CN215898655U - Three-dimensional fish and vegetable symbiotic culture tank - Google Patents

Abstract

The utility model discloses a three-dimensional fish and vegetable symbiotic culture tank, which belongs to the technical field of ecological culture and comprises culture tanks, planting tanks and a support, wherein the culture tanks are fixed at the upper end of the support, the planting tanks are slidably connected to the ends of the culture tanks, which are far away from the support, a plurality of planting tanks are arranged at equal intervals along the length direction of the culture tanks, a cover plate is fixed at the upper end of each culture tank, sliding grooves for the planting tanks to slide are formed in the cover plate, each planting tank corresponds to two sliding grooves, first through holes are formed in the cover plate and are uniformly distributed between every two sliding grooves, and the planting tanks can slide and contract along the direction of the sliding grooves; this intergrowth breed planting groove that groove set up can stretch out and draw back, improves space utilization greatly, and breeds the groove and plant the groove intercommunication, and the inside water portability of planting inslot portion a small amount of soil flows into breeds the inslot portion, is preventing to plant the inside filth flow direction ground of inslot, reduces the clearance time, can provide the microelement resource for breeding the inslot portion simultaneously.

Description

Three-dimensional fish and vegetable symbiotic culture tank

Technical Field

The utility model belongs to the technical field of ecological breeding, and particularly relates to a three-dimensional fish and vegetable symbiotic breeding tank.

Background

With the improvement of living standard of people, the mode of ecological breeding and planting in the residence is very popular, and particularly, the technology of feeding ornamental fishes and soilless culture of vegetables is widely pursued. At present, the existing simple ecological fish tanks and independent soilless culture on the market can not meet the ornamental requirements of daily life of people, therefore, some fish and vegetable symbiotic devices appear on the market successively, but the fish and vegetable symbiotic devices have many defects, such as the water source can not be updated timely, the structure is complex and not attractive, the occupied area of the equipment is large, the landscape ornamental performance is low, and the like.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a three-dimensional fish and vegetable symbiotic culture tank, wherein planting tanks arranged in the symbiotic culture tank can be stretched and retracted, the space utilization rate is greatly improved, the culture tank is communicated with the planting tanks, water in the planting tanks can carry a small amount of soil to flow into the culture tank, dirt in the planting tanks is prevented from flowing to the ground, the cleaning time is reduced, and meanwhile, trace element resources can be provided for the interior of the culture tank.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a groove is bred in three-dimensional fish-vegetable intergrowth, this groove is bred in three-dimensional fish-vegetable intergrowth includes breeds the groove, plants groove, support, breed the groove and fix in the support upper end, it connects to plant groove sliding connection breed the groove and keep away from the support end, it is equipped with a plurality ofly to plant the groove altogether, sets up along breeding groove length direction equidistance, breeds the groove upper end and is fixed with the apron, has seted up the confession on the apron plant the gliding spout in groove, every is planted the groove and corresponds there are two spouts, has seted up first through-hole on the apron, and first through-hole equipartition is between per two spouts, it can follow the spout direction and slide the shrink to plant the groove.

Further, plant the groove including fixed plate, flexible curb plate, sliding plate, multistage bottom plate, the fixed plate is fixed apron upper end, flexible curb plate one end fixed connection is in the fixed plate side, and other end fixed connection is to sliding plate one side, and sliding plate sliding connection is inside the spout, and multistage bottom plate both ends are fixed respectively between fixed plate and sliding plate.

Adopt above-mentioned scheme: the sliding plate can slide, can change planting the groove size as required, and then can reserve the space on the apron, can put other article, improves space utilization.

Further, T type slider is fixed with to the sliding plate bottom, and T type slider sliding connection is inside the spout, and inside T type slider lateral position stretched into the apron, stretched into the end and be fixed with flexible rubber slab, the flexible rubber slab other end was fixed on breeding inslot wall.

Adopt above-mentioned scheme: carry out sliding connection through T type slider, when removing, prevent that the sliding plate from deviating from, connect flexible rubber slab on the T type slider simultaneously, when the sliding plate slides, the flexible rubber slab of accessible covers the spout, prevents that impurity from dropping to breed inslot portion.

Furthermore, a groove is formed in the sliding plate, a rotating plate is hinged and connected inside the groove, a lifting block is fixed on the rotating plate far away from the hinged end, two side walls of the rotating plate far away from the hinged end are embedded with magnets, and the same magnets are embedded on the corresponding groove walls of the groove.

Adopt above-mentioned scheme: adopt magnetism to inhale the structure between rotor plate and the recess, the rotor plate of being convenient for rotates, conveniently fertilizes to the planting crop of planting inslot portion and picks.

Furthermore, the multistage bottom plate is apart from there is the interval fixed plate bottom, has seted up the second through-hole on the multistage bottom plate, and the second through-hole equipartition is on multistage bottom plate, and multistage bottom plate is multistage tensile form.

Adopt above-mentioned scheme: set up multistage bottom plate, multistage bottom plate can carry out multistage flexible, when the sliding plate removes, does not hinder the sliding plate and slides, sets up the second through-hole simultaneously, can realize breeding the groove and planting the groove intercommunication, and it is inside to plant a small amount of soil of inslot portion water portability and flow into breeding the inslot, is preventing to plant the inside filth flow direction ground of inslot, reduces the clearance time, can provide the microelement resource for breeding inslot portion simultaneously.

Furthermore, be fixed with the oxygen suppliment pump on the support, oxygen suppliment pump one end is connected with the air duct, and the oxygen suppliment pump end intercommunication is kept away from to the air duct inside breeding the groove.

Adopt above-mentioned scheme: is convenient for supplying oxygen to the inside of the culture tank.

Furthermore, the side of the culture groove, which is far away from the air guide pipe, is also provided with a feeding port.

Adopt above-mentioned scheme: the feeding port is arranged on the culture tank, so that fishes in the culture tank can be conveniently fed.

The utility model has the beneficial effects that:

1. the stereoscopic fish and vegetable symbiotic cultivation tank comprises a fixed plate, a telescopic side plate, a sliding plate and a multi-stage bottom plate, wherein the fixed plate is fixed at the upper end of the cover plate; the sliding plate can slide, can change planting the groove size as required, and then can reserve the space on the apron, can put other article, improves space utilization.

2. According to the three-dimensional fish and vegetable symbiotic culture tank, a T-shaped sliding block is fixed at the bottom of a sliding plate and is connected inside a sliding groove in a sliding mode, the transverse position of the T-shaped sliding block extends into a cover plate, a telescopic rubber plate is fixed at the extending end, and the other end of the telescopic rubber plate is fixed on the inner wall of the culture tank; carry out sliding connection through T type slider, when removing, prevent that the sliding plate from deviating from, connect flexible rubber slab on the T type slider simultaneously, when the sliding plate slides, the flexible rubber slab of accessible covers the spout, prevents that impurity from dropping to breed inslot portion.

3. The three-dimensional fish and vegetable symbiotic culture tank is characterized in that a gap is reserved between a multistage bottom plate and the bottom of a fixing plate, second through holes are formed in the multistage bottom plate, the second through holes are uniformly distributed in the multistage bottom plate, and the multistage bottom plate is in a multistage stretching shape; set up multistage bottom plate, multistage bottom plate can carry out multistage flexible, when the sliding plate removes, does not hinder the sliding plate and slides, sets up the second through-hole simultaneously, can realize breeding the groove and planting the groove intercommunication, and it is inside to plant a small amount of soil of inslot portion water portability and flow into breeding the inslot, is preventing to plant the inside filth flow direction ground of inslot, reduces the clearance time, can provide the microelement resource for breeding inslot portion simultaneously.

Drawings

FIG. 1 is a schematic structural diagram of a three-dimensional fish and vegetable symbiotic culture tank provided by the utility model;

FIG. 2 is a schematic top view of the three-dimensional fish-vegetable symbiotic cultivation tank shown in FIG. 1;

FIG. 3 is a schematic cross-sectional view taken along line A-A in FIG. 2 of a three-dimensional fish-vegetable symbiotic cultivation tank provided by the utility model;

fig. 4 is an enlarged schematic view of a three-dimensional fish and vegetable co-existing culture tank at the position I in fig. 1. First through hole

In the figure: 1. a culture tank; 2. planting grooves; 3. a support; 4. a cover plate; 5. a chute; 6. a first through hole; 7. a fixing plate; 8. a telescopic side plate; 9. a sliding plate; 10. a multi-stage floor; 11. a T-shaped slider; 12. a flexible rubber plate; 13. a groove; 14. a rotating plate; 15. lifting the block; 16. iron absorption; 17. a second through hole; 18. an oxygen supply pump; 19. an air duct; 20. and (4) feeding the food.

Detailed Description

In order to further understand the contents, features and effects of the present invention, the following embodiments are illustrated and described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 4 together, the stereo fish and vegetable symbiotic cultivation tank according to the embodiment of the present invention will be described in detail below with reference to the accompanying drawings.

This three-dimensional fish-vegetable symbiotic culture tank includes breed groove 1, plants groove 2, support 3, breed groove 1 and fix in the support 3 upper end, it is in to plant 2 sliding connection of groove breed 1 and keep away from support 3 end in the groove, it is equipped with a plurality ofly altogether to plant groove 2, sets up along breeding 1 length direction equidistance in groove, breeds 1 upper end in groove and is fixed with apron 4, has seted up the confession on the apron 4 plant 2 gliding spouts 5 in groove, every is planted 2 correspondence in groove and has two spouts 5, has seted up first through-hole 6 on the apron 4, and 6 equipartitions of first through-hole are between per two spouts 5, it can follow spout 5 directions and slide the shrink to plant groove 2.

Specifically, planting groove 2 includes fixed plate 7, flexible curb plate 8, sliding plate 9, multistage bottom plate 10, and fixed plate 7 is fixed apron 4 upper end, and 8 one end fixed connection of flexible curb plate are in fixed plate 7 side, and other end fixed connection is to sliding plate 9 one side, and sliding plate 9 sliding connection is inside spout 5, and multistage bottom plate 10 both ends are fixed respectively between fixed plate 7 and sliding plate 9.

Wherein, the sliding plate 9 bottom is fixed with T type slider 11, and T type slider 11 sliding connection is inside 5 spouts, and the T type slider 11 lateral position stretches into inside the apron 4, stretches into the end and is fixed with flexible rubber slab 12, and flexible rubber slab 12 is fixed on breeding 1 inner wall in addition 9.

When sliding plate 9 slides, sliding plate 9 relies on T type slider 11 to slide, 11 lateral position of T type slider stretch into inside apron 4 simultaneously, can prevent that sliding plate 9 from deviating from spout 5, T type slider 11 is when sliding simultaneously, it slides to drive flexible rubber slab 12, flexible rubber slab 12 can cover spout 5, prevent that impurity from falling into breed inslot 1 inside, sliding plate 9 slides the back, consequently, can reserve the one end vacant space on apron 4, can put ornaments such as other landscape plants.

The sliding plate 9 is provided with a groove 13, the groove 13 is internally hinged with a rotating plate 14, the rotating plate 14 is fixed with a lifting block 15 away from the hinged end, two side walls of the rotating plate 14 away from the hinged end are embedded with magnets 16, and the corresponding groove wall of the groove 13 is embedded with the same magnets 16.

When the vegetables in the planting groove 2 are taken, the rotating plate 14 can be opened, the pulling block 15 is pulled, the rotating plate 14 is rotated, the groove 13 is exposed, and the vegetables in the planting groove 2 are taken conveniently.

Specifically, the multistage bottom plate 10 is apart from the bottom of the fixed plate 7, second through holes 17 are formed in the multistage bottom plate 10, the second through holes 17 are uniformly distributed in the multistage bottom plate 10, and the multistage bottom plate 10 is in a multistage stretching shape.

When the sliding plate 9 slides, the multistage bottom plate 10 is connected when the multistage plates are slidably embedded, so that the multistage bottom plate 10 can be automatically pulled out or retracted and can synchronously move with the sliding plate 9.

The second through hole 17 and the first through hole 6 can keep the communication of planting groove 2 and breeding groove 1, and when vegetables were watered, unnecessary water can flow into breeding groove 1 inside, and the microorganism in the soil can flow in along with water simultaneously, increases the microelement nutrition of breeding the groove.

Specifically, an oxygen supply pump 18 is fixed on the bracket, one end of the oxygen supply pump 18 is connected with an air duct 19, and the end of the air duct 19 far away from the oxygen supply pump 18 is communicated with the interior of the culture tank 1.

Specifically, the side of the culture tank 1 far away from the air duct 19 is also provided with a feeding port 20.

The working principle of the utility model is as follows: when using, according to the required size of planting groove 2 of adjusting, specifically for promoting sliding plate 9 and slide, when sliding to required size, place on multistage bottom plate 10 and plant soil, plant vegetables on planting soil, after planting, breed fish in breeding 1 inside in groove, supply oxygen through oxygen supply pump 18, the sliding plate 9 slides the back and reserves the distance space on apron 4 and can put ornaments such as other landscape plants.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A three-dimensional fish and vegetable symbiotic culture tank is characterized by comprising a culture tank (1), a planting tank (2) and a bracket (3), the culture groove (1) is fixed at the upper end of the bracket (3), the planting groove (2) is connected with the end of the culture groove (1) far away from the bracket (3) in a sliding way, the planting grooves (2) are arranged at equal intervals along the length direction of the breeding groove (1), a cover plate (4) is fixed at the upper end of the breeding groove (1), sliding grooves (5) for the planting grooves (2) to slide are formed in the cover plate (4), two sliding grooves (5) are correspondingly arranged in each planting groove (2), first through holes (6) are formed in the cover plate (4), the first through holes (6) are uniformly distributed between every two sliding grooves (5), the planting groove (2) can slide and contract along the direction of the sliding groove (5).

2. The stereoscopic fish and vegetable co-cultivation tank as claimed in claim 1, wherein the planting tank (2) comprises a fixed plate (7), telescopic side plates (8), a sliding plate (9) and a multi-stage bottom plate (10), the fixed plate (7) is fixed at the upper end of the cover plate (4), one end of each telescopic side plate (8) is fixedly connected to the side surface of the fixed plate (7), the other end of each telescopic side plate is fixedly connected to one side of the sliding plate (9), the sliding plate (9) is slidably connected inside the sliding groove (5), and two ends of the multi-stage bottom plate (10) are respectively fixed between the fixed plate (7) and the sliding plate (9).

3. A stereoscopic fish and vegetable symbiotic cultivation tank according to claim 2, wherein a T-shaped sliding block (11) is fixed at the bottom of the sliding plate (9), the T-shaped sliding block (11) is slidably connected inside the sliding groove (5), the T-shaped sliding block (11) transversely extends into the cover plate (4), a telescopic rubber plate (12) is fixed at the extending end, and the other 9 of the telescopic rubber plate (12) is fixed on the inner wall of the cultivation tank (1).

4. The three-dimensional fish and vegetable symbiotic cultivation tank according to claim 2, wherein the sliding plate (9) is provided with a groove (13), the groove (13) is internally hinged with a rotating plate (14), a lifting block (15) is fixed on the rotating plate (14) far away from the hinged end, two side walls of the rotating plate (14) far away from the hinged end are embedded with magnets (16), and the corresponding groove wall of the groove (13) is embedded with the same magnets (16).

5. The stereoscopic fish and vegetable co-existing culture tank as claimed in claim 2, wherein the multistage bottom plate (10) is spaced from the bottom of the fixing plate (7), second through holes (17) are formed in the multistage bottom plate (10), the second through holes (17) are uniformly distributed in the multistage bottom plate (10), and the multistage bottom plate (10) is in a multistage stretching shape.

6. The stereoscopic fish and vegetable symbiotic cultivation tank according to claim 1, wherein the bracket is fixed with an oxygen supply pump (18), one end of the oxygen supply pump (18) is connected with an air duct (19), and the end of the air duct (19) far away from the oxygen supply pump (18) is communicated with the inside of the cultivation tank (1).

7. The stereoscopic fish and vegetable symbiotic cultivation tank according to claim 6, wherein the cultivation tank (1) is further provided with a feeding port (20) at the side far away from the air duct (19).

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