CN205266642U - Aquatic farming systems - Google Patents

Abstract

The utility model provides an aquatic farming systems, contains a cylinder body and a siphon equipment, the cylinder body stores up has a liquid, siphon equipment has one and is located income liquid pipe in the cylinder body, one connects go into the U type pipe and a connection of liquid pipe the drain pipe of U type pipe, go into the liquid pipe with one of them person of drain pipe has a gas pocket, and siphon equipment has to be located the water level control spare of gas pocket, water level control spare has connecting portion and one locates the braking portion of connecting portion, wherein, braking portion can follow liquid water level altitude variation and be a reciprocating displacement orbit makes braking portion in the in -process of reciprocating displacement orbit is in order to seal or release gas pocket, and then drive siphon equipment intermittent type absorbs in the cylinder body liquid is clear away by this dirty thing in the cylinder body and being interrupted produce the vortex with prevent dirty thing deposit in the cylinder body bottom.

Description

Aquatic cultivating system

Technical field

This utility model relates to a kind of aquatic cultivating system, particularly relates to a kind of dirty thing removed in described cylinder body and is interrupted the aquatic cultivating system that generation flow-disturbing is deposited on described cylinder base to prevent dirty thing.

Background technology

Along with the Shui nationality view and admire pathogenic wind development now, more and more people can place fish jar to raise aquatic animals and plants household or office, in order to view and admire, to improve edema due to wind pathogen or to have a liking for as interest. Wherein, in order to enable the feeding environment in fish jar often to protect cleaning, the many water liquid that can regularly replace in fish jar of raiser. As TaiWan, China patent announcement the 256996th discloses the faecal collecting device set by a kind of bottom of aquaria, it comprises an excreta collection box, one draws suction pipe and a Water-pumping motor. Described excreta collection box is arranged at a bottom of aquaria, and has two inside described excreta collection box and tilt, towards central authorities, the inclined-planes declined, and described in draw suction pipe and be installed in described two inclined-planes central authorities and be connected with described Water-pumping motor. And in described faecal collecting device use procedure, the described suction drawing suction pipe offer can be drawn around suction pipe because of described Water-pumping motor by the dirty thing in described aquarium described in described two inclined-plane landings extremely, furthermore, the permeable liquid dispensing apparatus of user continues towards water filling in described aquarium, separately by setting described Water-pumping motor so that drawing, described in its interval absorption, the water liquid containing dirty thing around suction pipe. Consequently, it is possible to the water level in described aquarium namely can pass through described liquid dispensing apparatus and described coordinating of Water-pumping motor and in certain interval in change, and then through the dirty thing of the described Water-pumping motor described bottom of aquaria of absorption.

But, disclosure by above-mentioned 256996 Patent Cases, user is when setting the start condition of described Water-pumping motor, need the water level decreasing amplitude giving more sustained attention in described aquarium, and just can learn the start time of water level decreasing amplitude and described Water-pumping motor via setting repeatedly, adjustment or make the relation between the start conditions such as dynamic frequency.

On the other hand, No. M475813 vessel of breeding fish disclosing a kind of automatic cleaning of TaiWan, China patent announcement, it comprises a vessel body, a swash plate and an aqueduct. Described swash plate is arranged at described vessel body bottom portion, and described aqueduct then stands on the low level place of described swash plate, and the top of described aqueduct after being arranged in described vessel body side to being bent downwardly to form outward a water guide outlet. And in the use procedure of the vessel of breeding fish of described automatic cleaning, water liquid persistently can be injected into described vessel by user by a liquid dispensing apparatus, and this is internal. When water level arrives the top of described aqueduct, namely siphonage can produce therewith, that is, the water liquid of described vessel body can persistently be discharged by described aqueduct, make to be deposited on the aquatic animal Excreta of described vessel body bottom portion or the dirty thing such as outside dirty is discharged by the outlet of described water guide in the lump with water liquid, until water level decreasing is to the outlet of described water guide. Then, the height of water level of described vessel body can rise to described aqueduct top again with the sustained water injection of described liquid dispensing apparatus so that described aqueduct produces siphonage again. Consequently, it is possible to namely the intrinsic water level of described vessel can regulate and through the dirty thing in described aqueduct discharge water liquid between described aqueduct top and described water guide export.

Described aqueduct disclosed by above-mentioned M475813 Patent Case is only the component of single specification, it cannot comply with the different height of fish jar or the demand of user adjusts the height of described water guide outlet to change the fall of this internal water level of described vessel, and also cannot effectively stop siphonage, thus may result in water level decreasing and excessively affect habitable environment in fish jar.

Utility model content

Main purpose of the present utility model, is in that solving existing embodiment uses excessively numerous and diverse problem.

For reaching above-mentioned purpose, this utility model provides a kind of aquatic cultivating system, and it includes:

One cylinder body, contains a liquid; And

One siphon device, it is assemblied in described cylinder body and provides a siphonage to extract described liquid to outside from described cylinder body root edge, described siphon device has the liquid-in pipe that cylinder body bottom described in one day extends, the one �� type pipe connecting described liquid-in pipe and one connects described �� type pipe and extends the drain pipe outside described cylinder body, described liquid-in pipe has a pore to the one at least within of described drain pipe in corresponding described cylinder body inner section, described siphon device then corresponding described pore position is provided with a water level control member, described water level control member has at least one connecting portion and and connects described connecting portion and have the braking parts of an abutment face, and described water level control member is undertaken there is a shift reciprocately track by described liquid water level function of height, described shift reciprocately track definition goes out the primary importance with the described abutment face described pore of closing and described abutment face discharges described pore and makes extraneous air be entered the second position stopping siphonage by described pore.

Above-mentioned aquatic cultivating system, wherein said braking parts has a buoyancy structure and assembled with described connecting portion and is located at described buoyancy structure to seal the elastic gel of described pore, and described elastic gel is defined as described abutment face in the face of the side of described pore.

Above-mentioned aquatic cultivating system, wherein said buoyancy structure is hollow and forms an air cavity.

Above-mentioned aquatic cultivating system, it is characterised in that described water level control member has an offer described connecting portion group and connects and the sleeve pipe sheathed with described liquid-in pipe and described drain pipe one therein, and described pore is then arranged on described sleeve pipe.

Above-mentioned aquatic cultivating system, wherein said cylinder body is with cylinder intracorporeal space described in a separator interval for a culturing area and a drawing liquid region, and described separator has and at least one be opened in described separator root edge and connect described culturing area and described drawing liquid region and make described liquid flow flow-disturbing mouth therein.

Above-mentioned aquatic cultivating system, wherein said cylinder body has one in the first bottom surface of described culturing area and in second bottom surface in described drawing liquid region, and described first bottom surface is higher than described second bottom surface.

Above-mentioned aquatic cultivating system, wherein said cylinder body has is located at described cylinder body middle position concave dirt collection region and a dirt collection chute extended by described cylinder body periphery towards described dirt collection regional dip.

Above-mentioned aquatic cultivating system, wherein said cylinder body has is located at its internal height adjustment member, and described height adjustment member has the flow-guiding channel of a described flow-disturbing mouth of connection.

Above-mentioned aquatic cultivating system, wherein said siphon device has a siphon auxiliary member being installed in described liquid-in pipe end, described siphon auxiliary member has the siphon air chamber of a described liquid-in pipe of connection, and a liquid inlet and connecting described siphon air chamber is installed in the separator of described liquid inlet.

Above-mentioned aquatic cultivating system, wherein said aquatic cultivating system has more a cultivating pot, and described cultivating pot accepts described liquid from described drain pipe, and described liquid returns the described cylinder body of storage in a drawing liquid object described cultivating pot of extraction.

By the above-mentioned embodiment of this utility model, have the following characteristics that compared to existing

This utility model makes the corresponding described pore position of described siphon device be provided with described water level control member, wherein, described water level control member can be carried out described shift reciprocately track by described liquid water level function of height, and close described pore or discharge described pore by described abutment face in the process of described shift reciprocately track, and then make the described siphon device described siphonage of generation be contained within the described liquid of dirty thing to draw described cylinder body, or destroy described siphonage so that described siphon device stops drawing the described liquid containing dirty thing. Thus, when described cylinder body is continued to inject described liquid, described siphon device can make the water level in described cylinder body be automatically adjusted in certain interval, and draw the described liquid in described cylinder body by described siphon device interval, thereby remove the dirty thing in described cylinder body and be interrupted generation flow-disturbing to prevent dirty thing to be deposited on described cylinder base. Furthermore, user also can directly adjust the height of described water level control member, and the fall thereby changing described liquid is arranged or user demand with the volume meeting described cylinder body, and then solves use in existing embodiment and set excessively numerous and diverse problem.

Below in conjunction with the drawings and specific embodiments, this utility model is described in detail, but not as to restriction of the present utility model.

Accompanying drawing explanation

Fig. 1, the diagrammatic side-view cross-sectional schematic diagram of this utility model first embodiment;

Fig. 2-1, the diagrammatic side-view cross-sectional schematic diagram () of this utility model water level control member;

Fig. 2-2, the diagrammatic side-view cross-sectional schematic diagram (two) of this utility model water level control member;

Fig. 3, the use state diagram () of this utility model first embodiment;

Fig. 4, the use state diagram (two) of this utility model first embodiment;

Fig. 5, the use state diagram (three) of this utility model first embodiment;

Fig. 6, the schematic top plan view of this utility model the second embodiment;

Fig. 7, the diagrammatic side-view cross-sectional schematic diagram of this utility model the second embodiment;

Fig. 8, the diagrammatic side-view cross-sectional schematic diagram of this utility model the 3rd embodiment;

Fig. 9, the schematic top plan view of this utility model the 4th embodiment;

Figure 10, the diagrammatic side-view cross-sectional schematic diagram of this utility model the 4th embodiment;

Figure 11, this utility model is applied to the enforcement schematic diagram of fish and vegetable symbiotic framework.

Detailed description of the invention

Below in conjunction with accompanying drawing, structural principle of the present utility model and operation principle are described in detail:

Refer to Fig. 1, Fig. 2-1, Fig. 2-2 and Fig. 8, this utility model provides a kind of aquatic cultivating system, it comprises cylinder body 1 and a siphon device 2, described siphon device 2 is assemblied in described cylinder body 1, and described siphon device 2 has liquid-in pipe 21, �� type pipe 22, drain pipe 23 and a water level control member 24. Described liquid-in pipe 21 extends towards described cylinder body 1 bottom, and is formed with gap between described liquid-in pipe 21 and described cylinder body 1 bottom. On the other hand, described �� type pipe 22 is that described drain pipe 23 is then installed in described �� type pipe 22 and is not connected to another opening of described liquid-in pipe 21 for the installing of described liquid-in pipe 21 top with a wherein opening. It is outside that this utility model makes described drain pipe 23 extend to described cylinder body 1 further, and the outlet of described drain pipe 23 is set the root edge lower than described cylinder body 1. In an embodiment, described liquid-in pipe 21, described �� type pipe 22 and described drain pipe 23 are all arranged in described cylinder body 1, and described drain pipe 23 end then can be passed (as shown in Figure 1) by bottom described cylinder body 1. In another embodiment, described �� type pipe 22 can be passed by described cylinder body 1 one side wall surface, and described drain pipe 23 then can be positioned at described cylinder body 1 outside (as shown in Figure 8) to form the aspect of external. Further, this utility model makes described liquid-in pipe 21 have a pore 25 to the one at least within of described drain pipe 23 in the inner section of corresponding described cylinder body 1, and corresponding described pore 25 position of described siphon device 2 is provided with a water level control member 24. Specifically, described pore 25 may be placed at the one at least within of described liquid-in pipe 21 and described drain pipe 23, and for knowing explanation, the embodiment that this utility model is provided with described pore 25 with described liquid-in pipe 21 then illustrates. On the other hand, described water level control member 24 has a junction 241 and and is connected to the braking parts 242 of described connecting portion 241, and described connecting portion 241 can be a linking arm being assembled in described liquid-in pipe 21 or described drain pipe 23 one at least within. Further, described connecting portion 241 is to assemble with described liquid-in pipe 21 or described drain pipe 23 in the way of pivot joint, make described braking parts 242 be able to the relatively described liquid-in pipe 21 of described connecting portion 241 and be a shift reciprocately track, make described braking parts 242 in the process of described shift reciprocately track and move to a primary importance or a second position. As shown in Fig. 2-1 and Fig. 2-2, Fig. 2-1 is that described braking parts 242 is in the schematic diagram of described primary importance, wherein, described braking parts 242 has more an abutment face 246, when described braking parts 242 carries out described shift reciprocately track and moves to described primary importance, the described abutment face 246 of described braking parts 242 can close described pore 25, uses and blocks extraneous gas and enter described liquid-in pipe 21 through described pore 25. Again, Fig. 2-2 is that described braking parts 242 is in the schematic diagram of the described second position, when described braking parts 242 carries out shift reciprocately track and moves to the described second position, the described abutment face 246 of described braking parts 242 then can make its release pore 25 away from described pore 25 so that extraneous gas must enter described liquid-in pipe 21 through described pore 25. Holding, described braking parts 242 comprises a buoyancy structure 243 and assembled with described connecting portion 241 and is arranged at described buoyancy structure 243 in the face of the elastic gel 244 of described liquid-in pipe 21 position, and described buoyancy structure 243 for hollow and forms an air cavity 245.Specifically, the described abutment face 246 of described braking parts 242 is to be arranged at described elastic gel 244 in the face of the side of described pore 25, and described water level control member 24 can pass through described buoyancy structure 243 and bubbles through the water column and close described pore 25 through described abutment face 246. It should be noted that, described siphon device 2 is to define a low water line L1 with the position of described water level control member 24, separately define a high-water line H1 with the position of described �� type pipe 22, for convenience of description, Fig. 1, Fig. 3 to Fig. 5, Fig. 7, Fig. 8 and Figure 11 of the present utility model all strengthen the gap between described low water line L1 and described high-water line H1, but, for the actual finished product of this utility model, the gap between described low water line L1 and described high-water line H1 only can close to the top of described cylinder body 1 without occupying too big ratio.

From the above, described pore 25 is except may be disposed at the one at least within of described liquid-in pipe 21 or described drain pipe 23, in an embodiment, described water level control member 24 has more a sleeve pipe 26 that can be sheathed on described liquid-in pipe 21 or described drain pipe 23 one at least within, described pore 25 then can be opened in described sleeve pipe 26, and described liquid-in pipe 21 or described drain pipe 23 one at least within can be equipped with the circular hole of connection corresponding with described pore 25.

Refer to Fig. 3 to Fig. 5 again, this utility model is in implementation process, a liquid is contained to raise aquatic animals and plants (such as Fish or Sargassum etc.) in described cylinder body 1, described braking parts 242 then can be subject to the buoyancy of described liquid to carry out described shift reciprocately track, to make described braking parts 242 close described pore 25 (as shown in Figure 3) when being rocked to described primary importance. Specifically, when described braking parts 242 floats on described liquid, described buoyancy structure 243 is to float on described liquid by described air cavity 245, and described abutment face 246 then can be closed in described pore 25. Based under aforesaid state, user can pass through a drawing liquid object 31 and be continued to be injected in described cylinder body 1 by a filtering cloth jar 3 by described liquid, make described cylinder body 1 increase with the described liquid in described liquid-in pipe 21 simultaneously, and when described liquid rises to described high-water line H1 and makes described liquid be flowed out by described drain pipe 23, namely described siphon device 2 can enter into first state (as shown in Figure 4) of generation one siphonage. Specifically, described first state refers to that described liquid persistently can be flowed out (i.e. described siphonage) by the described drain pipe 23 that position more described liquid-in pipe 21 is low, continue to extract the described liquid in described cylinder body 1 ordering about described liquid-in pipe 21, use the aquatic animal Excreta removed in described cylinder body 1 or the dirty thing such as outside dirty. Further, described drain pipe 23 can extend in described filtering cloth jar 3, and described filtering cloth jar 3 can arrange a filter course (not shown), thus, discharged the described liquid containing dirty thing by described drain pipe 23 to be filtered by described filter course, by described drawing liquid object 31, the described liquid after filtration is supplemented in described cylinder body 1 more subsequently. When the described liquid in described cylinder body 1 is dropped to described low water line L1 by the described siphonage of described siphon device 2, described siphon device 2 enters into one second state immediately. Specifically, described second state refers to that described braking parts 242 is because losing the buoyancy that part or all of described liquid is upwards propped up, and make described braking parts 242 be rocked to the described second position in the process of described shift reciprocately track, described braking parts 242 is made to discharge described pore 25 (as shown in Figure 5), to make extraneous gas be entered in described liquid-in pipe 21 to destroy described siphonage by described pore 25, use and stop the described liquid that described liquid-in pipe 21 continues to draw described cylinder body 1 containing dirty thing. When described siphon device 2 stops discharging after described liquid, the described liquid in described cylinder body 1 can rise to described high-water line H1 with supplementing of described drawing liquid object 31 again, enters into described first state once again ordering about described siphon device 2. Thus, described siphon device 2 can be made to switch between described first state and described second state, to make the described liquid in described cylinder body 1 can produce the quick fluctuation of similar tidal phenomena between described high-water line H1 with described low water line L1, and draw described liquid by described siphon device 2 interval simultaneously, use the dirty thing absorbed in described cylinder body 1 and be interrupted generation flow-disturbing to prevent dirty thing to be deposited on bottom described cylinder body 1. Furthermore, user also can directly adjust the height of described water level control member 24 to change the position of described low water line L1, the fall thereby changing described liquid is arranged or user demand with the volume meeting described cylinder body 1, and then solves the problem that the use of existing embodiment is excessively numerous and diverse.

In order to prevent dirty thing to be deposited on bottom described cylinder body 1, as shown in FIG. 6 and 7, in an embodiment, described cylinder body 1 has one and is arranged at its internal separator 11, described cylinder body 1 is made to be separated to form one in order to raise culturing area 12 and the drawing liquid region 13 arranged for described siphon device 2 of aquatic animals and plants with described separator 11, described separator 11 has the flow-disturbing mouth 111 being opened in its root edge, to make the described liquid of described culturing area 12 can be flowed in described drawing liquid region 13 by described flow-disturbing mouth 111. Further, when described siphon device 2 enters into described first state, described liquid can be attracted to the less described flow-disturbing mouth 111 of bore by described culturing area 12 and produce an eddy current. Thus, between described first state and described second state, the described siphon device 2 of switching can make interval in described culturing area 12 have described eddy current, and stirred the dirty thing in described culturing area 12 by described eddy current, make the dirty thing in described liquid can be flowed into described drawing liquid region 13 by described flow-disturbing mouth 111 and be drawn by described liquid-in pipe 21, and prevent dirty thing to be deposited on bottom described culturing area 12. In an embodiment, described flow-disturbing mouth 111 has one first filtration members 112, and described first filtration members 112 can be a filter screen or a filter pulp, in order to prevent the aquatic animal in described cylinder body 1 from being sucked by described liquid-in pipe 21.

Hold, because this utility model is to draw and remove the dirty thing in described cylinder body 1 by described siphon device 2, in an embodiment, as shown in FIG. 6 and 7, described cylinder body 1 can have first bottom surface 14 and being positioned at described culturing area 12 and be positioned at second bottom surface 15 in described drawing liquid region 13, described first bottom surface 14 is higher than described second bottom surface 15, and when described siphon device 2 enters described first state producing described siphonage, described liquid-in pipe 21 can draw the described liquid in described cylinder body 1, described liquid is made to be flowed towards described flow-disturbing mouth 111 by described culturing area 12 and produce described eddy current, use and roll and make it to flow towards described flow-disturbing mouth 111 with described liquid the dirty thing on described first surface, bottom surface 14 by described eddy current, dirty thing can be drawn by described liquid-in pipe 21 after being flowed to described drawing liquid region 13 by described flow-disturbing mouth 111, and then by described �� type pipe 22 and described drain pipe 23, the described liquid containing dirty thing is discharged.

Described in brought forward, bottom described cylinder body 1 except can directly integrally formed with described first bottom surface 14 except, in an embodiment, described cylinder body 1 also can have one and be arranged at its inside and the thickness height adjustment member 16 equal to described first bottom surface 14 height, described height adjustment member 16 has the flow-guiding channel 161 of a described flow-disturbing mouth 111 of connection, and when described siphon device 2 enters described first state, it is positioned at the described liquid of described culturing area 12 to be flowed towards described flow-disturbing mouth 111 by described flow-guiding channel 161 and produce an eddy current, and then by described eddy current the dirty thing being deposited on described height adjustment member 16 surface can be stirred and roll, and draw the described liquid containing dirty thing by the described liquid-in pipe 21 in described drawing liquid region 13 further, discharge by described �� type pipe 22 and described drain pipe 23 with the described liquid that order contains dirty thing.

Furthermore, refer to Fig. 9 and Figure 10, in order to prevent dirty thing to be deposited on bottom described cylinder body 1, in an embodiment, described cylinder body 1 has to be located at described cylinder body 1 middle position recessed dirt collection region 17, and is communicated to the conveying pipe 19 of described liquid-in pipe 21 towards the dirt collection chute 18 and of the downward-sloping extension in described dirt collection region 17 by described dirt collection region 17 by described cylinder body 11 periphery. thus, namely dirty thing in described cylinder body 1 can concentrate landing towards described dirt collection region 17 after falling to described dirt collection chute 18, and when described siphon device 2 enters described first state, described liquid can be flowed into towards the described dirt collection region 17 that bore is less by described culturing area 12 and produce an eddy current, and by described eddy current, the dirty thing in described culturing area 12 is involved in described dirt collection region 17, drawn the dirty thing being positioned at described dirt collection region 17 by described conveying pipe 19 for described liquid-in pipe 21, and then discharged the described liquid containing dirty thing by described �� type pipe 22 and described drain pipe 23, dirty thing is thereby prevented to be deposited on bottom described cylinder body 1. in an embodiment, described conveying pipe 19 has second filtration members 191 being arranged at its end, described second filtration members 191 can be a filter screen or a filter pulp, and can prevent the aquatic animal in described cylinder body 1 from being sucked by described conveying pipe 19 by described second filtration members 191.

By foregoing it is known that this utility model is to carry dirty thing by described liquid-in pipe 21, described �� type pipe 22 and described drain pipe 23. but, described siphon device 2 is after entering described first state, if the aquatic animal in described cylinder body 1 is swum through described liquid-in pipe 21 close position it would be possible to sucked by described liquid-in pipe 21 or attracted by described liquid-in pipe 21 and be plugged in described liquid-in pipe 21. in view of this, refer to Fig. 1 again, in an embodiment, described siphon device 2 has a siphon auxiliary member 27 being installed in described liquid-in pipe 21 end, described siphon auxiliary member 27 then has a siphon air chamber 271 connected with described liquid-in pipe 21, liquid inlet that one connects with described siphon air chamber 271 272 and one is installed in the separator 273 of described liquid inlet 272, described separator 273 can be the arbitrarily filter element such as a filter screen or a filter pulp, and enter described first state in described siphon device 2 and produce in the process of described siphonage, siphon scope can be strengthened by described liquid inlet 272, and by described separator 273, aquatic animal is isolated, to prevent aquatic animal to be inhaled into or to be plugged in described liquid-in pipe 21.

Further, this utility model one can be applied to a fish and vegetable symbiotic framework, then refers to Figure 11, in an embodiment, described aquatic cultivating system has more a cultivating pot 4, and is provided with a biography liquid object 41 extending to described cylinder body 1 in described cultivating pot 4. Specifically, described biography liquid object 41 comprises a suction pump being arranged in described cultivating pot 4 and and is connected with described suction pump and extends to the transfer pipeline in described cylinder body 1. And when described siphon device 2 enters described first state, described liquid containing dirty thing can be expelled in described cultivating pot 4 with as Fertilizer application by described drain pipe 23, and described liquid can be delivered in described cylinder body 1 again through described biography liquid object 41 by described cultivating pot 4, thereby reuse described liquid, plough the ecological balance of plant reaching in described cylinder body 1 water in aquatic animals and plants and described cultivating pot 4.

In sum, described aquatic cultivating system comprises a cylinder body and a siphon device, described cylinder body contains a liquid, described siphon device has a liquid-in pipe being positioned at described cylinder body, the one �� type pipe connecting described liquid-in pipe and one connects described �� type pipe and extends to the drain pipe outside described cylinder body, the inner section of described liquid-in pipe described cylinder body corresponding to described drain pipe one at least within has a pore, and described siphon device has the water level control member being located at described pore place, and in the use procedure of described aquatic cultivating system, described water level control member can be subject to described liquid water level function of height to close or discharge described pore, thereby remove the dirty thing in described cylinder body and be interrupted generation flow-disturbing to prevent dirty thing to be deposited on described cylinder base. furthermore, user also can directly adjust the height of described water level control member to change the fall of described liquid, and the volume to meet described cylinder body is arranged or user demand, thereby accounts for existing embodiment and uses excessively numerous and diverse problem.

Certainly; this utility model also can have other various embodiments; when without departing substantially from this utility model spirit and essence thereof; those of ordinary skill in the art are when can make various corresponding change and deformation according to this utility model, but these change accordingly and deformation all should belong to the scope of the claims appended by this utility model.

Claims (10)

1. an aquatic cultivating system, it is characterised in that include:

One cylinder body, contains a liquid; And

One siphon device, it is assemblied in described cylinder body and provides a siphonage to extract described liquid to outside from described cylinder body root edge, described siphon device has the liquid-in pipe that cylinder body bottom described in one day extends, the one �� type pipe connecting described liquid-in pipe and one connects described �� type pipe and extends the drain pipe outside described cylinder body, described liquid-in pipe has a pore to the one at least within of described drain pipe in corresponding described cylinder body inner section, described siphon device then corresponding described pore position is provided with a water level control member, described water level control member has at least one connecting portion and and connects described connecting portion and have the braking parts of an abutment face, and described water level control member is undertaken there is a shift reciprocately track by described liquid water level function of height, described shift reciprocately track definition goes out the primary importance with the described abutment face described pore of closing and described abutment face discharges described pore and makes extraneous air be entered the second position stopping siphonage by described pore.

2. aquatic cultivating system as claimed in claim 1, it is characterized in that, described braking parts has a buoyancy structure and assembled with described connecting portion and is located at described buoyancy structure to seal the elastic gel of described pore, and described elastic gel is defined as described abutment face in the face of the side of described pore.

3. aquatic cultivating system as claimed in claim 2, it is characterised in that described buoyancy structure is hollow and forms an air cavity.

4. the aquatic cultivating system as described in claim 1,2 or 3, it is characterized in that, described water level control member has an offer described connecting portion group and connects and the sleeve pipe sheathed with described liquid-in pipe and described drain pipe one therein, and described pore is then arranged on described sleeve pipe.

5. aquatic cultivating system as claimed in claim 1, it is characterized in that, described cylinder body is with cylinder intracorporeal space described in a separator interval for a culturing area and a drawing liquid region, and described separator has and at least one be opened in described separator root edge and connect described culturing area and described drawing liquid region and make described liquid flow flow-disturbing mouth therein.

6. aquatic cultivating system as claimed in claim 5, it is characterised in that described cylinder body has in the first bottom surface of described culturing area and in second bottom surface in described drawing liquid region, and described first bottom surface is higher than described second bottom surface.

7. aquatic cultivating system as claimed in claim 1, it is characterised in that described cylinder body has is located at described cylinder body middle position concave dirt collection region and a dirt collection chute extended by described cylinder body periphery towards described dirt collection regional dip.

8. aquatic cultivating system as claimed in claim 5, it is characterised in that described cylinder body has is located at its internal height adjustment member, and described height adjustment member has the flow-guiding channel of a described flow-disturbing mouth of connection.

9. the aquatic cultivating system as described in claim 1,2 or 5, it is characterized in that, described siphon device has a siphon auxiliary member being installed in described liquid-in pipe end, described siphon auxiliary member has the siphon air chamber of a described liquid-in pipe of connection, and a liquid inlet and connecting described siphon air chamber is installed in the separator of described liquid inlet.

10. the aquatic cultivating system as described in claim 1,2 or 5, it is characterized in that, described aquatic cultivating system has more a cultivating pot, and described cultivating pot accepts described liquid from described drain pipe, and described liquid returns the described cylinder body of storage in a drawing liquid object described cultivating pot of extraction.