CN114849516A

CN114849516A - High-efficiency raw material mixing device for producing spicy strips and implementation method thereof

Info

Publication number: CN114849516A
Application number: CN202210793136.7A
Authority: CN
Inventors: 聂灿华
Original assignee: Hunan Fantianwa Food Co ltd
Current assignee: Hunan Fantianwa Food Co ltd
Priority date: 2022-07-07
Filing date: 2022-07-07
Publication date: 2022-08-05

Abstract

The invention relates to the technical field of raw material mixing devices, in particular to a high-efficiency raw material mixing device for spicy strip production and an implementation method thereof, wherein the high-efficiency raw material mixing device comprises a support frame, a stirring assembly is arranged above the support frame, the stirring assembly comprises a servo motor, the output end of the servo motor is connected with a stirring shaft, the other end of the stirring shaft is connected with a stirring paddle, and a stirring box is arranged outside the stirring paddle; the feeding assembly comprises a storage hopper and a transmission assembly, the transmission assembly comprises a second lead screw, a second nut pair is connected to the outer portion of the second lead screw, and the storage hopper is connected to the upper portion of the second nut pair. According to the invention, the raw materials can be effectively fed and fully stirred by the stirring paddle, so that the raw materials are stirred more uniformly and efficiently, and the condition that the flour raw materials are coagulated into small dry powder blocks in the stirring process is effectively avoided.

Description

High-efficiency raw material mixing device for producing spicy strips and implementation method thereof

Technical Field

The invention relates to the technical field of raw material mixing devices, in particular to a high-efficiency raw material mixing device for spicy stick production and an implementation method thereof.

Background

The spicy strips are also called big gluten, vegetarian beef tendon and the like, and are food made from wheat flour or other grains and beans as main raw materials, and when the flour raw materials of the spicy strips are mixed, a horizontal flour mixer is usually adopted to mix and stir the raw materials.

However, when the existing horizontal dough mixer mixes and stirs the spicy raw flour, the proportioned raw materials are usually added into the stirring box at one time and then stirred and mixed, but when the raw flour is stirred and mixed by the stirring mode and the feeding mode, the flour cannot be uniformly and fully mixed, and the flour after stirring and mixing is easy to remain in a dry powder caking state, so that the condition that the raw flour is not uniformly mixed occurs, and the subsequent spicy strips are seriously affected, so that the problem needs to be solved by designing a high-efficiency raw material mixing device for spicy strip production and an implementation method thereof.

Disclosure of Invention

The invention aims to provide a high-efficiency raw material mixing device for producing spicy strips and an implementation method thereof, and aims to solve the problems that when raw flour is stirred and mixed in the background technology, the flour cannot be uniformly and fully mixed, and the raw flour is not uniformly mixed due to the fact that dry flour is easy to remain in a conglobation state after stirring and mixing.

In order to achieve the purpose, the invention provides the following technical scheme: a high-efficiency raw material mixing device for producing spicy strips and an implementation method thereof comprise the following steps:

the stirring device comprises a support frame, wherein a stirring assembly is arranged above the support frame, the stirring assembly comprises a servo motor, the output end of the servo motor is connected with a stirring shaft, the other end of the stirring shaft is connected with a stirring paddle, and a stirring box is arranged outside the stirring paddle;

the water supply assembly comprises a water tank, a water pump is connected above the water tank, the other end of the water pump is connected with a water pipe, the other end of the water pipe is connected with a flow dividing pipe, and the bottom of the flow dividing pipe is connected with a flow dividing head;

the feeding assembly comprises a servo cylinder, the servo cylinder is fixedly connected to the top of the support frame, a sealing cover plate is arranged above the servo cylinder, a supporting seat is connected above the sealing cover plate, and a storage hopper is arranged above the supporting seat;

the transmission assembly comprises a belt pulley transmission mechanism, one end of the belt pulley transmission mechanism is sleeved outside the stirring shaft, the other end of the belt pulley transmission mechanism is connected with a driving shaft, the outside of the driving shaft is connected with a first gear, the outside of the first gear is meshed with a second gear, the center of the second gear is connected with a driven shaft, the outside of the driven shaft is connected with a chain transmission mechanism, two ends of the chain transmission mechanism are both connected with second lead screws, the outside of the second lead screws is connected with a second nut pair, and a storage hopper is connected above the second nut pair;

the material control assembly is arranged at the bottom of the storage hopper, and the bottom of the storage hopper is positioned above the inner part of the stirring box.

Preferably, the bottom of agitator tank is provided with the discharging pipe, the top of discharging pipe is pegged graft and is had the plate valve, the one end of plate valve is connected with first nut pair, the center of first nut pair is connected with first lead screw, the both sides of first lead screw are provided with the guide bar.

Preferably, the bottom of discharging pipe is pegged graft and is had the plate valve, the outside parcel of plate valve has the rubber sealing ring, the plate valve is provided with the protecting crust with the outside of first lead screw, and protecting crust fixed connection is in the bottom of support frame, the both ends of first lead screw are through ball bearing and protecting crust and rotate and be connected, the vice both ends framves of first nut are connected with the guide ring, and the guide ring is sliding connection with the guide bar, the one end that first lead screw extends to the protecting crust outside is connected with rotatory handle.

Preferably, the through-hole has been seted up at the top of sealed apron, and the inside of through-hole runs through there is the shunt tubes, the shunt tubes is U style of calligraphy structure, the shunt tubes is provided with two sets ofly altogether, and two sets of first symmetric distributions of shunt tubes are both sides around sealed apron, the guide way has been seted up to the top of supporting seat, and is connected with the dirt proof boot between guide way and the storage hopper.

Preferably, the lower surface of the sealing cover plate is provided with a movable sleeve, a guide frame is arranged below the movable sleeve, a support plate is connected to the outer portion of the guide frame in a sliding mode, and a spring is connected between the guide frame and the support plate.

Preferably, backup pad fixed connection is at the top of agitator tank, logical groove has been seted up to the top of backup pad, and the internal connection who leads to the groove has the spring, the other end of spring is connected there is the guide frame, the guide frame is sliding connection with the backup pad, the other end fixedly connected with movable sleeve of guide frame, the movable sleeve is L style of calligraphy structure, and movable sleeve sliding connection is at the inner wall of backup pad and agitator tank, sealed the pad is connected to the top of movable sleeve.

Preferably, the driving shaft rotates the outer wall of connection at the agitator tank through the bearing frame, the driven shaft is through ball bearing and supporting seat and rotate and be connected, chain drive's outside is provided with the protection casing, the second lead screw is provided with two altogether, and two second lead screws are in both ends around the driven shaft respectively, the both ends of second lead screw all are through ball bearing and supporting seat and rotate and be connected, the vice outer wall of second nut has the guiding axle through guide ring sliding connection, the both ends symmetry of second lead screw is provided with two-way lead screw section, and the outside of two-way lead screw section all is connected with the second nut pair.

Preferably, accuse material subassembly includes the axis of rotation, the axis of rotation runs through to the below of dirt proof boot, the bottom of axis of rotation is connected with first toper tooth, the outside meshing of first toper tooth has second toper tooth, it is vice that one side of second toper tooth is connected with the third nut through drive screw, the vice external connection of third nut has the deflector, the bottom of deflector is connected with the regulating plate, the top of regulating plate is provided with down the flitch.

Preferably, the axis of rotation passes through the bearing frame and connects the outer wall at the storage hopper, the top of axis of rotation is connected with rotatory handle, first toper tooth all is provided with the protection casing with the outside of second toper tooth, and protection casing fixed connection is at the outer wall of storage hopper, the center of second toper tooth is connected with drive screw, and drive screw's external connection has the third nut vice, the guiding hole has been seted up on the deflector, and the inside of guiding hole runs through there is the guiding axle, the below of regulating plate is provided with the support bar, and support bar fixed connection is at the inner wall of storage hopper, set up the guiding hole of mutual correspondence on regulating plate and the lower flitch.

An implementation method of a high-efficiency raw material mixing device for producing spicy strips comprises the following steps:

s1: firstly, adding a proper amount of water source into a water tank, simultaneously adding a proper amount of flour into a storage hopper, further starting a servo motor and a water pump, pumping the water source in the water tank into the water pipe by starting the water pump, and leading the water source to enter the stirring tank through the diversion of a diversion pipe and a diversion head;

s2: the rotating shaft is rotated by a hand to drive the first conical tooth to rotate, the rotation of the first conical tooth drives the second conical tooth to rotate, the transmission screw is further driven to rotate, the third nut pair is driven to move while the transmission screw rotates, and the guide plate is further driven to move, so that the adjusting plate and the lower feed plate guide hole are overlapped, and flour in the storage hopper enters the stirring box through the guide hole and is combined with a water source;

s3: drive the (mixing) shaft when servo motor starts and rotates, and then drive the stirring rake and rotate, realize the water source and the stirring of the flour that drops when the stirring rake rotates, the inside of its water source earlier all gets into the agitator tank, flour gradually drops through the water conservancy diversion hole of regulating plate and lower flitch, drive belt pulley drive mechanism rotates when the (mixing) shaft pivoted, and then drive first gear through the driving shaft and rotate, further drive the driven shaft through the meshing of first gear with the second gear and rotate, further drive the second lead screw through chain drive mechanism and rotate, finally drive storage hopper through the second nut pair and control reciprocating motion, realize that the reciprocating motion of flour drops.

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

1. this high efficiency raw materials mixing arrangement is used in peppery strip production passes through drive assembly's setting, can drive the storage hopper and control reciprocating motion, and then through reciprocating motion's unloading about the storage hopper, the cooperation (mixing) shaft is to the rotation of stirring rake, can effectual realization realize the intensive mixing of raw materials through the stirring rake when to the raw materials unloading, thereby make the stirring of raw materials more even high-efficient, the effectual flour raw materials of having avoided appears condensing the condition appearance of dry powder fritter at the in-process of stirring, the sufficiency and the homogeneity of raw materials stirring have been guaranteed, and the rotational speed of stirring rake is followed to the reciprocal unloading speed of raw materials and carries out the synchronization operation, the high efficiency of flour raw materials stirring has further been improved.

2. This hot strip production is with high efficiency raw materials mixing device passes through the setting of accuse material subassembly, can drive the lead screw through the transmission of two bevel gears and rotate, and then realize the displacement of regulating plate to can realize the unloading of storage hopper and handle, and adjust through the position control to the regulating plate, can effectually realize the control regulation of how much of its unloading.

Drawings

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

FIG. 2 is a schematic view of a partial explosion structure of the discharge port of the present invention;

FIG. 3 is an enlarged view of A in FIG. 2 according to the present invention;

FIG. 4 is a schematic view of a partial explosion structure of the loading assembly of the present invention;

FIG. 5 is a schematic view of the internal structure of the storage hopper of the present invention;

FIG. 6 is a schematic view of a connecting state of the storage hopper according to the present invention;

FIG. 7 is an exploded view of the material control assembly of the present invention;

fig. 8 is a partial structural schematic diagram of the transmission assembly of the present invention.

In the figure: 1. a support frame; 2. a stirring assembly; 21. a servo motor; 22. a stirring shaft; 23. a stirring paddle; 24. a stirring box; 25. a discharge pipe; 26. a plate valve; 27. a first nut pair; 28. a first lead screw; 29. a guide bar; 3. a water feeding assembly; 31. a water tank; 32. a water pump; 33. a water pipe; 34. a shunt tube; 35. a flow dividing head; 4. a feeding assembly; 41. a servo cylinder; 42. sealing the cover plate; 43. a supporting seat; 44. a storage hopper; 45. a dust-proof sleeve; 46. a movable sleeve; 47. a support plate; 48. a guide frame; 49. a spring; 5. a transmission assembly; 51. a belt pulley transmission mechanism; 52. a drive shaft; 53. a first gear; 54. a second gear; 55. a driven shaft; 56. a chain transmission mechanism; 57. a second lead screw; 58. a second nut pair; 6. a material control component; 61. a rotating shaft; 62. a first conical tooth; 63. a second tapered tooth; 64. a third nut pair; 65. a guide plate; 66. an adjusting plate; 67. and discharging the material plate.

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. 1-8, an embodiment of the present invention:

a high-efficiency raw material mixing device for producing spicy strips and an implementation method thereof comprise the following steps: the servo motor 21, the water tank 31, the water pump 32, the servo cylinder 41, the dust-proof cover 45, the belt pulley transmission mechanism 51 and the chain transmission mechanism 56 used in the present application are all products directly available on the market, and the principle and the connection mode thereof are the prior art well known to those skilled in the art, so that the detailed description thereof is omitted,

the stirring device comprises a support frame 1, wherein a stirring component 2 is arranged above the support frame 1, the stirring component 2 comprises a servo motor 21, the output end of the servo motor 21 is connected with a stirring shaft 22, the other end of the stirring shaft 22 is connected with a stirring paddle 23, a stirring box 24 is arranged outside the stirring paddle 23, the stirring shaft 22 is driven to rotate by starting the servo motor 21, the stirring paddle 23 is further driven to rotate by rotating the stirring shaft 22, and thus, water sources and flour in the stirring box 24 are stirred by the stirring paddle 23;

the water feeding assembly 3 comprises a water tank 31, a water pump 32 is connected above the water tank 31, the other end of the water pump 32 is connected with a water pipe 33, the other end of the water pipe 33 is connected with a shunt pipe 34, the bottom of the shunt pipe 34 is connected with a shunt head 35, through the structure, the water source in the water tank 31 can be pumped out through the starting of the water pump 32, and further, the water is guided through the water pipe 33 and the shunt pipe 34, the water source is uniformly guided into the stirring box 24 through the shunt head 35, and the outside of the water tank 31 is provided with scale marks, so that the accurate control of the water source can be realized;

the feeding assembly 4 comprises a servo cylinder 41, the servo cylinder 41 is fixedly connected to the top of the support frame 1, a sealing cover plate 42 is arranged above the servo cylinder 41, a supporting seat 43 is connected above the sealing cover plate 42, a storage hopper 44 is arranged above the supporting seat 43, the height of the sealing cover plate 42 can be adjusted by starting, jacking and contracting the servo cylinder 41, the sealing cover plate 42 can be lifted up and fall down, and the sealing cover plate 42 and the top of the stirring box 24 can be extruded and sealed and opened dough can be taken out;

the transmission assembly 5, the transmission assembly 5 includes a belt pulley transmission mechanism 51, one end of the belt pulley transmission mechanism 51 is sleeved outside the stirring shaft 22, the other end of the belt pulley transmission mechanism 51 is connected with a driving shaft 52, the outside of the driving shaft 52 is connected with a first gear 53, the outside of the first gear 53 is meshed with a second gear 54, the center of the second gear 54 is connected with a driven shaft 55, the outside of the driven shaft 55 is connected with a chain transmission mechanism 56, both ends of the chain transmission mechanism 56 are connected with a second lead screw 57, the outside of the second lead screw 57 is connected with a second nut pair 58, the storage hopper 44 is connected above the second nut pair 58, through the transmission arrangement of the structure, when the stirring shaft 22 rotates and stirs, the driving shaft 52 is driven to rotate through the transmission of the belt pulley transmission mechanism 51, further rotation of the first gear 53 is realized, and when the servo cylinder 41 drives the sealing cover plate 42 to descend, the descending of the second gear 54 can be realized at the same time, when the second gear 54 is meshed with the first gear 53, the rotation of the first gear 53 drives the second gear 54 to rotate, the driven shaft 55 is further driven to rotate, meanwhile, the chain transmission mechanism 56 drives the second lead screw 57 to rotate, the reciprocating displacement of the second nut pair 58 drives the storage hopper 44 to move left and right, and after the first gear 53 is meshed with the second gear 54, the starting of the servo motor 21 is realized;

accuse material subassembly 6, accuse material subassembly 6 sets up in the bottom of storage hopper 44, and the bottom of storage hopper 44 is in the inside top of agitator tank 24, and the setting of accuse material subassembly 6 can realize the unloading control to storage hopper 44, and can realize the regulation control of how much of unloading through the crisscross size regulation in water conservancy diversion hole.

Further, the bottom of agitator tank 24 is provided with discharging pipe 25, it has plate valve 26 to peg graft in the top of discharging pipe 25, and the one end of plate valve 26 is connected with first nut pair 27, and the center of first nut pair 27 is connected with first lead screw 28, and the both sides of first lead screw 28 are provided with guide bar 29, and through the control of this structure, can adjust through the drive of first lead screw 28, realize the removal of first nut pair 27, and then can drive plate valve 26 and remove to the drainage of the inside washing sewage of discharging pipe 25 is realized to the drawing and inserting through plate valve 26.

Further, it has plate valve 26 to peg graft in the bottom of discharging pipe 25, plate valve 26's outside parcel has the sealing rubber ring, it is sealed with the grafting of discharging pipe 25 and agitator tank 24 to improve plate valve 26, plate valve 26 is provided with the protecting crust with first lead screw 28's outside, and protecting crust fixed connection is in the bottom of support frame 1, first lead screw 28's both ends are the rotation through ball bearing and protecting crust and are connected, the vice 27 both ends framves of first nut have the guide ring, and the guide ring is sliding connection with guide bar 29, this sliding connection's setting can realize the supplementary direction and spacing to the vice 27 of first nut, improve the stability that the vice 27 of first nut removed, first lead screw 28 extends to the outside one end of protecting crust and is connected with rotatory handle, the rotation drive of the first lead screw 28 of being convenient for.

Further, the through-hole has been seted up at sealed apron 42's top, and the inside of through-hole runs through and has been divided flow head 35, shunt tubes 34 is U style of calligraphy structure, divide flow head 35 to be provided with two sets ofly altogether, and two sets of first 35 symmetric distributions that divide are both sides around sealed apron 42, the guide way has been seted up to the top of supporting seat 43, and be connected with dirt proof boot 45 between guide way and the storage hopper 44, the dustproof of supporting seat 43 internals has been realized in the setting of dirt proof boot 45 and has been handled, the security of device use has been improved.

Further, the lower surface of the sealing cover plate 42 is provided with a movable sleeve 46, a guide frame 48 is arranged below the movable sleeve 46, a support plate 47 is connected to the outer portion of the guide frame 48 in a sliding mode, a spring 49 is connected between the guide frame 48 and the support plate 47, the elastic support for the sealing cover plate 42 can be achieved by the aid of the structure in a matched mode, and therefore the sealing cover plate 42 is connected with the top of the stirring box 24 in an elastic sealing mode.

Further, backup pad 47 fixed connection is at the top of agitator tank 24, logical groove has been seted up to backup pad 47's top, and the internal connection that leads to the groove has spring 49, there is guide frame 48 on the other end of spring 49 is connected, guide frame 48 is sliding connection with backup pad 47, guide frame 48's other end fixedly connected with movable sleeve 46, movable sleeve 46 is L style of calligraphy structure, and movable sleeve 46 sliding connection is at the inner wall of backup pad 47 with agitator tank 24, sealed the pad is connected to movable sleeve 46's top, sealed the leakproofness that has improved and sealed apron 42 contact, when sealed apron 42 extrudeed movable sleeve 46, can drive guide frame 48 and contract to the inside of backup pad 47, and then realize the decline sealing connection of sealed apron 42.

Further, the driving shaft 52 is rotatably connected to the outer wall of the stirring box 24 through a bearing seat, the driven shaft 55 is rotatably connected to the supporting seat 43 through a ball bearing, a protective cover is arranged outside the chain transmission mechanism 56, two second lead screws 57 are arranged, two second screw rods 57 are respectively arranged at the front end and the rear end of the driven shaft 55, the two ends of the second screw rods 57 are rotatably connected with the supporting seat 43 through ball bearings, the outer wall of the second nut pair 58 is slidably connected with a guide shaft through a guide ring, so that the auxiliary limit of the second nut pair 58 is realized, the stability of the reciprocating movement of the second nut pair 58 is ensured, two bidirectional screw rod sections are symmetrically arranged at the two ends of the second screw rods 57, and the two-way screw rod section is externally connected with a second nut pair 58, the two-way screw rod section can realize the transmission reciprocating movement of the second nut pair 58, and the storage hopper 44 can be driven to reciprocate by the reciprocating movement of the second nut pair 58.

Further, the material control assembly 6 comprises a rotating shaft 61, the rotating shaft 61 penetrates below the dustproof sleeve 45, the bottom of the rotating shaft 61 is connected with a first conical tooth 62, a second conical tooth 63 is meshed outside the first conical tooth 62, one side of the second conical tooth 63 is connected with a third nut pair 64 through a transmission screw, the outside of the third nut pair 64 is connected with a guide plate 65, the bottom of the guide plate 65 is connected with an adjusting plate 66, a blanking plate 67 is arranged above the adjusting plate 66, the first conical tooth 62 can be driven to rotate through the rotation driving of the rotating shaft 61, the second conical tooth 63 is further driven to rotate through the rotation of the first conical tooth 62, so that the third nut pair 64 and the guide plate 65 are driven to displace through the rotation of the transmission screw at the center of the second conical tooth 63, the guide plate 65 can be pulled while displacing the adjusting plate 66, and further the adjusting plate 66 and the guide holes above the blanking plate 67 coincide, realize carrying out unloading control to the inside flour raw materials of storage hopper 44.

Further, the rotating shaft 61 is connected to the outer wall of the storage hopper 44 through a bearing seat, the top of the rotating shaft 61 is connected with a rotating handle, which is convenient for the rotation driving of the rotating shaft 61, the first conical teeth 62 and the second conical teeth 63 are provided with protective covers outside, and the protective covers are fixedly connected to the outer wall of the storage hopper 44, the center of the second conical teeth 63 is connected with a transmission lead screw, and the transmission lead screw is connected with a third nut pair 64 outside, a guide hole is formed on the guide plate 65, a guide shaft penetrates through the inside of the guide hole, further, the guide plate 65 is guided in a moving assisting manner, the sliding stability of the adjusting plate 66 is ensured, a support bar is arranged below the adjusting plate 66 and is fixedly connected to the inner wall of the storage hopper 44, the limiting of the storage hopper 44 further improves the sliding stability of the adjusting plate 66, the adjusting plate 66 and the lower plate 67 are provided with guide holes corresponding to each other, the guide holes are formed to facilitate the blanking of the flour raw materials, and the overlapped and staggered sizes of the guide holes and the flour raw materials are controlled, so that the blanking amount of the flour raw materials can be further controlled.

s1: firstly, adding a proper amount of water source into the water tank 31, simultaneously adding a proper amount of flour into the storage hopper 44, further starting the servo motor 21 and the water pump 32, pumping the water source in the water tank 31 into the water pipe 33 by starting the water pump 32, and leading the water source to enter the stirring tank 24 by the diversion of the diversion pipe 34 and the diversion head 35;

s2: the rotating shaft 61 is rotated by a hand to drive the first conical teeth 62 to rotate, the rotation of the first conical teeth 62 drives the second conical teeth 63 to rotate, the transmission screw is further driven to rotate, the transmission screw drives the third nut pair 64 to move while rotating, and further drives the guide plate 65 to move, so that the adjustment plate 66 and the blanking plate 67 are overlapped, and flour in the storage hopper 44 enters the stirring box 24 through the flow guide hole and is combined with a water source;

s3: the servo motor 21 is started and drives the stirring shaft 22 to rotate, so as to drive the stirring paddle 23 to rotate, the stirring paddle 23 rotates and simultaneously stirs water source and dropped flour, the water source firstly and completely enters the stirring box 24, the flour gradually drops through the flow guide holes of the adjusting plate 66 and the blanking plate 67, the stirring shaft 22 rotates and simultaneously drives the belt pulley transmission mechanism 51 to rotate, so as to drive the first gear 53 to rotate through the driving shaft 52, further drive the driven shaft 55 to rotate through the meshing of the first gear 53 and the second gear 54, further drive the second lead screw 57 to rotate through the chain transmission mechanism 56, finally drive the storage hopper 44 to reciprocate left and right through the second nut pair 58, so as to achieve the reciprocating movement and dropping of the flour, and the flour and the water source which initially drop into the stirring box 24 are mixed through the stirring paddle 23, the initial state water source is more, and then through the gradual unloading of flour, realizes the stirring shaping of dough, and the intensive mixing of flour can be guaranteed in this kind of feed mode and the mutually supporting of stirring mode for can fully contact between dry flour and the wet dough, improve the stirring mixed effect of dry flour, the effectual condition of avoiding dry flour to conglomerate appears.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a peppery strip production is with high efficiency raw materials mixing device which characterized in that includes:

the stirring device comprises a support frame (1), wherein a stirring assembly (2) is arranged above the support frame (1), the stirring assembly (2) comprises a servo motor (21), the output end of the servo motor (21) is connected with a stirring shaft (22), the other end of the stirring shaft (22) is connected with a stirring paddle (23), and a stirring box (24) is arranged outside the stirring paddle (23);

the water feeding assembly (3) comprises a water tank (31), a water pump (32) is connected above the water tank (31), the other end of the water pump (32) is connected with a water pipe (33), the other end of the water pipe (33) is connected with a shunt pipe (34), and the bottom of the shunt pipe (34) is connected with a shunt head (35);

the feeding assembly (4) comprises a servo cylinder (41), the servo cylinder (41) is fixedly connected to the top of the support frame (1), a sealing cover plate (42) is arranged above the servo cylinder (41), a support seat (43) is connected above the sealing cover plate (42), and a storage hopper (44) is arranged above the support seat (43);

the transmission assembly (5) comprises a belt pulley transmission mechanism (51), one end of the belt pulley transmission mechanism (51) is sleeved outside the stirring shaft (22), the other end of the belt pulley transmission mechanism (51) is connected with a driving shaft (52), the outside of the driving shaft (52) is connected with a first gear (53), the outside of the first gear (53) is meshed with a second gear (54), the center of the second gear (54) is connected with a driven shaft (55), the outside of the driven shaft (55) is connected with a chain transmission mechanism (56), two ends of the chain transmission mechanism (56) are connected with second lead screws (57), the outside of the second lead screws (57) is connected with second nut pairs (58), and a storage hopper (44) is connected above the second nut pairs (58);

the material control assembly (6), the material control assembly (6) is arranged at the bottom of the storage hopper (44), and the bottom of the storage hopper (44) is located above the inner portion of the stirring box (24).

2. The high-efficiency raw material mixing device for producing the spicy strips as claimed in claim 1, wherein: the bottom of agitator tank (24) is provided with discharging pipe (25), the top of discharging pipe (25) is pegged graft and is had plate valve (26), the one end of plate valve (26) is connected with first nut pair (27), the center of first nut pair (27) is connected with first lead screw (28), the both sides of first lead screw (28) are provided with guide bar (29).

3. The high-efficiency raw material mixing device for producing the spicy strips as claimed in claim 2, wherein: the bottom of discharging pipe (25) is pegged graft and is had plate valve (26), the outside parcel of plate valve (26) has the rubber sealing ring, the outside of plate valve (26) and first lead screw (28) is provided with the protecting crust, and protecting crust fixed connection is in the bottom of support frame (1), the both ends of first lead screw (28) are through ball bearing and the protecting crust and rotate and be connected, the both ends frame joint of first nut pair (27) has the guide ring, and the guide ring is sliding connection with guide bar (29), first lead screw (28) extend to the outside one end of protecting crust and are connected with rotatory handle.

4. The high-efficiency raw material mixing device for producing the spicy strips as claimed in claim 1, wherein: the through-hole has been seted up at the top of sealed apron (42), and the inside of through-hole runs through and has been divided flow head (35), shunt tubes (34) are U style of calligraphy structure, divide flow head (35) to be provided with two sets ofly altogether, and two sets of flow head (35) symmetric distribution both sides around sealed apron (42), the guide way has been seted up to the top of supporting seat (43), and is connected with dirt proof boot (45) between guide way and storage hopper (44).

5. The high-efficiency raw material mixing device for producing the spicy strips as claimed in claim 1, wherein: the lower surface of sealed apron (42) is provided with movable sleeve (46), the below of movable sleeve (46) is provided with guide frame (48), the outside sliding connection of guide frame (48) has backup pad (47), be connected with spring (49) between guide frame (48) and backup pad (47).

6. The high-efficiency raw material mixing device for producing the spicy strips as claimed in claim 5, wherein: backup pad (47) fixed connection is at the top of agitator tank (24), logical groove has been seted up to the top of backup pad (47), and the internal connection who leads to the groove has spring (49), the other end of spring (49) is connected and has guide frame (48), guide frame (48) are sliding connection with backup pad (47), the other end fixedly connected with activity cover (46) of guide frame (48), activity cover (46) are L style of calligraphy structure, and activity cover (46) sliding connection is at the inner wall of backup pad (47) and agitator tank (24), sealed pad is connected to the top of activity cover (46).

7. The high-efficiency raw material mixing device for producing the spicy strips as claimed in claim 1, wherein: the outer wall of connection in agitator tank (24) is rotated through the bearing frame in driving shaft (52), driven shaft (55) are through ball bearing and supporting seat (43) and rotate and be connected, the outside of chain drive (56) is provided with the protection casing, second lead screw (57) are provided with two altogether, and both ends around two second lead screws (57) are in driven shaft (55) respectively, the both ends of second lead screw (57) all are through ball bearing and supporting seat (43) and rotate and be connected, the outer wall of the vice (58) of second nut has the guiding axle through guide ring sliding connection, the both ends symmetry of second lead screw (57) is provided with two-way lead screw section, and the outside of two-way lead screw section all is connected with vice (58) of second nut.

8. The high-efficiency raw material mixing device for producing the spicy strips as claimed in claim 1, wherein: accuse material subassembly (6) is including axis of rotation (61), axis of rotation (61) runs through to the below of dirt proof boot (45), the bottom of axis of rotation (61) is connected with first toper tooth (62), the outside meshing of first toper tooth (62) has second toper tooth (63), one side of second toper tooth (63) is connected with vice (64) of third nut through drive screw, the external connection of the vice (64) of third nut has deflector (65), the bottom of deflector (65) is connected with regulating plate (66), flitch (67) under the top of regulating plate (66) is provided with.

9. The high-efficiency raw material mixing device for producing the spicy strips as claimed in claim 8, wherein: the outer wall in storage hopper (44) is connected through the bearing frame in axis of rotation (61), the top of axis of rotation (61) is connected with rotatory handle, first toper tooth (62) all are provided with the protection casing with the outside of second toper tooth (63), and protection casing fixed connection is at the outer wall of storage hopper (44), the center of second toper tooth (63) is connected with drive screw, and drive screw's external connection has third nut pair (64), the guiding hole has been seted up on deflector (65), and the inside of guiding hole runs through there is the guiding axle, the below of regulating plate (66) is provided with the support bar, and support bar fixed connection is at the inner wall of storage hopper (44), set up the water conservancy diversion hole of mutual correspondence on regulating plate (66) and lower flitch (67).

10. The method for implementing the high-efficiency raw material mixing device for producing the spicy strips according to any one of claims 1 to 9, is characterized by comprising the following steps:

s1: firstly, adding a proper amount of water source into a water tank (31), simultaneously adding a proper amount of flour into a storage hopper (44), further starting a servo motor (21) and a water pump (32), pumping the water source in the water tank (31) into a water pipe (33) by starting the water pump (32), and leading the water source to enter the stirring tank (24) through the flow diversion of a flow diversion pipe (34) and a flow diversion head (35);

s2: the rotating shaft (61) is rotated through a hand to drive the first conical tooth (62) to rotate, the rotation of the first conical tooth (62) drives the second conical tooth (63) to rotate, the transmission screw rod is further driven to rotate, the transmission screw rod drives the third nut pair (64) to move while rotating, and further drives the guide plate (65) to move, so that the adjusting plate (66) and the blanking plate (67) are overlapped, and flour in the storage hopper (44) enters the stirring box (24) through the flow guide hole and is combined with a water source;

s3: the servo motor (21) is started and simultaneously drives the stirring shaft (22) to rotate so as to further drive the stirring paddle (23) to rotate, the stirring paddle (23) rotates and simultaneously realizes the stirring of water source and dropped flour, the water source of the flour-making machine completely enters the interior of the stirring box (24), the flour gradually falls through the flow guide holes of the adjusting plate (66) and the blanking plate (67), the stirring shaft (22) drives the belt pulley transmission mechanism (51) to rotate while rotating, and then drive first gear (53) through driving shaft (52) and rotate, further drive driven shaft (55) through the meshing of first gear (53) and second gear (54) and rotate, further drive second lead screw (57) through chain drive mechanism (56) and rotate, finally drive storage hopper (44) through second nut pair (58) and control reciprocating motion, realize that the reciprocating motion of flour drops.