CN115474573B - Intelligent shellfish seedling raising device - Google Patents

Abstract

The invention discloses an intelligent shellfish seedling raising device which is characterized by comprising a reservoir, a control center and a circulating water pump, wherein the circulating water pump is connected with a first water pipe group used for being connected with the reservoir and a second water pipe group used for being connected with a seedling raising barrel, a filtering mechanism is arranged on the first water pipe group, and a first sensor used for monitoring water quality is arranged in the seedling raising barrel. The invention has the following beneficial effects: the staff breeds young shellfish in the bucket of growing seedlings to predetermine the time of changing water through control center, after reaching the time interval of changing water, control center takes place the signal and gives circulating water pump, and circulating water pump draws the water of growing seedlings the bucket and adds the cistern, and in will drawing the water of cistern to add the bucket of growing seedlings, change water for growing seedlings the bucket through control center automated control, can need not manual monitoring, avoid the human resource waste, ensure the quality of breeding.

Description

Intelligent shellfish seedling raising device

Technical Field

The invention relates to a shellfish breeding device, in particular to an intelligent shellfish breeding device.

Background

Shellfish, including clam, sinonovacula constricta, mussel, etc., live in the seashore area, are easy for mass artificial culture due to strong vitality, and have wide culture sea areas in coastal provinces. Because natural resources are limited, the larger and larger culture requirements are difficult to supply, the acquisition difficulty of the wild shellfish offspring is gradually increased, and the artificial cultivation of the shellfish offspring is a trend. The shellfish artificial breeding initial stage can be cultivated in an indoor cultivation pond until the shellfish can be cultivated in the sea, and the water quality needs to be checked at intervals to check whether water is needed to be changed or not, so that human resources are wasted.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an intelligent shellfish seedling raising device which can solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an intelligent device of shellfish growing seedlings, including growing seedlings the bucket, still including cistern, control center and circulating water pump, circulating water pump is connected with the first water nest of tubes that is used for being connected with the cistern and is used for the second water nest of tubes of being connected with growing seedlings the bucket, installs filtering mechanism on the first water nest of tubes, installs the first sensor that is used for monitoring quality of water in the bucket of growing seedlings, and control center is connected with circulating water pump and first sensor electricity respectively.

The invention is further provided with: still install the second sensor that is used for monitoring the temperature in the bucket of growing seedlings, install in the bucket of growing seedlings and be used for heating hydrothermal heater and be used for stirring the agitator of water, the heater be provided with a plurality of with the heating ring of the bucket inner wall looks adaptation of growing seedlings, a plurality of heating rings all set up the equidistance along the direction of height of bucket of growing seedlings on the inner wall of bucket of growing seedlings, the agitator sets up the barrel head in the bucket of growing seedlings, control center is connected in second sensor, heater and agitator electricity respectively.

The invention is further provided with: the first water pipe group is including first inlet tube and first drain pipe, and filtering mechanism is including the rose box of vertical setting, and the rose box is installed on first drain pipe, and rose box internal top down is provided with a plurality of filter layers, and a plurality of filter layers are including sand stone layer, activated carbon layer and filtration gauze layer.

The invention is further provided with: the cistern still installs a plurality of filter, and a plurality of filter separates the cistern into a plurality of filtration district, and first inlet tube and first drain pipe are connected with the corresponding filtration district in cistern both sides respectively.

The invention is further provided with: the reservoir is also provided with an air pump, the air pump is connected with a plurality of air inlet pipes, the plurality of air inlet pipes are respectively arranged in the corresponding filtering areas and are respectively provided with a control valve, and the air pump and the plurality of control valves are electrically connected with a control center.

The invention is further provided with: the biofilter is installed to the cistern, and biofilter is including the breed case that is used for breeding the seaweed, all is provided with the filtration pore on the both sides of breeding the case, and the filtration pore of both sides all is provided with the filter screen, breeds case demountable installation on corresponding filter.

The invention is further provided with: still including breeding the pond, the quantity of growing seedlings the bucket is a plurality of, a plurality of growing seedlings the bucket and arrange in breeding the pond along the length direction equidistance in pond, it installs the guide rail to breed the pond along length direction, install the electric actuator who is used for along the guide rail removal on the guide rail, install first electric telescopic handle on the electric actuator, install the support on the flexible end of first electric telescopic handle, install second electric telescopic handle on the support, install water inflow head and drainage head on the flexible end of second electric telescopic handle, second water pipe group is including second inlet tube and second drain pipe, the second inlet tube is connected with the water inflow head, the second drain pipe is connected with the drainage head.

The invention is further provided with: the water inlet head and the water outlet head are vertically downwards arranged, and the lower end of the water outlet head is lower than the water inlet head and is used for extending into the bottom of the seedling raising barrel.

The invention is further provided with: be provided with the bracing piece on the bucket of growing seedlings and be used for placing the recess of bracing piece, the bracing piece is connected with and hangs the rope, hangs and is connected with a plurality of breed bags that are used for placing young shellfish on the rope, and the symmetry is provided with the fixed block on the inner wall of the bucket of growing seedlings in the below, is provided with the fixed slot on two fixed blocks, hangs the hypomere of rope and is connected with the dead lever, and the both ends of dead lever can be dismantled respectively and connect in corresponding fixed slot.

The invention is further provided with: the support is also provided with an electric hoist, the electric hoist is connected with a lifting rope, the lifting rope is connected with a hook for connecting the support rod, and the electric hoist is electrically connected with the control center.

In summary, the invention has the following beneficial effects: the staff breeds young shellfish in the bucket of growing seedlings to preset the time of changing water through control center, after reaching the time interval of changing water, control center takes place the signal and gives circulating water pump, and circulating water pump draws the water of growing seedlings the bucket and adds the cistern in, and will draw the water of cistern to add in the bucket of growing seedlings, the cistern can keep still, measure such as pasture and water breed and microbiological treatment resume quality of water, change water for the bucket of growing seedlings through control center automated control, can need not manual monitoring, avoid the human resource waste, ensure the quality of breeding. The staff can also preset the water quality standard line through the control center, and the first sensor monitors the water quality in the seedling raising barrel, and when the water quality is lower than the preset water quality standard, the control center generates a signal to the circulating water pump to control the circulating water pump to change water for the seedling raising barrel, so that the water quality can be timely processed when the water quality is effectively prevented from accidentally changing, and the water quality can be timely processed relative to manual monitoring, so that the cultivation quality is guaranteed.

Drawings

FIG. 1 is a schematic diagram of a connection structure of an intelligent shellfish seedling raising device;

FIG. 2 is a schematic diagram of a connection structure of the seedling raising barrel;

FIG. 3 is a schematic diagram of the connection structure of the filter mechanism;

FIG. 4 is a schematic diagram of the connection structure of a biological filter;

fig. 5 is a schematic diagram of a connection structure of the electric hoist.

Detailed Description

The invention will now be described in further detail with reference to the drawings and examples. Wherein like parts are designated by like reference numerals. It should be noted that the words "front", "back", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "bottom" and "top", "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.

Referring to fig. 1-5, the shellfish intelligent device comprises a seedling raising barrel 1, a water reservoir 2, a control center 3 and a circulating water pump 4, wherein the circulating water pump 4 is connected with a first water pipe group 5 used for being connected with the water reservoir 2 and a second water pipe group 6 used for being connected with the seedling raising barrel 1, a filtering mechanism 7 is installed on the first water pipe group 5, a first sensor 31 used for monitoring water quality is installed in the seedling raising barrel 1, and the control center 3 is respectively electrically connected with the circulating water pump 4 and the first sensor 31.

Through the scheme, the staff breeds the juvenile mollusk in the seedling raising barrel 1, and preset water changing time through the control center 3, after reaching the water changing time interval, the control center 3 generates signals to the circulating water pump 4, the circulating water pump 4 is controlled to pump water of the seedling raising barrel 1 into the water reservoir 2, and the water of the pumping water reservoir 2 is added into the seedling raising barrel 1, the water reservoir 2 can stand still and restore water quality by means of microorganisms and the like, the water is changed for the seedling raising barrel 1 through the automatic control of the control center 3, manual monitoring can be omitted, waste of human resources is avoided, and the breeding quality is ensured.

The staff can also preset the water quality standard line through the control center 3, the first sensor 31 monitors the water quality in the seedling raising barrel 1, when the water quality is lower than the preset water quality standard, the control center 3 generates a signal to the circulating water pump 4, and the circulating water pump 4 is controlled to change water for the seedling raising barrel 1, so that the water quality can be effectively prevented from being timely processed when the water quality is accidentally changed, and the water quality can be timely processed relative to manual monitoring, so that the cultivation quality is ensured.

As a specific embodiment of improvement, a second sensor 32 for monitoring water temperature is further installed in the seedling raising barrel 1, a heater 11 for heating water and a stirrer 12 for stirring water are installed in the seedling raising barrel 1, the heater 11 is provided with a plurality of heating rings 111 matched with the inner wall of the seedling raising barrel 1, the plurality of heating rings 111 are all arranged on the inner wall of the seedling raising barrel 1 at equal intervals along the height direction of the seedling raising barrel 1, the stirrer 12 is arranged at the barrel bottom in the seedling raising barrel 1, and the control center 3 is respectively electrically connected with the second sensor 32, the heater 11 and the stirrer 12.

Through the scheme, the staff presets required temperature and temperature range through the control center 3, and the control center 3 controls the heater 11 to heat or starts the circulating water pump 4 to change water and cool according to the second sensor 32 so as to keep the temperature in the seedling raising barrel 1 constant and maintain in a certain temperature range, so that the young shellfish can be packed and grown in a proper environment.

The equidistant setting of heating ring 111 can regulate and control the heating better, can carry out overall heating and selective local heating or differential heating according to the feedback of second sensor 32 to guarantee that overall temperature is unanimous, and the cooperation agitator 12 drives water flow, so that can heat or the cooling fast, and the stirring water can keep rivers can simulate the sea water flow, stimulates juvenile mollusk growth, can also increase the oxygen in the water, improves quality of water.

As a modified specific embodiment, the first water pipe set 5 includes a first water inlet pipe 51 and a first water outlet pipe 52, the filtering mechanism 7 includes a vertically arranged filtering box 71, the filtering box 71 is installed on the first water outlet pipe 52, a plurality of filtering layers 72 are disposed in the filtering box 71 from top to bottom, and the plurality of filtering layers 72 include a sand stone layer, an activated carbon layer and a filtering gauze layer.

Through above-mentioned scheme, the water that draws from in the seedling raising bucket 1 filters through a plurality of filter layers 72, reduces impurity, and in the cistern 2 is got back again, can accelerate the reply of quality of water to guarantee that the hydrologic cycle can last, be favorable to avoiding impurity to pile up in cistern 2 moreover. The sand layer filters too big impurity, can also make filterable water more natural, and activated carbon can adsorb well and filter, and the fine impurity can be filtered to the filtration gauze layer, can avoid grit or garrulous carbon to discharge moreover.

As a modified embodiment, the water reservoir 2 is further provided with a plurality of filter plates 21, the plurality of filter plates 21 divide the water reservoir 2 into a plurality of filter areas 22, and the first water inlet pipe 51 and the first water outlet pipe 52 are respectively connected with the corresponding filter areas 22 on both sides of the water reservoir 2.

Through the scheme, water pumped out from the seedling raising barrel 1 is discharged into the filtering area 22 at one side, is filtered again through the plurality of filter plates 21, and can ensure the filtering effect by being matched with standing.

As a modified embodiment, the water reservoir 2 is further provided with an air pump 23, the air pump 23 is connected with a plurality of air inlet pipes 231, the plurality of air inlet pipes 231 are respectively arranged in the corresponding filtering areas 22, and are provided with control valves 232, and the air pump 23 and the plurality of control valves 232 are electrically connected with the control center 3.

Through the scheme, the air pump 23 pumps air into the corresponding filtering area 22 through the air inlet pipe 23 so as to increase the oxygen content in water, promote the recovery of water quality and avoid the phenomenon that the water becomes dead water due to long-term standing. The control center 3 controls the pumped-in filtration zone 22 through the control valve 232 to adjust the oxygen content of the pumped-in zone.

As a modified specific embodiment, the water reservoir 2 is provided with a biological filter 8, the biological filter 8 comprises a cultivation box 81 for cultivating seaweed, filter holes 82 are formed in two sides of the cultivation box 81, filter screens 83 are arranged in the filter holes 82 on two sides, and the cultivation box 81 is detachably mounted on the corresponding filter plate 21.

By the above scheme, seaweed and microorganisms can be used as supplementary food for juvenile mollusk growth by growing the seaweed in the filtration zone 22 to increase oxygen content and increase microorganism content.

As an improved concrete implementation mode, the utility model also comprises a culture pond 9, the quantity of the seedling raising barrels 1 is a plurality of, a plurality of seedling raising barrels 1 are equidistantly arranged in the culture pond 9 along the length direction of the culture pond 9, a guide rail 91 is arranged in the length direction of the culture pond 9, an electric driver 92 used for moving along the guide rail 91 is arranged on the guide rail 91, a first electric telescopic rod 93 is arranged on the electric driver 92, a bracket 94 is arranged on the telescopic end of the first electric telescopic rod 93, a second electric telescopic rod 95 is arranged on the bracket 94, a water inlet head 96 and a water outlet head 97 are arranged on the telescopic end of the second electric telescopic rod 95, a second water pipe group 6 comprises a second water inlet pipe 61 and a second water outlet pipe 62, the second water inlet pipe 61 is connected with the water inlet head 96, and the second water outlet pipe 62 is connected with the water outlet head 97.

Through above-mentioned scheme, a plurality of young shellfish of growing seedlings bucket 1 are cultivated simultaneously respectively, or cultivate the stage by stage, through electric actuator 92 control shift position, move the seedling bucket 1 department that needs the water-changing, first electric telescopic handle 93 control water inlet head 96 and drainage head 97 descend, trade water in order to insert seedling bucket 1, first electric telescopic handle 93 control water inlet head 96 and drainage head 97 rise after the water-changing, electric actuator 92 moves another seedling bucket 1 position and trades water, thereby can trade water for a plurality of seedling buckets 1, improve the efficiency of breeding, still need not to increase new cistern 2.

As a modified embodiment, the water inlet head 96 and the water outlet head 97 are vertically downward, and the lower end of the water outlet head 97 is lower than the water inlet head 96, so as to extend into the bottom of the seedling raising barrel 1.

Through the scheme, the lower end of the water discharge head 97 stretches into the bottom of the seedling raising barrel 1 to change water, so that water can be changed to the greatest extent.

As an improved specific embodiment, a supporting rod 13 and a groove 14 for placing the supporting rod 13 are arranged on the seedling raising barrel 1, the supporting rod 13 is connected with a hanging rope 15, a plurality of cultivation bags 16 for placing young shellfish are connected to the hanging rope 15, fixing blocks 17 are symmetrically arranged on the inner wall of the lower portion in the seedling raising barrel 1, fixing grooves 171 are formed in the two fixing blocks 17, a fixing rod 18 is connected to the lower section of the hanging rope 15, and two ends of the fixing rod 18 are detachably connected in the corresponding fixing grooves 171 respectively.

Through the scheme, the juvenile mollusk suspension culture can fully utilize the culture space. The fixing rod 18 is fixed in the seedling raising barrel 1, the hanging rope 15 can be stretched and straightened, the cultivation bags 16 are ensured to be cultivated at different depths along the hanging rope 15, and the cultivation bags 16 are kept at a certain depth for cultivation.

As a modified specific embodiment, an electric hoist 98 is further installed on the support 94, the electric hoist 98 is connected with a lifting rope 981, the lifting rope 981 is connected with a hook 99 for connecting the support rod 13, and the electric hoist 98 is electrically connected with the control center 3.

Through above-mentioned scheme, all mention the juvenile mollusk through electric hoist 98, can the quick replacement grow seedlings bucket 1 breed, also can use manpower sparingly resources, it is also more convenient to use.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

Claims (8)

1. The intelligent shellfish seedling raising device comprises a seedling raising barrel (1), and is characterized in that: the water quality monitoring device is characterized by further comprising a water storage tank (2), a control center (3) and a circulating water pump (4), wherein the circulating water pump (4) is connected with a first water pipe group (5) used for being connected with the water storage tank (2) and a second water pipe group (6) used for being connected with a seedling raising barrel (1), a filtering mechanism (7) is installed on the first water pipe group (5), a first sensor (31) used for monitoring water quality is installed in the seedling raising barrel (1), and the control center (3) is electrically connected with the circulating water pump (4) and the first sensor (31) respectively;

the novel water pipe culture device is characterized by further comprising a culture pond (9), wherein the number of the culture barrels (1) is multiple, the culture barrels (1) are equidistantly arranged in the culture pond (9) along the length direction of the culture pond (9), a guide rail (91) is arranged in the culture pond (9) along the length direction, an electric driver (92) used for moving along the guide rail (91) is arranged on the guide rail (91), a first electric telescopic rod (93) is arranged on the electric driver (92), a bracket (94) is arranged on the telescopic end of the first electric telescopic rod (93), a second electric telescopic rod (95) is arranged on the bracket (94), a water inlet head (96) and a water outlet head (97) are arranged on the telescopic end of the second electric telescopic rod (95), the second water pipe set (6) comprises a second water inlet pipe (61) and a second water outlet pipe (62), the second water inlet pipe (61) is connected with the water inlet head (96), and the second water outlet pipe (62) is connected with the water outlet head (97).

Be provided with bracing piece (13) on seedling raising barrel (1), still install electric hoist (98) on support (94), electric hoist (98) are connected with lifting rope (981), lifting rope (981) are connected with couple (99) that are used for connecting bracing piece (13), electric hoist (98) are connected with control center (3) electricity.

2. The intelligent shellfish seedling raising device according to claim 1, characterized in that: still install second sensor (32) that are used for monitoring the temperature in growing seedlings bucket (1), install in growing seedlings bucket (1) and be used for heating hydrothermal heater (11) and agitator (12) that stir water, heater (11) are provided with a plurality of heating rings (111) with growing seedlings bucket (1) inner wall looks adaptation, a plurality of heating rings (111) all set up the equidistance along the direction of height of growing seedlings bucket (1) on the inner wall of growing seedlings bucket (1), agitator (12) set up the barrel head in growing seedlings bucket (1), control center (3) are connected in second sensor (32), heater (11) and agitator (12) electricity respectively.

3. The intelligent shellfish seedling raising device according to claim 1, characterized in that: the first water pipe group (5) comprises a first water inlet pipe (51) and a first water outlet pipe (52), the filtering mechanism (7) comprises a vertically arranged filtering box (71), the filtering box (71) is arranged on the first water outlet pipe (52), a plurality of filtering layers (72) are arranged in the filtering box (71) from top to bottom, and the filtering layers (72) comprise sand stone layers, activated carbon layers and filtering gauze layers.

4. An intelligent shellfish growing apparatus according to claim 3, characterized in that: the water storage tank (2) is further provided with a plurality of filter plates (21), the water storage tank (2) is divided into a plurality of filter areas (22) by the filter plates (21), and the first water inlet pipe (51) and the first water outlet pipe (52) are respectively connected with the corresponding filter areas (22) on two sides of the water storage tank (2).

5. The intelligent shellfish seedling raising device according to claim 4, wherein: the air pump (23) is further installed on the reservoir (2), the air pump (23) is connected with a plurality of air inlet pipes (231), the air inlet pipes (231) are respectively arranged in the corresponding filtering areas (22), control valves (232) are respectively arranged, and the air pump (23) and the control valves (232) are electrically connected with the control center (3).

6. An intelligent shellfish growing apparatus according to claim 3, characterized in that: the biological filter (8) is installed to cistern (2), biological filter (8) are including being used for breeding cultivation case (81) of seaweeds, all be provided with filtration pore (82) on the both sides of cultivation case (81), both sides filtration pore (82) all are provided with filter screen (83), cultivation case (81) demountable installation is on corresponding filter (21).

7. The intelligent shellfish seedling raising device according to claim 1, characterized in that: the water inlet head (96) and the water outlet head (97) are vertically arranged downwards, and the lower end of the water outlet head (97) is lower than the water inlet head (96) so as to be used for extending into the bottom of the seedling raising barrel (1).

8. The intelligent shellfish seedling raising device according to claim 7, wherein: still be provided with recess (14) that are used for placing bracing piece (13) on seedling raising barrel (1), bracing piece (13) are connected with and hang rope (15), hang and be connected with a plurality of breed bags (16) that are used for placing young shellfish on rope (15), symmetry is provided with fixed block (17) on the inner wall of the interior below of seedling raising barrel (1), two be provided with fixed slot (171) on fixed block (17), hang the lower segment of rope (15) and be connected with dead lever (18), the both ends of dead lever (18) can be dismantled respectively and connect in corresponding fixed slot (171).