CN111243178A - Automatic dry flour drying device and dry flour drying method - Google Patents

Abstract

An automatic dry flour noodle machine and a flour noodle feeding method relate to the technical field of automatic meal equipment. The automatic dry vermicelli machine includes: the frame body is provided with a discharge hole; the storage pushing device is arranged in the frame body, can slide relative to the frame body, and is used for dividing the space in the frame body into a plurality of spaces to store the dry goods which have a certain length and are placed in order; the power device is fixedly arranged on one side of the frame body and is abutted against the storage pushing device; the dry goods delivery device is arranged on the frame body, is positioned at the discharge port and is used for realizing the vertical falling of the dry goods; and the metering and separating device is arranged on the frame body and is used for temporarily separating the dry goods with the preset weight in the discharge port from the whole dry goods according to the set metering weight. The dry powder noodle maker adopting the technical scheme has the advantages of smooth and orderly dry powder noodle blanking process, accurate blanking amount, simple feeding, ingenious design and small occupied space.

Description

Automatic dry flour drying device and dry flour drying method

Technical Field

The invention relates to the technical field of automatic meal equipment, in particular to an automatic dry flour drying device and a dry flour drying method.

Background

Soup powder or soup noodles are very common food materials and are a meal which is often eaten in people's lives, and in general, the soup powder or the soup noodles are made of dry food materials or wet food materials and are cooked by a chef or a maker during making. Along with the continuous acceleration of city life rhythm, rely on the manual work to carry out the boiling operating time of soup powder or soup face longer, required cost of labor and place rent cost are higher moreover, and business hours is shorter, can't satisfy consumer's night needs. In order to meet the demands of consumers and the market, automatic powder making and selling equipment is available on the market at present.

However, in the existing automatic flour milling equipment on the market, when dry goods (such as dry powder and dry flour) are processed, the problem that the dry goods are very easy to be mixed when the dry goods are put down is easily caused, and the problems of difficult metering, unsmooth blanking and the like when the dry goods are subsequently processed due to the mixed and disorderly dry goods village, so that the dry powder can fall in the vertical direction from top to bottom all the time, the mutual interference caused by the flow of the dry powder in the container is reduced, and the dry powder in the container is always leveled and ordered to be dug urgently.

Disclosure of Invention

Aiming at the defects and shortcomings of the prior art, the first purpose of the invention is to provide an automatic dry powder noodle maker, which sequentially pushes stored dry powder noodles into a discharging end through a storage pushing device, temporarily separates the dry powder noodles to be placed from the stored dry powder noodles through a metering separation device, reduces mutual interference caused by flow between the dry powder noodles stored in the storage pushing device, ensures the stored dry powder noodles to be tidy, and finally controls the dry powder noodles to be placed to always fall from top to bottom and along the vertical direction through a dry goods delivery device.

In order to achieve the purpose, the invention adopts the technical scheme that: an automatic dry pasta machine comprising: the device comprises a frame body, wherein a discharge port is arranged at the discharge end of the frame body; the storage pushing device is arranged in the rack body, can slide relative to the rack body, and is used for dividing the space in the rack body into a plurality of spaces to store dry goods which have a certain length and are placed in order; the power device is fixedly arranged on one side of the frame body, is abutted against the storage pushing device and is used for providing power for the movement of the storage pushing device; the dry goods delivery device is arranged on the frame body, is positioned at the discharge port and is used for controlling the discharge port to be opened or closed so as to realize the vertical falling of the dry goods; and the metering and separating device is arranged on the frame body, one part of the metering and separating device extends into the discharge end, has a certain distance with the discharge port and is used for temporarily separating dry goods with preset weight in the discharge end from the whole dry goods according to the set metering weight.

One side of support body is provided with the portion of accomodating, storage pusher includes: the guide rod is arranged on one side, far away from the metering and separating device, in the frame body, fixedly assembled with the frame body and extended towards the pushing direction; at least two partition plates which are arranged on the guide rod, can slide along the guide rod and can be folded and stored; the folding assembly is arranged between two adjacent partition plates, is rotatably assembled with the partition plates and is used for realizing the contraction and folding between the partition plates; and the cover plate is fixedly arranged on the frame body, abutted against the folding assembly and used for being matched with the folding assembly to control the distance between the adjacent partition plates.

Be close to on the baffle apron one side is provided with the flexion, folding assembly includes: a cross bar installed between the bending part and the guide bar; a first connecting plate rotatably mounted on one of the cross bars and rotatable about an axis of the cross bar; the second connecting plate is rotatably assembled on the other adjacent cross rod, one end of the second connecting plate can rotate around the axis of the cross rod, and the other end of the second connecting plate is rotatably matched with the first connecting plate; and the connecting piece is arranged between the first connecting plate and the second connecting plate and is used for realizing rotation and rotation between the first connecting plate and the second connecting plate.

The power device comprises: the first power source is fixedly arranged on the frame body; the belt conveying assembly is matched with the power output shaft of the first power source at one end and is assembled with the frame body at the other end; and the pushing assembly is used for pushing the partition board to move and store, and one end of the pushing assembly is clamped and fixed on the belt conveying device and can move synchronously along with the belt conveying device, and the other end of the pushing assembly is abutted to the partition board on one side, close to the first power source, of the storage pushing device.

The push assembly includes: the sliding head is arranged on the guide rod and can slide along the guide rod; the push plate is fixedly arranged on the sliding head, is fixedly assembled with the partition plate and pushes the partition plate to slide when the sliding head slides; the upper clamping plate is fixedly arranged on one side, far away from the push plate, of the sliding head and extends towards one side of the belt conveying assembly; and the lower clamping plate is arranged on the other side of the belt on the belt conveying assembly and is used for being matched with the upper clamping plate to clamp the belt of the belt conveying assembly.

The dry goods delivery device comprises: the second power source is fixedly arranged on the frame body; the discharging component is arranged at the discharging opening and is rotatably assembled with the frame body; and the transmission assembly is assembled with the discharging assembly at one end, fixedly matched with the power output shaft of the second power source at the other end and used for driving the discharging assembly to rotate so as to open or close the discharging port.

The ejection of compact subassembly includes: the rotating rod is rotatably assembled with the frame body, and the discharging plate is fixedly arranged on the rotating rod and can rotate along with the rotating rod; the transmission assembly includes: with the driving head of second power supply fixed assembly, install in on the driving head and to dwang one side is extended the driving head can follow during the motion driving head's actuating lever, fixed mounting in keep away from on the actuating lever the fixed head of driving head one end, fixed mounting in on the support body and with the actuating lever cup joints the assembly, play the guide holder of guide effect during the actuating lever motion, and, one end with dwang fixed assembly, the other end with fixed head movable assembly drive during the fixed head motion dwang pivoted third connecting rod.

The metering and separating device comprises: a third power source fixedly mounted on the frame body; the inserting plate is inserted into the discharging end of the frame body, can slide relative to the frame body and is used for temporarily separating dry goods; and the connector is arranged between the inserting plate and a power output shaft of the third power source and used for connecting the power output shaft with the inserting plate.

The automatic dry vermicelli maker further comprises: a first detection control switch, one part of which is arranged on the cover plate, and the other part of which is arranged on the upper clamping plate, wherein the first detection control switch is used for detecting the position of the pushing assembly and controlling the first power source according to the detected position; a second detection control switch, one part of which is arranged on the frame body and the other part of which is arranged on the driving head, wherein the second detection control switch is used for detecting the position of the driving head and controlling the second power source according to the detected position; a third detection control switch, one part of which is arranged on the frame body, and the other part of which is arranged on the plug board, wherein the third detection control switch is used for detecting the position of the plug board and controlling the third power source according to the detected position; and a material bottom position detection element is arranged at the discharging end of the frame body and is positioned above the inserting plate, and the material bottom position detection element is used for driving the partition plate to reset when the material reaches the bottom position in the storage pushing device.

After the technical scheme is adopted, the invention has the beneficial effects that: when the automatic dry flour noodle drying device is used, the first power source is controlled to drive the belt conveying assembly to move through the control system on the automatic dry flour noodle making and selling equipment, and the pushing assembly clamped and installed on the belt is driven to push the partition plate to move, so that the stored dry flour noodles are pushed to the discharge end of the frame body; then, the third power source is controlled to drive the inserting plate to temporarily seal the discharging end, and dry powder surfaces to be transferred are separated from the stored dry powder surfaces, so that mutual interference caused by flowing of the dry powder surfaces stored in the storage pushing device can be reduced, and the stored dry powder surfaces are guaranteed to be tidy; and finally, the transmission assembly is driven to move by the second power source, so that the transmission assembly drives the discharge plate to move, the closed discharge port is opened instantly, and after the discharge port is opened, the dry powder surface stored between the discharge plate and the inserting plate always keeps from top to bottom and falls along the vertical direction, so that the falling smoothness of the dry powder surface is ensured, and the dry powder surface is convenient to transfer again. In addition, after the dry powder surface between a group of partition plates is completely transferred, the pushing assembly continues to push forwards, and the partition plates are pushed into the accommodating part of the frame body to be stacked and accommodated until the dry powder surface stored in the whole dry powder surface device is completely transferred. The self-propelled dry powder noodle maker has the advantages of smooth and orderly dry powder noodle blanking process, accurate blanking amount, simple feeding, ingenious design and small occupied space.

Aiming at the defects and shortcomings of the prior art, the second purpose of the invention is to provide a dry powder noodle method, which can reduce the mutual interference caused by the flow of the dry powder noodles stored in the storage pushing device, ensure the tidiness of the stored dry powder noodles, and has the advantages of smoothness and orderliness in the dry powder noodle blanking process, accurate blanking amount, simple feeding, ingenious design and small occupied space.

In order to achieve the purpose, the invention adopts the technical scheme that: a method of dry dusting noodles, the method being based on an automatic dry dusting noodle machine as described above, the method comprising the steps of:

s1, preparing the automatic dry powder noodle making device and dry powder noodles matched with the inner size of the storage and pushing device, wherein the length of the dry powder noodles is matched with the width of the lunch box;

s2, controlling a first power source to drive the partition plates to move through a control system of the automatic powder making and selling equipment so as to push the dry powder stored between the partition plates to the discharge end of the frame body, and after all the dry powder between adjacent partition plates is placed down, continuously pushing the partition plates to move by the first power source so as to accommodate the partition plates until all the dry powder is placed down completely;

s3, when the dry powder face is located at the discharging end, the control system controls a third power source to drive a partition plate to temporarily separate the dry powder face to be transferred from the stored dry powder face;

s4, the control system controls the second power source to move, and controls the discharging assembly to move through the transmission assembly, so that the discharging plate is opened instantly, the dry powder surface between the discharging plate and the inserting plate falls under the action of gravity, and the dry powder surface is placed.

By adopting the method, the stored dry powder is sequentially pushed into the discharge end through the storage pushing device, the dry powder to be placed is temporarily separated from the stored dry powder through the metering separation device, the mutual interference caused by the flow between the dry powder stored in the storage pushing device is reduced, the tidiness of the stored dry powder is ensured, and finally the dry powder to be placed is controlled to fall from top to bottom and along the vertical direction through the dry cargo delivery device.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a first schematic structural diagram of the present embodiment;

FIG. 2 is an exploded view of the present embodiment;

FIG. 3 is a second schematic structural diagram of the present embodiment;

fig. 4 is a third structural diagram of the present embodiment.

Description of reference numerals: 1. a frame body; 11. a discharge port; 12. a storage section; 2. a storage pushing device; 21. a guide bar; 22. a partition plate; 221. a bending section; 23. a folding assembly; 231. a cross bar; 232. a first connecting plate; 233. a second connecting plate; 234. a connecting member; 24. a cover plate; 3. a power plant; 31. a first power source; 32. a belt transfer assembly; 33. a pushing assembly; 331. a sliding head; 332. pushing the plate; 333. an upper splint; 334. a lower splint; 34. a first detection control switch; 4. a dry goods delivery device; 41. a second power source; 42. a discharge assembly; 421. rotating the rod; 422. a discharge plate; 43. a transmission assembly; 431. a drive head; 432. a drive rod; 433. a fixed head; 434. a guide seat; 435. a third link; 44. a second detection control switch; 5. a metering and separating device; 51. a third power source; 52. inserting plates; 53. a connector; 54. a third detection control switch; 6. detection element for material bottom position.

Detailed Description

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

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment as necessary without making a contribution thereto after reading the present specification, but all are protected by patent laws within the scope of the claims of the present invention.

This embodiment relates to an automatic dry pasta machine, as shown in fig. 1-4, comprising: the device comprises a frame body 1, a storage pushing device 2, a power device 3, a dry cargo delivery device 4 and a metering and separating device 5.

As shown in fig. 1 to 4, the shelf body 1 is used for assembling the automatic dry noodle maker with an automatic noodle making and selling device, and a discharging port 11 is provided at a discharging end of the shelf body 1. The storage pushing device 2 is arranged in the frame body 1 and can slide relative to the frame body 1. The storage pushing device 2 is used for dividing the space in the frame body 1 into a plurality of spaces, so that dry goods with certain length and placed in order are stored. Wherein, the definition of a certain length is that the length is matched with the width of the single space and is smaller than the width of the lunch box. In addition, the storage and pushing device 2 is also used for delivering the stored dry goods to the discharge port 11. The power device 3 is fixedly arranged on one side of the frame body 1 and is abutted against the storage pushing device 2. The power device 3 is used for providing power for the movement of the storage and pushing device 2. The dry goods delivery device 4 is arranged on the frame body 1 and is positioned at the discharge hole 11. The dry goods discharging device 4 is used for controlling the discharge hole 11 to be opened or closed, so that the dry goods can fall vertically. The metering and separating device 5 is arranged on the frame body 1, and one part of the metering and separating device 5 extends into the discharge end and has a certain distance with the discharge port 11. The metering and separating device 5 is used for temporarily separating the dry goods with preset weight in the discharge port from the whole dry goods according to the set metering weight.

Further, as shown in fig. 1 to 4, one side of the rack body 1 is provided with a receiving portion 12, and the storage and pushing device 2 includes: guide rods 21, partition plates 22, folding assemblies 23, and cover plates 24.

The guide rod 21 is arranged on one side of the frame body 1 far away from the metering and separating device 5, and the guide rod 21 is fixedly assembled with the frame body 1 and extends towards the pushing direction. The partition 22 is mounted on the guide rod 21, and the partition 22 can slide along the guide rod 21 and can be folded and stored. At least two partition boards 22 are arranged, and the space enclosed between the adjacent partition boards 22 and the inner wall of the frame body 1 is used for storing dry powder. The folding assembly 23 is arranged between two adjacent partition plates 22 and is rotatably assembled with the partition plates 22. The folding assembly 23 is used to achieve the contraction and folding between the partition boards 22, and the folded partition boards 22 are received in the receiving portion 12. The cover plate 24 is fixedly mounted on the frame body 1 and is abutted against the folding assembly 23. The cover plate 24 is adapted to cooperate with the folding assembly 23 to control the spacing between adjacent separator plates 22.

Further, as shown in fig. 1 to 4, a bending portion 221 is provided on the partition 22 on a side close to the cover 24, and the folding assembly 23 includes: a cross bar 231, a first connecting plate 232, a second connecting plate 233, and a connecting member 234.

The cross bar 231 is installed between the bent portion 221 and the guide bar 21. The first connecting plate 232 is rotatably mounted on a cross bar 231 and can rotate around the axis of the cross bar 231. The second connecting plate 233 is pivotally mounted to another adjacent cross bar 231. One end of the second connecting plate 233 is rotatable around the axis of the cross bar 231, and the other end is rotatably coupled to the first connecting plate 232. The connecting member 234 is disposed between the first connecting plate 232 and the second connecting plate 233. The connecting member 234 is used for rotatably matching the first connecting plate 232 and the second connecting plate 233.

Preferably, as shown in fig. 1 to 4, the guide rods 21 are arranged in two parallel, the partition plates 22 are arranged in six, and the folding assemblies 23 are arranged in five groups. When the partition 22 runs or the dry powder surface is not completely lowered, the connecting piece 234 in the folding assembly 23 is tightly pressed against the cover plate 24, so that the distance between the partitions 22 and the running stability of the partitions 22 can be effectively controlled.

Further, as shown in fig. 1 to 4, the power unit 3 includes: a first power source 31, a belt conveyor assembly 32, and a pushing assembly 33. The first power source 31 is fixedly installed on the frame body 1. One end of the belt transmission assembly 32 is rotatably coupled to the power output shaft of the first power source 31, and the other end is coupled to the frame body 1. One end of the pushing component 33 is clamped and fixed on the belt conveyer and can move synchronously with the belt conveyer. The other end of the pushing assembly 33 abuts against the partition 22 on the side of the storage and pushing device 2 close to the first power source 31. The pushing assembly 33 is used for pushing the partition 22 to move and store. In the present embodiment, the belt conveying assembly 32 is a belt transmission structure in the prior art, and the first power source 31 supplies power to the belt transmission structure.

Specifically, as shown in fig. 1-4, the pushing assembly 33 includes: a sliding head 331, a push plate 332, an upper clamp 333, and a lower clamp 334. The slider 331 is mounted on the guide bar 21 and can slide along the guide bar 21. The push plate 332 is fixedly mounted on the sliding head 331 and fixedly assembled with the partition 22. The push plate 332 is used to push the partition 22 to slide when the sliding head 331 slides. The upper clamp plate 333 is fixedly mounted on the sliding head 331 on a side away from the push plate 332 and extends toward the belt feeding unit 32. The lower clamp plate 334 is disposed on the other side of the belt on the belt conveyor assembly 32. The lower clamp plate 334 is adapted to cooperate with the upper clamp plate 333 to clamp onto a belt of the belt transport assembly 32.

It should be noted that, when the automatic dry powder noodle maker stores dry powder, the pushing plate 332 is used for pushing the partition plate 22 to move, so as to complete pushing of the dry powder noodle and provide power for folding and accommodating the partition plate 22. Push plate 332 is used to power the repositioning of partition 22 after the dry powder stored in the automated dry powder noodle maker is exhausted.

Further, as shown in fig. 1 to 4, the dry cargo discharging device 4 includes: a secondary power source 41, a discharge assembly 42, and a transmission assembly 43. The second power source 41 is fixedly installed on the frame body 1. The discharging assembly 42 is disposed at the discharging port 11 and rotatably assembled with the frame body 1. One end of the transmission component 43 is assembled with the discharging component 42, and the other end is fixedly rotationally assembled with the power output shaft of the second power source 41. The transmission assembly 43 is used for driving the discharging assembly 42 to rotate, thereby opening or closing the discharging hole 11.

Further, as shown in fig. 1-4, the outfeed assembly 42 comprises: a rotating rod 421 and a discharging plate 422. The rotating rod 421 is rotatably assembled with the frame body 1. The discharging plate 422 is fixedly installed on the rotating rod 421 and can rotate along with the rotating rod 421.

Preferably, the rotating rods 421 are provided in two and arranged in parallel. Go out flitch 422 and correspond and be provided with two to realize the design of the switch door of discharge gate 11.

Further, as shown in fig. 1-4, the transmission assembly 43 includes: a driving head 431, a driving rod 432, a fixed head 433, a guide seat 434 and a third connecting rod 435. The driving head 431 is fixedly assembled with the second power source 41 and can move synchronously with the power output shaft of the second power source 41. The drive lever 432 is attached to the drive head 431 and extends toward the rotation lever 421. As drive head 431 moves, drive rod 432 may move synchronously with drive head 431. The fixed head 433 is fixedly installed on the end of the driving rod 432 far away from the driving head 431, and the fixed head 433 can move synchronously with the driving rod 432. The guide seat 434 is fixedly installed on the frame body 1 and is sleeved with the driving rod 432. The guide 434 guides the movement of the driving rod 432 when the driving rod 432 moves. One end of the third link 435 is fixedly assembled with the rotation rod 421, and the other end is movably assembled with the fixing head 433. When the fixed head 433 moves, the third link 435 drives the rotation rod 421 to rotate.

Preferably, as shown in fig. 1-4, the second power source 41 is a cylinder. The dry goods delivery device 4 is also provided with a second detection control switch 44. A part of the second detection control switch 44 is disposed on the frame body 1, and another part is disposed on the driving head 431. The second detection control switch 44 is used to detect the position of the drive head 431 and control the second power source 41 according to the detected position.

Further, as shown in fig. 1 to 4, the metering and separating device 5 comprises: a third power source 51, an insert plate 52 and a connecting head 53. The third power source 51 is fixedly installed on the frame body 1. The insert plate 52 is inserted into the discharging end of the frame body 1 and can slide relative to the frame body 1. The insert plate 52 is used to temporarily divide the dry goods. The connecting joint 53 is disposed between the insert plate 52 and the power output shaft of the third power source 51. The connector 53 is used for connecting the power output shaft with the insert plate 52.

Preferably, as shown in fig. 1-4, the third power source 51 is a cylinder. The metering and separating device 5 is also provided with a third detection control switch 54. The third detection control switch 54 is partially disposed on the frame body 1, and the other part is disposed on the third detection control switch 54 of the plug board 52. The third detection control switch 54 is used to detect the position of the plug board 52 and control the third power source 51 according to the detected position.

Preferably, as shown in fig. 1-4, the first power source 31 is an electric motor. The power unit 3 is further provided with a first detection control switch 34, a part of which is provided on the cover plate 24, and the other part of which is provided on the upper plate 333. The first detection control switch 34 is used to detect the position of the pushing assembly 33 and control the first power source 31 according to the detected position.

Preferably, as shown in fig. 1 to 4, a material bottom position detecting element 6 is arranged on the discharging end of the frame body 1. The material bottom position detecting element 6 is positioned above the inserting plate 52, and the material bottom position detecting element 6 is used for driving the partition plate 22 to reset by the braking force device 3 when the material in the storage pushing device 2 reaches the bottom position.

The working principle of the present embodiment is roughly as follows: when the automatic dry powder noodle drying device is used, the first power source 31 is controlled to drive the belt conveying assembly 32 to move through the control system on the automatic powder noodle making and selling equipment, the pushing assembly clamped and installed on the belt is driven to push the partition plate 22 to move, and therefore stored dry powder noodles are pushed to the discharge end of the frame body 1; then, the third power source 51 is controlled to drive the inserting plate 52 to temporarily close the discharging end, and dry powder surfaces to be placed and stored dry powder surfaces are separated, so that mutual interference caused by flowing of the dry powder surfaces stored in the storage pushing device 2 can be reduced, and the stored dry powder surfaces are ensured to be tidy; finally, the transmission assembly 43 is driven by the second power source 41 to move, so that the transmission assembly 43 drives the discharge plate 422 to move, the closed discharge port 11 is opened instantly, and after the discharge port 11 is opened, the dry powder surface stored between the discharge plate 422 and the inserting plate 52 always keeps falling from top to bottom and along the vertical direction, so that the falling smoothness of the dry powder surface is ensured, and the dry powder surface is convenient to place again. In addition, after the dry powder surface between a group of partition plates 22 is completely transferred, the pushing assembly 33 continues to push forwards, and the partition plates 22 are pushed into the accommodating part 12 of the frame body 1 to be stacked and accommodated until the dry powder surface stored in the whole dry powder surface device is completely transferred. The self-propelled dry powder noodle maker has the advantages of smooth and orderly dry powder noodle blanking process, accurate blanking amount, simple feeding, ingenious design and small occupied space.

Based on the above scheme, this embodiment also provides a method for preparing dry noodles, which includes the following steps:

s1, preparing the automatic dry noodle drying device and dry noodle with the size matched with the inner size of the storage and pushing device 2, wherein the length of the dry noodle is matched with the width of the lunch box;

s2, controlling the first power source 31 to drive the partition boards 22 to move through the control system of the automatic powder surface making and selling equipment so as to push the dry powder surfaces stored between the partition boards 22 to the discharge end of the frame body 1, and after all the dry powder surfaces between adjacent partition boards 22 are placed downwards, the first power source 31 continues to push each partition board 22 to move, so that the partition boards 22 are stored until all the dry powder surfaces are placed completely;

s3, when the dry powder face is located at the discharging end, the control system controls the third power source 51 to drive the partition plate 22 to temporarily separate the dry powder face to be transferred from the stored dry powder face;

s4, the control system controls the second power source 41 to move, and controls the discharging assembly 42 to move through the transmission assembly 43, so that the discharging plate 422 is opened instantly, the dry powder surface between the discharging plate 422 and the inserting plate 52 falls under the action of gravity, and the dry powder surface is placed downwards.

By adopting the method, the stored dry powder is sequentially pushed into the discharge end through the storage pushing device 2, the dry powder to be placed is temporarily separated from the stored dry powder through the metering separation device 5, the mutual interference caused by the flow between the dry powder stored in the storage pushing device 2 is reduced, the stored dry powder is ensured to be neat, and finally the dry powder to be placed is controlled to always keep falling from top to bottom and along the vertical direction through the dry cargo delivery device 4.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent substitutions made by those skilled in the art to the technical solutions of the present invention should be covered by the claims of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. An automatic dry vermicelli maker, comprising:

the device comprises a frame body (1), wherein a discharge hole (11) is formed in the discharge end of the frame body (1);

the storage and pushing device (2) is arranged in the frame body (1), can slide relative to the frame body (1), and is used for dividing the space in the frame body (1) into a plurality of spaces to store dry goods which have a certain length and are placed neatly, and the storage and pushing device (2) is also used for delivering the stored dry goods to the discharge hole (11); the power device is fixedly arranged on one side of the frame body (1), is abutted against the storage pushing device (2), and is used for providing power for the movement of the storage pushing device (2);

the dry goods delivery device (4) is arranged on the frame body (1), is positioned at the discharge hole (11), and is used for controlling the opening or closing of the discharge hole (11) so as to realize the vertical falling of the dry goods; and the number of the first and second groups,

set up in on support body (1), some stretch into in the discharge end and with discharge gate (11) have certain distance, be used for according to the measurement weight of setting for carrying out the measurement separator (5) that temporarily separates with the dry goods of predetermineeing weight in the discharge end and whole dry goods.

2. An automatic dry pasta machine according to claim 1, characterized in that one side of the shelf (1) is provided with a housing (12), the storage and pushing means (2) comprising:

the guide rod (21) is arranged on one side, far away from the metering and separating device (5), in the frame body (1), fixedly assembled with the frame body (1) and extends towards the pushing direction;

at least two clapboards (22) which are arranged on the guide rod (21), can slide along the guide rod (21) and can be folded and stored;

the folding assembly (23) is arranged between two adjacent partition plates (22), is rotatably assembled with the partition plates (22) and is used for realizing the contraction and folding between the partition plates (22); and the number of the first and second groups,

and the cover plate (24) is fixedly arranged on the frame body (1), is abutted against the folding assembly (23), and is used for being matched with the folding assembly (23) to control the distance between the adjacent partition plates (22).

3. An automatic dry pasta maker according to claim 2, characterised in that said baffle (22) is provided with a bend (221) on the side close to said cover (24), said folding assembly (23) comprising:

a cross bar (231) installed between the bent portion (221) and the guide bar (21);

a first connecting plate (232) rotatably mounted on one of the cross bars (231) and rotatable about an axis of the cross bar (231);

a second connecting plate (233) which is rotatably assembled on the other adjacent cross bar (231), one end of which can rotate around the axis of the cross bar (231), and the other end of which is rotatably assembled with the first connecting plate (232); and the connecting piece (234) is arranged between the first connecting plate (232) and the second connecting plate (233) and is used for realizing the rotation and the rotation of the first connecting plate (232) and the second connecting plate (233).

4. An automated dry pasta machine according to claim 3, wherein the power means comprises: a first power source (31) fixedly arranged on the frame body (1);

a belt transmission component (32) with one end rotatably matched with the power output shaft of the first power source (31) and the other end assembled with the frame body (1); and the number of the first and second groups,

and the pushing assembly (33) is fixed on the belt conveying device in a clamping manner at one end, can move synchronously along with the belt conveying device, is abutted against the partition plate (22) on one side, close to the first power source (31), of the storage pushing device (2) at the other end, and is used for pushing the partition plate (22) to move and store.

5. An automatic dry pasta maker according to claim 4, characterised in that said pushing assembly (33) comprises:

a sliding head (331) mounted on the guide bar (21) and slidable along the guide bar (21);

a push plate (332) fixedly mounted on the sliding head (331) and fixedly assembled with the partition plate (22), and pushing the partition plate (22) to slide when the sliding head (331) slides;

an upper clamping plate (333) fixedly arranged on one side of the sliding head (331) far away from the push plate (332) and extending towards one side of the belt conveying component (32); and the number of the first and second groups,

a lower clamping plate (334) arranged on the other side of the belt on the belt conveying assembly (32) and used for being matched with the upper clamping plate (333) to clamp the belt of the belt conveying assembly (32).

6. An automatic dry pasta maker according to claim 5, characterised in that said dry product discharge device (4) comprises:

a second power source (41) fixedly arranged on the frame body (1);

the discharging component (42) is arranged at the discharging port (11) and is rotatably assembled with the frame body (1); and the transmission assembly (43) is assembled with the discharging assembly (42) at one end, fixedly rotationally assembled with a power output shaft of the second power source (41) at the other end, and used for driving the discharging assembly (42) to rotate so as to open or close the discharging hole (11).

7. An automatic dry pasta maker according to claim 6, characterised in that said outfeed assembly (42) comprises:

a rotating rod (421) rotatably assembled with the frame body (1), and,

the discharging plate (422) is fixedly arranged on the rotating rod (421) and can rotate along with the rotating rod (421); the transmission assembly (43) comprises:

a drive head (431) fixedly mounted with the second power source (41),

a driving rod (432) which is installed on the driving head (431) and extends to one side of the rotating rod (421) and can move synchronously with the driving head (431) when the driving head (431) moves,

a fixed head (433) fixedly arranged on one end of the driving rod (432) far away from the driving head (431), a guide seat (434) fixedly arranged on the frame body (1) and sleeved with the driving rod (432) and used for guiding when the driving rod (432) moves, and,

one end with dwang (421) fixed assembly, the other end with fixed head (433) movable assembly fixed head (433) when moving drive dwang (421) pivoted third connecting rod (435).

8. An automatic dry pasta maker according to claim 7, characterised in that said metering and separating device (5) comprises: a third power source (51) fixedly arranged on the frame body (1);

the inserting plate (52) is inserted into the discharging end of the frame body (1), can slide relative to the frame body (1) and is used for temporarily separating dry goods; and the number of the first and second groups,

the connector (53) is arranged between the inserting plate (52) and a power output shaft of the third power source (51) and used for connecting the power output shaft with the inserting plate (52).

9. The automated dry pasta maker according to claim 8, further comprising:

a first detection control switch (34) having one portion provided on the cover plate (24) and the other portion provided on the upper plate (333), the first detection control switch (34) being for detecting a position of the push assembly (33) and controlling the first power source (31) according to the detected position;

a second detection control switch (44) having one part disposed on the frame body (1) and the other part disposed on the driving head (431), the second detection control switch (44) being used for detecting the position of the driving head (431) and controlling the second power source (41) according to the detected position;

a third detection control switch (54) with one part arranged on the frame body (1) and the other part arranged on the plug board (52), wherein the third detection control switch (54) is used for detecting the position of the plug board (52) and controlling the third power source (51) according to the detected position; and the number of the first and second groups,

be provided with material bottom detection element (6) on the discharge end of support body (1), material bottom detection element (6) are located the top of picture peg (52), material bottom detection element (6) are used for material arrives bottom time control power device drive baffle (22) and resets in storage pusher (2).

10. A method of dry dusting noodles, characterised in that the method is based on an automated dry dusting noodle machine according to claim 9, the method comprising the steps of:

s1, preparing the automatic dry powder noodle machine according to claim 9 and dry powder noodle adapted to the inner size of the storage and pushing device (2);

s2, controlling a first power source (31) to drive partition plates (22) to move through a control system of the automatic powder making and selling equipment so as to push the dry powder stored between the partition plates (22) to the discharge end of the frame body (1), and after the dry powder between adjacent partition plates (22) is completely discharged, continuously pushing each partition plate (22) by the first power source (31) to move so as to store the partition plates (22) until all the dry powder is completely discharged;

s3, when the dry powder face is located at the discharging end, the control system controls a third power source (51) to drive a partition plate (22) to temporarily separate the dry powder face to be placed from the stored dry powder face;

s4, the control system controls the second power source (41) to move, and controls the discharging assembly (42) to move through the transmission assembly (43), so that the discharging plate (422) is opened instantly, and the dry powder surface between the discharging plate (422) and the inserting plate (52) falls under the action of gravity, and the dry powder surface is transferred.

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