Search

CN-122012217-A - Probiotics culture system

CN122012217ACN 122012217 ACN122012217 ACN 122012217ACN-122012217-A

Abstract

The invention relates to the technical field related to probiotics culture and discloses a probiotics culture system which comprises a box body, wherein a placing plate is arranged on the lower side of the inside of the box body, a circular plate is rotatably arranged on the upper side of the placing plate, a plurality of first rotating pipes are rotatably arranged on the circular plate, a plurality of culture vessels are vertically arranged on the outer wall of each first rotating pipe at intervals, a second circular pipe is arranged on the upper side of each circular plate, a plurality of spraying assemblies are vertically arranged on the outer wall of each second circular pipe at intervals, and the probiotics culture system can spray part of nutrient solution in a first hydraulic cavity onto a water wheel obliquely and downwards through a first high-pressure spray head, the water wheel and the second rotating pipes are driven to rotate by means of high-pressure spray of the nutrient solution, the second rotating pipes rotate to drive a plurality of groups of cylinders to rotate, and the plurality of groups of cylinders rotate to stir and shoot and scatter the sprayed nutrient solution, so that the range of the nutrient solution in the culture vessels is enlarged. And the probiotics in the culture vessel are stirred and dispersed by utilizing the rotation of a plurality of groups of cylinders, so that the condition of the accumulation of the probiotics is reduced, and the probiotics are fully contacted with the nutrient solution.

Inventors

  • MENG ZHAOXU
  • YANG HAOCHENG
  • CHANG YUNHE

Assignees

  • 黑龙江农辰生物科技有限公司

Dates

Publication Date
20260512
Application Date
20260203

Claims (10)

  1. 1. The probiotics culture system is characterized by comprising a box body (10), wherein a placing plate (13) is arranged on the lower side of the inside of the box body (10), a circular plate (14) is rotatably arranged on the upper side of the placing plate (13), a plurality of first rotating pipes (18) are rotatably arranged on the circular plate (14), a plurality of culture vessels (19) are vertically arranged on the outer wall of the first rotating pipes (18) at intervals, an elastic membrane (20) is connected between the inner wall of the culture vessels (19) and the outer wall of the first rotating pipes (18), a first circular pipe (15) is rotatably arranged on the placing plate (13), a second circular pipe (16) is arranged on the upper side of the circular plate (14), and a plurality of spraying assemblies are vertically arranged on the outer wall of the second circular pipe (16) at intervals; The spraying assembly comprises a disc (17), a plurality of grooves (58) are formed in the circumferential array of the lower portion of the disc (17), a second rotating tube (28) is arranged in the grooves (58) in a rotating mode, a plurality of groups of cylinders (37) are arranged on the outer wall of the second rotating tube (28), a plurality of first hydraulic cavities (24) are arranged at vertical intervals in the second circular tube (16), first high-pressure spray heads (31) are arranged in the first hydraulic cavities (24) in a communicating mode with the grooves (58), a plurality of conical cavities (34) are arranged at vertical intervals in the first rotating tube (18), and a plurality of second high-pressure spray heads (35) are arranged on the outer wall of the conical cavities (34).
  2. 2. A probiotic cultivation system according to claim 1, characterized in that a through hole (21) is arranged in the middle of the cultivation vessel (19), the outer wall of the first rotation tube (18) is in sliding contact with the cultivation vessel (19), the outer diameter of the first rotation tube (18) is far smaller than the inner diameter of the through hole (21), the first circular tube (15) is in vertical sliding contact in the second circular tube (16), the disc (17) is fixed on the outer wall of the second circular tube (16), a plurality of cylinders (37) are axially spaced on the outer wall of the second rotation tube (28) to form a group, and a plurality of second high-pressure spray heads (35) are all located inside the cultivation vessel (19).
  3. 3. A probiotic bacteria cultivation system according to claim 1, wherein a first piston plate (25) is vertically arranged in each first hydraulic cavity (24) in a sliding manner, the first piston plate (25) is sleeved on the outer wall of the first round tube (15), a spiral plate (26) is arranged in the first round tube (15), and a first one-way valve (27) is respectively arranged in the first round tube (15) and communicated with a plurality of the first hydraulic cavities (24).
  4. 4. The probiotic bacteria cultivation system according to claim 1, wherein a water wheel (29) is arranged on the outer wall of one end of the second rotating tube (28), an elliptical plate (30) is arranged on the outer wall of one end of the water wheel (29), the first high-pressure spray nozzle (31) is obliquely arranged, the lower inclined end of the first high-pressure spray nozzle (31) is obliquely oriented to the direction of the water wheel (29), and an avoidance groove (59) for avoiding the elliptical plate (30) is formed in one side of the upper portion of the groove (58).
  5. 5. A probiotic cultivation system according to claim 1, wherein the second rotation tube (28) is provided with a second one-way valve (32) in communication with the first hydraulic chamber (24), an annular chamber (36) is provided on the upper inner wall of the conical chamber (34), a plurality of collars (33) are fixedly provided on the outer wall of the disc (17), the inner wall of the collars (33) is in annular sliding contact with the outer wall of the first rotation tube (18), the second rotation tube (28) is in communication with the annular chamber (36) through the inner part of the collars (33), and the annular chamber (36) is in communication with the conical chamber (34).
  6. 6. The probiotic bacteria cultivation system according to claim 1, wherein an annular groove (56) is formed in the lower portion of the circular plate (14), an inner gear ring (55) is fixedly arranged on the upper side of the placement plate (13), the inner gear ring (55) is in annular sliding contact with the annular groove (56), a gear (54) is sleeved on the outer wall of the lower end of the first rotating tube (18), and the outer wall of the gear (54) is meshed with the inner wall of the inner gear ring (55).
  7. 7. A probiotic bacteria cultivation system according to claim 1, wherein a cylinder (37) is arranged at the lower side of the placing plate (13), a second piston plate (38) is arranged in the cylinder (37) in a sliding manner, a second hydraulic cavity (39) and a pressure release cavity (40) are arranged in the cylinder (37), a second electromagnetic valve (44) is arranged in the second hydraulic cavity (39) and the interior of the first circular tube (15) in a communicating manner, and a gas release hole (41) is arranged at one side of the upper part of the pressure release cavity (40).
  8. 8. The probiotic cultivation system according to claim 7, characterized in that a plurality of nutrient solution tanks (42) are arranged on the lower side of the inside of the tank body (10), a first electromagnetic valve (43) is arranged on the lower side of the inside of the tank body (10) and communicated with the second hydraulic cavity (39), a sealing cover (11) is hinged on one side of the upper end of the tank body (10), a control panel (12) is arranged on one side of the outside of the tank body (10), an opening (22) is respectively arranged on two sides of the tank body (10), and a mounting plate (23) is arranged in the opening (22).
  9. 9. The probiotic bacteria cultivation system according to claim 1, wherein a stepping motor (45) is installed on one side of the lower portion of the box body (10), a first ratchet wheel (46) is arranged at the output end of the stepping motor (45), a second ratchet wheel (48) is rotatably arranged on the lower side of the interior of the box body (10), a conveying belt (47) is arranged on the outer wall of the first ratchet wheel (46) and the outer wall of the second ratchet wheel (48) in a connecting mode, a spline block (50) is arranged on one side of the outer wall of the lower portion of the first round tube (15), a spline groove (49) is arranged on one side of the inner wall of the second ratchet wheel (48), the spline block (50) vertically slides in the spline groove (49), a limiting ring (57) is rotatably arranged at the upper end and the lower end of the cylinder (37), the outer wall of the first round tube (15) vertically slides in contact with the limiting ring (57), and the spline block (50) vertically slides in contact with the limiting ring (57).
  10. 10. The probiotic cultivation system according to claim 9, characterized in that a sleeve (51) is arranged in the middle of the placement plate (13), a spiral chute (52) connected end to end is arranged on the inner wall of the sleeve (51), a sliding block (53) is arranged on one side of the outer wall of the lower portion of the first circular tube (15), the sliding block (53) slides in the spiral chute (52) in a spiral manner, and the circular plate (14) is in vertical sliding contact with the spline block (50).

Description

Probiotics culture system Technical Field The invention belongs to the technical field related to probiotics culture, and particularly relates to a probiotics culture system. Background Probiotics are microorganisms which are beneficial to the health of organisms, and are mainly applied to intestinal infectious diseases and chronic inflammatory intestinal diseases clinically because the probiotics can improve the micro-ecological balance of hosts so as to play a beneficial role. The probiotics enter human intestinal tract through oral administration, and are adhered with intestinal epithelial cells to form biological barrier together with normal flora to protect gastrointestinal mucosa. Meanwhile, probiotics can also play a role in inhibiting intestinal inflammation caused by various reasons, down regulate the expression of inflammatory factors and maintain the internal environment of intestinal epithelial cells. Has obvious curative effect on gastrointestinal tract diseases caused by bacteria, viruses and improper diet. The probiotics are applied to foods and medicines, and in the process of culturing the probiotics, nutrient solution is required to be input into the probiotics, so that the probiotics are better fermented and cultured. The following drawbacks exist in the prior art for probiotic cultures: In the prior art, a spraying component in a probiotic culture system is used for injecting the nutrient solution into a box body through an injection opening after the nutrient solution is proportioned, and in the spraying process, the components in the nutrient solution can be precipitated to cause uneven nutrition of the sprayed nutrient solution, so that the nutrient components absorbed by plants are different, and the growth rate of the plants is different. Secondly, spray the subassembly in the current probiotic cultivation system, set up the shower nozzle of a nutrient solution at the top of cultivateing the household utensils generally, spray the nutrient solution upper end, but the bacterial in the cultivate the household utensils exists and piles up, and the nutrient solution only falls into on the bacterial on the top layer when spraying, can't go deep into in the inside bacterial, therefore the rate of utilization of nutrient solution is not high. Thirdly, the culture vessel in the existing probiotics culture system is generally horizontally fixed, and after nutrient solution is sprayed into the culture vessel, the nutrient solution can only move downwards under the action of gravity, so that local effusion or dry spots are easily formed on the surface of the culture vessel by the nutrient solution. Accordingly, in view of the above, research and improvement on the existing structure and the existing defects are performed, and a probiotic culture system is provided for achieving the purpose of more practical and valuable. Disclosure of Invention The present invention provides a probiotic cultivation system for overcoming the above-mentioned drawbacks of the prior art. The invention discloses a purpose and an effect of a probiotic culture system, which are achieved by the following specific technical means: The probiotics culture system comprises a box body, a placement plate is arranged on the lower side of the inside of the box body, a circular plate is arranged on the upper side of the placement plate in a rotating mode, a plurality of first rotating pipes are arranged on the circular plate in a rotating mode, a plurality of culture vessels are arranged on the outer wall of each first rotating pipe at vertical intervals, an elastic membrane is connected between the inner wall of each culture vessel and the outer wall of each first rotating pipe, a first circular pipe is arranged on the placement plate in a rotating mode, a second circular pipe is arranged on the upper side of the circular plate, a plurality of spraying assemblies are arranged on the outer wall of each second circular pipe at vertical intervals, each spraying assembly comprises a circular disc, a plurality of grooves are formed in the lower circumference array of the circular disc, a plurality of second rotating pipes are arranged in the inner rotation mode of the grooves, a plurality of groups of cylinders are arranged on the outer wall of each second rotating pipe, a plurality of first hydraulic cavities are arranged on the inner vertical intervals of the second circular pipes, first hydraulic cavities are communicated with the grooves, a plurality of conical cavities are arranged on the inner vertical intervals of the first rotating pipes, and a plurality of second high-pressure spray heads are arranged on the outer walls of the conical cavities. Preferably, the middle of the culture vessel is provided with a through hole, the outer wall of the first rotating tube is in sliding contact with the culture vessel, the outer diameter of the first rotating tube is far smaller than the inner diameter of the through hole, the first