CN111758637B - Full-automatic high efficiency artemia hatching apparatus - Google Patents

Abstract

The invention discloses full-automatic high-efficiency artemia hatching equipment, relates to the technical field of aquatic product mechanical automation, and solves the problems that the existing processes of hatching and collecting larvae all need manual feeding and manual filtering separation; the whole process is operated manually, and the problems of long time consumption, high labor consumption, incomplete separation of insects and shells, difficult management and the like exist. The utility model provides a full-automatic artemia hatching apparatus, includes frame protection machanism, the inboard fixed mounting of frame protection machanism upper end has feed mechanism, feed mechanism's one end fixed mounting has activation separating mechanism, activation separating mechanism includes sealed solid fixed cylinder, activation container, division board, bobbin base support frame, aeration pipe, heating rod and level gauge, the top fixed mounting of bobbin base support frame has sealed solid fixed cylinder. According to the invention, activation, incubation and separation operations are carried out on the artemia, the occupied area of equipment is small, the feeding, the activation, the incubation, the separation and the collection of the artemia eggs are integrated, the incubation efficiency is high, and the management cost is effectively saved.

Description

Full-automatic high efficiency artemia hatching apparatus

Technical Field

The invention relates to the technical field of aquatic product mechanical automation, in particular to a full-automatic high-efficiency artemia hatching device.

Background

With the rapid development of social economy, artemia, also called brine fairy shrimp and brine shrimp, belong to arthropoda, crustacean, gill podophyte, amantada, brine fairy shrimp and artemia; the artemia contains rich protein, unsaturated fatty acid and mineral elements, and has complete amino acid composition and comprehensive and balanced nutrients, so the artemia is valued by the industries of fish and shrimp fry cultivation and food and health care product processing and production; because of limited production area and yield, the nauplius larva hatched from the artemia dormant eggs is the best biological bait for opening the fry and the shrimp fry, the individual size and the nutritional value of the nauplius larva extremely meet the requirements of various fry, and the nauplius larva is one of the baits widely used in the industry.

However, the existing processes of hatching and collecting larvae all need manual feeding, manual filtration and separation; the whole process is manually operated, so that the time consumption is long, the labor consumption is high, the separation of insects and shells is not thorough, and the management is difficult; therefore, the existing requirements are not met, and a full-automatic artemia hatching device is provided for the purpose.

Disclosure of Invention

The invention aims to provide full-automatic artemia hatching equipment, which aims to solve the problems that the existing processes for hatching and collecting larvae in the background art need manual feeding, manual filtering and separation; the whole process is operated manually, and the problems of long time consumption, high labor consumption, incomplete separation of insects and shells, difficult management and the like exist.

In order to achieve the purpose, the invention provides the following technical scheme: a full-automatic artemia hatching device comprises a frame protection mechanism, a feeding mechanism is fixedly arranged on the inner side of the upper end of the frame protection mechanism, one end of the feeding mechanism is fixedly provided with an activation separation mechanism, the activation separation mechanism comprises a sealing fixed cylinder, an activation container, a separation plate, a cylinder bottom support frame, an aeration pipe, a heating rod and a liquid level meter, a sealing fixed cylinder is fixedly arranged at the top end of the cylinder bottom supporting frame, two liquid level meters are arranged on one side of the sealing fixed cylinder, an activation container is arranged on the inner side of the upper end of the sealing fixed cylinder, a partition plate is fixedly arranged on the inner side of the middle part of the sealing fixed cylinder, an aeration pipe is arranged above the partition plate, a heating rod is fixedly arranged at one side of the aeration pipe and positioned at the inner side of the sealing fixed cylinder, the inner side of the activation separation mechanism is connected with a transmission separation mechanism in a sliding mode, and one side of the activation separation mechanism is provided with a backflow drainage mechanism.

Preferably, transmission separating mechanism is including separating motor, motor support frame, transmission shaft, thick cylinder mould, thin cylinder mould and water conservancy diversion hole, the outside fixed mounting of separation motor bottom has motor support frame, the bottom of separation motor is provided with the transmission shaft, the outside of transmission shaft is provided with five water conservancy diversion holes, one of them the outside in water conservancy diversion hole is provided with thick cylinder mould, another the outside in water conservancy diversion hole is provided with thin cylinder mould.

Preferably, frame protection machanism is including protection curb plate, bottom pulley seat, operating panel, removable cover, main part braced frame, water injection pipe, branch pipe and hatching lamp of intaking, the one end of water injection pipe is provided with two branch pipes of intaking, the other end fixed mounting of water injection pipe has the protection curb plate, the equal fixed mounting in four end angles of terminal surface has bottom pulley seat under the protection curb plate, one side fixed mounting of protection curb plate has operating panel, one side of operating panel is provided with removable cover, the inboard fixed mounting of protection curb plate has main part braced frame, the inboard on main part braced frame top is provided with the hatching lamp.

Preferably, feed mechanism includes inlet pipe, feeding case, feeding motor, material pushing shaft and helical blade, the up end of feeding case is provided with two inlet pipes, the inboard sliding connection of feeding bottom of the case portion has two helical blade, helical blade's inboard fixed mounting has the material pushing shaft, the one end of material pushing shaft is provided with the feeding motor.

Preferably, backward flow drainage mechanism includes hatching shower nozzle, wet return, separation water pipe, wet return pump, main part fluid-discharge tube and separation drain pipe, the wet return is installed in the outside of hatching shower nozzle upper end, one side of wet return is provided with the separation water pipe, the bottom of wet return is provided with the separation drain pipe, the wet return pump is installed in the outside of wet return bottom, the bottom of separation drain pipe is provided with the main part fluid-discharge tube.

Preferably, the bottom end of the sealed fixed cylinder is fixed with the upper end of the cylinder bottom support frame through welding, the activation container is fixed on the inner side of the upper end of the sealed fixed cylinder through screw connection, the inner side of the activation container is provided with an air injection pipe, and the upper end of the air injection pipe is provided with an air pump.

Preferably, threaded connection is passed through in one side of sealed solid fixed cylinder to the one end of level gauge, and the outside at heating rod both ends all has the supporting seat through threaded connection, supporting seat welded fastening is in the inboard of sealed solid fixed cylinder, the inboard of heating rod is provided with the resistance wire.

Preferably, the bottom ends of the thick mesh cage and the thin mesh cage are both fixed on the outer side of the transmission shaft through screw connection, the thick mesh cage is 80 meshes, the thin mesh cage is 120 meshes, the thick mesh cage and the thin mesh cage are both made of metal frameworks and silk nets, the inner side of the flow guide hole is provided with an electromagnetic valve, and the outer sides of the upper end and the lower end of the transmission shaft are provided with bearings.

Preferably, the inboard of feeding case is provided with two feeding storehouses, the one end of material pushing shaft is run through the bottom of feeding case and is passed through the coupling joint with the one end of feeding motor, helical blade welded fastening is in the outside of material pushing shaft.

Preferably, the hatching nozzle passes through threaded connection in the inboard of wet return one end, the up end of hatching nozzle, the inboard of separation water pipe, the inboard of separation drain pipe upper end and the inboard of main part fluid-discharge tube all are provided with the solenoid valve, the one end of main part fluid-discharge tube, the bottom of wet return and the bottom of separation drain pipe are through tee junction, the wet return bottom is close to the tee junction inboard and is provided with the solenoid valve, the inboard of the main part fluid-discharge tube other end is provided with the solenoid valve.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the water body is heated through the heating rod, aeration treatment is carried out through the aeration pipe, the coarse mesh cage can be washed by opening the electromagnetic valve arranged on the upper end surface of the hatching spray head, and meanwhile, the separation motor drives the transmission shaft to rotate to stir and separate larvae on the inner side of the coarse mesh cage, so that the larvae are completely separated from the insect shells;

2. according to the invention, the larvae on the inner side of the fine mesh cage can be uniformly discharged and collected by opening the electromagnetic valves on the inner sides of the main body liquid discharge pipe and the separation drain pipe, and then after the six diversion holes are completely opened, the shell and the residual saline water can be respectively collected by the main body liquid discharge pipe, so that the saline water can be repeatedly utilized, the waste is avoided, the next round of incubation and separation operation is facilitated, and the egg incubation efficiency is effectively improved.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a schematic view of the structure of the main body support frame of the present invention;

FIG. 3 is a schematic view of a partial cross-sectional structure of a feeding mechanism according to the present invention;

FIG. 4 is a schematic view of the activated separation mechanism of the present invention in partial cross-section;

FIG. 5 is a schematic view of a partial cross-sectional structure of the drive release mechanism of the present invention;

FIG. 6 is a schematic view of a heating rod according to the present invention in a partial cross-sectional configuration.

In the figure: 1. a frame guard mechanism; 101. a protective side plate; 102. a bottom pulley seat; 103. an operation panel; 104. a removable cover plate; 105. a main body support frame; 106. a water injection pipe; 107. a water inlet branch pipe; 108. an incubation lamp; 2. a transmission separation mechanism; 201. separating the motor; 202. a motor support frame; 203. a drive shaft; 204. coarse mesh cage; 205. a fine mesh cage; 206. a flow guide hole; 3. a feeding mechanism; 301. a feed pipe; 302. a feeding box; 303. a feeding motor; 304. a material pushing shaft; 305. a helical blade; 4. an activation separation mechanism; 401. sealing the fixed cylinder; 402. an activation vessel; 403. a partition plate; 404. a cylinder bottom support frame; 405. an aeration pipe; 406. a heating rod; 407. a liquid level meter; 5. a backflow drainage mechanism; 501. a hatching nozzle; 502. a water return pipe; 503. separating the water pipe; 504. a water return pump; 505. a main body drain pipe; 506. and separating the water discharge pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

The separation motor 201 (model number YS7134), the feeding motor 303 (model numbers YEJ3-112M-4), the liquid level meter 407 (model numbers UHK-962) and the water return pump 504 (model numbers IS200-150-400) can be obtained from market purchase or private customization.

Referring to fig. 1 to 6, an embodiment of the present invention includes: a full-automatic artemia hatching device comprises a frame protection mechanism 1, a feeding mechanism 3 is fixedly installed on the inner side of the upper end of the frame protection mechanism 1, an activation separation mechanism 4 is fixedly installed at one end of the feeding mechanism 3, the activation separation mechanism 4 comprises a sealed fixed cylinder 401, an activation container 402, a separation plate 403, a cylinder bottom support frame 404, an aeration pipe 405, a heating rod 406 and a liquid level meter 407, a sealed fixed cylinder 401 is fixedly installed at the top end of the cylinder bottom support frame 404, two liquid level meters 407 are arranged on one side of the sealed fixed cylinder 401, the water level during hatching can be monitored in real time by arranging the two liquid level meters 407, the activation container 402 is arranged on the inner side of the upper end of the sealed fixed cylinder 401, an air injection pipe is arranged on the inner side of the activation container 402, an air pump is arranged on the upper end of the air injection pipe and can perform activation treatment on artemia on the artemia inside of the activation container 402, the separation plate 403 is fixedly installed on the inner side of the middle portion of the sealed fixed cylinder 401, the top of division board 403 is provided with aeration pipe 405, the inboard fixed mounting that one side of aeration pipe 405 is located sealed fixed cylinder 401 has heating rod 406, the inboard sliding connection of activation separating mechanism 4 has transmission separating mechanism 2, can hatch and the separating operation to the artemia through transmission separating mechanism 2, be convenient for improve the efficiency of hatching, one side of activation separating mechanism 4 is provided with backward flow drainage mechanism 5, wholly through activating the artemia, hatch and separating operation, equipment area is little, collect the material loading, the worm's egg activation, the hatching, the separation, collect in an organic whole, the hatching is efficient, effectively practice thrift administrative cost.

Further, frame protection machanism 1 is including protection curb plate 101, bottom pulley seat 102, operating panel 103, removable cover 104, main part braced frame 105, water injection pipe 106, branch pipe 107 and hatching lamp 108 intake, the one end of water injection pipe 106 is provided with two branch pipes 107 of intaking, the other end fixed mounting of water injection pipe 106 has protection curb plate 101, the equal fixed mounting in four end angles of terminal surface has bottom pulley seat 102 under protection curb plate 101, one side fixed mounting of protection curb plate 101 has operating panel 103, one side of operating panel 103 is provided with removable cover 104, the inboard fixed mounting of protection curb plate 101 has main part braced frame 105, the inboard on main part braced frame 105 top is provided with hatching lamp 108, can seal the protection to whole through frame protection machanism 1, be convenient for provide suitable environment for the artemia hatching.

Further, the transmission separating mechanism 2 comprises a separating motor 201, a motor support frame 202, a transmission shaft 203, a coarse mesh cage 204, a fine mesh cage 205 and guide holes 206, the motor support frame 202 is fixedly mounted on the outer side of the bottom end of the separating motor 201, the transmission shaft 203 is arranged at the bottom end of the separating motor 201, five guide holes 206 are formed in the outer side of the transmission shaft 203, the coarse mesh cage 204 is arranged on the outer side of one guide hole 206, the fine mesh cage 205 is arranged on the outer side of the other guide hole 206, the artemia can be incubated and separated through the transmission separating mechanism 2, and incubation efficiency is improved conveniently.

Further, feed mechanism 3 includes inlet pipe 301, feeding case 302, feeding motor 303, material pushing shaft 304 and helical blade 305, the up end of feeding case 302 is provided with two inlet pipes 301, the inboard sliding connection of feeding case 302 bottom has two helical blade 305, helical blade 305's inboard fixed mounting has material pushing shaft 304, material pushing shaft 304's one end is provided with feeding motor 303, can separately place industrial salt and artemia through feed mechanism 3, and be convenient for carry out the blowing operation voluntarily.

Further, backward flow drainage mechanism 5 includes hatching shower nozzle 501, wet return 502, separation water pipe 503, return water pump 504, main part fluid-discharge tube 505 and separation drain pipe 506, wet return 502 is installed to the outside of hatching shower nozzle 501 upper end, one side of wet return 502 is provided with separation water pipe 503, the bottom of wet return 502 is provided with separation drain pipe 506, return water pump 504 is installed in the outside of wet return 502 bottom, the bottom of separation drain pipe 506 is provided with main part fluid-discharge tube 505, can wash the operation to the structure through backward flow drainage mechanism 5, be convenient for collect larva and worm shell respectively.

Further, the bottom of the sealed fixed cylinder 401 is fixed to the upper end of the cylinder bottom support frame 404 by welding, the activation container 402 is fixed to the inner side of the upper end of the sealed fixed cylinder 401 through screw connection, the inner side of the activation container 402 is provided with a gas injection pipe, the upper end of the gas injection pipe is provided with a gas pump, and the gas pump can activate the artemia inside the activation container 402 through the gas injection pipe.

Further, threaded connection is passed through in one side of sealed solid fixed cylinder 401 to the one end of level gauge 407, and the outside at heating rod 406 both ends all has a supporting seat through threaded connection, and supporting seat welded fastening is in the inboard of sealed solid fixed cylinder 401, and the inboard of heating rod 406 is provided with the resistance to heating wire, can monitor the water level when hatching in real time through being provided with two level gauges 407.

Further, the bottom ends of the coarse mesh cage 204 and the fine mesh cage 205 are both fixed on the outer side of the transmission shaft 203 through screw connection, the coarse mesh cage 204 is 80 meshes, the fine mesh cage 205 is 120 meshes, the coarse mesh cage 204 and the fine mesh cage 205 are both made of metal frameworks and silk nets, the inner side of the flow guide hole 206 is provided with an electromagnetic valve, the outer sides of the upper end and the lower end of the transmission shaft 203 are both provided with bearings, and larvae can be completely separated through the coarse mesh cage 204 and the fine mesh cage 205.

Further, the inboard of feeding case 302 is provided with two feeding storehouses, and the coupling joint is passed through with the one end of feeding motor 303 to the bottom that feeding case 302 was run through to the one end of material pushing shaft 304, and helical blade 305 welded fastening is in the outside of material pushing shaft 304 for feeding motor 303 drives helical blade 305 through material pushing shaft 304 and rotates.

Further, hatching shower nozzle 501 passes through the inboard of threaded connection in wet return 502 one end, hatching shower nozzle 501's up end, the inboard of separation water pipe 503, the inboard of separation drain 506 upper end and the inboard of main part fluid-discharge tube 505 all are provided with the solenoid valve, the one end of main part fluid-discharge tube 505, the bottom of wet return 502 passes through three-way connection with the bottom of separation drain 506, wet return 502 bottom is close to three-way inboard and is provided with the solenoid valve, the inboard of the main part fluid-discharge tube 505 other end is provided with the solenoid valve, through adjusting the inboard solenoid valve of main part fluid-discharge tube 505, can classify the discharge to worm shell and salt solution, and the backward flow of liquid can be avoided to the inboard solenoid valve of wet return 502.

The working principle is as follows: when the device is used, whether the functions of all mechanisms and the sealing performance of parts are intact or not is checked, two feeding bins are arranged on the inner side of the feeding box 302, industrial salt and artemia are placed on the inner sides of the two feeding bins respectively, one end of the water injection pipe 106 is connected with an external water pipe, water is injected into the inner sides of the coarse mesh cage 204 and the activation container 402 through the water injection pipe 106 and the water inlet branch pipe 107 respectively, the power supply is switched on, the feeding motor 303 is started, the feeding motor 303 drives the spiral blade 305 to rotate through the material pushing shaft 304, further, the industrial salt and the artemia are pushed to the inner side of the activation container 402, the artemia are activated at the moment, the activation container 402 is opened after the treatment, the artemia enters the inner side of the coarse mesh cage 204, the water level on the inner side of the coarse mesh cage 204 is controlled according to the display liquid level of the liquid level meter 407, the electric heating resistance wire arranged on the inner side of the heating rod 406 is switched on the power supply, and the heating rod 406 heats the water body, the thick net cage 204 is aerated by an aerator which is externally connected with an aeration pipe 405, the inner side of the activation container 402 is provided with a gas injection pipe, the upper end of the gas injection pipe is provided with a gas pump, the incubation lamp 108 and the gas pump are in an open state, and the process can be executed for two hours to incubate the artemia; the transmission shaft 203 is a hollow steel pipe, electromagnetic valves are arranged on the inner sides of the flow guide holes 206, water and incubated larvae can be filtered and guided to the inner side of the fine mesh cage 205 by opening the electromagnetic valves, wherein the larva shells are kept on the inner side of the coarse mesh cage 204, the coarse mesh cage 204 can be washed by opening the electromagnetic valves arranged on the upper end face of the incubation spray head 501, the separation motor 201 is started to drive the transmission shaft 203 to rotate under the supporting action of the motor support frame 202 to separate the larvae, so that the larvae are completely separated from the larva shells, the larvae on the inner side of the fine mesh cage 205 are washed by the separation water pipe 503, the larvae on the inner side of the fine mesh cage 205 can be uniformly discharged and collected by opening the electromagnetic valves on the inner sides of the main body liquid discharge pipe 505 and the separation water discharge pipe 506, and then the six flow guide holes 206 are all opened, so that the opening size of the electromagnetic valves arranged on the inner side of the main body liquid discharge pipe 505 is adjusted, and then can collect the operation respectively to worm shell and salt solution, effectively improve the reuse rate of salt solution, and be convenient for carry out next round of hatching separation operation.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a full-automatic artemia hatching apparatus, includes frame protection machanism (1), its characterized in that: the machine frame protection mechanism comprises a machine frame protection mechanism (1), wherein a feeding mechanism (3) is fixedly installed on the inner side of the upper end of the machine frame protection mechanism (1), an activation separation mechanism (4) is fixedly installed at one end of the feeding mechanism (3), the activation separation mechanism (4) comprises a sealing fixed cylinder (401), an activation container (402), a partition plate (403), a cylinder bottom support frame (404), an aeration pipe (405), a heating rod (406) and liquid level meters (407), the sealing fixed cylinder (401) is fixedly installed at the top end of the cylinder bottom support frame (404), two liquid level meters (407) are arranged on one side of the sealing fixed cylinder (401), the activation container (402) is arranged on the inner side of the upper end of the sealing fixed cylinder (401), the partition plate (403) is fixedly installed on the inner side of the middle of the sealing fixed cylinder (401), the aeration pipe (405) is arranged above the partition plate (403), and one side of the aeration pipe (405) is located on the inner side of the sealing fixed cylinder (401), the heating rod (406) is fixedly installed on the inner side of the sealed fixed cylinder (401), the aeration pipe (405) and the heating rod (406) are located on the same side, the transmission separation mechanism (2) is connected to the inner side of the activation separation mechanism (4) in a sliding mode, and a backflow drainage mechanism (5) is arranged on one side of the activation separation mechanism (4);

the rack protection mechanism (1) comprises a protection side plate (101), a bottom pulley seat (102), an operation panel (103), a movable cover plate (104), a main body supporting frame (105), a water injection pipe (106), a water inlet branch pipe (107) and a hatching lamp (108);

the transmission separation mechanism (2) comprises a separation motor (201), a motor support frame (202), a transmission shaft (203), a coarse mesh cage (204), a fine mesh cage (205) and a flow guide hole (206);

the feeding mechanism (3) comprises a feeding pipe (301), a feeding box (302), a feeding motor (303), a pushing shaft (304) and a helical blade (305).

2. The fully automatic artemia hatching apparatus of claim 1, wherein: the one end of water injection pipe (106) is provided with two branch pipes (107) of intaking, the other end fixed mounting of water injection pipe (106) has protection curb plate (101), four equal fixed mounting in end angle of protection curb plate (101) lower terminal surface have bottom pulley seat (102), one side fixed mounting of protection curb plate (101) has operating panel (103), one side of operating panel (103) is provided with removable cover (104), the inboard fixed mounting of protection curb plate (101) has main part braced frame (105), the inboard on main part braced frame (105) top is provided with hatching lamp (108).

3. The fully automatic artemia hatching apparatus of claim 1, wherein: the motor support frame (202) is fixedly mounted on the outer side of the bottom end of the separation motor (201), the bottom end of the separation motor (201) is provided with a transmission shaft (203), the outer side of the transmission shaft (203) is provided with five diversion holes (206), one of the diversion holes is provided with a coarse mesh cage (204) on the outer side of the diversion hole (206), and the other diversion hole is provided with a fine mesh cage (205) on the outer side of the diversion hole (206).

4. The fully automatic artemia hatching apparatus of claim 1, wherein: the up end of feeding case (302) is provided with two inlet pipes (301), the inboard sliding connection of feeding case (302) bottom has two helical blade (305), the inboard fixed mounting of helical blade (305) has material pushing shaft (304), the one end of material pushing shaft (304) is provided with feeding motor (303).

5. The fully automatic artemia hatching apparatus of claim 1, wherein: return flow drainage mechanism (5) are including hatching shower nozzle (501), wet return (502), separation water pipe (503), wet return pump (504), main part fluid-discharge tube (505) and separation drain pipe (506), wet return (502) are installed in the outside of hatching shower nozzle (501) upper end, one side of wet return (502) is provided with separation water pipe (503), the bottom of wet return (502) is provided with separation drain pipe (506), wet return pump (504) are installed in the outside of wet return (502) bottom, the bottom of separation drain pipe (506) is provided with main part fluid-discharge tube (505).

6. The fully automatic artemia hatching apparatus of claim 1, wherein: the bottom of the sealed fixed cylinder (401) is fixed with the upper end of the cylinder bottom support frame (404) through welding, the activation container (402) is fixed on the inner side of the upper end of the sealed fixed cylinder (401) through screw connection, the inner side of the activation container (402) is provided with a gas injection pipe, and the upper end of the gas injection pipe is provided with a gas pump.

7. The fully automatic artemia hatching apparatus of claim 1, wherein: one end of the liquid level meter (407) is connected to one side of the sealed fixed cylinder (401) through threads, the outer sides of two ends of the heating rod (406) are connected to supporting seats through threads, the supporting seats are welded and fixed to the inner side of the sealed fixed cylinder (401), and electric heating resistance wires are arranged on the inner side of the heating rod (406).

8. The fully automatic artemia hatching apparatus of claim 1, wherein: the bottom of thick cylinder mould (204) and thin cylinder mould (205) all fixes the outside at transmission shaft (203) through bolted connection, thick cylinder mould (204) are 80 meshes, thin cylinder mould (205) are 120 meshes, thick cylinder mould (204) and thin cylinder mould (205) are metal framework and silk net and make, the inboard of water conservancy diversion hole (206) is provided with the solenoid valve, the outside at both ends all is provided with the bearing about transmission shaft (203).

9. The fully automatic artemia hatching apparatus of claim 4, wherein: the inboard of feeding case (302) is provided with two feeding storehouses, the one end of material pushing shaft (304) is run through the bottom of feeding case (302) and is passed through the coupling joint with the one end of feeding motor (303), helical blade (305) welded fastening is in the outside of material pushing shaft (304).

10. The fully automatic artemia hatching apparatus of claim 5, wherein: hatching shower nozzle (501) are through the inboard of threaded connection in wet return (502) one end, the up end of hatching shower nozzle (501), the inboard of separation water pipe (503), the inboard of separation drain pipe (506) upper end and the inboard of main part fluid-discharge tube (505) all are provided with the solenoid valve, the one end of main part fluid-discharge tube (505), the bottom of wet return (502) and the bottom of separation drain pipe (506) are through three way connection, wet return (502) bottom is close to the inboard of tee bend and is provided with the solenoid valve, the inboard of main part fluid-discharge tube (505) other end is provided with the solenoid valve.

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