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CN-224219300-U - Fresh feeding device for protein-rich microalgae mud

CN224219300UCN 224219300 UCN224219300 UCN 224219300UCN-224219300-U

Abstract

The application relates to the technical field of noodle processing, in particular to a fresh eating and feeding device for protein-rich microalgae mud, which creatively constructs an integrated solution comprising a metering module and a high-efficiency homogenizing component aiming at the technical bottlenecks of poor matching of adding process parameters, easy loss of active ingredients and the like caused by complex rheological characteristics of fresh algae raw materials. According to the technical scheme, the microalgae mud can be stored through the microalgae mud storage barrel, the amount of the microalgae mud discharged can be accurately controlled by the metering valve, the microalgae mud can be stored by the shell, the water can be dispersed by the aid of the water inlet pipe, the microalgae mud and the water are mixed together, the microalgae mud and the flour are uniformly mixed under the action of the second motor and the stirring shaft, the quality and the nutritional ingredient stability of the noodles are ensured, and a key technical support is provided for expanding the application of protein-rich microalgae in the fields of fresh flour products, instant algae paste and other novel health foods.

Inventors

  • XU JINGLIANG
  • YANG ZHENHAO
  • Su Kerui
  • ZHAO ANQI
  • A Yisha
  • Zhang Beixiao
  • XIONG WENLONG
  • ZHANG SHEN
  • LV YONGKUN
  • LI LINGJUAN

Assignees

  • 郑州大学

Dates

Publication Date
20260512
Application Date
20250513

Claims (7)

  1. 1. The fresh-eating feeding device for the protein-rich microalgae mud comprises a case (1) and a feeding mechanism (2), and is characterized in that a control panel (101) is fixedly arranged on the front surface of the case (1), a water inlet pipe (102) is fixedly communicated with the upper surface of the case (1), a through hole (104) is formed in the left side surface of the case (1), the feeding mechanism (2) is arranged in the case (1), the feeding mechanism (2) comprises a microalgae mud storage cylinder (201) arranged on the upper surface of the case (1), a feeding cylinder (202) is fixedly arranged on the inner bottom wall of the case (1), a first motor (203) is fixedly arranged on the right side surface of the feeding cylinder (202), a spiral conveying shaft (213) is fixedly arranged at the output end of the first motor (203), a discharging disc (208) is fixedly communicated with the left side surface of the spiral conveying shaft (213), a group of through holes (209) are formed in the left side surface of the feeding cylinder (202), a connecting pipe (210) is fixedly arranged on the upper surface of the feeding cylinder (202), a connecting pipe (205) is fixedly arranged on the left side of the spiral conveying shaft (213), a second motor (206) is fixedly arranged on the left side of the feeding cylinder, a second motor (206) is fixedly arranged on the left surface of the feeding cylinder (206), the bottom of puddler (212) extends to the inside of connecting pipe (210), the surface fixed mounting of puddler (212) has screw conveyer blade (211), the surface fixed intercommunication with face section of thick bamboo (205) has into face pipe (207), the top of advancing face pipe (207) runs through quick-witted case (1) and extends to the top of quick-witted case (1), place hole (216) have been seted up to the upper surface of machine case (1), the fixed intercommunication of interior roof of machine case (1) has casing (204), the output of inlet tube (102) and the left surface fixed intercommunication of casing (204), the right flank fixed intercommunication of casing (204) has pipe (10), the bottom of pipe (10) and the upper surface fixed intercommunication with face section of thick bamboo (205), the fixed intercommunication in bottom surface of little algae mud storage cylinder (201) has discharging pipe (214), the fixed intercommunication in bottom of discharging pipe (214) has metering valve (215).
  2. 2. The fresh feeding device for the protein-rich microalgae mud is characterized in that a guide ring (9) is fixedly arranged on the inner wall of the dough mixing cylinder (205), and the bottom surface of the guide ring (9) is fixedly arranged on the inner bottom wall of the dough mixing cylinder (205).
  3. 3. The fresh feeding device for the protein-rich microalgae mud is characterized in that a dustproof baffle (6) is arranged on the left side of the case (1), and the right side surface of the dustproof baffle (6) is fixedly arranged on the left side surface of the case (1).
  4. 4. The fresh feeding device for the protein-rich microalgae mud is characterized in that a cover plate (4) is hinged to the upper surface of the microalgae mud storage cylinder (201) through a pin shaft, and a pulling plate (5) is fixedly arranged on the upper surface of the cover plate (4).
  5. 5. The fresh feeding device for the protein-rich microalgae mud is characterized in that a feed hopper (3) is arranged above the case (1), and the bottom surface of the feed hopper (3) is fixedly communicated with the upper surface of the inlet pipe (207).
  6. 6. The fresh feeding device for the protein-rich microalgae mud is characterized in that two groups of pull rods (8) are fixedly communicated with the upper surface of the dough mixing barrel (205), and the top end of each pull rod (8) is fixedly communicated with the upper surface of the case (1).
  7. 7. The fresh feeding device for the protein-rich microalgae mud is characterized in that pull grooves (103) are formed in the left side surface and the right side surface of the case (1), and two groups of supporting legs (7) are fixedly arranged on the bottom surface of the case (1).

Description

Fresh feeding device for protein-rich microalgae mud Technical Field The utility model relates to the technical field of noodle processing, in particular to a fresh feeding device for protein-rich microalgae mud. Background The noodles are traditional staple food prepared by taking cereal or bean powder as a matrix, forming plastic dough through hydration, processing into strip-shaped or sheet-shaped structures through forming processes such as calendaring, rolling, stretching and the like, and finally performing thermodynamic treatment (such as steaming, frying, braising and frying). The origin of the food can be traced to ancient China, and the food has the characteristics of simple and convenient process, good edibility, balanced nutrition and the like, can be used as a basic dietary carrier, and can also adapt to the high-efficiency requirements of the modern fast food industry. Protein-rich microalgae (such as spirulina and chlorella) are accepted as a novel functional food raw material due to the high protein content (the dry weight ratio is 50% -70%), rich essential amino acids, vitamins (such as beta-carotene and B vitamins), minerals (such as iron and calcium), active polysaccharides and other nutritional components. The direct processing of fresh products can effectively maintain the biological activity of heat-sensitive functional components (such as active proteins and antioxidant substances), however, the microalgae fresh pulp faces process suitability challenges in a continuous processing system due to the existence of compact multi-layer cell wall structures and nonlinear rheological properties (such as remarkable thixotropic behavior, shear thinning phenomenon and high dynamic viscosity). The existing fresh food processing equipment mostly uses the traditional powder or liquid additive treatment process in food processing, and the existing noodle production equipment can be used for adding microalgae, but the existing noodle production equipment still faces the technical bottlenecks of poor precise metering adaptability, low dispersion and homogenization efficiency and the like in the actual use process, and is difficult to adapt to the high-moisture (70% -90%) and non-Newtonian fluid characteristics of fresh microalgae products. For example, when fresh microalgae mud is added, it is inconvenient to precisely control the added amount of fresh microalgae mud, and at the same time, it is inconvenient to uniformly and quickly mix fresh microalgae mud with noodles, so that the quality of noodles and the stability of nutritional ingredients are affected. Based on the requirements of fresh microalgae eating processing cores, the utility model designs a fresh protein-rich microalgae mud eating feeding device, breaks through the accurate adding process limit of fresh microalgae slurry in a thermosensitive food matrix, and provides technical support for industrial application of high-protein microalgae in the fields of fresh flour products, instant algae paste, functional gel foods and the like. Disclosure of utility model The utility model aims to provide a fresh feeding device for protein-rich microalgae mud, which aims to solve the problems that in the background technology, the adding amount of fresh microalgae mud is inconvenient to accurately control and the fresh microalgae mud is inconvenient to uniformly mix with noodles quickly. In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a fresh food of rich protein microalgae mud changes feeding device, includes quick-witted case and feed mechanism, the front fixed mounting of machine case has control panel, the last fixed surface intercommunication of machine case has the inlet tube, the through-hole has been seted up to the left surface of machine case, feed mechanism sets up in the inside of machine case, feed mechanism is including installing in the microalgae mud storage section of thick bamboo of machine case upper surface, the interior bottom wall fixed mounting of machine case has a conveying section of thick bamboo, the right flank fixed mounting of conveying section of thick bamboo has first motor, the output fixed mounting of first motor has the spiral conveying shaft, the left surface fixed intercommunication of spiral conveying shaft has the discharge plate, a set of through-hole has been seted up to the left surface of discharge plate, the last fixed surface intercommunication of conveying section of thick bamboo has the connecting pipe, the last fixed surface intercommunication of connecting pipe has a face section of thick bamboo, the last fixed surface of thick bamboo has the second motor, the output end fixed mounting of second motor has the puddler, the bottom of puddler extends to the inside, the fixed surface mounting of puddler has a spiral conveyer blade, the right flank fixed surface of conveying shaft has a spiral conveying pipe and a casin