CN215736469U - Novel sea water artificial containers that grows seedlings - Google Patents

Abstract

The utility model discloses a novel seawater seedling raising incubator in the technical field of mariculture, which comprises an incubator component and four cleaning mechanisms, wherein the four cleaning mechanisms are respectively arranged on four side surfaces of the incubator component, cleaning components on the cleaning mechanisms are in contact with the side wall of an inner cavity of the incubator component, and the side wall of the inner cavity of the incubator component is cleaned through the cleaning mechanisms.

Description

Novel sea water artificial containers that grows seedlings

Technical Field

The utility model relates to the technical field of mariculture, in particular to a novel seawater seedling raising incubator.

Background

The aquaculture industry uses the aquaculture technology and facilities to culture aquatic economic animals and plants according to the ecological habits of the cultured objects and the requirements on the environmental conditions of the water areas by utilizing the water areas available for culture (including planting) by human beings. According to the culture water area, the aquaculture can be divided into fresh water culture, seawater culture and shallow sea beach culture; according to the cultivation objects, the cultivation method can be divided into fish cultivation, shellfish cultivation, shrimp cultivation, crab cultivation and algae cultivation; according to the cultivation mode, the method can be divided into intensive cultivation, rough cultivation, single cultivation, mixed cultivation, industrial cultivation, static water type cultivation and running water type cultivation.

Mariculture is the production activity of culturing marine aquatic economic animals and plants by using coastal shallow seas and mud flats. Including shallow sea farming, mudflat farming, estuary farming, etc. The classification can be made from different angles. According to the breeding objects, the method comprises the following steps: fishes, shrimps, crabs, shellfish, algae, seafood and the like, wherein the shellfish and the algae are the most common and the shrimps are the second time; according to the intensification degree, the method can be divided into: coarse culture, semi-fine culture and fine culture; the production method comprises the following steps: singly-fed, mixed-fed and intercropped.

The current sea water seedling raising box is not convenient for clean, need take out the seedling from seedling raising box then artifical instrument of utilizing clears up it, and efficiency is comparatively low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a novel seawater seedling raising and cultivating box, which solves the problems that the existing seawater seedling raising box in the background art is inconvenient to clean, seedlings need to be taken out of the seedling raising box and then manually cleaned by using a tool, and the efficiency is low.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a novel sea water artificial containers that grows seedlings, includes incubator subassembly and four clean mechanisms, four clean mechanism is installed respectively on four sides of incubator subassembly, clean the clearance subassembly in the mechanism with the contact of the inner chamber lateral wall of incubator subassembly, clean the inner chamber lateral wall of incubator subassembly through clean mechanism.

Preferably, the incubator includes incubator box, four track grooves, first line gyro wheel, two mounting panels and two connectors, four the track groove is seted up respectively on four lateral walls of inner chamber of incubator box, first line gyro wheel of crossing is installed on the lateral wall of incubator box, two the symmetrical installation of mounting panel is in on the lateral wall of incubator box, two the mounting panel is all in first lower extreme of crossing the line gyro wheel, two in the connector one the connector is installed the left side wall bottom of incubator box, another one the connector is installed the right side wall bottom of incubator box, the inner chamber of connector with the inner chamber of incubator box link up mutually.

Preferably, the winding mechanism comprises a first rotary driving device and a winding roller wheel, and the winding roller wheel is installed on an output shaft of the first driving device.

Preferably, the cleaning mechanism comprises a second rotary driving device, a connecting rod, a cleaning rod and a roller, the connecting rod is mounted on an output shaft of the second rotary driving device, the cleaning rod is mounted on the connecting rod through a shaft pin, and the roller is mounted at the bottom of the side wall of the cleaning rod.

Preferably, supporting mechanism is installed at the top of artificial containers box, supporting mechanism includes support, two horizontal poles, two are thrown the material mounting panel, the second is crossed line gyro wheel and third and is crossed the line gyro wheel, two the symmetrical setting of horizontal pole is in the medial surface of support, two throw the symmetrical setting of material mounting panel and be two the top left and right sides of horizontal pole, the second is crossed the line gyro wheel and is installed one of them the top of horizontal pole, the second is crossed the line gyro wheel and is two throw between the material mounting panel, the third is crossed the line gyro wheel and is installed the top of support, the third is crossed the line gyro wheel with the second is crossed the line gyro wheel and is corresponding.

Preferably, two the top one-to-one of feeding mounting panel installs two and throws the material mechanism, it includes feed cylinder and unloading mechanism to throw the material mechanism, the unloading mechanism is installed the top of feed cylinder, the last partial subassembly setting of unloading mechanism is in the inner chamber of feed cylinder.

Preferably, the feed cylinder includes material storage cylinder, top cap, fixed plate and lower feed cylinder, the top cap passes through the bolt and installs the top of material storage cylinder, the fixed plate sets up the lateral wall bottom of material storage cylinder, lower feed cylinder sets up the bottom of material storage cylinder, the inner chamber of lower feed cylinder with the inner chamber of material storage cylinder link up mutually.

Preferably, the blanking mechanism comprises a third rotary driving device and a feeding screw rod, and the feeding screw rod is mounted on an output shaft of the third rotary driving device.

Preferably, a net cage is placed in the inner cavity of the incubator body, the net cage comprises a net cage body and four hanging rings, and the four hanging rings are arranged at the tops of four corners of the inner cavity of the incubator body.

Compared with the prior art, the utility model has the beneficial effects that: the inner wall of the cultivation box can be effectively cleaned, bacteria in the cultivation box are prevented from breeding, seedling growth is facilitated, and efficiency is improved.

Drawings

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

FIG. 2 is a schematic view of the incubator of the present invention;

FIG. 3 is a schematic structural view of a winding mechanism according to the present invention;

FIG. 4 is a schematic view of the cleaning mechanism of the present invention;

FIG. 5 is a schematic structural view of a support mechanism according to the present invention;

FIG. 6 is a schematic view of a cartridge according to the present invention;

FIG. 7 is a schematic structural view of a blanking mechanism according to the present invention;

fig. 8 is a schematic structural view of the net cage of the present invention.

In the figure: 100 incubator assembly, 110 incubator, 111 incubator body, 112 track groove, 113 first line-passing roller, 114 mounting plate, 115 connector, 120 rolling mechanism, 121 first rotary driving device, 122 rolling roller, 200 cleaning mechanism, 210 second rotary driving device, 220 connecting rod, 230 cleaning rod, 240 roller, 300 supporting mechanism, 310 bracket, 320 cross rod, 330 feeding mounting plate, 340 second line-passing roller, 350 third line-passing roller, 400 feeding mechanism, 410 charging barrel, 411 storage charging barrel, 412 top cover, 413 fixing plate, 414 discharging barrel, 420 discharging mechanism, 421 third rotary driving device, 422 feeding screw, 500 net cage, 510 net cage body, 520 hoisting ring.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The utility model provides a novel seawater seedling raising incubator, which can effectively clean the inner wall of the incubator, prevent bacteria in the incubator from breeding, facilitate the growth of seedlings and improve the efficiency, and please refer to fig. 1, which comprises the following steps: the incubator assembly 100, the cleaning mechanism 200, the support mechanism 300, the feeding mechanism 400 and the net cage 500;

referring to fig. 1 and 2, four cleaning mechanisms 200 are respectively installed on four side surfaces of the incubator assembly 100, cleaning components on the cleaning mechanisms 200 are in contact with a sidewall of an inner cavity of the incubator assembly 100, the sidewall of the inner cavity of the incubator assembly 100 is cleaned by the cleaning mechanisms 200, the incubator assembly 100 includes an incubator 110 and a rolling mechanism 120, the rolling mechanism 120 is installed on a sidewall of the incubator 110, the incubator 110 includes an incubator body 111, four track grooves 112, a first wire passing roller 113, two mounting plates 114 and two connectors 115, the four track grooves 112 are respectively opened on four sidewalls of the inner cavity of the incubator body 111, the first wire passing roller 113 is installed on a sidewall of the incubator body 111, the two mounting plates 114 are symmetrically installed on a sidewall of the incubator body 111, the two mounting plates 114 are both located at a lower end of the first wire passing roller 113, one connector 115 of the two connectors 115 is installed at a bottom of a left sidewall of the incubator body 111, the other connector 115 is arranged at the bottom of the right side wall of the incubator box body 111, the inner cavity of the connector 115 is communicated with the inner cavity of the incubator box body 111, the track groove 112 is a rectangular sliding groove, one connector 115 of the two connectors 115 is used for water inflow, the other connector 115 is used for water drainage, seawater is poured into the inner cavity of the incubator box body 111 through the connector 115, and when the water in the incubator box body 111 needs to be replaced, the water in the incubator box body 111 is drained through the other connector 115;

referring to fig. 1, 2 and 4, the cleaning mechanism 200 includes a second rotation driving device 210, a connecting rod 220, a cleaning rod 230 and a roller 240, the connecting rod 220 is installed on an output shaft of the second rotation driving device 210, the cleaning rod 230 is installed on the connecting rod 220 through a shaft pin, the roller 240 is installed at the bottom of a side wall of the cleaning rod 230, the second rotation driving device 210 is a motor, the second rotation driving device 210 is installed on a side wall of the incubator body 111, the output shaft of the second rotation driving device 210 penetrates through a side wall of an inner cavity of the incubator body 111, the cleaning rod 230 is in contact with the side wall of the inner cavity of the incubator body 111, the roller 240 is clamped in the inner cavity of the track groove 112, the roller 240 can slide in the inner cavity of the track groove 112, the connecting rod 220 is driven to rotate by the second rotation driving device 210, the cleaning rod 230 is driven to move by the connecting rod 220, the roller 240 and the track groove 112 are limited, so that the cleaning rod 230 can move along the track of the track groove 112, and the inner cavity side wall of the incubator body 111 is cleaned through the movement of the cleaning rod 230;

in order to facilitate lifting of the net cage, referring to fig. 1, 2, 3, 5 and 8, the rolling mechanism 120 includes a first rotary driving device 121 and a rolling roller 122, the rolling roller 122 is installed on an output shaft of the first driving device 121, the first rotary driving device 121 is a motor, the first rotary driving device 121 is installed on a side wall of one of the two installation plates 114, the first rotary driving device 121 sequentially penetrates through the two installation plates 114, the rolling roller 122 is between the two installation plates 114, the rolling roller 122 is driven to rotate by the first rotary driving device 121, a supporting mechanism 300 is installed on the top of the incubator body 111, the supporting mechanism 300 includes a bracket 310, two cross bars 320, two feeding installation plates 330, a second wire passing roller 340 and a third wire passing roller 350, the two cross bars 320 are symmetrically arranged on an inner side surface of the bracket 310, the two feeding installation plates 330 are symmetrically arranged on left and right sides of the top of the two cross bars 320, the second wire passing roller 340 is arranged on the top of one cross rod 320, the second wire passing roller 340 is arranged between two feeding mounting plates 330, the third wire passing roller 350 is arranged on the top of the bracket 310, the third wire passing roller 350 corresponds to the second wire passing roller 340, the bracket 310 is arranged on the top of the incubator body 111, the net cage 500 is placed in the inner cavity of the incubator body 111, the net cage 500 comprises a net cage body 510 and four hanging rings 520, the four hanging rings 520 are arranged on the tops of four corners of the inner cavity of the incubator body 510, the net cage body 510 is placed in the inner cavity of the incubator body 111, the hanging rings 520 and the incubator body 510 are integrally processed, a steel wire rope is fixed on the hanging rings 520, one end of the steel wire rope, far away from the hanging rings 520, sequentially penetrates through the second wire passing roller 340, the third wire passing roller 350 and the first wire passing roller 113 to be connected with the rolling roller 122, and drives the rolling roller 122 to rotate through the first rotation driving device 121, the steel wire rope is wound through the winding roller 122, the net cage body 510 is lifted through the steel wire rope, when the cultivation box body 111 is cleaned, the net cage body 510 is lifted, and after cleaning is finished, the net cage body 510 is placed in the inner cavity of the cultivation box body 111, so that influence of sewage during cleaning on seedlings can be effectively prevented;

in order to facilitate quantitative feeding, referring to fig. 1, 5, 6 and 7, two feeding mechanisms 400 are correspondingly installed on the tops of two feeding installation plates 330, the feeding mechanism 400 includes a material barrel 410 and a discharging mechanism 420, the discharging mechanism 420 is installed on the top of the material barrel 410, some components of the discharging mechanism 420 are arranged in the inner cavity of the material barrel 410, the material barrel 410 includes a material storage barrel 411, a top cover 412, a fixing plate 413 and a discharging barrel 414, the top cover 412 is installed on the top of the material storage barrel 411 through bolts, the fixing plate 413 is arranged at the bottom of the side wall of the material storage barrel 411, the discharging barrel 414 is arranged at the bottom of the material storage barrel 411, the inner cavity of the discharging barrel 414 is communicated with the inner cavity of the material storage barrel 411, bait is thrown into the inner cavity of the material storage barrel 411, the fixing plate 413 and the material storage barrel 411 are integrally formed, the discharging barrel 414 and the material storage barrel are integrally formed, the bottom of the fixing plate 413 is contacted with the top of the feeding installation plates 330, the fixed plate 413 is fixed at the top of the feeding mounting plate 330 through bolts, the material storage barrel 411 is fixed at the top of the feeding mounting plate 330 through the fixed plate 413, the material storage barrel 414 penetrates through the bottom of the feeding mounting plate 330, the discharging mechanism 420 comprises a third rotary driving device 421 and a feeding screw 422, the feeding screw 422 is installed on an output shaft of the third rotary driving device 421, the third rotary driving device 421 is a motor, the third rotary driving device 421 is installed at the top of the top cover 412, the feeding screw 422 is arranged in the inner cavities of the material storage barrel 411 and the material storage barrel 414, the feeding screw 422 is driven to rotate through the third rotary driving device 421, bait is thrown through the rotation of the feeding screw 422, the precision can be precisely controlled through the spiral discharging mode, the bait can be effectively prevented from being thrown too much or too little, and the growth of seedlings is influenced.

While the utility model has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the various features of the embodiments disclosed herein may be used in any combination, provided that there is no structural conflict, and the combinations are not exhaustively described in this specification merely for the sake of brevity and conservation of resources. Therefore, it is intended that the utility model not be limited to the particular embodiments disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. The utility model provides a novel sea water artificial containers that grows seedlings which characterized in that: including breeding box subassembly (100) and four clean mechanisms (200), four clean mechanism (200) are installed respectively on four sides of breeding box subassembly (100), clean the clearance subassembly on mechanism (200) with the inner chamber lateral wall contact of breeding box subassembly (100), clean the inner chamber lateral wall of breeding box subassembly (100) through clean mechanism (200).

2. A novel seawater seedling raising incubator according to claim 1, wherein: the incubator assembly (100) comprises an incubator (110) and a rolling mechanism (120), wherein the rolling mechanism (120) is installed on a side wall of the incubator (110).

3. A novel seawater seedling raising incubator according to claim 2, wherein: the incubator (110) comprises an incubator body (111), four rail grooves (112), a first wire passing roller (113), two mounting plates (114) and two connectors (115), wherein the four rail grooves (112) are respectively arranged on four side walls of an inner cavity of the incubator body (111), the first wire passing roller (113) is arranged on the side wall of the incubator box body (111), the two mounting plates (114) are symmetrically arranged on the side wall of the incubator box body (111), the two mounting plates (114) are arranged at the lower end of the first wire passing roller (113), one connector (115) of the two connectors (115) is arranged at the bottom of the left side wall of the incubator box body (111), the other connector (115) is arranged at the bottom of the right side wall of the incubator body (111), the inner cavity of the connector (115) is communicated with the inner cavity of the incubator body (111).

4. A novel seawater seedling raising incubator according to claim 3, wherein: the winding mechanism (120) comprises a first rotary driving device (121) and a winding roller (122), and the winding roller (122) is installed on an output shaft of the first driving device (121).

5. A novel seawater seedling raising incubator according to claim 4, wherein: the cleaning mechanism (200) comprises a second rotary driving device (210), a connecting rod (220), a cleaning rod (230) and a roller (240), the connecting rod (220) is installed on an output shaft of the second rotary driving device (210), the cleaning rod (230) is installed on the connecting rod (220) through a shaft pin, and the roller (240) is installed at the bottom of the side wall of the cleaning rod (230).

6. A novel seawater seedling raising incubator according to claim 5, wherein: supporting mechanism (300) is installed at the top of artificial containers box (111), supporting mechanism (300) includes support (310), two horizontal poles (320), two are thrown material mounting panel (330), second and third and are crossed line gyro wheel (340) and (350), two the symmetrical setting of horizontal pole (320) is in the medial surface of support (310), two throw material mounting panel (330) symmetrical setting two the top left and right sides of horizontal pole (320), second is crossed line gyro wheel (340) and is installed at one of them the top of horizontal pole (320), second is crossed line gyro wheel (340) and is in two throw between the material mounting panel (330), third is crossed line gyro wheel (350) and is installed the top of support (310), third is crossed line gyro wheel (350) and second is crossed line gyro wheel (340) and correspond.

7. A novel seawater seedling raising incubator according to claim 6, wherein: two the top one-to-one of feeding mounting panel (330) installs two feeding mechanism (400), feeding mechanism (400) includes feed cylinder (410) and unloading mechanism (420), unloading mechanism (420) are installed the top of feed cylinder (410), partial subassembly setting on unloading mechanism (420) is in the inner chamber of feed cylinder (410).

8. A novel seawater seedling raising incubator according to claim 7, wherein: the feed cylinder (410) comprises a feed storage cylinder (411), a top cover (412), a fixing plate (413) and a feed discharge cylinder (414), wherein the top cover (412) is installed at the top of the feed storage cylinder (411) through bolts, the fixing plate (413) is arranged at the bottom of the side wall of the feed storage cylinder (411), the feed discharge cylinder (414) is arranged at the bottom of the feed storage cylinder (411), and an inner cavity of the feed discharge cylinder (414) is communicated with an inner cavity of the feed storage cylinder (411).

9. A novel seawater seedling raising incubator according to claim 8, wherein: the blanking mechanism (420) comprises a third rotary driving device (421) and a feeding screw rod (422), and the feeding screw rod (422) is installed on an output shaft of the third rotary driving device (421).

10. A novel seawater seedling raising incubator according to claim 9, wherein: the net cage (500) is placed in the inner cavity of the incubator body (111), the net cage (500) comprises a net cage body (510) and four hanging rings (520), and the four hanging rings (520) are arranged at the tops of four corners of the inner cavity of the cage body (510).

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