CN215530922U - Breeding device - Google Patents

Abstract

The utility model discloses a culture device which comprises a cylinder body, a pump and at least one algae sucking plate. Wherein, the pump is installed in the cylinder body, inhales the algae board and installs in the cylinder body, inhales the algae board and is located the side of intaking of pump. The algae generated in the culture device provided by the utility model is simple and convenient to remove, a special tool is not needed to be used for cleaning the tank wall during algae removal, and the required time cost and labor cost are low.

Description

Breeding device

Technical Field

The utility model relates to the field of culture equipment, in particular to a culture device.

Background

The cultivation device can generate algae after a period of time, the excessive algae can affect the photosynthesis of plants, and the algae can cover the wall of the tank to influence the appearance and also have adverse effects on the fish.

In the prior art, the cleaning method is usually adopted to remove algae, the water in the cylinder body is poured out, and then the cylinder body is cleaned by using an algae removal tool, so that the cleaning is laborious and difficult, and the required time cost and labor cost are high.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a culture device, and aims to solve the problem that algae in a fish tank is difficult to remove in the prior art.

In order to achieve the above object, the present invention provides a cultivation apparatus, comprising a tank body;

a pump mounted within the cylinder;

the algae sucking plate is arranged in the cylinder body and is positioned on the water inlet side of the pump.

Optionally, the cylinder body has breed district and unrestrained district, it sets up to make unrestrained district is close to the cylinder body inner wall.

Optionally, a grating plate is arranged between the wave making zone and the culture zone.

Optionally, the water inlet side of the pump is arranged in the wave making area, the wave making area is located at one side of the culture area, and the water outlet side of the pump penetrates through the grid plate and is arranged in the culture area.

Optionally, the algae sucking plates are two algae sucking plates arranged at intervals, and an illumination area is arranged between the two algae sucking plates at intervals.

Optionally, the lighting device further comprises a simulation lighting device, the simulation lighting device is arranged above the lighting area, and light emitted by the simulation lighting device is irradiated in the lighting area.

Optionally, the pumps are at least two pumps arranged at intervals, and a water-stop plate is arranged on the periphery of each pump.

Optionally, the wave-making zone is provided at an open end of the cylinder.

Optionally, a plurality of through holes are formed in the algae sucking plate in an array mode, and the width of each through hole is 1-5 mm.

Optionally, a plurality of stripe holes are uniformly formed in the grating plate, and the length of each stripe hole is 3-5 mm.

The utility model provides a culture device which comprises a cylinder body, a pump and at least one algae sucking plate. Wherein, the pump is installed in the cylinder body, inhales the algae board and installs in the cylinder body, inhales the algae board and is located the side of intaking of pump. When the pump works, water discharged from the water outlet of the pump forms a circulation in the cylinder body, algae generated in the cylinder body moves towards the algae absorbing plate along with the circulation direction, so that the algae generated in the cylinder body are absorbed on the algae absorbing plate, when the algae on the algae absorbing plate are absorbed to a certain degree, the algae absorbing plate is taken out from the cylinder body, and at the moment, the algae in the cylinder body is separated from the cylinder body along with the algae absorbing plate. The algae in the culture device provided by the utility model is easy and convenient to remove, a special tool is not needed to be used for cleaning the wall of the tank during algae removal, only the algae suction plate needs to be taken out from the tank for cleaning, the required time cost and labor cost are low, and the algae removal effect is good.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural view of a cultivation apparatus according to an embodiment of the present invention;

FIG. 2 is a front view of the algae-attracting plate of FIG. 1.

The reference numbers illustrate:

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

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.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Aiming at the problem that algae in the culture device in the prior art is difficult to remove.

The utility model provides a culture device.

In one embodiment, as shown in FIG. 1, the farming device comprises a cylinder 10, a pump 20, and at least one algae-sucking plate 30. Wherein, the pump 20 is installed in the cylinder body 10, the algae sucking plate 30 is installed in the cylinder body 10, and the algae sucking plate 30 is located at the water inlet side of the pump 20. In detail, the bottom surface of the cylinder 10 is placed on the ground, the algae sucking plate 30 is a plastic plate having a plurality of through holes 302 and adapted to adsorb algae, the top surface of the cylinder 10 is an open end 104, and the pump 20 is a wave making pump 20 for making artificial water flow, waves. The wave-making pump 20 blows directly, and the water facing the fish tank forms a needle-type rotating water flow, so that the seaweed and the sediment deposited in the still water area are gathered to the water inlet 201 of the pump 20 along with the dark flow. The algae-sucking plate 30 is located at the water inlet side of the pump 20, and algae generated in the tub 10 is gathered at the algae-sucking plate 30 with a dark current and adsorbed on the algae-sucking plate 30. When the algae on the algae-sucking plate 30 are gathered to a certain degree, the algae-sucking plate 30 is taken out from the tank body 10, and at the moment, the algae in the tank body 10 is separated from the tank body 10 along with the algae-sucking plate 30, so that the purpose of taking out and removing the algae in the tank body 10 is achieved. The algae in the culture device provided by the utility model is easy and convenient to remove, a special tool is not needed to be used for cleaning the wall of the tank during algae removal, only the algae suction plate 30 needs to be taken out from the tank for cleaning, the required time cost and labor cost are low, and the algae removal effect is good.

It should be noted that, the flow rate and the number of the pumps 20 are adapted to the size of the cylinder 10, so as to ensure that when the pump 20 works, a sufficient circulation flow is generated in the cylinder 10, and at the same time, no damage is caused to the living things in the cylinder 10.

Further, the tank body 10 is provided with a culture area 101 and a wave making area 102, the culture area 101 is mainly used for culturing fishes, aquatic organisms, ornamental objects and the like, the wave making area 102 is located on one side of the culture area 101 and is used for making artificial water flow, and the wave making area 102 is arranged close to the inner wall of the tank body 10, so that the culture area 101 occupies a larger range, and the economic use effect of the culture device is improved. And the wave-making area 102 is close to the inner wall of the tank body 10, the range of the rotational flow generated in the culture area 101 is larger, so that the algae in the culture area 101 can move along with the blind flow of the rotational flow, and the algae removal effect of the whole culture area 101 is better.

In one embodiment, a grid plate 103 is disposed between the wave-making area 102 and the cultivation area 101 for primarily separating the wave-making area 102 and the cultivation area 101, so that algae can enter the wave-making area 102 along with water flow through the grid plate 103, while the fishes and plants in the cultivation area 101 cannot pass through the grid plate 103. It should be noted that the grating plate 103 may be one piece or two pieces in combination, and the size and number of the grating plate 103 are selected according to the fish in the culture area 101.

Further, the water inlet side of the pump 20 is arranged in the wave making zone 102, and the water outlet side of the pump 20 is arranged in the cultivation zone 101 through the grating plate 103. In detail, the body of the pump 20 is horizontally and fixedly installed in the wave making area 102, the water outlet 202 and the water inlet 201 of the pump 20 are on the same horizontal line, the water inlet 201 of the pump 20 is in the wave making area 102, the water outlet 202 of the pump 20 penetrates through the grid plate 103 and enters the culture area 101, so that the pump 20 can drive water in the culture area 101 to form complete circulation, and meanwhile, fish in the culture area 101 can be prevented from penetrating through the grid plate 103 and being sucked by the water inlet 201 of the pump 20, and serious damage to the fish can be caused. Moreover, after the sucked fish blocks the water inlet 201 of the pump 20, the pump 20 idles, and the motor is easily burnt out, thereby causing electric leakage.

In one embodiment, the algae sucking plates 30 are two spaced apart and can be taken out from the opening end 104 of the cylinder 10, and the light irradiation area 301 is disposed between the two algae sucking plates 30. In detail, the two walls of the jar body 10 are provided with chutes matched with the algae-sucking plate 30, and the algae-sucking plate 30 is clamped into the chutes for fixing, so that the adsorption surface of the algae-sucking plate 30 always faces to the direction of the dark current, so that algae coming along with the dark current can directly impact on the algae-sucking plate 30, and enter the illumination area 301 through the holes of the algae-sucking plate 30. The flow speed of the dark current passing through the algae suction plate 30 is reduced, and the algae entering the illumination area 301 is not easy to come out, so that a good algae removal effect is further achieved. It should be noted that, the number of the algae sucking plates 30 is set according to the size of the tank 10 and the species of the culture, and it is also feasible to insert 3, 4 or more algae sucking plates 30, and in view of the cost, the algae removing effect and the occupied space, in the present embodiment, the two algae sucking plates 30 arranged at intervals are selected to have the best comprehensive effect. And when the algae are adsorbed to a certain degree, the algae removing plate can be taken out from the opening end 104 above the cylinder body 10, and the algae attached on the algae removing plate is washed and cleaned by water, so that the method is simple and convenient, the cylinder wall does not need to be cleaned manually, and the algae removing time and the algae removing cost are greatly saved. In a preferred embodiment, the algae-adsorbing plate 30 adjacent to the inner wall of the jar is spaced apart from the inner wall of the jar, so that the algae adsorbed on the algae-adsorbing plate 30 is not adsorbed on the inner wall of the jar 10, and the smoothness of the inner wall of the jar 10 is maintained.

Furthermore, the cultivation device further comprises a simulation illumination device 40, the simulation illumination device 40 is arranged above the illumination area 301, the simulation illumination device 40 is provided with a plurality of LED lamps which are arranged side by side and can emit light with wavelengths suitable for algae production, light emitted by the simulation illumination device 40 is irradiated in the illumination area 301, and at the moment, algae in the illumination area 301 rapidly grows due to the characteristic that the algae is rapidly grown when being subjected to light, so that the algae gathered in the illumination area 301 along with a dark current cannot easily pass through the algae absorbing plate 30 and then enter the cultivation area 101 through the water absorbing port of the pump 20, and can be gathered in the illumination area 301 completely, a better clearing effect is achieved, and the algae in the cultivation area 101 can be cleared more cleanly.

In one embodiment, the pumps 20 are installed at intervals in the wave-making area 102, and there are at least two pumps, which may be 3, 4 or other number according to the size of the cultivation area 101, so as to ensure that when the pumps 20 are turned on, a circulation can be formed in the entire cylinder 10, so that the static water in the cylinder 10 can circulate when the pumps 20 are turned on, thereby driving the algae generated in the water to move. In this embodiment, choose two pumps 20 of putting side by side for use, two pumps 20 can open simultaneously also can only open alone for the rivers motion in the cylinder body 10 is more, thereby can all gather algae more in the cylinder body 10 on removing the algae board through the whirl mode, reaches better algae removal effect. And the water-stop plate 203 is arranged on the peripheral side of each pump 20, so that when entering the culture area and entering the wave making area, water flows through the scouring algae-sucking plate 30 from the outer side of the water-stop plate 203 and then enters the water suction port of the pump 20 for circulation, and a better and more thorough circulation effect is achieved. As a preferred embodiment, the water suction port of the pump 20 is spaced apart from the algae-sucking plate 30, so that algae adsorbed on the algae-sucking plate 30 is not sucked by the water suction port of the pump 20, thereby reducing the failure rate of the pump 20.

In one embodiment, the wave making zone 102 is disposed at the open end 104 of the cylinder 10, and the wave making zone 102 is closer to the opening of the cylinder 10 than to the bottom of the cylinder 10. That is, the wave making area 102 is located at the upper left of the cylinder body 10, so that the space occupied by the wave making area 102 is smaller, and the breeding device has more spaces for arranging other components, so that the structural design of the whole breeding device is more reasonable. And the wave making area 102 is positioned at the upper left of the tank body 10, so that the range of the rotational flow generated in the culture area 101 is larger, the algae in the culture area 101 can move along with the rotational flow, and the algae removing effect of the whole culture area 101 is further improved.

In an embodiment, as shown in fig. 2, a plurality of through holes 302 are arranged in an array on the algae-adsorbing plate 30, and the through holes 302 are square holes, which is more beneficial to adsorbing algae. The width of the through hole 302 is 1-5mm, so that the algae generated in the tank body 10 can pass through the through hole 302 on the algae suction plate 30 under the driving of the dark current and enter the illumination space. And because the algae sucking plate 30 is positioned at the water inlet side of the pump 20, when the dark current is transmitted to the algae sucking plate 30, the flow rate of water is reduced, so that the algae on the algae sucking plate 30 is not easy to fall off from the algae sucking plate 30, and a better algae removing effect can be achieved.

Furthermore, a plurality of stripe holes are uniformly arranged on the grid plate 103, the width of each stripe hole is 5-10mm, the stripe holes are uniformly distributed on the grid plate 103, algae in the culture area 101 can enter the wave making area 102 from the stripe holes of the grid plate 103 under the driving of a dark current, the maximum aperture of the stripe holes on the grid plate 103 is smaller than that of fishes or aquatic organisms cultured in the culture area 101, the fishes and the aquatic organisms in the culture area 101 can be isolated in the culture area 101, the fishes and the aquatic organisms are prevented from entering the wave making area 102 along with the dark current, a water suction port of the pump 20 is blocked, and the stability and the safety of the culture device can be effectively improved.

The cultivation device provided by the utility model comprises a cylinder body 10, a pump 20 and at least one algae sucking plate 30. Wherein, the pump 20 is installed in the cylinder body 10, the algae sucking plate 30 is installed in the cylinder body 10, and the algae sucking plate 30 is located at the water inlet side of the pump 20. In detail, the bottom surface of the cylinder 10 is placed on the ground, the top surface of the cylinder 10 is an opening, and the pump 20 is a wave making pump 20 for making artificial water flow, waves. The wave making pump 20 blows directly, and the water facing the fish tank forms a needle-type rotating water flow, so that the seaweed and the sediment deposited in the still water area are gathered to the water suction port along with the dark flow. The algae-sucking plate 30 is located at the water inlet side of the pump 20, and algae generated in the tub 10 is gathered at the algae-sucking plate 30 with a dark current and adsorbed on the algae-sucking plate 30. When the algae on the algae-sucking plate 30 are gathered to a certain degree, the algae-sucking plate 30 is taken out from the tank body 10, and at the moment, the algae in the tank body 10 is separated from the tank body 10 along with the algae-sucking plate 30, so that the purpose of taking out and removing the algae in the tank body 10 is achieved. The algae in the culture device provided by the utility model is easy and convenient to remove, a special tool is not needed to be used for cleaning the wall of the tank during algae removal, only the algae suction plate 30 needs to be taken out from the tank for cleaning, the required time cost and labor cost are low, and the algae removal effect is good.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A farming device, comprising:

a cylinder body;

a pump mounted within the cylinder;

the algae sucking plate is arranged in the cylinder body and is positioned on the water inlet side of the pump.

2. The farming device of claim 1, wherein the tank has a farming area and a wave-making area, the wave-making area is located on one side of the farming area, and the wave-making area is located near an inner wall of the tank.

3. The culture device of claim 2, wherein a grating plate is arranged between the wave-making zone and the culture zone.

4. The farming device of claim 3 wherein an inlet side of the pump is disposed in the wave-making zone and an outlet side of the pump is disposed in the farming zone through the grating plate.

5. The culture device of claim 4, wherein the algae sucking plates are arranged in two spaced-apart positions, and an illumination area is arranged in the space between the two algae sucking plates.

6. The culture device of claim 5, further comprising a simulated illumination device disposed above the illumination zone, the simulated illumination device emitting light that is within the illumination zone.

7. The culture device of claim 4, wherein the pumps are at least two pumps arranged at intervals, and a water-stop plate is arranged on the peripheral side of each pump.

8. The farming device of claim 2 wherein the wave-making zone is disposed at the open end of the tank body, the wave-making zone being closer to the opening of the tank body than to the bottom of the tank body.

9. The culture device of claim 1, wherein the algae sucking plate is provided with a plurality of through holes in an array, and the width of the through holes is 1-5 mm.

10. The culture device of claim 3, wherein a plurality of the striped holes are uniformly arranged on the grating plate, and the width of the striped holes is 5-10 mm.

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