom plate 1, be connected with screening frame 93 between the flexible subassembly 94 of front and back both sides, screening frame 93 and the cooperation of second support frame 3, flexible subassembly 94 comprises a telescopic link and a spring, the telescopic link is connected between bottom plate 1 and screening frame 93, the spring is around on the telescopic link, spring coupling is between telescopic link and screening frame 93, screening frame 93 front side left part is equipped with connecting rod 92, connecting rod 92 and 3 sliding type connections of second support frame, connecting rod 92 and the cooperation of rotatory piece 91, the right side is equipped with the sloping 95 on bottom plate 1, sloping 95 is connected with second support frame 3, sloping 95 is located screening frame 93 below.

When people need add man-hour to bold dough, at first people pour into bold dough in extrusion mechanism 4, then make extrusion mechanism 4 operation, extrusion mechanism 4 extrudees the dough, thereby make it form the dough of a plurality of fritters, people make shutdown mechanism 5 operation again, shutdown mechanism 5 will extrude the dough that is good and cut off, the dough of fritter drops to second support frame 3 because gravity again in, people collects it again, then people make shutdown mechanism 5 resume normal position, treat that the dough is whole to accomplish the processing after, people make extrusion mechanism 4 and shutdown mechanism 5 stall, if reuse this equipment, it can to repeat above-mentioned step.

After people pour large dough into the extrusion frame 44, then the air cylinder 42 is opened, the air cylinder 42 is operated to enable the first extrusion block 43 to repeatedly slide back and forth in the extrusion frame 44, when the first extrusion block 43 moves forwards, the first extrusion block 43 enables the dough to be extruded from the extrusion port 45, the purpose of automatic extrusion is achieved, then people cut the extruded small dough, in addition, the forward movement of the first extrusion block 43 can prevent the dough just poured into the extrusion frame 44 from moving downwards, then the first extrusion block 43 moves backwards and returns to the original position, and after the dough is completely processed, people close the air cylinder 42 to enable the first extrusion block 43 to stop moving.

When the small dough is moved out of the material extruding opening 45, people manually enable the first elastic component 52 to slide downwards in the second fixing block 51, meanwhile, the first elastic component 52 is changed from an initial state to a compressed state, in addition, the first elastic component 52 moves to enable the cutter 53 to move downwards, and then the dough on the material extruding opening 45 is cut off, so that the purpose of cutting off the dough is achieved, then people loosen the first elastic component 52, the first elastic component 52 is reset from the compressed state, the cutter 53 is moved back to the original position through elastic force, and after the dough is completely processed, people do not push the first elastic component 52 any more.

The cut small pieces of dough drop onto the conveyor belt 611 due to gravity, when the first extrusion block 43 moves forward, the first extrusion block 43 causes the rack 61 to slide forward on the slide rail 62, the rack 61 is engaged with the directional gear 63, the rack 61 moves to cause the directional gear 63 to rotate, and further the first rotating shaft 64 on the rear side to rotate, thereby causing the first transmission assembly 65 to rotate, the first transmission assembly 65 rotates to cause the first rotating shaft 64 on the front side to rotate, and then the bevel gear set 67 rotates, and further the second rotating shaft 68 rotates, thereby causing the second transmission assembly 69 to rotate, the second transmission assembly 69 rotates to cause the third rotating shaft 610 on the left side to rotate, and further the conveyor belt 611 rotates clockwise, thereby causing the third rotating shaft 610 on the right side to rotate, the conveyor belt 611 contacts with the dough and generates friction, the friction force causes the dough to move rightward, and then the dough drops onto the second support frame 3 from the right side of the conveyor belt 611 due to gravity, and then slide down from the second support frame 3, and then people collect the dough, when the first extrusion block 43 moves back to the original position, the directional gear 63 idles, so that the conveyor belt 611 stops rotating, and thus people can conveniently collect the dough.

When the first rotating shaft 64 on the front side rotates, the first rotating shaft 64 on the front side drives the third transmission assembly 75 to rotate, and further the rotating frame 74 rotates, so that the projection 73 makes circular motion, when the projection 73 moves to be in contact with the second extrusion block 71, the projection 73 makes the second extrusion block 71 slide downwards on the second elastic assembly 72, the second elastic assembly 72 is changed from an initial state to a compressed state, in addition, the second extrusion block 71 moves to make the first elastic assembly 52 move downwards, and then the cutter 53 moves downwards, and simultaneously the first elastic assembly 52 is changed from the initial state to the compressed state, the cutter 53 moves downwards and cuts off the small dough, so that the purpose of automatic cutting is achieved, when the projection 73 is separated from the second extrusion block 71, the second elastic assembly 72 and the first elastic assembly 52 are both reset in the compressed state, so that the second extrusion block 71 and the cutter 53 move back to the original position.

When the cutter 53 moves downwards, the cutter 53 drives the inclined block 84 to move downwards, the inclined block 84 moves downwards to enable the third elastic component 83 to slide forwards in the material loading frame 82, meanwhile, the third elastic component 83 is changed into a compressed state from an initial state, in addition, the third elastic component 83 moves forwards to enable the internal pressure of the material loading frame 82 to be increased, so that flour is sprayed out of the bottom of the material loading frame 82, the sprayed flour falls onto the conveying belt 611 due to gravity, the small dough can be prevented from being stuck on the conveying belt 611 after falling downwards, the anti-sticking effect is achieved, when the cutter 53 drives the inclined block 84 to move upwards and back to the original position, the third elastic component 83 is reset from the compressed state, and the flour spraying out of the bottom of the material loading frame 82 is stopped at the moment.

The small dough and flour will slide from the right side of the conveyor belt 611 to the second support frame 3 due to gravity, and then slide from the second support frame 3 to the screening frame 93, when the third rotating shaft 610 on the right side rotates, the third rotating shaft 610 on the right side drives the rotating block 91 to rotate, when the rotating block 91 rotates to contact with the connecting rod 92, the rotating block 91 rotates to make the connecting rod 92 slide downwards on the second support frame 3, and further make the screening frame 93 move downwards, the telescopic assembly 94 changes from the initial state to the compressed state, when the rotating block 91 is separated from the connecting rod 92, the telescopic assembly 94 is reset from the compressed state, the elastic force makes the screening frame 93 and the connecting rod 92 move back to the original position, so that the rotating block 91 rotates to make the screening frame 93 move up and down repeatedly, the screening frame 93 moves and screens the dough, so that the dough is separated from the redundant flour, the purpose of automatic screening is achieved, the dough slides downwards from the screening frame 93 due to gravity, people collect it again, and flour drops to the sloping frame 95 on through screening frame 93 because of gravity, and the landing downwards again from screening frame 93, and people collect it this moment, pours flour into to the frame 82 of feeding into again, so make flour obtain make full use of to can reduce extravagantly.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a dough processing equipment is used in flour goods processing, including bottom plate (1), first support frame (2) and second support frame (3), a serial communication port, be equipped with two first support frame (2) on bottom plate (1), be equipped with second support frame (3) on bottom plate (1), be equipped with extrusion mechanism (4) on bottom plate (1), extrusion mechanism (4) are connected with first support frame (2), be equipped with shutdown mechanism (5) on bottom plate (1), shutdown mechanism (5) and extrusion mechanism (4) cooperation.

2. The dough processing apparatus for processing flour products according to claim 1, wherein the bottom plate (1) is provided with a first fixing block (41), the first fixing block (41) is provided with a cylinder (42), an extrusion frame (44) is connected between the tops of the two first supporting frames (2), the inner side of the extrusion frame (44) is slidably provided with a first extrusion block (43), the first extrusion block (43) is connected with the cylinder (42), and the extrusion frame (44) is provided with three extrusion ports (45).

3. An apparatus for processing dough for processing flour products according to claim 2, wherein the bottom plate (1) is provided with a second fixed block (51), the inner side of the upper part of the second fixed block (51) is slidably provided with a first elastic member (52), the bottom of the first elastic member (52) is provided with a cutter (53), and the cutter (53) is matched with the extruding opening (45).

4. A dough processing apparatus for flour product processing according to claim 3, wherein the extrusion frame (44) is provided with a slide rail (62), the slide rail (62) is provided with a rack (61) in a sliding manner, the rack (61) is connected with the first extrusion block (43), the bottom plate (1) is provided with a third fixing block (66), the extrusion frame (44) and the third fixing block (66) are respectively provided with a first rotating shaft (64) in a rotating manner, the first rotating shaft (64) near one side of the rack (61) is provided with a directional gear (63), the directional gear (63) is meshed with the rack (61), a first transmission assembly (65) is connected between the two first rotating shafts (64), the inner side of the bottom plate (1) is provided with a second rotating shaft (68) in a rotating manner, the second rotating shaft (68) is provided with a bevel gear set (67), the bevel gear set (67) is connected with the first rotating shaft (64) far away from one side of the rack (61), two third rotating shafts (610) are rotatably connected to the inner side of the second supporting frame (3), a second transmission assembly (69) is connected between the second rotating shaft (68) and the third rotating shaft (610) close to one side of the third fixing block (66), a conveying belt (611) is wound on the two third rotating shafts (610), and the conveying belt (611) is located inside the second supporting frame (3).

5. The dough processing apparatus for processing flour products according to claim 4, wherein a rotating frame (74) is rotatably arranged on the inner side of the upper part of the third fixing block (66), a third transmission assembly (75) is connected between the rotating frame (74) and the first rotating shaft (64) on the side far away from the rack (61), six convex blocks (73) are arranged on the rotating frame (74), a second elastic assembly (72) is arranged on the second fixing block (51), a second extrusion block (71) is slidably arranged on the second elastic assembly (72), the second extrusion block (71) is matched with the convex blocks (73), and the second extrusion block (71) is connected with the first elastic assembly (52).

6. A dough processing apparatus for flour product processing according to claim 5, wherein the second fixing block (51) is provided at the upper portion thereof with a fourth fixing block (81), the fourth fixing block (81) is provided with a loading frame (82), the loading frame (82) is slidably provided at the inner side thereof with a third elastic member (83), the cutter (53) is provided with a slanting block (84), and the third elastic member (83) is engaged with the slanting block (84).

7. The dough processing apparatus for flour product processing according to claim 6, wherein a rotating block (91) is arranged on a third rotating shaft (610) on one side far away from a third fixed block (66), two telescopic assemblies (94) are arranged on the bottom plate (1), a screening frame (93) is connected between the telescopic assemblies (94) on the front side and the rear side, the screening frame (93) is matched with the second support frame (3), a connecting rod (92) is arranged on the screening frame (93), the connecting rod (92) is connected with the second support frame (3) in a sliding manner, the connecting rod (92) is matched with the rotating block (91), an inclined frame (95) is arranged on the bottom plate (1), the inclined frame (95) is connected with the second support frame (3), and the inclined frame (95) is positioned below the screening frame (93).

8. An apparatus for processing dough for processing flour products according to claim 7, wherein the material of the connecting rod (92) is an alloy.