Dough rapid pressing and kneading integrated machine

Abstract

The utility model relates to a dough quick pressure knead integration machine applied to food processing field, including bottom plate, the upper end fixed connection of bottom plate has pressure dough subassembly and knead dough subassembly, pressure dough subassembly includes the mounting plate fixed connection in the bottom plate upper end, the upper end fixed connection of mounting plate has a plurality of support bars, the upper end common fixed connection of a plurality of support bars has the dough machine, the upper of dough machine is equipped with the powder scattering subassembly, the powder scattering subassembly includes the support plate in the left and right ends of dough machine, fixed connection has the accommodation cylinder between two support plates, the lower end of accommodation cylinder is excavated with a plurality of powder outlet holes, through the powder scattering subassembly replaces the manual operation of scattering powder, thereby effectively reduces the occurrence of pinch hand accident, through the motor drives the baffle rotation, periodically even scattering powder covers the surface of pressure dough roller, thereby effectively reduces the stickiness of dough sheet, and further effectively avoids dough sheet sticking in the dough machine inside, effectively improves dough sheet yield, reduces the operation of later cleaning.

Description

Technical Field

[0001] This utility model relates to a dough kneading and pressing machine, and particularly to a dough kneading and pressing machine for use in the food processing field. Background Technology

[0002] A dough kneading machine is a type of food processing equipment that mechanizes dough kneading to replace manual kneading, thus greatly reducing the workload of workers. A dough press is a food processing machine that mixes flour and water evenly to replace traditional manual kneading. It can be used to make noodles, dumpling wrappers, pastries, and other pastries. A dough pressing and kneading all-in-one machine is a device that integrates kneading and pressing, allowing the dough to be pressed directly after kneading.

[0003] The specification of Chinese Patent Publication No. CN203262207U discloses a dough kneading and pressing machine. The distance between the active and driven kneading rollers of this utility model is adjustable, which can conveniently knead and press dough. It has a simple structure and is easy to operate.

[0004] When the dough is kneaded and pressed by the aforementioned dough-pressing machine, the sticky dough may stick to the surface of the pressing rollers, making it difficult to clean them later. In this case, the user needs to manually sprinkle some dry flour on the pressing rollers to reduce the stickiness of the dough. More flour will be sprinkled during the pressing process. However, it is not only difficult to sprinkle flour evenly on the pressing rollers by hand, but also results in some areas of the dough having more dry flour and some areas having less dry flour, leading to a poor yield of finished dough and the risk of pinching. Utility Model Content

[0005] In view of the above-mentioned prior art, the technical problem to be solved by this utility model is to reduce the stickiness of the dough when pressing dough. Generally, some dry flour is sprinkled on the pressing roller. However, manually sprinkling flour is not only difficult to evenly sprinkle the flour on the pressing roller, but may also pose a risk of pinching injury.

[0006] To solve the above problems, this utility model provides a dough pressing and kneading integrated machine, including a base plate. A dough pressing component and a kneading component are fixedly connected to the upper end of the base plate. The dough pressing component includes a mounting plate fixedly connected to the upper end of the base plate. Multiple support rods are fixedly connected to the upper end of the mounting plate. The upper ends of the multiple support rods are jointly fixedly connected to the dough press. A powder-sprinkling component is provided above the dough press. The powder-sprinkling component includes support plates located at the left and right ends of the dough press. A receiving cylinder is fixedly connected between the two support plates. The lower end of the receiving cylinder has multiple powder outlet holes, and the upper end of the receiving cylinder has a powder inlet. A motor is fixedly connected to the end of one of the support plates. The output end of the motor sequentially moves through the support plate and the receiving cylinder and is fixedly connected to a mounting rod. The mounting rod is located away from... One end of the motor is rotatably connected to the inner wall of the accommodating cylinder, and two baffles are fixedly connected to the outer surface of the mounting rod. The outer surface of the accommodating cylinder is provided with a cover. The surface of the support plate is chiseled with a groove. Both ends of the cover are movably connected through the groove and fixedly connected with positioning plates. Two mirror-distributed positioning components are fixedly connected to the end of one of the support plates. The positioning components include a limiting plate fixedly connected to the end of the support plate. A compression spring is fixedly connected to the end of the limiting plate near the groove. A sliding plate is fixedly connected to the end of the compression spring away from the limiting plate. A rod is inserted into the end of the limiting plate away from the compression spring. The end of the rod away from the limiting plate movably passes through the compression spring and is fixedly connected through the sliding plate. The rod of one of the positioning components movably passes through the adjacent positioning plate.

[0007] In the aforementioned dough pressing and kneading integrated machine, the powder-sprinkling component replaces the manual powder-sprinkling operation, thereby effectively reducing the occurrence of hand pinching accidents. The motor drives the baffle to rotate, periodically and evenly sprinkling powder to cover the surface of the pressing roller, thereby effectively reducing the stickiness of the dough sheets and thus effectively preventing the dough sheets from sticking to the inside of the pressing machine, effectively improving the yield of finished dough sheets and reducing the need for subsequent cleaning operations.

[0008] As a further improvement of this application, the angle between the baffles is 180 degrees, and the ends of the two baffles that are far apart are both in contact with the inner wall of the receiving cylinder.

[0009] As a further improvement of this application, the longitudinal section of the shielding cover is semi-circular, the radial distribution range of the multiple powder outlet holes does not exceed 180 degrees, and the curvature of the powder inlet is smaller than that of the shielding cover.

[0010] As another improvement of this application, the inner wall of the shielding cover fits against the outer surface of the receiving cylinder, the slide is arc-shaped, and the lower end of the support plate is fixedly connected to the mounting plate.

[0011] As a further improvement to this application, the insert rod moves through the positioning plate, and the angle between the slide and the cover is ninety degrees.

[0012] As another improvement of this application, the upper end of the mounting plate is chiseled with two adjustment grooves that correspond to the two support plates respectively. A guide rod is fixedly connected in the adjustment groove, and a slider is slidably sleeved on the outer surface of the guide rod. The upper end of the slider is fixedly connected to the support plate.

[0013] In summary, when placing the kneaded dough into the dough press machine, first rotate the cover to the bottom of the container cylinder, exposing the powder inlet at the top of the container cylinder. Place the dry flour above the two baffles, then rotate the cover to the top of the container cylinder. The cover is then fixed in place by inserting a rod through the positioning plate, blocking the powder inlet and exposing the powder outlet below. Starting the motor rotates the mounting rod and baffles, causing the flour inside the container cylinder to shift. When the flour reaches the powder outlet, it passes through multiple outlets and is sprinkled onto the dough press rollers. As the baffles rotate, the flour periodically moves to the outlet and is discharged, thus periodically sprinkling flour onto the dough press machine, replacing manual sprinkling. This not only effectively reduces the stickiness of the dough sheets but also prevents them from sticking inside the dough press machine, increasing the yield of finished dough sheets and reducing subsequent cleaning operations. Attached Figure Description

[0014] Figure 1 This is a three-dimensional structural diagram of the first embodiment of this application;

[0015] Figure 2 This is a schematic diagram of the powder-spraying component structure according to the first embodiment of this application;

[0016] Figure 3 This is a schematic diagram of the accommodating cylinder structure according to the first embodiment of this application;

[0017] Figure 4 This is a schematic diagram of the baffle structure according to the first embodiment of this application;

[0018] Figure 5 This is a schematic diagram of the positioning component structure according to the first embodiment of this application;

[0019] Figure 6 This is a schematic diagram of the shielding cover rotating according to the first embodiment of this application;

[0020] Figure 7 This is a front view of the structure of the second embodiment of this application.

[0021] Explanation of the labels in the diagram:

[0022] 1. Base plate, 2. Mounting plate, 3. Adjustment groove, 4. Dough press, 5. Support plate, 6. Container cylinder, 7. Powder outlet, 8. Powder inlet, 9. Motor, 10. Mounting rod, 11. Baffle, 12. Cover, 13. Slide groove, 14. Positioning plate, 15. Limiting plate, 16. Compression spring, 17. Slide plate, 18. Insert rod, 19. Guide rod, 20. Slider. Detailed Implementation

[0023] The two embodiments of this application will be described in detail below with reference to the accompanying drawings.

[0024] First implementation method:

[0025] Figure 1 The diagram shows a dough pressing and kneading integrated machine, including a base plate 1. A dough pressing component and a dough kneading component are fixedly connected to the upper end of the base plate 1. Point A in the diagram is the dough kneading component, which is a dough kneading machine or similar structure that can knead flour into dough. This is prior art and will not be described in detail here. The dough pressing component includes a mounting plate 2 fixedly connected to the upper end of the base plate 1. Multiple support rods are fixedly connected to the upper end of the mounting plate 2. The upper ends of the multiple support rods are all fixedly connected to the dough pressing machine 4. A powder sprinkling component is provided above the dough pressing machine 4.

[0026] Figure 1 , Figure 2 , Figure 3 and Figure 4The powder-sprinkling assembly includes support plates 5 located at both ends of the dough press 4. The lower ends of the support plates 5 are fixedly connected to the mounting plate 2. A container 6 is fixedly connected between the two support plates 5. The container 6 can store dry flour. Multiple powder outlet holes 7 are drilled at the lower end of the container 6. When the dry flour rotates to the powder outlet holes 7, it is discharged through the powder outlet holes 7, thus being evenly sprinkled onto the dough press 4. A powder inlet trough 8 is drilled at the upper end of the container 6, through which dry flour can be poured into the container 6. The radial distribution range of the multiple powder outlet holes 7 does not exceed 180 degrees. The curvature of the powder inlet trough 8 is smaller than the curvature of the cover 12, so that... The shielding cover 12 can shield multiple powder outlet holes 7 or powder inlet troughs 8. A motor 9 is fixedly connected to the end of one of the support plates 5. Those skilled in the art can select a suitable model of motor 9 according to actual needs, such as Y2-63M1-2-0.18KW. The output end of the motor 9 sequentially passes through the support plate 5 and the receiving cylinder 6 and is fixedly connected to an installation rod 10. The end of the installation rod 10 away from the motor 9 is rotatably connected to the inner wall of the receiving cylinder 6. Two baffles 11 are fixedly connected to the outer surface of the installation rod 10, with an angle of 180 degrees between the baffles 11, and the two baffles 11 are far apart. One end of each component is attached to the inner wall of the container cylinder 6. The flour is located on one side of the baffle 11. By starting the motor 9, the mounting rod 10 and the baffle 11 are rotated, causing the flour inside the container cylinder 6 to change position. When the flour moves to the powder outlet 7, it passes through multiple powder outlets 7 and is sprinkled onto the dough rollers of the dough press machine 4. As the baffle 11 rotates, the flour periodically moves to the powder outlet 7 and is discharged. The outer surface of the container cylinder 6 is provided with a shielding cover 12. The longitudinal section of the shielding cover 12 is semi-circular, and the inner wall of the shielding cover 12 is attached to the outer surface of the container cylinder 6. The shielding cover 12 can block the powder inlet 8 or the powder outlet 7. When sprinkling powder, the shield 12 blocks the powder inlet 8, effectively preventing dry flour from escaping during the rotation of the baffle 11, and preventing external impurities from entering the container 6 through the powder inlet 8. When adding dry flour, the powder inlet 8 is exposed, and the powder outlet 7 is blocked, which can effectively prevent external impurities from entering the container 6 through the powder outlet 7. The surface of the support plate 5 is carved with a sliding groove 13, which is arc-shaped. Both the left and right ends of the shield 12 are movable through the sliding groove 13 and fixedly connected to the positioning plate 14. The sliding groove 13 facilitates the rotation of the shield 12, and the positioning plate 14 facilitates the user to rotate the shield 12.

[0027] Figure 4 , Figure 5 and Figure 6The diagram shows that two mirror-distributed positioning components are fixedly connected to the end of one of the support plates 5. Each positioning component includes a limiting plate 15 fixedly connected to the end of the support plate 5. A compression spring 16 is fixedly connected to the end of the limiting plate 15 near the slide groove 13. A sliding plate 17 is fixedly connected to the end of the compression spring 16 away from the limiting plate 15. A rod 18 is inserted into the end of the limiting plate 15 away from the compression spring 16. The end of the rod 18 away from the limiting plate 15 movably passes through the compression spring 16 and is fixedly inserted through the sliding plate 17. One of the positioning components... The insert rod 18 of the component moves through the adjacent positioning plate 14. When the insert rod 18 moves through the positioning plate 14, the angle between the slide groove 13 and the cover 12 is ninety degrees. Pulling the insert rod 18 can make the insert rod 18 move outward, and the compression spring 16 is compressed outward. At this time, the insert rod 18 is disengaged from the positioning plate 14, which facilitates the movement of the positioning plate 14, thereby causing the cover 12 to rotate. When the insert rod 18 is inserted into the positioning plate 14, the cover 12 can be limited and fixed, thereby effectively improving the stability of the cover 12 during the use of the powder spreading component.

[0028] In use, the kneading component kneads the wet flour. After the dough is kneaded, it is placed inside the pasta machine 4 for pressing. First, the cover 12 is rotated to the bottom of the receiving cylinder 6, exposing the powder inlet 8 above the receiving cylinder 6. Dry flour is placed above the two baffles 11. Then, the cover 12 is rotated to the top of the receiving cylinder 6. The insert rod 18 passes through the positioning plate 14, thereby limiting and fixing the cover 12 so that it covers the powder inlet 8, leaving the powder outlet 7 exposed. By starting the motor 9, the mounting rod 10 and the baffle 11 are rotated, causing the flour in the container 6 to change position. When the flour moves to the powder outlet 7, it passes through multiple powder outlets 7 and is sprinkled onto the pressing rollers of the dough press 4. As the baffle 11 rotates, the flour periodically moves to the powder outlet 7 and is discharged, thus periodically sprinkling flour onto the dough press 4, replacing manual sprinkling. This not only effectively reduces the stickiness of the dough sheets, but also effectively prevents the dough sheets from sticking to the inside of the dough press 4, improving the yield of finished dough sheets and reducing the need for subsequent cleaning operations.

[0029] Second implementation method:

[0030] This embodiment adds an adjustment groove 3, a guide rod 19, and a slider 20 to the first embodiment, while the rest remains the same as the first embodiment.

[0031] Figure 7 As shown: The upper end of the mounting plate 2 has two adjustment grooves 3 that correspond to the two support plates 5 respectively. A guide rod 19 is fixedly connected in the adjustment groove 3. A slider 20 is slidably sleeved on the outer surface of the guide rod 19. The upper end of the slider 20 is fixedly connected to the support plate 5.

[0032] By pushing the support plate 5, the slider 20 slides inside the adjustment groove 3, thereby adjusting the position of the powder-sprinkling component, so that the powder-sprinkling component sprinkles powder on other parts of the dough press 4, such as the pressing board, thereby effectively preventing flour from sticking to its surface.

[0033] In light of current practical needs, the above-described embodiments adopted in this application are not limited to these. Any changes made within the scope of knowledge possessed by those skilled in the art without departing from the concept of this application still fall within the protection scope of this utility model.

Claims

1. A dough kneading and pressing machine, comprising a base plate (1), characterized in that: The upper end of the base plate (1) is fixedly connected to a dough pressing component and a dough kneading component. The dough pressing component includes a mounting plate (2) fixedly connected to the upper end of the base plate (1). The upper end of the mounting plate (2) is fixedly connected to multiple support rods. The upper ends of the multiple support rods are fixedly connected to a dough pressing machine (4). A powder sprinkling component is provided above the dough pressing machine (4). The powder-sprinkling assembly includes support plates (5) located at the left and right ends of the dough press (4). A container cylinder (6) is fixedly connected between the two support plates (5). The lower end of the container cylinder (6) is chiseled with multiple powder outlet holes (7), and the upper end of the container cylinder (6) is chiseled with a powder inlet slot (8). A motor (9) is fixedly connected to the end of one of the support plates (5). The output end of the motor (9) sequentially moves through the support plate (5) and the container cylinder (6) and is fixedly connected to an installation rod (10). The end of the installation rod (10) away from the motor (9) is rotatably connected to the inner wall of the container cylinder (6). Two baffles (11) are fixedly connected to the outer surface of the installation rod (10). A cover (12) is provided on the outer surface of the container cylinder (6). A groove (13) is chiseled on the surface of the support plate (5). The left and right ends of the cover (12) both move through the groove (13) and are fixedly connected to a positioning plate (14). Two mirror-distributed positioning components are fixedly connected to the end of one of the support plates (5). The positioning components include a limiting plate (15) fixedly connected to the end of the support plate (5). A compression spring (16) is fixedly connected to the end of the limiting plate (15) near the slide groove (13). A sliding plate (17) is fixedly connected to the end of the compression spring (16) away from the limiting plate (15). A rod (18) is inserted into the end of the limiting plate (15) away from the compression spring (16). The end of the rod (18) away from the limiting plate (15) movably passes through the compression spring (16) and is fixedly passed through the sliding plate (17). The rod (18) of one of the positioning components movably passes through the adjacent positioning plate (14).

2. The dough kneading and pressing machine according to claim 1, characterized in that: The angle between the two baffles (11) is 180 degrees, and the ends of the two baffles (11) that are far apart are in contact with the inner wall of the accommodating cylinder (6).

3. The dough high-speed pressing and kneading integrated machine according to claim 1, characterized in that: The longitudinal section of the shielding cover (12) is semi-circular, the radial distribution range of the multiple powder outlet holes (7) does not exceed 180 degrees, and the arc of the powder inlet (8) is smaller than the arc of the shielding cover (12).

4. The dough high-speed pressing and kneading integrated machine according to claim 1, characterized in that: The inner wall of the shielding cover (12) is in contact with the outer surface of the accommodating cylinder (6), the slide groove (13) is arc-shaped, and the lower end of the support plate (5) is fixedly connected to the mounting plate (2).

5. A dough kneading and pressing machine according to claim 4, characterized in that: When the insertion rod (18) moves through the positioning plate (14), the angle between the slide groove (13) and the cover (12) is ninety degrees.

6. The dough kneading and pressing machine according to claim 1, characterized in that: The upper end of the mounting plate (2) has two adjustment grooves (3) that correspond to the two support plates (5) respectively. A guide rod (19) is fixedly connected in the adjustment groove (3). A slider (20) is slidably sleeved on the outer surface of the guide rod (19). The upper end of the slider (20) is fixedly connected to the support plate (5).

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