CN204968961U - From clean inner loop accuse warm type farming systems - Google Patents

Abstract

The utility model discloses a from clean inner loop accuse warm type farming systems, including the equipment rack, its bottom is equipped with the first drainage groove that communicates in proper order, smart drainage groove, water pump, smart drainage inslot is equipped with the heating rod, and the play water end (W. E. ) of water pump is equipped with drinking water ultraviolet disinfector, and one side of equipment rack is equipped with water supply main pipe, whenever is equipped with a plurality of culture tank on the frame layer upon layer, all is equipped with dustproof apron on every culture tank, all is equipped with water supply branch pipe on the roof in every place space of frame layer upon layer, and water supply main pipe who upwards extends and every layer water supply branch pipe intercommunication, its lower extreme pass through drinking water ultraviolet disinfector and water pump intercommunication, the culture tank top is equipped with the culture tank delivery pipe, and its one end is passed in the moisturizing mouth extension income culture tank on the apron with the water supply branch pipe intercommunication other end, setting up the useless groove of collection on the frame of layer and communicateing with culture tank, the discarded object in the culture tank flows in the useless groove of collection together with backward flow waste water, and the opposite side of equipment rack is equipped with row waste pipe, and row waste pipe goes into drainage groove just with the useless groove intercommunication messenger backward flow return of waste water of collection.

Description

Self-cleaning Inner eycle temperature control type cultivating system

Technical field

The utility model belongs to cultivating system apparatus field, in particular to self-cleaning Inner eycle temperature control type cultivating system.

Background technology

Zebra fish (being commonly called as Zebrafish) is because it has reproduction ability by force, and in vitro fertilization and growth, the advantages such as embryo is transparent, and sexual maturation cycle is short, and individuality is little, are widely applied in the research of modern life science.The test such as toxicity certification, environmental ecology toxicity detection of the medicine cultivation of zebra fish, require the strict introducing controlling interference source in cultivating system, to ensure the absolute health that zebra fish test is individual, avoid testing the error that individual factors causes test or authentication checks result.Therefore, a like this zebra fish cultivation equipment being suitable for strict drug toxicology certification and environmental ecology toxicity detection of exploitation is extremely urgent.

Chinese patent 201220241842.2, as shown in Figure 1, disclose a kind of automatically cleaning zebra fish culturing jar being applicable to overflow cultivating system, comprise cylinder body, the sidewall of described cylinder body is provided with overfall, the cylinder side wall at described overfall place is provided with upper base and is less than the trapezoidal cutting of going to the bottom, the upper end of trapezoidal cutting is connected with overfall, the lower end of trapezoidal cutting extends to cylinder base, the notch place of trapezoidal cutting is provided with dividing plate, the bottom of dividing plate is provided with sewage draining exit, and cutting is connected with cylinder interior by sewage draining exit.The utility model structure is simple, can form current poor, thus improve the flow velocity of the current direction overfall in cylinder body by cutting cavity, thus make current wash away cylinder base impurity, the effect of self-cleaning can be reached, alleviate the workload of poultry feeders, save time and efforts.

Chinese patent 201320240080.9, discloses a kind of equipment for zebra fish cultivation, as shown in Figure 2, comprises a building type house system, be provided with multilayer laminate in house system, often from level to level row's breeding box at least placed by plate; One water system and a return water system, be connected respectively to water inlet and the delivery port of described breeding box; One sewage disposal system, its sewage pipe end is connected with described return water system, and water purification pipe end is connected with described water system; Also comprise an illumination system, be installed in the top of every layer of described breeding box, provide illumination to breeding box; One camera system, is installed in house system, comprises the mechanism and mechanism moving up and down that can move horizontally, video camera is arranged on the end of reciprocating mechanism, and camera, can the animation of comprehensive monitoring zebra fish towards breeding box, remote wireless network system, achieves remote monitor.

But as can be seen from such scheme, it is not all adopted an effective measure and makes to guarantee that during the cultivation of zebra fish breeding environment can reach the standard of required zebra fish in toxicity certification, environmental ecology toxicity detection.

Utility model content

The purpose of this utility model is to provide a kind of self-cleaning Inner eycle zebra fish cultivating system, can guarantee by this system the standard that the zebra fish cultivated reaches required in toxicity certification, environmental ecology toxicity detection.

In order to achieve the above object, concrete scheme is as follows:

Self-cleaning Inner eycle temperature control type cultivating system,

Comprise the equipment rack being provided with multilayer layer shelf structure, the bottom of equipment rack is provided with the initial filter tank be communicated with successively, smart drainage trap, water pump; Be provided with the heating rod that can carry out temperature adjusting in essence drainage trap, the water side of water pump is provided with ultraviolet ray disinfector, and the side of equipment rack is provided with vibration means for main pipe for supplying water, and vibration means for main pipe for supplying water extends from bottom to top along the short transverse of equipment rack;

Every frame layer by layer on the bottom of equipment rack is equipped with the culturing jar of multiple band dust cover, the roof in every space, frame place is layer by layer equipped with water supply arm; The vibration means for main pipe for supplying water upwards extended is communicated with the water supply arm that every frame is layer by layer arranged, and its lower end is communicated with water pump by ultraviolet ray disinfector;

Be equipped with culturing jar feed pipe above each culturing jar, one end of culturing jar feed pipe is communicated with the water supply arm above the layer frame of culturing jar place, and its other end extends in culturing jar through the water supplement port on cover plate;

Every frame is layer by layer equipped with the useless groove of collection, the useless groove of collection is arranged along the width of equipment rack, collection on the every frame layer by layer groove that gives up is communicated with each culturing jar on the layer frame of place, the junction of the useless groove of collection and each culturing jar is equipped with diaphragm valve, and the discarded object in culturing jar flows into the useless groove of collection together with backflow waste water by diaphragm valve;

The opposite side of equipment rack is provided with waste pipe from the top down, collection on the waste pipe extended from the top down and the every frame layer by layer groove that gives up is communicated with, the bottom of waste pipe is communicated in initial filter tank, and the discarded object in the useless groove of collection and backflow waste water are collected in waste pipe, and finally flow in initial filter tank.

The self-cleaning Inner eycle temperature control type cultivating system provided by the utility model, fresh water purification fills in the smart drainage trap of bottom, heating rod in essence drainage trap heats the water purification newly filled into and controls in temperature required scope, water pump extracts the water purification being reached preset temperature in smart drainage trap by heating, and enter in vibration means for main pipe for supplying water after being disinfected by ultraviolet ray disinfector, be delivered in the water supply arm of every layer by vibration means for main pipe for supplying water, water in water supply arm is flowed in each culturing jar by culturing jar feed pipe and uses water as cultivation, in the process of cultivation, the excreta of material culture in culturing jar, swills etc. are deposited on bottom culturing jar, simultaneously due to the effect of diaphragm valve inside liquid level pressure, give up in groove by the collection on diaphragm valve inflow place layer by layer frame, and be back in initial filter tank eventually through waste pipe, the waste water of initial filter tank to backflow carries out filtration treatment, its circularly purifying is made to be the water purification that can again utilize, water in initial filter tank after preliminary purification enters smart drainage trap and again to become more meticulous filtration, heating, and disinfect further through ultraviolet ray disinfector, finally become qualified clean aquaculture water to be used again.

Native system is the closed system of self-cleaning Inner eycle, and cycle water can be repeated utilization, and simultaneously outside clean water also can be added in smart drainage trap, to ensure that quantity of circulating water is sufficient.

The diaphragm valve used in native system, due to the less cause of spacing of inside and outside hydraulic pressure difference effect and valve body and spool, define stronger suction, be deposited on material culture excreta bottom culturing jar like this and swill is sucked into diaphragm valve water inlet, and then discharge culturing jar in company with backflow waste water, make system in the process of moisturizing Inner eycle, reach the effect of automatically cleaning culturing jar.

Simultaneously, when intrasystem water is due to long circulation, to be scattered and disappeared certain heat by media such as water supply lines, in order to ensure long-time internal circulation system equalized temperature, heating rod in essence drainage trap can carry out temperature adjusting to intrasystem cycle water, guarantees that in whole system, breeding water and cycle water all remain in the temperature range of appropriate biological cultivation.

Further, the junction of water supply arm vibration means for main pipe for supplying water and every frame layer by layer arranged is equipped with water supply main valve.

Because the difference of layer frame height, the inflow in each water supply arm in the unit interval is different, and the water supply main valve that now can be arranged by every layer controls the inflow in every layer of water supply arm.

The junction of culturing jar feed pipe and water supply arm is provided with a valve that supplies water.

Prop up valve by this water supply, convenient control each culturing jar individually, can give at any time and add water in culturing jar individually or stop adding water.

Further, be provided with filter disc in described initial filter tank, filter disc is located at the notch position of initial filter tank, is provided with prefilter in filter disc; The below of filter disc is provided with bio-reactor, and bio-reactor is the box body of the equal hollow out of sidewall, is provided with multiple biological nitration reaction sphere in it; The below of bio-reactor, the bottom land of initial filter tank are provided with bracing frame, and bio-reactor is arranged on bracing frame.

Further, active carbon filter, micro-filtration bag is provided with in described smart drainage trap, water quality adjustment groove;

Active carbon filter is the stainless steel case groove of bottom and surrounding sealing, micro-filtration bag is the double-layer leaching net of micron order mesh, active carbon filter and micro-filtration bag are disposed in parallel in the position near smart drainage trap notch, all unsettled bottom it, the two is communicated with formation separate space, in essence drainage trap, remaining bottom land space is water quality adjustment groove, and described heating rod is located in water quality adjustment groove.

Further, the bottom of equipment rack is also provided with pH value adjuster, conductivity adjustment device and dissolving device, the inductive probe on pH value adjuster and conductivity adjustment device all probes in water quality adjustment groove, cycle water is carried out to the water quality survey of pH value and electrical conductivity; Dissolving device is communicated with water quality adjustment groove by tube connector, supplemental oxygen in water quality adjustment groove.

Further, the sidewall of water quality adjustment groove is provided with filling pipe, filling pipe is through sidewall, its one end is positioned at water quality adjustment groove, the other end extends to outside water quality adjustment groove, one end that filling pipe is positioned at water quality adjustment groove is provided with float switch, filling pipe and float switch co-controlling essence drainage trap in water level.

Further, described diaphragm valve comprises the inner valve body for cavity structure and spool, and valve body lower portion is provided with water inlet, and spool top is provided with overfall bottom and is provided with dewatering outlet, the two socket.

Further, the bottom of described spool is also provided with seal groove, and seal groove is built-in with sealing ring.

Further, the outer cover of described diaphragm valve is provided with anti-cylinder of slipping through the net, and anti-cylinder of slipping through the net is cylindrical net nested structure, and one end of anti-cylinder of slipping through the net is installed in the bottom land of culturing jar, and the other end upwards extends along the short transverse of diaphragm valve.

Further, the surface of described cover plate is also provided with diaphragm valve gathering hole, feeding hole, temperature-measuring port, cover plate handle installing hole, cover plate handle installing hole is located at the centre of cover plate, and diaphragm valve gathering hole is located at one end of cover plate, feeding hole, water supplement port, temperature-measuring port is located at the other end of cover plate successively side by side.

Feature of the present utility model:

1. preferred equipment frame adopts stainless steel, and frame arranges five layers, and culturing jar is placed on four layers, top, and size can be measured according to cultivation need adjustment frame width, be made into the single placement of culturing jar or double placement.

2. system every layer establishes water supply main valve, realizes every layer and controls separately; Every layer of each culturing jar establishes supply water valve and a feed pipe, realizes each culturing jar and supplies water also controlled separately.

3. culturing jar adopts the one-shot forming of pharmaceutical glass material mould, is specially adapted to need toxicity certification test to cultivate with zebra fish, hydrolysis one-level, the harmful effect that the precipitation avoiding bisphenol-A incretion interferent in PC cylinder may produce experimental result;

4. culturing jar comprises cover plate, and cover plate is provided with diaphragm valve gathering hole, water supplement port, temperature-measuring port, and establishes feeding hole, can facilitate feeding.

5. diaphragm valve adopts stainless steel manufacture, and the setting of diaphragm valve, can not only realize the overflow circulating of aquaculture water, and blowdown and the aquaculture water that can also realize culturing jar under normal circulation current are self-cleaning.Meanwhile, spool is also provided with dewatering outlet, carries when needing by spool, and make sealing ring mention above water inlet, water inlet is communicated with dewatering outlet, water Natural excrement, can realize each culturing jar and to discharge water separately emptying object.

6. anti-cylinder of slipping through the net adopts stainless steel manufacture, is porous cylindrical tube-in-tube structure, can use by supporting juvenile fish culture experiment, avoids test juvenile fish to lose with changing water outflow.

7. system initial filter tank, smart drainage trap and the accessory such as communicating pipe, valve all adopt the inertia materials such as pharmaceutical glass material or stainless steel, are applicable to the raising of the zebra fish in stricter toxicological test.

8, various parts, valve are successively all by stainless steel waterpipe, select threadingly connection, connect in a welding manner, be connected in a kind of mode during the mode that clip is fastening connects.

The self-cleaning Inner eycle temperature control cultivating system that the utility model provides, is not only applicable to the raising of the zebra fish in toxicological test, can also cultivate other multiple biology, such as silver carps etc. simultaneously.

Accompanying drawing explanation

Fig. 1. the structural representation of patent 201220241842.2;

Fig. 2. the structural representation of patent 201320240080.9;

Fig. 3. the system construction drawing that the utility model provides;

Fig. 4. initial filter tank structural representation in the utility model;

Fig. 5. the structural representation of prefilter in the utility model;

Fig. 6 is the sectional view of prefilter in the utility model;

Fig. 7. smart drainage trap structural representation in the utility model;

Fig. 8. be provided with the structural representation of diaphragm valve and anti-cylinder of slipping through the net in the utility model in culturing jar;

Fig. 9. the structural representation of diaphragm valve valve body in the utility model;

The structural representation of diaphragm valve spool in Figure 10 the utility model;

Figure 11. anti-barrel structure schematic diagram of slipping through the net in the utility model;

Figure 12. the front view of culturing jar in the utility model;

Figure 13. the end view of culturing jar in the utility model;

Figure 14. the vertical view of culturing jar cover plate in the utility model;

The end view of culturing jar cover plate in Figure 15 the utility model;

Reference numeral: equipment rack 1, initial filter tank 2, tank communicating pipe 3, essence drainage trap 4, water pump communicating pipe 5, water pump 6, ultraviolet ray disinfector 7, vibration means for main pipe for supplying water 8, water supply main valve 9, water supply arm 10, supply water a valve 11, culturing jar feed pipe 12, culturing jar 13, anti-cylinder 14 of slipping through the net, diaphragm valve 15, the useless groove 16 of collection, waste pipe 17;

Filter disc 2a, prefilter 2b, bio-reactor 2c, bracing frame 2d;

Active carbon filter 4a, micro-filtration bag 4b, water quality adjustment groove 4c, heating rod 4d, float switch 4e, filling pipe 4f;

Cover plate 13a, diaphragm valve gathering hole 13b, feeding hole 13c, water supplement port 13d, temperature-measuring port 13e, cover plate handle installing hole 13f;

Valve body 15a, spool 15b, water inlet 15c, overfall 15d, seal groove 15e, dewatering outlet 15f.

Embodiment

Below by specific embodiment, the utility model is described in further detail.

Embodiment 1:

Self-cleaning Inner eycle temperature control type cultivating system, as shown in Figure 3, comprise the equipment rack 1 that an inside is provided with multilayer layer shelf structure, the bottom of equipment rack 1 is provided with the initial filter tank 2, smart drainage trap 4, the water pump 6 that are communicated with successively; Wherein can be connected by special tank communicating pipe 3 between initial filter tank 2 and smart drainage trap 4, can be communicated with by special water pump communicating pipe 5 between smart drainage trap 4 and water pump 6.

The heating rod 4d that can carry out temperature control and regulation is provided with in essence drainage trap 4, the water side of water pump 6 is provided with ultraviolet ray disinfector 7, the side of equipment rack 1 is provided with vibration means for main pipe for supplying water 8, vibration means for main pipe for supplying water 8 extends from bottom to top along the short transverse of equipment rack 1, and its lower end is communicated with water pump 6 by ultraviolet ray disinfector 7;

Every frame layer by layer of equipment rack 1 is provided with multiple culturing jar 13, each culturing jar 13 is equipped with dust cover 13a, the roof in every space, frame place is layer by layer equipped with water supply arm 10, and water supply arm 10 extends to opposite side along the width of equipment rack 1 from side; The vibration means for main pipe for supplying water 8 upwards extended is communicated with the water supply arm 10 that every frame is layer by layer arranged, and is equipped with water supply main valve 9 with the junction of every layer of water supply arm 10;

Be equipped with culturing jar feed pipe 12 above each culturing jar 13, one end of culturing jar feed pipe 12 is communicated with the water supply arm 10 above the layer frame of culturing jar 13 place, and its other end extends in culturing jar 13 through the water supplement port 13d on cover plate 13a; Water supply manifold valve 11 is provided with at culturing jar feed pipe 12 and the junction of water supply arm 10;

Every frame is layer by layer equipped with the useless groove 16 of collection, the useless groove 16 of collection is arranged along the width of equipment rack 1, collection on the every frame layer by layer groove 16 that gives up is communicated with each culturing jar 13 on the layer frame of place, the junction of the useless groove 16 of collection and each culturing jar 13 is equipped with diaphragm valve 15, and the discarded object in culturing jar 13 flows into the useless groove 16 of collection together with backflow waste water by diaphragm valve 15;

The opposite side of equipment rack 1 is provided with waste pipe 17, waste pipe 17 is arranged along the short transverse of equipment rack 1, collection on the waste pipe 17 extended from the top down and the every frame layer by layer groove 16 that gives up is communicated with, the bottom of waste pipe 17 is communicated with the initial filter tank 2 being arranged on bottom, discarded object in the useless groove 16 of collection and backflow waste water are collected in waste pipe 17, and finally flow in initial filter tank 2.

Embodiment 2

As Figure 4-Figure 6, filter disc 2a is provided with in initial filter tank 2, filter disc 2a is located at the notch position of initial filter tank 2, prefilter 2b is provided with in filter disc 2a, the cycle water passing back into pre-filtering groove first falls in filter disc 2a when entering initial filter tank 2, and the prefilter 2b in filter disc 2a can aquaculture organism excreta in filtering cycle water and the larger impurity of swill equidimension.

The below of filter disc 2a is provided with bio-reactor 2c, is provided with multiple biological nitration reaction sphere in bio-reactor 2c, and the cycle water through filter disc 2a falls in bio-reactor 2c, and bio-reactor 2c carries out efficiently except ammonia biological treatment cycle water.The bottom of bio-reactor 2c is provided with bracing frame 2d, bio-reactor 2c props up by bracing frame 2d, the bottom land of distance initial filter tank 2 has certain altitude, cycle water after filtering from bio-reactor 2c directly falls into the bottom land of initial filter tank 2 by bio-reactor 2c, afterwards again by entering smart drainage trap 4 tank communicating pipe 3.

As shown in Figure 7, active carbon filter 4a and micro-filtration bag 4b is also provided with in essence drainage trap 4, active carbon filter 4a is the stainless steel case groove of bottom and surrounding sealing, micro-filtration bag 4b is the double-layer leaching net of micron order mesh, active carbon filter 4a and micro-filtration bag 4b is disposed in parallel in the position of the notch near smart drainage trap 4, all unsettled bottom it, the two is communicated with formation separate space, smart drainage trap 4 is divided into two spaces simultaneously.

Wherein, the degree of depth of active carbon filter 4a is much larger than the degree of depth of micro-filtration bag 4b.The water entering smart drainage trap 4 is introduced in active carbon filter 4a, when the water yield of water after filtering in active carbon filter 4a reach a certain amount of after, active carbon filter 4a can be overflowed, turn over to pour in simultaneously and be located in the micro-filtration bag 4b of its side.Enter the cycle water of micro-filtration bag 4b directly by micro-filtration bag 4b, and fall into the bottom land of smart drainage trap 4, this trench bottom is divided into water quality adjustment groove 4c, cycle water in water quality adjustment groove 4c, by being arranged on pH value adjuster outside smart drainage trap and conductivity adjustment device carries out the water quality survey of pH value and electrical conductivity to it, the dissolving device be located at outside smart drainage trap was communicated with water quality adjustment groove by communicating pipe, and to its Inner eycle water inflation oxygenating, it is made to reach breeding water standard, heating tube heats for the final qualified water after modified, it is made to reach aquaculture water temperature required.

The sidewall of water quality adjustment groove 4c is provided with filling pipe 4f, and one end that filling pipe 4f is positioned at water quality adjustment groove 4c is provided with float switch 4e and controls smart drainage trap 4 water level, and realize automatic liquid level protection, outside water purification moisturizing is filled into by filling pipe 4f.

In order to the demand preventing the quantity of circulating water in smart drainage trap 4 to be not enough to meet whole system, the sidewall of smart drainage trap 4 is provided with filling pipe 4f, the water purification in the external world can be replenished in smart drainage trap 4 in time by this filling pipe 4f.In order to can more intelligent moisturizing easily, the one end being positioned at smart drainage trap 4 at filling pipe 4f is provided with float switch 4e, when the water purification amount in smart drainage trap 4 is less and when cannot float float switch 4e, float switch 4e will open the valve of filling pipe 4f, and outside water purification will carry out smart drainage trap 4 by filling pipe 4f.After the water in smart drainage trap 4 reaches certain capacity, float switch 4e, automatically by the valve closing of filling pipe 4f, stops moisturizing.

Embodiment 3

As Figure 8-Figure 10, the diaphragm valve 15 used in native system is made up of stainless steel, comprises valve body 15a and spool 15b, the two socket, valve body 15a bottom is provided with water inlet 15c, and spool 15b top is provided with overfall 15d, bottom is provided with seal groove 15e, is built-in with sealing ring.When culturing jar 13 stops moisturizing, sealing ring can play sealing function, prevents culturing jar 13 by leaking bottom spool 15b.When exceeding the overfall 15d on spool 15b when moisturizing water level in culturing jar 13, diaphragm valve 15 forms linker, water can enter diaphragm valve 15 by the water inlet 15c bottom valve body 15a, and is flowed into spool 15b internal cavities by the overfall 15d on spool 15b top and flowed out culturing jar 13.

The excreta, swill etc. of material culture are deposited at the bottom of culturing jar due to Action of Gravity Field, when excessive water flows out culturing jar 13 by diaphragm valve 15, hydraulic pressure due to diaphragm valve 15 inside is far smaller than the hydraulic pressure in culturing jar 13, now, the discarded object be deposited on bottom culturing jar 13 can be depressed in the spool 15b cavity of diaphragm valve 15 in company with backflow waste water, and discharge culturing jar 13, reach the self-cleaning effect of culturing jar 13.

Thus, the setting of diaphragm valve 15, can not only realize the overflow circulating of aquaculture water, and blowdown and the aquaculture water that can also realize culturing jar 13 under normal circulation current are self-cleaning.Meanwhile, be also provided with dewatering outlet 15f bottom spool 15b, carry when needing by spool 15b, make sealing ring mention above water inlet 15c, water inlet 15c is communicated with dewatering outlet 15f, water Natural excrement, can realize each culturing jar 13 and to discharge water separately emptying object.

As shown in figure 11, diaphragm valve 15 is arranged with anti-cylinder 14 of slipping through the net, anti-cylinder 14 of slipping through the net is cylindrical net nested structure, and one end of anti-cylinder 14 of slipping through the net is installed in the bottom land of culturing jar 13, and the other end upwards extends along the short transverse of diaphragm valve 15.Anti-mesh size of slipping through the net on cylinder 14 is far smaller than the size of aquaculture organism, guarantee that aquaculture organism cannot pass through, but the discarded object in culturing jar 13 can pass through.This anti-cylinder 14 of slipping through the net can be avoided in the process of draining, and aquaculture organism flows out culturing jar 13 with recirculation water.

Embodiment 4

As shown in Figure 12-Figure 15, in order to improve the seal of system, facilitate again simultaneously and correspondingly cultivate operation in culturing jar 13, be provided with culturing jar cover plate 13a, be provided with diaphragm valve gathering hole 13b in lid surface simultaneously, feeding hole 13c, water supplement port 13d, temperature-measuring port 13e, cover plate handle installing hole 13f, its cover plate handle installing hole 13f is located at the centre of cover plate 13a, diaphragm valve 15 gathering hole is located at one end of cover plate 13a, feeding hole 13c, water supplement port 13d, temperature-measuring port 13e are located at the other end of cover plate 13a successively side by side.

When needing to operate the diaphragm valve 15 in culturing jar 13, controlled by diaphragm valve gathering hole 13b, when needing to carry out feeding or independent moisturizing to the aquaculture organism in culturing jar 13, can be undertaken by feeding hole 13c and water supplement port 13d, the temperature in culturing jar 13 can also be monitored at any time by temperature-measuring port 13e, so that the temperature adjusted in culturing jar 13 reaches best breeding environment temperature in time simultaneously.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. self-cleaning Inner eycle temperature control type cultivating system, it is characterized in that, comprise the equipment rack (1) being provided with multilayer layer shelf structure, the bottom of equipment rack is provided with the initial filter tank (2) be communicated with successively, smart drainage trap (4), water pump (6); The heating rod (4d) that can carry out temperature adjusting is provided with in essence drainage trap, the water side of water pump is provided with ultraviolet ray disinfector (7), the side of equipment rack is provided with vibration means for main pipe for supplying water (8), and vibration means for main pipe for supplying water extends from bottom to top along the short transverse of equipment rack;

Every frame layer by layer on the bottom of equipment rack is equipped with the culturing jar (13) of multiple band dust cover (13a), and the roof in every space, frame place is layer by layer equipped with water supply arm (10); The vibration means for main pipe for supplying water upwards extended is communicated with the water supply arm that every frame is layer by layer arranged, and its lower end is communicated with water pump by ultraviolet ray disinfector;

Be equipped with culturing jar feed pipe (12) above each culturing jar, one end of culturing jar feed pipe is communicated with the water supply arm above the layer frame of culturing jar place, and its other end extends in culturing jar through the water supplement port (13d) on cover plate;

Every frame is layer by layer equipped with the useless groove (16) of collection, the useless groove of collection is arranged along the width of equipment rack, collection on the every frame layer by layer groove that gives up is communicated with each culturing jar on the layer frame of place, the junction of the useless groove of collection and each culturing jar is equipped with diaphragm valve (15), and the discarded object in culturing jar flows into the useless groove of collection together with backflow waste water by diaphragm valve;

The opposite side of equipment rack is provided with waste pipe (17) from the top down, collection on the waste pipe extended from the top down and the every frame layer by layer groove that gives up is communicated with, the bottom of waste pipe is communicated in initial filter tank, discarded object in the useless groove of collection and backflow waste water are collected in waste pipe, and finally flow in initial filter tank.

2. self-cleaning Inner eycle temperature control type cultivating system according to claim 1, is characterized in that, the junction of the water supply arm that vibration means for main pipe for supplying water and every frame are layer by layer arranged is equipped with water supply main valve (9); The junction of culturing jar feed pipe and water supply arm is provided with a valve (11) that supplies water.

3. self-cleaning Inner eycle temperature control type cultivating system according to claim 1, it is characterized in that, be provided with filter disc (2a) in described initial filter tank, filter disc is located at the notch position of initial filter tank, is provided with prefilter (2b) in filter disc; The below of filter disc is provided with bio-reactor (2c), and bio-reactor is the box body of the equal hollow out of sidewall, is provided with multiple biological nitration reaction sphere in it; The below of bio-reactor, the bottom land of initial filter tank are provided with bracing frame (2d), and bio-reactor is arranged on bracing frame.

4. self-cleaning Inner eycle temperature control type cultivating system according to claim 1, is characterized in that, is provided with active carbon filter (4a), micro-filtration bag (4b), water quality adjustment groove (4c) in described smart drainage trap;

Active carbon filter is the stainless steel case groove of bottom and surrounding sealing, micro-filtration bag is the double-layer leaching net of micron order mesh, active carbon filter and micro-filtration bag are disposed in parallel in the position near smart drainage trap notch, all unsettled bottom it, the two is communicated with formation separate space, in essence drainage trap, remaining bottom land space is water quality adjustment groove (4c), and described heating rod is located in water quality adjustment groove.

5. self-cleaning Inner eycle temperature control type cultivating system according to claim 1, it is characterized in that, the bottom of equipment rack is also provided with pH value adjuster, conductivity adjustment device and dissolving device, inductive probe on pH value adjuster and conductivity adjustment device all probes in water quality adjustment groove, cycle water is carried out to the water quality survey of pH value and electrical conductivity; Dissolving device is communicated with water quality adjustment groove by tube connector, supplemental oxygen in water quality adjustment groove.

6. the self-cleaning Inner eycle temperature control type cultivating system according to any one of claim 1-5, it is characterized in that, the sidewall of water quality adjustment groove is provided with filling pipe (4f), filling pipe is through sidewall, its one end is positioned at water quality adjustment groove, the other end extends to outside water quality adjustment groove, and one end that filling pipe is positioned at water quality adjustment groove is provided with float switch (4e), filling pipe and float switch co-controlling essence drainage trap in water level.

7. self-cleaning Inner eycle temperature control type cultivating system according to claim 1, it is characterized in that, described diaphragm valve comprises valve body (15a) and the spool (15b) that inside is cavity structure, valve body lower portion is provided with water inlet (15c), spool top is provided with overfall (15d) bottom and is provided with dewatering outlet (15f), the two socket.

8. self-cleaning Inner eycle temperature control type cultivating system according to claim 7, is characterized in that, the bottom of described spool is also provided with seal groove (15e), and seal groove is built-in with sealing ring.

9. the self-cleaning Inner eycle temperature control type cultivating system according to claim 7 or 8, it is characterized in that, the outer cover of described diaphragm valve is provided with anti-cylinder (14) of slipping through the net, anti-cylinder of slipping through the net is cylindrical net nested structure, one end of anti-cylinder of slipping through the net is installed in the bottom land of culturing jar, and the other end upwards extends along the short transverse of diaphragm valve.

10. self-cleaning Inner eycle temperature control type cultivating system according to claim 1, it is characterized in that, the surface of described cover plate (13a) is also provided with diaphragm valve gathering hole (13b), feeding hole (13c), temperature-measuring port (13e), cover plate handle installing hole (13f), cover plate handle installing hole is located at the centre of cover plate, and diaphragm valve gathering hole is located at one end of cover plate, feeding hole, water supplement port, temperature-measuring port is located at the other end of cover plate successively side by side.