CN115191396B

CN115191396B - Shrimp cultivation case for fishery of photovoltaic energy supply

Info

Publication number: CN115191396B
Application number: CN202210777852.6A
Authority: CN
Inventors: 邓芸芸
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-07-04
Filing date: 2022-07-04
Publication date: 2023-10-10
Anticipated expiration: 2042-07-04
Also published as: CN115191396A

Abstract

The invention relates to an incubator, in particular to a shrimp incubator for fishery with photovoltaic energy supply. The invention aims to provide a photovoltaic-powered shrimp culture and breeding box for fishery, which can automatically change water, throw food and avoid feed accumulation. The invention provides a shrimp cultivation box for fishery, which is powered by photovoltaic energy, comprising a water tank and a water exchange tank block, wherein the water tank is arranged at the middle side of the top of the water exchange tank block; the placing mechanism is arranged at one side of the water tank; and the solar panel is arranged on the placement mechanism. The manual work is placed the fodder and is placed the board on first, can accomplish and throw edible operation, also can avoid the fodder to pile up in aqueous and influence quality of water, and the guardrail can avoid the shrimp to climb out of the water tank, then through the motor as driving force, can drive third carriage and scraper blade and control the removal, and the scraper blade can be with the first fodder that does not eat on placing the board and strike off, avoids influencing subsequent throwing edible operation.

Description

Shrimp cultivation case for fishery of photovoltaic energy supply

Technical Field

The invention relates to an incubator, in particular to a shrimp incubator for fishery with photovoltaic energy supply.

Background

Because some shrimps can survive in water with better water quality and can grow better, but the structure function of the existing shrimp culture incubator is simpler, automatic water exchange is not realized, manual water exchange for many times is needed, the shrimp larvae are more troublesome, if the water exchange is forgotten, the shrimps die, and electric energy is consumed to supply oxygen to the shrimps.

Moreover, the shrimp is required to be fed manually at regular time and quantity every day, people generally put the feed into water directly, if the feed is not fed completely, the feed can be accumulated in the water to affect the water quality, and in addition, the shrimp is required to rest in a nest, but the existing shrimp cultivation and cultivation box does not provide a place for rest, the shrimp can not find a place for digging holes, and the shrimp cultivation and cultivation box for fishery is designed to solve the problems that the feed can be automatically changed, fed and the feed accumulation can be avoided.

Disclosure of Invention

In order to overcome the defects that the water quality is affected due to accumulation of feed in water when the feed is not consumed, the shrimp culture box for fishery needs to change water and throw food for many times every day, and the invention aims to provide a photovoltaic energy-supply shrimp culture box for fishery, which can automatically change water and throw food and avoid accumulation of feed.

The technical proposal is as follows: a kind of photovoltaic energy supply shrimp culture case for fishery, including:

the water tank and the water changing groove block are arranged on the middle side of the top of the water changing groove block;

the placing mechanism is arranged at one side of the water tank;

the solar panel is arranged on the placement mechanism;

the storage battery is arranged at one side of the top of the water exchange groove block;

feeding mechanism, feeding mechanism installs in the water tank inboard.

As an improvement of the above-mentioned scheme, the placement mechanism includes:

the first guide rod is symmetrically arranged on one side of the water tank;

the first connecting blocks are symmetrically arranged at the upper part of one side of the water tank;

the first placing plate is rotatably arranged between one sides of the first connecting blocks, and one side of the first placing plate is connected with the solar panel;

the first sliding frame is arranged at the lower part of the first guide rod in a sliding manner, and damping is arranged between the first sliding frame and the first guide rod;

the first connecting rod is rotatably arranged between the first sliding frame and the first placing plate.

As an improvement of the above scheme, the feeding mechanism comprises:

the sliding rails are symmetrically arranged on two sides of the inner wall of the water tank;

nest, nest sliding type is installed between four slide rails of the same side;

the second sliding frame is arranged in the middle of the upper part of the inner side of the water tank;

the second placing plate is symmetrically and slidably arranged on the upper portion of the second sliding frame.

As the improvement of above-mentioned scheme, still including shielding mechanism, shielding mechanism is including:

the hollow sleeves are symmetrically arranged at the upper parts of two sides of the water tank;

the guardrail is slidably arranged between the hollow sleeves;

the handles are rotatably arranged on two sides of the top of the guardrail.

As an improvement of the scheme, the cleaning device also comprises a cleaning mechanism, wherein the cleaning mechanism comprises:

the motor is arranged in the middle of the upper part of one side of the water tank, and the storage battery supplies power for the motor;

the screw rod is rotatably arranged in the middle of the upper part of the second sliding frame, and one side of the screw rod is connected with an output shaft of the motor;

the third sliding frame is arranged on the other side of the screw rod in a threaded manner;

and the scraping plate is arranged on one side of the third sliding frame and is contacted with the second placing plate.

As an improvement of the above scheme, the utility model also comprises a storage mechanism, wherein the storage mechanism comprises:

the mounting frames are symmetrically arranged at the upper parts of two sides of the water tank;

the charging barrel is arranged between the tops of the mounting frames;

the rain shielding plate is arranged at the top of the charging barrel;

the second guide rods are symmetrically arranged on two sides of the lower part of the charging barrel;

the baffle plates are symmetrically and slidably arranged between the second guide rods and are slidably connected with the charging barrel, and the baffle plates block the lower part of the charging barrel;

and the first spring is arranged between the outer side of the baffle plate and the second guide rod.

As the improvement of above-mentioned scheme, still including feeding mechanism, feeding mechanism is including:

the fourth sliding frame is arranged on one side of the upper part of the second sliding frame in a sliding manner, and is matched with the third sliding frame;

the second connecting block is arranged on one side of the lower part of the second placing plate;

the second connecting rod is rotatably arranged between the second connecting block and the fourth sliding frame;

the third guide rod is arranged on the inner side of the guardrail;

the stop lever is symmetrically and slidably arranged between the third guide rods, matched with the second placing plate and matched with the baffle plate;

and the second spring is arranged between the outer side of the stop lever and the third guide rod.

As an improvement of the scheme, the isolation net is arranged at the bottom of the water tank, so that shrimps are prevented from being washed away by water.

The beneficial effects are that: 1. the solar panel can convert solar energy into electric energy to be stored in the storage battery, people can use the electricity in the storage battery for other electric appliances, energy is saved, the nest can facilitate the shrimp rest in the water tank, the water changing groove block can enable water to flow all the time, sundries in the water can be flushed out, and water quality is maintained.

2. The manual work is placed the fodder and is placed the board on first, can accomplish and throw edible operation, also can avoid the fodder to pile up in aqueous and influence quality of water, and the guardrail can avoid the shrimp to climb out of the water tank, then through the motor as driving force, can drive third carriage and scraper blade and control the removal, and the scraper blade can be with the first fodder that does not eat on placing the board and strike off, avoids influencing subsequent throwing edible operation.

3. When the third sliding frame is contacted with the fourth sliding frame, the fourth sliding frame can be driven to move leftwards, so that the baffle is driven to move outwards, and the feed in the feed cylinder can drop downwards to the second placing plate, so that feeding operation is automatically completed.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first part of the present invention.

Fig. 3 is a schematic perspective view of a second part of the present invention.

Fig. 4 is a schematic perspective view of a third portion of the present invention.

Fig. 5 is a schematic perspective view of the placement mechanism of the present invention.

Fig. 6 is a schematic view of a part of a perspective structure of the placement mechanism of the present invention.

Fig. 7 is a schematic perspective view of the feeding mechanism of the present invention.

Fig. 8 is a schematic view of a part of a feeding mechanism according to the present invention.

Fig. 9 is a schematic perspective view of a shielding mechanism according to the present invention.

Fig. 10 is a schematic perspective view of a cleaning mechanism according to the present invention.

FIG. 11 is a schematic view of a part of a cleaning mechanism of the present invention.

Fig. 12 is a schematic perspective view of a storage mechanism according to the present invention.

Fig. 13 is a schematic partial perspective view of the storage mechanism of the present invention.

Fig. 14 is a schematic perspective view of a feeding mechanism according to the present invention.

FIG. 15 is a schematic view of a part of a feeding mechanism according to the present invention.

Reference numerals in the figures: 1-water tank, 2-water changing groove block, 3-solar panel, 4-storage battery, 5-placing mechanism, 51-first guide rod, 52-first connecting block, 53-first placing plate, 54-first sliding frame, 55-first connecting rod, 6-feeding mechanism, 61-sliding rail, 62-nest, 63-second sliding frame, 64-second placing plate, 7-shielding mechanism, 71-hollow sleeve, 72-guardrail, 73-handle, 8-cleaning mechanism, 81-motor, 82-screw rod, 83-third sliding frame, 84-scraping plate, 9-storing mechanism, 91-mounting frame, 92-feed cylinder, 93-rain shield, 94-second guide rod, 95-baffle, 96-first spring, 10-feeding mechanism, 1001-fourth sliding frame, 1002-second connecting block, 1003-second connecting rod, 1004-third guide rod, 1005-stop rod, 1006-second spring.

Detailed Description

The invention is described in detail below with reference to the drawings and the specific embodiments.

Example 1

The utility model provides a shrimp artificial breeding case for fishery of photovoltaic energy supply, as shown in fig. 1, fig. 4, fig. 5, fig. 6, fig. 7 and fig. 8, including water tank 1, trade water tank piece 2, solar panel 3, battery 4, place mechanism 5 and feeding mechanism 6, trade water tank piece 2 top middle side and be equipped with water tank 1, water tank 1 bottom is equipped with the isolation net, and water tank 1 rear side is equipped with places mechanism 5, is equipped with solar panel 3 on placing mechanism 5, trade water tank piece 2 top right front side and be equipped with battery 4, and water tank 1 inboard is equipped with feeding mechanism 6.

The placement mechanism 5 comprises a first guide rod 51, a first connecting block 52, a first placement plate 53, a first sliding frame 54 and a first connecting rod 55, wherein the first guide rod 51 is symmetrically arranged on the left and right of the rear side of the water tank 1, the first connecting block 52 is symmetrically arranged on the left and right of the upper portion of the rear side of the water tank 1, the first placement plate 53 is rotatably arranged between the rear sides of the first connecting blocks 52, the rear side of the first placement plate 53 is connected with the solar panel 3, the first sliding frame 54 is slidably arranged on the lower portion of the first guide rod 51, damping is arranged between the first sliding frame 54 and the first guide rod 51, and the first connecting rod 55 is rotatably arranged between the first sliding frame 54 and the first placement plate 53.

Feeding mechanism 6 is including slide rail 61, nest 62, second carriage 63 and second place board 64, and the symmetry is equipped with slide rail 61 around the water tank 1 inner wall left and right sides all, and slide rail 61 quantity is 8, all is equipped with nest 62 between four slide rails 61 of homonymy, is equipped with second carriage 63 in the middle of the inboard upper portion of water tank 1, and second carriage 63 upper portion front and back symmetry slip is equipped with second and places board 64.

When people need to use this breed case, at first place this breed case in outdoor assigned position, then pour into water from the right side of changing water tank piece 2, make water can get into in the water tank 1, unnecessary water can be discharged from the left side of changing water tank piece 2, collect by the manual work, so accomplish the hydrologic cycle, then the manual work is put into water tank 1 with the shrimp seedling in, some debris in the water can be washed away by water, discharge from the left side of changing water tank piece 2, the isolation net can avoid the shrimp seedling to be washed away, people also can rotate first place the board 53 from top to bottom according to the irradiation angle of sunlight, thereby drive the rotation from top to bottom of solar panel 3, simultaneously first place the board 53 and drive first carriage 54 reciprocate, thereby adjust the position of solar panel 3, make solar panel 3 can receive more illumination, solar energy conversion into electric energy and store in battery 4, when people need throw in, can place the fodder on second place the board 64, can climb to the second place the fodder on the water tank 1 and place the board 62 in need of throwing the time, can stop the time of taking out the nest 62 when the time of the nest 1, can stop the time of taking out the nest 62, and the nest can be washed in situ, can be finished when the nest 1 need to take out, and the nest 62 need to be washed.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, 2, 3, 9, 10, 11, 12, 13, 14 and 15, the water tank is further provided with a shielding mechanism 7, the shielding mechanism 7 comprises a hollow sleeve 71, a guardrail 72 and a handle 73, the upper parts of the front side and the rear side of the water tank 1 are symmetrically provided with the hollow sleeve 71, the guardrail 72 is arranged between the hollow sleeves 71 in a sliding mode, and the left side and the right side of the top of the guardrail 72 are rotatably connected with the handle 73.

The guardrail 72 can avoid the shrimp to climb out of the water tank 1, when people need to take out the nest 62, the handles 73 are held at first, the guardrail 72 is pulled upwards, the guardrail 72 is separated from the hollow sleeve 71, then the nest 62 can be taken out for cleaning, and when people put the nest 62 back to the original position, the guardrail 72 is put back to the original position.

Still including clean mechanism 8, clean mechanism 8 is equipped with motor 81 including motor 81, lead screw 82, third carriage 83 and scraper blade 84 in the middle of the upper portion on water tank 1 right side, and battery 4 is motor 81 power supply, and the rotation is equipped with lead screw 82 in the middle of the upper portion of second carriage 63, and lead screw 82 right side and motor 81's output shaft, lead screw 82 left side screw thread are equipped with third carriage 83, and third carriage 83 left side is equipped with scraper blade 84, and scraper blade 84 and second place the contact of board 64.

Because the fodder on the second placing plate 64 is placed for a long time and then can be stuck together, the follow-up feeding work is inconvenient, manual cleaning is needed, when people need to clean the fodder on the second placing plate 64, firstly, the motor 81 is started, the output shaft of the motor 81 is controlled to rotate positively, the screw rod 82 is driven to rotate positively, and accordingly the third sliding frame 83 is driven to move rightwards, the scraping plate 84 can scrape the fodder on the second placing plate 64 rightwards, then the output shaft of the motor 81 is controlled to rotate reversely, the screw rod 82 is driven to rotate reversely, the third sliding frame 83 is driven to move leftwards to reset, the scraping plate 84 is driven to move leftwards to reset, then the motor 81 is closed, and the scraped fodder is taken away manually, so that the scraped fodder is cleaned.

Still including storage mechanism 9, storage mechanism 9 is including mounting bracket 91, feed cylinder 92, weather shield 93, second guide bar 94, baffle 95 and first spring 96, the equal front and back symmetry in water tank 1 left and right sides upper portion is equipped with mounting bracket 91, the feed cylinder 92 has been placed between the mounting bracket 91 top, the feed cylinder 92 top is equipped with weather shield 93, the equal front and back symmetry in feed cylinder 92 lower part left and right sides is equipped with second guide bar 94, the front and back symmetry slidingtype is equipped with baffle 95 between the second guide bar 94, baffle 95 all is connected with feed cylinder 92 slidingtype, baffle 95 keeps off feed cylinder 92 lower part, all be equipped with first spring 96 between baffle 95 outside and two second guide bars 94.

The feeding mechanism 10 comprises a fourth sliding frame 1001, a second connecting block 1002, a second connecting rod 1003, a third guide rod 1004, a stop rod 1005 and a second spring 1006, wherein the fourth sliding frame 1001 is arranged on the left side of the upper portion of the second sliding frame 63 in a sliding mode, the fourth sliding frame 1001 is matched with the third sliding frame 83, the second connecting blocks 1002 are respectively arranged on the left side of the lower portion of the second placing plate 64, the second connecting rods 1003 are respectively arranged between the second connecting blocks 1002 and the fourth sliding frame 1001 in a rotating mode, two third guide rods 1004 are respectively arranged at the right portion of the inner side of the guardrail 72 at intervals, stop rods 1005 are respectively arranged between the third guide rods 1004 in a sliding mode and are matched with the second placing plate 64, and the second springs 1006 are respectively arranged between the outer sides of the stop rods 1005 and the two third guide rods 1004.

People can put a large amount of fodder into the feed cylinder 92, the baffle 95 can block the fodder, the weather shield 93 can avoid the fodder to rain moist, when people need throw the food, the motor 81 is started, the output shaft of control motor 81 reverses, drive lead screw 82 reverses, thereby drive third carriage 83 to move left, make third carriage 83 extrusion fourth carriage 1001 move left, fourth carriage 1001 drives second connecting block 1002 to outside through the second connecting rod 1003, thereby drive the second and place the board 64 and move outside, the second and place the board 64 and drive the pin 1005 to outside and move, the second spring 1006 compresses, the pin 1005 drives baffle 95 to outside and moves, first spring 96 compresses, make the fodder in the feed cylinder 92 can drop down to the second and place on the board 64, then control motor 81's output shaft corotation, drive lead screw 82 corotation, thereby drive third carriage 83 to right, make third carriage 83 unclamp fourth carriage 1001, second spring 1006 and first spring 96 resume the original state, the second spring 1006 drives the inboard and moves the pin 1006, thereby drive the second spring 1005 to reset to the side, the side is reset to the side to finish the operation, can finish the automatic feed feeding, the reset to the side is reset to the side, and then reset to the side is reset to the spring is reset to the reset to move.

While the present disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present disclosure as defined by the appended claims and their equivalents. The scope of the disclosure should, therefore, not be limited to the above-described embodiments, but should be determined not only by the following claims, but also by the equivalents of the following claims.

Claims

1. A kind of photovoltaic energy supply shrimp culture incubator for fishery, characterized by, including:

the water tank (1) and the water changing groove block (2), wherein the water tank (1) is arranged at the middle side of the top of the water changing groove block (2);

the placement mechanism (5), the placement mechanism (5) is installed on one side of the water tank (1);

the solar panel (3), the solar panel (3) is installed on the placing mechanism (5);

the storage battery (4) is arranged on one side of the top of the water exchange groove block (2);

the feeding mechanism (6), the feeding mechanism (6) is installed inside the water tank (1); the placement mechanism (5) comprises:

the first guide rod (51) is symmetrically arranged on one side of the water tank (1);

the first connecting block (52), the first connecting block (52) is symmetrically installed on one side upper part of the water tank (1);

the first placing plate (53), the first placing plate (53) is installed between one sides of the first connecting blocks (52) in a rotating mode, and one side of the first placing plate (53) is connected with the solar panel (3);

the first sliding frame (54), the first sliding frame (54) is installed on the lower portion of the first guide rod (51) in a sliding mode, and damping exists between the first sliding frame (54) and the first guide rod (51);

the first connecting rod (55), the first connecting rod (55) is rotatably installed between the first sliding frame (54) and the first placing plate (53); the feeding mechanism (6) comprises:

the sliding rails (61) are symmetrically arranged on two sides of the inner wall of the water tank (1);

nest (62), nest (62) is installed between four slide rails (61) of homonymy in a sliding way;

a second carriage (63), the second carriage (63) being mounted in the middle of the upper part of the inner side of the water tank (1);

and the second placing plate (64), the second placing plate (64) is symmetrically and slidably arranged on the upper part of the second sliding frame (63).

2. A photovoltaic powered shrimp culture incubator as claimed in claim 1 further comprising a shielding mechanism (7), the shielding mechanism (7) comprising:

the hollow sleeves (71), the hollow sleeves (71) are symmetrically arranged at the upper parts of two sides of the water tank (1);

the guardrail (72), the guardrail (72) is installed between the hollow sleeves (71) in a sliding mode;

the handles (73), the handles (73) are rotatably arranged on two sides of the top of the guardrail (72).

3. A photovoltaic powered shrimp culture incubator as in claim 2 further comprising a cleaning mechanism (8), the cleaning mechanism (8) comprising:

the motor (81) is arranged in the middle of the upper part of one side of the water tank (1), and the storage battery (4) supplies power for the motor (81);

the screw rod (82), the screw rod (82) is rotatably installed in the middle of the upper part of the second sliding frame (63), one side of the screw rod (82) is connected with the output shaft of the motor (81);

the third sliding frame (83), the third sliding frame (83) is installed on the other side of the screw rod (82) in a threaded mode;

and a scraper (84), wherein the scraper (84) is mounted on one side of the third carriage (83), and the scraper (84) is in contact with the second placement plate (64).

4. A photovoltaic powered shrimp culture incubator as in claim 3 further comprising a storage mechanism (9), the storage mechanism (9) comprising:

the installation frames (91) are symmetrically arranged at the upper parts of two sides of the water tank (1);

a charging barrel (92), wherein the charging barrel (92) is arranged between the tops of the mounting frames (91);

the rain shielding plate (93), the rain shielding plate (93) is installed at the top of the charging barrel (92);

the second guide rods (94) are symmetrically arranged on two sides of the lower part of the charging barrel (92);

the baffle plates (95) are symmetrically and slidably arranged between the second guide rods (94), the baffle plates (95) are slidably connected with the feed cylinder (92), and the baffle plates (95) block the lower part of the feed cylinder (92);

and the first spring (96) is arranged between the outer side of the baffle plate (95) and the second guide rod (94).

5. A photovoltaic powered shrimp culture incubator as in claim 4 further comprising a feeding mechanism (10), the feeding mechanism (10) comprising:

a fourth carriage (1001), the fourth carriage (1001) being slidably mounted on the upper side of the second carriage (63), the fourth carriage (1001) being engaged with the third carriage (83);

a second connection block (1002), the second connection block (1002) being mounted on a lower side of the second placement plate (64);

the second connecting rod (1003), the second connecting rod (1003) is rotatably installed between the second connecting block (1002) and the fourth sliding frame (1001);

a third guide bar (1004), the third guide bar (1004) being mounted inside the guard rail (72);

the stop lever (1005), the stop lever (1005) is symmetrically installed between third guide rods (1004) in a sliding mode, the stop lever (1005) is matched with the second placing plate (64), and the stop lever (1005) is matched with the baffle (95);

and a second spring (1006), wherein the second spring (1006) is installed between the outer side of the stop lever (1005) and the third guide lever (1004).

6. A photovoltaic powered shrimp culture incubator as in claim 1 wherein the isolation net is mounted at the bottom of the tank (1) to prevent shrimp from being washed away by water.