Disclosure of Invention
The invention mainly aims to provide a production method for improving antioxidant ingredients in embryo eggs, which can effectively solve the problems in the background technology: the content of antioxidant ingredients in the embryo eggs is still less, the production cost is higher even if the antioxidant ingredients are extracted, and no suitable solution is provided in the prior art for how to improve the content of the antioxidant active ingredients in the embryo eggs.
In order to achieve the purpose, the invention adopts the technical scheme that: a method for producing an antioxidant in an embryo egg, the method comprising:
the method comprises the following steps: cleaning the fertilized eggs which are just born, vertically placing the fertilized eggs in the fixed grooves on the upper surface of the storage tray, placing one fertilized egg in each fixed groove, movably inserting the slots on the side surface of the storage tray into the sliding plates on the inner surface of the culture cabin, placing the storage tray in the culture cabin, and culturing the embryo eggs in the incubator for 7-8 days under the conditions of constant temperature and humidity and constant oxygen concentration;
step two: after the step one is finished, the control screen I controls the cylinder to be pressed down integrally, the lantern ring slides on the outer surface of the guide rail in the sliding groove, the spray head drives the insertion tubes to chisel the upper surface of the fertilized egg, the multiple rows of insertion tubes are arranged in a certain radian, the radian formed by the multiple rows of insertion tubes is the same as the radian formed by the outer surface of the embryo egg, thus the hole-chiseling density on the upper surface of the embryo egg is the same, the inside of the embryo egg is in uniform contact with the outside, the force applied to the embryo egg shell is uniformly distributed, and the embryo egg shell is prevented from being broken;
step three: the fertilized eggs are influenced by the external environment to secrete and produce a large amount of various proteases, antioxidant polypeptides and enzymolysis products so as to resist the influence of the external environment;
step four: the first control screen controls the cylinder to be pressed down integrally again, the lantern ring slides on the outer surface of the guide rail in the sliding groove, and antibiotics in the antibiotic storage box are injected into the fertilized eggs through the antibiotic output pipe, the feed pipe and the injection port and the intubation tube to generate antioxidant ingredients;
step five: after the fourth step is finished, the second display screen controls the reaction in the reaction kettle to be rapidly carried out, a large amount of oxygen enters the culture cabin through the gas filter, the flow valve and the oxygen inlet, so that the oxygen concentration in the culture cabin reaches ninety percent, the embryo eggs generate a large amount of antioxidant components to resist oxidation, and after oxygen enrichment supply is carried out for one day, the oxygen concentration in the culture cabin reaches the normal level of the outside air;
step six: and after the fifth step is finished, continuously reducing the oxygen concentration in the culture cabin, and generating a large amount of antioxidant substances due to the biological inertia effect, wherein the content of the antioxidant ingredients in the embryo eggs is the highest, and the embryo eggs can be taken out from the culture cabin for extracting the antioxidant peptides.
The invention further improves the device and the method, and the device also comprises a production device for improving the antioxidant components in the embryo eggs, the device comprises an incubator and a reaction kettle, the reaction kettle is fixedly arranged on the upper surface of the incubator, an antibiotic storage box is fixedly arranged on the back side of the incubator, the antibiotics in the antibiotic storage box have the chemical characteristics of inhibiting the growth of acidic and neutral proteases, the incubator is internally provided with an incubator, the middle part of the incubator is provided with a storage disc, the incubator is internally provided with a hole drilling mechanism which is positioned right above the storage disc, and the output end of the reaction kettle is connected with a flow controller through a gas pipeline.
The invention is further improved in that the flow controller is suitable for controlling the flow of oxygen to control the reaction degree in the reaction kettle, the output end of the reaction kettle is connected with a gas filter through a pipeline, the gas filter is suitable for filtering gas generated by reaction in the reaction kettle to prevent other gas generated in the reaction kettle from generating side effects on the growth of embryo eggs, the output end of the gas filter is connected with a culture cabin through a pipeline, a first control screen is fixedly arranged on the right side of the culture cabin, the first control screen controls the environment in the culture cabin through a plc system, a feeding pipe is arranged on the right side of the culture cabin and below the first control screen, a chute is arranged on the inner surface of the culture cabin, a sliding plate is fixedly arranged on the side surface of the culture cabin, and a guide rail is fixedly arranged in the chute, cultivate the inboard of cabin and be located the top of slide and seted up the oxygen entry, the oxygen entry is evenly arranged at the internal surface of cultivateing the cabin, the last fixed surface who cultivates the cabin installs the cylinder, the output of cylinder and the last fixed surface who cuts a hole the mechanism are connected, the electrical property input and the control panel electric connection of a cylinder.
The invention has the further improvement that a second display screen is fixedly arranged on the outer surface of the reaction kettle, the second display screen is suitable for controlling and accurately controlling the reaction degree in the reaction kettle, an upper cover is covered on the upper surface of the reaction kettle, a first raw material pipe and a second raw material pipe are arranged on the upper surface of the upper cover, and the first raw material pipe and the second raw material pipe are suitable for adding raw materials for producing oxygen.
The invention is further improved in that an antibiotic output tube is fixedly installed at the output end of the antibiotic storage box, slots are formed in two sides of the storage tray, the inner surfaces of the slots are inserted into sliding plates, a fixing groove is formed in the upper surface of the storage tray, a protection pad is fixedly installed on the inner surface of the fixing groove, the diameter of the fixing groove is matched with the transverse diameter of the embryo egg, so that the embryo egg can be conveniently taken out and vertically fixed, the hole drilling mechanism comprises a connecting plate, a spray head is fixedly installed on the lower surface of the connecting plate, a plurality of rows of insertion tubes are fixedly installed on the lower surface of the spray head and are arranged in a certain radian, the radian formed by the plurality of rows of insertion tubes is the same as the radian formed by the outer surface of the embryo egg, so that the hole drilling density of the upper surface of the embryo egg is the same, the inside of the embryo egg is uniformly contacted with the outside, prevent that embryo's eggshell from breaking, the dorsal part fixed mounting of connecting plate has the lantern ring, the internal surface and the guide rail activity of the lantern ring cup joint, the upper surface and the cylinder fixed connection of connecting plate, the filling opening has been seted up on the right side of connecting plate, the output and the intubate of filling opening switch on, the input and the pan feeding pipe of filling opening switch on, and under the promotion of cylinder, the vertical lift of chisel hole mechanism can be stabilized like this and the operation is chisel hole and evenly injected to embryo's egg.
The invention further improves that the optimal hatching condition of the fertilized egg is that the fertilized egg is placed in a hatching box with the hatching temperature of 38-39 ℃, the oxygen concentration of 40-50% and the relative humidity of 50-55% for hatching for 6-7d, thus facilitating the synthesis and secretion of antioxidant substances in the embryo egg.
The invention is further improved in that the antibiotic contains a large amount of components for inhibiting the secretion of the acid protease and the neutral protease to inhibit the secretion of the acid protease and the neutral protease, thereby promoting the growth of the alkaline protease.
Compared with the prior art, the invention has the following beneficial effects:
compared with the prior art, the invention utilizes the inertia activity rule of life activity, the radian formed by a plurality of rows of cannulas is the same as the radian formed by the outer surface of an embryo egg, thus the punching density of the upper surface of the embryo egg is the same, the inner part of the embryo egg is uniformly contacted with the outside, the force applied to the egg shell of the embryo is uniformly distributed, the egg shell of the embryo is prevented from being broken, and the injected antibiotic is uniformly contacted with the inner part of the embryo egg, so that the fertilized egg starts to secrete and produce a large amount of various proteases, antioxidant polypeptides and enzymolysis products due to the influence of the external environment, and then the secretion of acid protease and neutral protease is inhibited by the created antibiotic inhibition environment, thereby promoting the growth of alkaline protease, and the created oxygen-enriched environment is beneficial to the generation of antioxidant active ingredient substances, thus the antioxidant ingredient in the embryo egg can be greatly improved, has better creativity and practicability.
Detailed Description
In order to make the technical means, the original characteristics, the achieved objects and the functions of the present invention easy to understand, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate the orientation or the positional relationship based on the orientation or the positional relationship shown in the drawings, and are only for the convenience of describing the present invention and simplifying the description, but not for indicating or implying that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus not be construed as limiting the present invention. Furthermore, the terms "a," "an," "two," and "three" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The invention will be further illustrated with reference to specific embodiments.
Example 1
As shown in figures 1-4, a production method for improving antioxidant components in embryo eggs comprises a production device for improving antioxidant components in embryo eggs, the device comprises an incubator (1) and a reaction kettle (2), the reaction kettle (2) is fixedly installed on the upper surface of the incubator (1), an antibiotic storage tank (3) is fixedly installed on the back side of the incubator (1), antibiotics in the antibiotic storage tank (3) have chemical characteristics of inhibiting the growth of acidic and neutral proteases, the incubator (4) is arranged in the incubator (1), a storage tray (5) is arranged in the middle of the incubator (1), a hole drilling mechanism (7) is arranged in the incubator (4) and right above the storage tray (5), and the output end of the reaction kettle (2) is connected with a flow controller (8) through an air conveying pipeline.
The flow controller (8) is suitable for controlling the flow of oxygen flowing out so as to control the reaction degree in the reaction kettle (2), the output end of the reaction kettle (2) is connected with a gas filter (9) through a pipeline, the gas filter (9) is suitable for filtering gas generated by reaction in the reaction kettle (2), so as to prevent other gas generated in the reaction kettle (2) from generating side effects on the growth of embryo eggs, the output end of the gas filter (9) is connected with the culture cabin (4) through a pipeline, a first control screen (101) is fixedly installed on the right side of the culture box (1), the first control screen (101) controls the environment in the culture box (1) through a plc system, a feeding pipe (102) is installed on the right side of the culture box (1) and below the first control screen (101), a sliding groove (103) is formed in the inner surface of the culture box (1), a sliding plate (104) is fixedly installed on the side surface of the culture cabin (4), the inside fixed mounting of spout (103) has guide rail (105), cultivate the inboard of cabin (4) and be located the top of slide (104) and seted up oxygen entry (106), oxygen entry (106) are evenly arranged at the internal surface of cultivating cabin (4), the last fixed surface who cultivates cabin (4) installs cylinder (107), the output of cylinder (107) and the last fixed surface who cuts a hole mechanism (7) are connected, the electrical input of cylinder (107) and control panel (101) electric connection.
Fixed surface of reation kettle (2) installs No. two display screens (201), No. two display screens (201) are suitable for the inside reaction degree of control accurate control reation kettle (2), and reation kettle's (2) upper surface covers has upper cover (202), and the upper surface mounting of upper cover (202) has raw materials pipe (203) and No. two raw materials pipe (204), and raw materials pipe (203) and No. two raw materials pipe (204) are suitable for the raw materials of interpolation manufacturing oxygen.
An antibiotic output tube (301) is fixedly installed at the output end of the antibiotic storage box (3), slots (501) are formed in two sides of the storage tray (5), the inner surfaces of the slots (501) are connected with a sliding plate (104) in an inserting mode, a fixing groove (502) is formed in the upper surface of the storage tray (5), a protection pad (503) is fixedly installed on the inner surface of the fixing groove (502), the diameter of the fixing groove (502) is matched with the transverse diameter of the embryonated egg, so that the embryonated egg can be conveniently taken out and vertically fixed, the hole drilling mechanism (7) comprises a connecting plate, a spray head (701) is fixedly installed on the lower surface of the connecting plate, a plurality of rows of insertion tubes (702) are fixedly installed on the lower surface of the spray head (701), the plurality of rows of insertion tubes (702) are arranged in a certain radian mode, the radian formed by the plurality of rows of insertion tubes (702, make inside even with external contact of embryo egg, and to the force evenly distributed of embryo egg shell application, prevent that embryo egg shell from breaking, the dorsal part fixed mounting of connecting plate has lantern ring (703), the internal surface and the guide rail (105) activity of lantern ring (703) are cup jointed, the upper surface and cylinder (107) fixed connection of connecting plate, injection opening (704) have been seted up on the right side of connecting plate, the output and intubate (702) of injection opening (704) switch on, the input and pan feeding pipe (102) of injection opening (704) switch on, under the promotion of cylinder (107) like this, vertical lift can be stabilized in chisel hole mechanism (7) to embryo egg and evenly inject the operation.
By this embodiment it is achieved that: the radian formed by the multiple rows of insertion tubes (702) is the same as the radian formed by the outer surface of the embryo egg, so that the punching density of the upper surface of the embryo egg is the same, the contact between the inside of the embryo egg and the outside is uniform, the force applied to the embryo egg shell is uniformly distributed, the embryo egg shell is prevented from being broken, and meanwhile, the injected antibiotics are uniformly contacted with the inside of the embryo egg.
Example 2
As shown in FIGS. 1-5, a method for producing an antioxidant in an embryo egg comprises the following steps:
the method comprises the following steps: cleaning fertilized eggs which are just born, vertically placing the fertilized eggs in fixing grooves (502) on the upper surface of a storage tray (5), placing one fertilized egg in each fixing groove (502), movably inserting and connecting a slot (501) on the side surface of the storage tray (5) with a sliding plate (104) on the inner surface of a culture cabin (4), placing the storage tray (5) in the culture cabin (4), and culturing the embryo eggs in a culture box (1) under the conditions of constant temperature and humidity and constant oxygen concentration for 7-8 days, and then performing a second step;
step two: after the first step is completed, the control screen (101) controls the cylinder (107) to be pressed down integrally, the lantern ring (703) slides on the outer surface of the guide rail (105) in the sliding groove (103), the spray head (701) drives the insertion pipes (702) to chisel holes on the upper surface of the fertilized egg, the insertion pipes (702) are arranged in a certain radian, and the radian formed by the insertion pipes (702) is the same as that formed by the outer surface of the embryo egg, so that the hole chiseling density on the upper surface of the embryo egg is the same, the inside of the embryo egg is uniformly contacted with the outside, the force applied to the embryo egg shell is uniformly distributed, and the embryo egg shell is prevented from being broken;
step three: the fertilized eggs are influenced by the external environment to secrete and produce a large amount of various proteases, antioxidant polypeptides and enzymolysis products so as to resist the influence of the external environment;
step four: the first control screen (101) controls the cylinder (107) to be pressed down integrally again, the lantern ring (703) slides on the outer surface of the guide rail (105) inside the sliding chute (103), and antibiotics inside the antibiotic storage tank (3) are injected into the fertilized eggs through the antibiotic output pipe (301), the antibiotic inlet pipe (102) and the antibiotic inlet opening (704) and through the intubation tube (702) to generate antioxidant ingredients;
step five: after the fourth step is finished, the second display screen (201) controls the reaction in the reaction kettle (2) to be rapidly carried out, a large amount of oxygen enters the culture cabin (4) through the gas filter (9), the flow valve (10) and the oxygen inlet (106) to enable the oxygen concentration in the culture cabin (4) to reach ninety percent, so that the embryo eggs generate a large amount of antioxidant components to resist oxidation, and after oxygen enrichment supply is carried out for one day, the oxygen concentration in the culture cabin (4) reaches the normal level of the outside air;
step six: after the fifth step is finished, the oxygen concentration in the culture cabin (4) is continuously reduced, a large amount of antioxidant substances are also generated due to the biological inertia effect, the content of the antioxidant ingredients in the embryo eggs is the highest, and the embryo eggs can be taken out from the culture cabin (4) to extract the antioxidant peptides.
The optimal hatching condition of the fertilized eggs is that the fertilized eggs are placed in a hatching box with the hatching temperature of 38-39 ℃, the oxygen concentration of 40-50% and the relative humidity of 50-55% for hatching for 6-7d, thus facilitating the synthesis and secretion of antioxidant substances in the embryo eggs.
The antibiotic contains a large amount of components that inhibit the secretion of acidic and neutral proteases to inhibit the secretion of acidic and neutral proteases, thereby promoting the growth of alkaline proteases.
By this embodiment it is achieved that: according to the invention, by utilizing the inertia movement law of life movement, the radian formed by a plurality of rows of insertion tubes (702) is the same as the radian formed by the outer surface of an embryo egg, so that the hole punching density on the upper surface of the embryo egg is the same, the inner part of the embryo egg is uniformly contacted with the outside, the force applied to the egg shell of the embryo is uniformly distributed, the egg shell of the embryo is prevented from being broken, and the injected antibiotic is uniformly contacted with the inner part of the embryo egg, so that the fertilized egg starts to secrete and produce a large amount of various proteases, antioxidant polypeptides and enzymolysis products due to the influence of the external environment, and then the secretion of acid protease and neutral protease is inhibited by the created antibiotic inhibition environment, so that the growth of alkaline protease is promoted, the created oxygen-enriched environment is favorable for the generation of antioxidant active ingredient substances, and the antioxidant ingredients in the embryo egg can.
The invention is a production method for improving antioxidant components in embryo eggs, when in preparation, firstly, just born fertilized eggs are cleaned and vertically placed in the fixed grooves (502) on the upper surface of a storage tray (5), a fertilized egg is placed in each fixed groove (502), the slot (501) on the side surface of the storage tray (5) is movably inserted into the sliding plate (104) on the inner surface of a culture cabin (4), the storage tray (5) is placed in the culture cabin (4), the embryo eggs are cultured for 7-8 days under the conditions of constant temperature and humidity and constant oxygen concentration in a culture box (1), a first control screen (101) controls the whole cylinder (107) to be pressed downwards, a lantern ring (703) slides on the outer surface of a guide rail (105) in the sliding groove (103), and a nozzle (701) drives an insertion pipe (702) to chisel the upper surface of the fertilized eggs, the multiple rows of insertion tubes (702) are arranged in a certain radian, the radian formed by the multiple rows of insertion tubes (702) is the same as the radian formed by the outer surface of an embryo egg, so that the hole drilling density on the upper surface of the embryo egg is the same, the inside of the embryo egg is uniformly contacted with the outside, the force applied to the egg shell of the embryo is uniformly distributed, the egg shell of the embryo is prevented from being broken, fertilized eggs start to secrete and manufacture a large number of proteases, antioxidant polypeptides and enzymolysis products under the influence of the external environment so as to resist the influence of the external environment, the control screen (101) controls the cylinder (107) to be pressed down integrally again, the lantern ring (703) slides on the outer surface of the guide rail (105) inside the sliding chute (103), antibiotics inside the antibiotic storage tank (3) are injected into the fertilized eggs through the antibiotic output tube (301), the feed tube (102) and the injection port (704) so as to generate antioxidant ingredients, the second display screen (201) controls the reaction inside the reaction kettle (2) to be rapidly carried out, a large amount of oxygen enters the inside of the culture cabin (4) through the gas filter (9), the flow valve (10) and the oxygen inlet (106), so that the oxygen concentration inside the culture cabin (4) reaches ninety percent, the embryo eggs generate a large amount of antioxidant ingredients to resist oxidation, after the oxygen enrichment is supplied for one day, the oxygen concentration inside the culture cabin (4) reaches the normal level of the outside air, the oxygen concentration inside the culture cabin (4) is continuously reduced, due to the biological inertia effect, a large amount of antioxidant substances are required to be generated, at the moment, the content of the antioxidant ingredients in the embryo eggs is highest, and the embryo eggs can be taken out from the culture cabin (4) to extract antioxidant peptides.
The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.