CN210406691U - Improved aquatic organism culture rack - Google Patents

Abstract

The utility model discloses an improved aquatic organism culture rack, which comprises a culture rack body, a water outlet pipeline rack, a water supply system interface, a water delivery pipeline, a three-way joint, a water outlet hose, a water receiving tank, a water return pipeline, a culture cylinder, a water tank, a water supply system suction port and a power water supply system; the power water supply system sucks the water after primary treatment from the water tank, then the water is filtered by the power water supply system and then is connected to the water outlet hose through the three-way joint, clean water is supplied to the culture cylinder, and sewage in the culture cylinder returns to the water tank through the water receiving tank and the like. Three connectors of the three-way connector are all in a quick connection type, the connecting hose is a silicone tube, and the three connectors are installed in a matched mode to increase the number of actual storage layers of the culture rack to 7, so that the utilization rate of the culture rack is effectively improved; the power water supply system module is independently installed near the cultivation frame body after being optimized and integrated, and the influence of noise and vibration generated by the power water supply system on the cultivation objects can be reduced.

Description

Improved aquatic organism culture rack

Technical Field

The utility model relates to a laboratory aquatic organisms cultivates, concretely relates to frame is bred to improved generation aquatic organisms.

Background

At present, a lot of laboratories using aquatic organisms as test carriers have insufficient space, and along with the expansion and deepening of tests, the types of the test carriers are more and more abundant and the quantity is more and more, so that the requirement on the space utilization rate of the culture rack is higher and higher. At present, the culture tank commonly used in the laboratory comprises 1.5L, 3L and 10L, and the 3L culture tank is mainly used. Considering system arrangement, the operation height of common personnel and food feeding, a 3L cultivation tank is taken as a cultivation frame using objects in the current market, and considering the operation and food feeding of the common personnel, the height of the cultivation frame in the market basically does not exceed 2200 mm; to ensure sufficient water circulation, the layer for placing the water tank is 500mm in height; the height of the 3L culture tank in the market is 153mm, the conventional 3L culture tank supported by the square pipes, the water outlet valve can be only arranged below the square pipe for convenient operation and no influence on feeding, so that the net height of each layer reaches 245mm, and the culture rack with the height of 2200mm can be only arranged on 6 layers. With a total height not exceeding 2200mm, 6 layers have become a design bottleneck in the art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to break through the current design bottleneck, provide an improved generation aquatic organisms and breed frame for place the incubator and install a whole closed system of water supply, play water, return water.

The utility model discloses a following technical scheme realizes.

An improved aquatic organism culture rack comprises a culture rack body, a water outlet pipeline rack, a water supply system interface, a water conveying pipeline, a three-way joint, a connecting pipe, a water outlet hose, a water receiving tank, a water return pipeline, a water return outlet, a culture tank, a water tank and a power water supply system; the water tank is arranged below the culture rack body, the suction port of the water supply system is arranged on the side face of the water tank, the power water supply system is not in contact with the culture rack body, and the water tank is connected to the power water supply system; a plurality of layers of water outlet pipeline frames are arranged above the culture frame body, and culture tanks are placed on the water outlet pipeline frames; the water supply system interface is arranged at the bottom of the lowest layer of the culture tank, the water supply system interface is respectively connected with the power water supply system and the water delivery pipeline, the water delivery pipeline is arranged at one side of the culture rack body, the water delivery pipeline is connected with the connecting pipe, and the water return pipeline is arranged at the other side of the culture rack body; a three-way valve connected through a connecting pipe is arranged above each culture tank, and an angle joint of the three-way valve is connected with a water outlet hose to send water in a pipeline into each culture tank; when a row of cultivation tanks are arranged on each layer of water outlet pipeline frame, a water receiving tank is arranged on each layer of water outlet pipeline frame and is arranged on one side of each cultivation tank; when two rows of culture tanks are arranged on each layer of the water outlet pipeline frame, two water receiving grooves are arranged on each layer of the water outlet pipeline frame, and the water receiving grooves are arranged between the two rows of culture tanks.

Furthermore, the number of the culture rack bodies is one or more than two, when the number of the culture rack bodies is more than two, the side surface of the water tank below each culture rack body is provided with a water supply system suction port, the water tank is connected to a power water supply system through the water supply system suction port, and the water tanks are connected through the water supply system suction ports; when the cultivation frame body is one, the water tank below the cultivation frame body is directly connected to the power water supply system.

Furthermore, the water tank and the power water supply system are both provided with a filtering and purifying unit, the water after primary treatment is supplied to the power water supply system, and the water is further purified and supplied to the culture tank.

Further, breed the frame and still include adjustable footing, adjustable footing setting is in the bottom of breeding the frame body.

Furthermore, a discharge port is arranged at the end part of the water receiving tank close to the water return pipeline, and the discharge port is connected with the water return pipeline to convey water in the water receiving tank to the water return pipeline; the breeding cylinder is provided with a discharge port at the end part close to the water receiving tank, and when the liquid level in the breeding cylinder reaches a certain height, water is discharged to the water receiving tank under the action of gravity.

Furthermore, the two end connectors of the tee joint and the angle connector are both in quick connection type, and a ball valve is arranged in the angle connector. The size of the three-way joint is selected according to the water yield, if the connector of the angle joint is 2 branch pipes, the straight joint is 4 branch pipes; the three-way joint can effectively save space and is convenient to disassemble and maintain, and the ball valve can control the water outlet flow into the culture tank.

Furthermore, the water outlet pipeline frame adopts angle steel. If the size is 25 multiplied by 40 multiplied by 3mm, the tee joint is convenient to be fixedly installed.

Furthermore, the improved aquatic organism culture frame further comprises a square pipe parallel to each layer of the water outlet pipeline frame, and the culture tank is supported by the water outlet pipeline frame and the square pipe together.

Furthermore, the pipe clamp is buckled on the tee joint, the bottom end of the pipe clamp is provided with a hole, and the tee joint is fixed on the water outlet pipeline frame through a fixing screw, so that the tee joint is convenient to disassemble.

Furthermore, the connecting pipe adopts the silicone tube, for example 4 minutes silicone tube, makes things convenient for the dismouting, increases maintainability.

Further, the total height of the culture rack body and the adjustable feet does not exceed 2200mm, and the width of the culture rack body does not exceed 700 mm.

Furthermore, the cultivation rack comprises 7 layers of water outlet pipeline racks, the height of each layer of water outlet pipeline rack is 205mm, and the volume of each cultivation tank is 3L.

Compared with the prior art, the utility model, following beneficial effect has:

the utility model discloses an aquatic organism breeding frame is through using three way connection and coupling hose to utilize the angle steel as outlet conduit frame cooperation, under the prerequisite that does not influence the throwing and feeding food, every layer of net height that will deposit the breed jar dwindles to 205mm, make and breed the restriction of a total height under the 2200mm condition, the effective height that actually deposits the breed jar is no longer than 1610, the number of piles that actually deposits the breed jar increases to 7 layers, the utilization ratio of breeding the frame has effectively been improved, the user demand of vast laboratory is greatly improved.

The utility model discloses a power water supply system module of aquatic organisms breeding frame is independently installed near breeding the frame through optimizing integrated back, can reduce the noise and the vibration that power water supply system produced to breed the influence of object, improves the cultivation environment of breeding the object.

The utility model discloses a three-way connection's of aquatic organism culture frame three interface has all used the type of connecing soon, and coupling hose uses but not limited to silicone tube, and both cooperate the installation can effectually save space and improve system maintainability.

Drawings

FIG. 1 is a front view of the improved cultivation shelf of the present invention;

FIG. 2 is a right side view of the improved cultivation shelf of the present invention;

FIG. 3 is a left side view of the improved cultivation shelf of the present invention;

FIG. 4 is a top view of the improved cultivation shelf of the present invention;

fig. 5 is a schematic structural view of a three-way valve and a pipe clamp in the present invention;

the aquaculture frame comprises a aquaculture frame body 1, a water outlet pipeline frame 2, adjustable feet 3, a water supply system interface 4, a water conveying pipeline 5, a three-way joint 6, a connecting pipe 7, a water outlet hose 8, a pipe clamp 9, a fixing screw 10, a water receiving tank 11, a water return pipeline 12, a water return outlet 13, a aquaculture cylinder 14, a water tank module 15, a water supply system suction port 16 and a power water supply system 17.

Detailed Description

The present invention will be described in further detail with reference to examples, but the present invention is not limited thereto.

As shown in FIG. 1, the embodiment of the improved aquatic organism cultivating frame is used for placing a cultivator and installing a whole set of closed system for water supply, water outlet and water return. The aquatic organism culture rack comprises a culture rack body 1, a water outlet pipeline rack 2, adjustable feet 3, a water supply system outlet 4, a water conveying pipeline 5, a three-way connector 6, a connecting pipe 7, a water outlet hose 8, a pipe clamp 9, a fixing screw 10, a water receiving groove 11, a water return pipeline 12, a water return outlet 13, a culture cylinder 14, a water tank 15, a water supply system suction port 16 and a power water supply system 17. In this embodiment, there are a plurality of cultivation shelf bodies 1, only one of which is shown in the figure. The adjustable feet 3 are arranged at the bottom of the cultivation frame body 1, the whole cultivation frame can be adjusted to be placed horizontally, the water tank 15 is arranged below the cultivation frame body 1, the suction port 16 of the water supply system is arranged on the side face of the water tank 15, in order to reduce the influence of noise and vibration generated by the power water supply system on cultivation objects, the water supply system module 17 is independently arranged near the cultivation frame body 1 and is not in contact with the cultivation frame body 1, and the water tank 15, the suction port 16 of the water supply system and the power water supply system 17 are sequentially communicated; a plurality of layers of water outlet pipeline frames and square pipes parallel to the water outlet pipeline frames are arranged above the culture frame body 1, and two rows of culture pots 14 are arranged on each layer of the water outlet pipeline frames 2 and the square pipes, namely the culture pots 14 are supported by the water outlet pipeline frames 2 and the square pipes; the water supply system interface 4 is arranged at the bottom of the lowest layer of the culture tank 14, the water supply system interface 4 is respectively connected with the power water supply system 17 and the water conveying pipeline 5, the water conveying pipeline 5 is arranged at one side of the culture rack body 1, the water conveying pipeline 5 is connected with the connecting pipe 7, and the water return pipeline 12 is arranged at the other side of the culture rack body 1; a three-way valve 6 (shown in figure 2) connected through a connecting pipe 7 is arranged above each culture cylinder 14, and an angle joint of the three-way valve 6 is connected with a water outlet hose 8 to send water in the pipeline to each culture cylinder 14 (shown in figure 3); two water receiving tanks 11 are arranged on each layer of the water outlet pipeline frame, and the water receiving tanks 11 are arranged between the two rows of the culture tanks 14; the return water outlet 13 is connected with the bottom of the return water pipeline 12, and above the water tank 15, the sewage in the return water pipeline 12 is conveyed to the return water tank 15.

The end part of the water receiving tank 11 close to the water return pipeline 12 is provided with a discharge port (as shown in fig. 3), the discharge port is connected with the water return pipeline 12 through an elbow, and the end part of the culture tank 14 close to the water receiving tank 11 is provided with a discharge port (as shown in fig. 4).

The water outlet pipeline frame 2 adopts angle steel of 25 multiplied by 40 multiplied by 3mm, and the tee joint 6 is convenient to fixedly install.

The two end interfaces of the tee joint 6 which are directly communicated adopt a quick connection type 4 branch pipe, the tee joint 6 is connected with the tee joint 6 through a connecting pipe 7, and the connecting pipe 7 is a 4 branch pipe, so that the space can be effectively saved and the disassembly and maintenance are convenient; the connector of the three-way joint 6 is a quick-connection type 2 branch pipe and is connected with a water outlet hose 8, the water outlet hose 8 is a 2 branch pipe, and the connector is controlled by a ball valve and can control the flow of outlet water input into the culture tank. The connecting pipe 7 adopt 4 minute silicone tubes, make things convenient for the dismouting, increase maintainability. The pipe clamp 9 is fastened on the three-way valve 6 (as shown in fig. 5), the bottom end of the pipe clamp 9 is provided with a hole, and the three-way valve 6 is fixed on the water outlet pipeline frame through a fixing screw 10, so that the disassembly is convenient.

The total height of the culture rack body 1 and the adjustable feet 3 is not more than 2200mm, the total width is not more than 700mm, the effective height of the actual culture storage tanks 14 is not more than 1610, the number of storage layers is 7, the net height of each layer of the culture storage tanks 14 is compressed to 205mm, and the volume of each culture tank (14) is 3L. Effectively improving the utilization rate of the cultivation frame.

The whole water supply process is as follows: the power water supply system 17 sucks a water source subjected to primary treatment from the water tank module 15 through the water supply system suction port 16, the water source is connected to the water outlet hose 8 through the water supply system interface 4, the water conveying pipeline 5, the connecting pipe 7 and the three-way joint 6 after being filtered by the power water supply system 17, clean and clean water is supplied to each culture cylinder 14, sewage in the culture cylinders 14 automatically flows back to the water tank 15 through the water receiving tank 11 and the water return pipeline 12 to the water return outlet 13, the water tank 15 is internally provided with a filtering and purifying unit, and the water subjected to primary treatment is recycled and supplied to the power water supply system 17.

As described above, the present invention can be realized well, and the above embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention; all equivalent changes and modifications made according to the present invention are intended to be covered by the scope of the claims of the present invention. In the embodiment, some known information descriptions, such as the functional composition of the power water supply system module, the structural form and the composition of the water tank module, and the like, are also omitted.

Claims (10)

1. An improved aquatic organism culture rack is characterized by comprising a culture rack body (1), a water outlet pipeline rack (2), a water supply system interface (4), a water delivery pipeline (5), a three-way joint (6), a connecting pipe (7), a water outlet hose (8), a water receiving tank (11), a water return pipeline (12), a water return outlet (13), a culture cylinder (14), a water tank (15) and a power water supply system (17); the water tank (15) is arranged below the cultivation rack body (1), the power water supply system (17) is not in contact with the cultivation rack body (1), and the water tank (15) is connected to the power water supply system (17); a multi-layer water outlet pipeline frame (2) is arranged above the cultivation frame body (1), and a cultivation cylinder (14) is placed on the water outlet pipeline frame (2); the water supply system interface (4) is arranged at the bottom of the lowest layer of the breeding tank (14), the water supply system interface (4) is respectively connected with the power water supply system (17) and the water conveying pipeline (5), the water conveying pipeline (5) is arranged at one side of the breeding rack body (1), the water conveying pipeline (5) is connected with the connecting pipe (7), and the water return pipeline (12) is arranged at the other side of the breeding rack body (1); a three-way joint (6) connected through a connecting pipe (7) is arranged above each breeding cylinder (14), an angle joint of the three-way joint (6) is connected with a water outlet hose (8), and water in the water conveying pipeline (5) is conveyed into each breeding cylinder (14); the return water outlet (13) is connected with the bottom of the return water pipeline (12), the return water outlet (13) is arranged above the water tank (15), and return water in the return water pipeline (12) is conveyed to the return water tank (15); when a row of cultivation tanks (14) are arranged on each layer of the water outlet pipeline frame (2), a water receiving tank (11) is arranged on each layer of the water outlet pipeline frame (2), and the water receiving tank (11) is arranged on one side of each cultivation tank (14); when two rows of culture tanks (14) are arranged on each layer of the water outlet pipeline frame (2), two water receiving grooves (11) are arranged on each layer of the water outlet pipeline frame (2), and the water receiving grooves (11) are arranged between the two rows of culture tanks (14).

2. An improved aquatic organism culture rack according to claim 1, wherein the rack further comprises adjustable feet (3), the adjustable feet (3) being provided at the bottom end of the rack body (1).

3. An improved frame for cultivating aquatic organisms according to claim 1, characterised in that the water receiving trough (11) is provided with a discharge opening near the end of the return line (12), which discharge opening is connected to the return line (12), and the cultivating tank (14) is provided with a discharge opening near the end of the water receiving trough (11).

4. The improved aquatic organism culture rack according to claim 1, wherein the straight-through ports at two ends and the angle-through port in the three-way joint (6) are both in a quick-connection type, and a ball valve is arranged in the angle-through port.

5. An improved aquatic organism culture rack according to claim 1, wherein the pipe clamp (9) is fastened on the three-way joint (6), the bottom end of the pipe clamp (9) is provided with a hole, and the three-way joint (6) is fixed on the water outlet pipeline rack (2) through a fixing screw.

6. The improved aquatic organism culture rack according to claim 1, further comprising square pipes parallel to each layer of the outlet pipe racks (2), wherein the culture tanks are supported by the outlet pipe racks (2) and the square pipes; the water outlet pipeline frame (2) adopts angle steel.

7. The improved aquatic organism culture rack according to claim 1, wherein the number of the culture rack bodies (1) is one or more than two, when the number of the culture rack bodies (1) is more than two, a water supply system suction port (16) is arranged on the side surface of the water tank (15) below each culture rack body (1), the water tank (15) is connected to a power water supply system (17) through the water supply system suction port (16), and the water tanks (15) are connected through the water supply system suction ports (16); when the cultivation rack body is one, the water tank (15) below the cultivation rack body (1) is directly connected to the power water supply system (17).

8. An improved aquatic organism culture rack according to claim 1, wherein a filtration and purification unit is provided in each of the water tank (15) and the powered water supply system (17); the connecting pipe (7) adopts a silicone tube.

9. An improved aquatic organism culture rack according to claim 1, wherein the total height of the culture rack body (1) and the adjustable feet (3) does not exceed 2200mm, and the width of the culture rack body (1) does not exceed 700 mm.

10. An improved aquatic organism culture rack according to claim 1, wherein the rack comprises 7 layers of outlet pipe racks, the height of each layer of outlet pipe racks is 205mm, and the volume of the culture tank (14) is 3L.

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