CN218184697U - Automatic sterile hatching system - Google Patents

Abstract

The utility model belongs to the technical field of the incubation device, a automatic sterile incubation system is disclosed, a plurality of independent incubation device has to supply the antiseptic solution for a plurality of incubation device and spray the disinfection in incubation device, including water tank, supply channel and control box, the water tank is connected with the supply channel and through supplying water, all is equipped with in every incubation device and sprays the pipeline, sprays the pipeline and has the joint of connecting the supply channel, and is equipped with the solenoid valve of being connected with the control box on connecting.

Description

Automatic sterile hatching system

Technical Field

The utility model belongs to the technical field of biological incubation device, concretely relates to automatic sterile incubation system.

Background

Hatching equipment is a general term for articles required in the hatching process and comprises: the incubator is the most important part of the hatching equipment, such as the incubator, the hatching machine, the incubator accessories, special articles for a hatching room, the heating equipment, the humidifying equipment, each measuring system and the like. The incubator is a machine for artificially simulating the maternal characteristics of oviparous animals to carry out temperature and humidity egg turning and other conditions to develop fertilized eggs into lives after a certain period of time, and is mainly used for hatching egg hatching, embryo development, breeding farms, hatching factories, chicken farms, personal hatching, family hatching, unit hatching, school hatching, biological hatching, embryo hatching, schools, biological companies, special poultry hatching and the like.

The hatcher can be divided into two types of coal-electricity dual-purpose and electricity-only, the two types of machines comprise a small-sized hatcher, a pigeon hatcher, a chicken hatcher, a rare bird hatcher, a duck egg hatcher, a small-sized full-automatic hatcher and a small-sized full-automatic hatching and hatching all-in-one machine, and all products are fully automatically controlled by a microcomputer. The hatcher has many types, different degrees of active and capacity, but the basic principle of the structure is the same, and the hatcher is composed of a machine body, an active temperature control device, an active humidity control device, an active egg turning device, a ventilation device and the like. The incubator can be divided into 3 specifications of large, medium and small sizes according to the capacity, the capacity of the incubator is divided into 5-10 thousands or more, 1-5 thousands and less than 1 ten thousands, and in the medium and small sized incubator, the two parts of incubation and hatching are installed in the same machine body.

When using such an incubator for hatching, it is necessary to periodically perform a sterilization and washing so that the second hatching is not affected. That is, after each batch is incubated or hatched, the incubator or hatching machine is thoroughly rinsed and sterilized once. Then checking whether the mechanical part has the phenomena of looseness and clamping collision, checking the condition of lubricating oil in the speed reducer, and removing dirt such as dust, fluff and the like on electrical equipment. And powering on for a period of time, adjusting the temperature and the humidity, and then hatching the next batch. The existing disinfection mode is that manual work is carried out through the manual work, disinfectant needs to be coated on the inner wall, then spraying and washing are carried out for a plurality of times, the processing workload for a single incubator is less, but the cleaning workload is larger through the manual work at regular intervals in an incubation workshop with a plurality of incubators.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model provides a hatching system that can disinfect automatically supplies water to a plurality of hatching equipment through the supply channel system that is equipped with to carry out whole same disinfection operation, can replace manual disinfection, thereby raise the efficiency.

The utility model discloses the technical scheme who adopts does:

in a first aspect, the utility model discloses an automatic sterile incubation system has the independent incubation device of a plurality of to supply the antiseptic solution for a plurality of incubation device and spray the disinfection in the incubation device, including water tank, supply channel and control box, the water tank is connected with the supply channel and through supplying water, all is equipped with in every incubation device and sprays the pipeline, sprays the pipeline and has the joint of connecting the supply channel, and is equipped with the solenoid valve of being connected with the control box on connecting.

In combination with the first aspect, the present invention discloses a first embodiment of the first aspect, the spraying pipeline includes a nozzle disposed in the hatching apparatus, and the nozzle faces the inner wall of the hatching apparatus.

In combination with the first embodiment of the first aspect, the present invention discloses a second embodiment of the first aspect, wherein the hatching apparatus is an open hatching bed arranged in the closed space, and heat is provided to the hatching bed by heating in the closed space.

In combination with the first embodiment of the first aspect, the present invention discloses a third embodiment of the first aspect, the hatching apparatus is a closed hatching cabinet arranged in an enclosed space, the hatching cabinet is provided with an air intake/exhaust system, and the air intake/exhaust system supplies heat to the enclosed space and exchanges heat with the enclosed space through the hatching bed.

In combination with the third embodiment of the first aspect, the present invention discloses the fourth embodiment of the first aspect, the hatching cabinet comprises a vertical cabinet body, and the air intake/exhaust system comprises an air intake control part arranged at the top of the cabinet body and an exhaust module arranged at the bottom of the cabinet body.

Combine the fourth embodiment of the first aspect, the utility model discloses a fifth embodiment of the first aspect, the spray line is still including setting up the water distributor on the internal wall of cabinet, be equipped with a plurality of shower nozzle on the water distributor, the spray line is still including passing the connecting pipe of the cabinet body and supply channel intercommunication, and the connecting pipe tip is for connecting, the other end and water distributor intercommunication.

With reference to the fifth implementation manner of the first aspect, the present invention discloses a sixth implementation manner of the first aspect, wherein the water distribution pipe is of an annular structure, and includes an external hard shell and an inner pipe disposed inside the hard shell, the nozzles are provided in a plurality of groups, and are equally divided into a plurality of groups, and central angles such as nozzles in each group are disposed on the water distribution pipe;

the water supply pipeline comprises at least three independent water pipes, including a first medicament pipe and a second medicament pipe for supplying fumigation and a clean water pipe for supplying clean water;

each group of spray heads comprises at least three corresponding first medicament pipes, second medicament pipes and clean water pipes.

In combination with the sixth embodiment of the first aspect, the present invention discloses the seventh embodiment of the first aspect, wherein the water distribution pipe is disposed at the inner top of the cabinet and disposed around the air inlet disposed at the top.

With reference to the seventh implementation manner of the first aspect, the present invention discloses an eighth implementation manner of the first aspect, wherein the nozzle is rotatably connected to the hard shell of the water distribution pipe, and an end of the nozzle is communicated with the inner pipe of the water distribution pipe through a hose;

wherein the hose of the spray head has a length redundancy;

the rotary joint of the nozzle and the hard shell of the water distribution pipe is provided with a damper;

each group of spray heads are rotated to spray towards the inner wall of the cabinet body.

With reference to the eighth implementation manner of the first aspect, the present invention discloses a ninth implementation manner of the first aspect, wherein the bottom of the cabinet body has an exhaust port, and the exhaust module is disposed on an inner side end surface of the exhaust port;

the exhaust module comprises a hood buckled at the exhaust port and used for filling the gap, the hood is a through passage, a fan is arranged in the passage, and the fan pushes the air entering from an opening communicated with the inside of the cabinet body to the exhaust port to be exhausted;

the bottom of the cabinet body is also provided with a liquid accumulating groove for liquid sprayed from the spray head, the hood is provided with an air inlet facing the liquid accumulating groove, the air inlet is communicated with a channel in the hood, and an opening in the channel is positioned at the lower part of the fan;

an electric control louver board is arranged at the position, close to the exhaust port, of the hood, and the hood is communicated/sealed with the outside of the cabinet body through rotation of the louver board.

The utility model has the advantages that:

(1) The utility model can directly send prepared disinfection solution and cleaning solution to each hatching device through the automatic water supply devices such as the water supply pipeline and the water tank, control the water supply condition of each hatching device through the electromagnetic valve arranged on the hatching device, and simultaneously eliminate and kill the inside through the spray head in each hatching device, thereby replacing the manual management mode and periodically and automatically disinfecting the hatching device;

(2) The utility model can clean the inner wall of the hatching equipment through the spray head arranged towards the inner wall, and meanwhile, the disinfection liquid slides down along the inner wall to cover, so that the disinfection effect can be further improved compared with a disinfection mode of directly atomizing and dispersing in the inner space;

(3) The utility model can take care of a plurality of inner walls to spray simultaneously through the annular water distribution pipe structure, and can adjust to the best spraying coverage effect according to the requirement, water pressure and space through the nozzle structure design with adjustable angle;

(4) The utility model can provide the circulating spraying effect of different medicaments for each cabinet body through a plurality of independent water supply pipes which are independently arranged, and particularly can generate fumigating disinfection gas through the mutual reaction of two medicaments in the disinfection process needing fumigating, and meanwhile, the disinfection gas can be uniformly generated on the whole inner wall of the cabinet due to the way of spraying the medicaments towards the inner wall, thereby further improving the disinfection effectiveness;

(5) The utility model discloses a combine air intake/exhaust system, can carry out inside and outside heat exchange in normal use, keep the internal portion constancy of temperature of cabinet, utilize the exhaust module of lower part simultaneously, upwards blow through a large amount of fumigant gases that the fan produced in with bottom liquid trap when sealing the gas vent to form certain circulation wind channel in the rack, further improve disinfection efficiency.

Drawings

FIG. 1 is a schematic connection diagram of the whole hatching system in the embodiment of the present invention;

fig. 2 is a schematic front view of a single hatching cabinet in an embodiment of the present invention;

FIG. 3 is a schematic bottom structure diagram of a single hatching cabinet in an embodiment of the present invention;

fig. 4 is a schematic view of a first axis of a single hatching cabinet in an embodiment of the present invention;

fig. 5 is a partially enlarged schematic view of a in fig. 4 according to the present invention;

fig. 6 is a second axis schematic view of a single hatching cabinet in an embodiment of the present invention;

fig. 7 is an enlarged partial view of B in fig. 6 according to the present invention;

fig. 8 is a third schematic view of a single hatching cabinet in an embodiment of the present invention;

fig. 9 is a partially enlarged schematic view of C in fig. 8 according to the present invention.

In the figure: 1-an air inlet control part, 2-a cabinet body, 3-a cabinet door, 4-an exhaust module, 4.1-a fan, 4.2-a hood, 4.3-an air inlet gap, 4.4-an air inlet, 5-an air outlet, 6-a louver board, 7-a liquid accumulation groove, 8-a water distribution pipe, 9-a spray head and 10-an air inlet.

Detailed Description

The present invention will be further explained with reference to the drawings and the embodiments.

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, as generally described and illustrated in the figures herein, could be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined or explained in subsequent figures.

In the description of the present application, it should be noted that if the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate an orientation or positional relationship based on that shown in the drawings or that the product of the application is used as it is, this is only for convenience of description and simplicity of description, and does not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present application. Furthermore, the appearances of the terms "first," "second," and the like in the description herein are only used for distinguishing between similar elements and are not intended to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical" and the like when used in the description of the present application do not require that the components be absolutely horizontal or overhanging, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present application, it should also be noted that unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" should be construed broadly and may include, for example, a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Example 1:

the embodiment discloses an automatic disinfection hatching system, which is provided with a plurality of independent hatching devices, and disinfection liquid is supplied to the plurality of hatching devices through modules in the system to be sprayed and disinfected in the hatching devices.

It should be noted that the hatching apparatus in the present embodiment is used for hatching oviparous poultry, mainly chickens and ducks. All be equipped with a plurality of household utensils in every hatching apparatus for place a plurality of egg, guaranteeing environmental conditions such as inside heating heat preservation and humidity, make embryonic development to form young the hatching through certain period's hatching, then shift out hatching apparatus with young, wash and disinfect hatching apparatus again.

Whole hatching system still includes the water tank, water supply pipeline and control box, the water tank is connected and is passed through water supply with the water supply pipeline, all be equipped with in every hatching equipment and spray the pipeline, it has the joint of connecting the water supply pipeline to spray the pipeline, and be equipped with the solenoid valve of being connected with the control box on connecting, and simultaneously, in order to guarantee the pressure that sprays, to the hatching equipment that corresponds quantity, adopt the mode of concentrated water pump pressurize, cause the pressure of intaking in every hatching equipment to all obtain certain assurance. If the number of the hatching equipment is large, water is supplied through the same water supply pipeline, an independently controlled flow pump is further arranged at the joint of each hatching equipment, and each flow pump and an electromagnetic valve are controlled through a cabinet to supply water to the spraying pipeline in each hatching equipment.

Further, the spraying line comprises a spraying head 9 arranged in the hatching apparatus, said spraying head 9 facing the direction of the inner wall of the hatching apparatus.

In one embodiment, the incubation device is an open incubation bed arranged within the enclosed space, the incubation bed being supplied with heat by the enclosed space heating. The hatching bed is a horizontal device with a larger opening, is generally arranged into a single-layer or double-layer structure, can be used for placing a larger number of hatching eggs through a larger unfolding area, and controls the indoor environment temperature, so that the requirements of the hatching temperature and humidity are met.

In another embodiment, as shown in fig. 1, the hatching apparatus is a closed hatching cabinet disposed in the enclosed space, and the hatching cabinet is provided with an air intake/exhaust system for supplying heat to the enclosed space and exchanging heat with the enclosed space through the air intake/exhaust system of the hatching bed.

The hatching cabinet comprises a vertical cabinet body 2, and an air inlet/exhaust system comprises an air inlet control part 1 arranged at the top of the cabinet body 2 and an exhaust module 4 arranged at the bottom in the cabinet body 2. The specific gas flow pattern is not shown, and no separate pipe is needed because the heat exchange is performed with the whole enclosed space. However, in other embodiments, the area of the enclosed space is large, and the ambient temperature cannot be guaranteed, and the enclosed space is communicated with each cabinet 2 through an independent gas flow pipeline, so that the temperature of each cabinet 2 is adjusted by using the gaseous working medium through a uniform temperature adjusting system. Temperature regulation system wherein mainly plays the effect of heating, and its ambient temperature generally sets up to be less than the internal temperature of the cabinet body 2, only needs adjust air inlet/exhaust system to accelerate the efficiency of taking a breath when needing to reduce the internal temperature of the cabinet body 2 to direct introduction ambient gas cools down.

Further, the spraying pipeline further comprises a water distribution pipe 8 arranged on the inner wall of the cabinet body 2, a plurality of spray heads 9 are arranged on the water distribution pipe 8, the spraying pipeline further comprises a connecting pipe which penetrates through the cabinet body 2 and is communicated with the water supply pipeline, the end part of the connecting pipe is a joint, and the other end of the connecting pipe is communicated with the water distribution pipe 8.

As can be seen in fig. 7, the water distribution pipe 8 is an annular structure and comprises an outer hard shell and an inner pipe arranged in the hard shell, the nozzles 9 are provided with a plurality of groups which are equally divided, and the equal central angles of each group of nozzles 9 are arranged on the water distribution pipe 8; the water supply pipeline comprises at least three independent water pipes, including a first medicament pipe and a second medicament pipe for supplying fumigation and a clean water pipe for supplying clean water; each group of spray heads 9 comprises at least three spray heads corresponding to the first medicament pipe, the second medicament pipe and the clean water pipe. The water distribution pipe 8 is arranged at the inner top of the cabinet body 2 and is arranged around an air inlet 10 arranged at the top.

The nozzle 9 is rotationally connected with the hard shell of the water distribution pipe 8, and the end part of the nozzle 9 is communicated with the inner pipe of the water distribution pipe 8 through a hose; wherein the hose of the spray head 9 has a length redundancy; the rotary joint of the nozzle 9 and the hard shell of the water distribution pipe 8 is provided with a damper; each group of spray heads 9 is rotated to spray towards the inner wall of the cabinet body 2.

The bottom of the cabinet body 2 is provided with an air outlet 5, and the exhaust module 4 is arranged on the end surface of the inner side of the air outlet 5; the exhaust module 4 comprises a hood 4.2 which is buckled at the exhaust port 5 and fills gaps, the hood 4.2 is a through type channel, a fan 4.1 is arranged in the channel, and air entering from an opening communicated with the interior of the cabinet body 2 at the upper part is pushed to the exhaust port 5 through the fan 4.1 and is exhausted; a liquid accumulating tank 7 for liquid sprayed from a spray head 9 is further arranged at the bottom of the cabinet body 2, an air inlet 4.4 facing the liquid accumulating tank 7 is formed in the hood 4.2, the air inlet 4.4 is communicated with a channel in the hood 4.2, and an opening in the channel is positioned at the lower part of the fan 4.1; an electrically controlled louver 6 is further arranged at the position, close to the exhaust port 5, of the hood 4.2, and the hood 4.2 is communicated/sealed with the outside of the cabinet 2 through rotation of the louver 6.

In operation, the disinfectant adopted in this embodiment is 0.5% potassium permanganate solution and 40% formalin, and the potassium permanganate solution is supplied through the first reagent tube, and is sprayed onto the three inner walls of the cabinet body 2 and the inner side surface of the cabinet door 3 through the spray head 9. Because four groups of nozzles 9 are arranged on the annular water distribution pipe 8 at equal central angles in the embodiment, three nozzles 9 are arranged at intervals of a central angle of 10 degrees. The potassium permanganate medicament that sprays out with the shower nozzle 9 of the unilateral of first medicament pipe intercommunication can cover gradually on the inner wall that corresponds one side, along with the liquid volume increases, can form liquid drop and downward landing on the inner wall to from last to down will correspond one side inner wall most or whole and cover, carry out the cleaning and disinfection of an inner wall through potassium permanganate solution earlier.

The potassium permanganate solution will not only partially adhere to the inner wall surface, but also a large amount of potassium permanganate solution will accumulate in the lower annular liquid accumulation groove 7.

Then, after the spraying is completed, the second agent pipe is opened, and formalin solution is sprayed through the spray head 9 on the other side. At the moment, the formalin solution gradually slides downwards along with the inner wall, and can react with the potassium permanganate solution attached to the surface of the inner wall to generate a certain amount of formaldehyde in the sliding process. With the continuous increase of the amount, the gradually sliding formalin solution also slides downwards into the liquid accumulation tank 7, and finally a large amount of formaldehyde gas is generated in the liquid accumulation tank 7.

At this time, the louver 6 is closed by the external cabinet control, and the exhaust port 5 is closed. Then the fan 4.1 is rotated in a reversing way, the air is blown above the air cabinet 2 at the lower part, a negative pressure area is formed below the fan 4.1 because the exhaust port 5 is closed, a large amount of formaldehyde gas formed at the bottom enters the lower part of the fan 4.1 along with the air inlet 4.4 at the moment, and then is blown to the upper part of the cabinet 2 and finally is dispersed in the whole cabinet 2, so that a better disinfection and sterilization effect is achieved.

And finally, after the agent for single disinfection and sterilization is sprayed, standing for a certain time, and then opening a clean water pipe to provide a large amount of clean water for cleaning. Meanwhile, a drain pipe is arranged at a low-lying position in the liquid accumulation groove 7, a large amount of clean water is discharged through the drain pipe provided with a drain pump, the louver boards 6 are opened after cleaning is finished, hot air is injected through the air inlet/exhaust system to evaporate and discharge internal water vapor, and one-time cleaning and disinfection operation is finished.

In another embodiment, the lower exhaust module 4 is of a liftable structure. Namely, the hood 4.2 is provided with a hydraulic price raising rod, and the bottom of the cabinet body 2 has a certain thickness, so that the hood 4.2 can be raised and lowered at the exhaust port 5 at the bottom of the cabinet body 2.

The inner wall of the exhaust port 5 is provided with a sealing rubber ring, and when the hood 4.2 is lifted, a gap between the hood 4.2 and the inner wall of the exhaust port 5 is always plugged by the sealing rubber ring.

The hood 4.2, as shown, comprises two parts, the upper part being an enlarged section and the lower part being a narrow section which is in sliding fit with the inner wall of the exhaust port 5. The upper expanded section can be attached to the end face inside the exhaust port 5 when fully lowered, and can form a certain annular gap, namely an air inlet gap 4.3, with the exhaust port 5 when fully raised. And the air inlet gap 4.3 that forms makes a plurality of air inlets 4.4 that set up on the narrow and small section then expose to play the effect of water conservancy diversion formaldehyde to fan 4.1 lower part.

Furthermore, the system also controls the temperature through a gas temperature control module, a gas recovery module and a gas circulation submodule arranged on the hatching cabinet which are connected through pipelines, wherein the gas circulation submodule receives the gaseous working medium sent by the gas temperature control module and sends the gaseous working medium subjected to heat exchange with the inside of the hatching cabinet into the gas recovery module, and the gas recovery module injects the gaseous working medium into the gas temperature control module again for temperature adjustment.

It should be noted that the gaseous working medium in this embodiment is air after certain purification treatment, and the gas temperature control module is mainly used for adjusting the temperature of the inflowing air, so that the temperature of the air entering the hatching cabinet meets the set requirement.

The independent hatching cabinet equipment is adopted in the embodiment, but a plurality of hatching cabinets in each closed space are used for hatching the same organism, the set air inlet temperature is the same as the set environmental temperature, and the air can be supplied by adopting a unified air temperature control module. And as gaseous working media are adopted for heat exchange, an active structure for increasing the air pressure, generally a fan 4.1, is arranged in each module. The gaseous working medium after the temperature adjustment in the gas temperature control module is accelerated by the first-stage fan 4.1, enters the corresponding area through a pipeline or directly enters the gas circulation submodule, then the gaseous working medium after heat exchange is sent into the gas recovery module for treatment by the active exhaust equipment in the gas circulation submodule, and finally the gaseous working medium after treatment is sent into the gas temperature control module again for the next circulation by the fan 4.1 in the gas recovery module.

In order to realize the temperature regulation function of the gas temperature control module, the gas temperature control module in this embodiment is an air conditioning device with a compressor, an air outlet of the gas temperature control module is communicated with the gas circulation submodule through a pipeline, and an air inlet 10 is communicated with the gas recovery module through a pipeline. The air conditioning equipment with the compressor is a system with the compressor, a condenser, a capillary tube, an evaporator and pipe fittings, and can achieve the purpose of heating or cooling the entering gaseous working medium by using a refrigerant.

The gas temperature control module is provided with a large cavity, and gas can contact with a heat exchange structure of air conditioning equipment in the cavity after entering the cavity, so that the temperature of the gas can be changed, and then the gas is discharged from an air outlet of the gas temperature control module.

The whole system is provided with a control module for controlling the operation power of all equipment, such as a gas temperature control module, a fan 4.1 and the like, and temperature sensors are arranged at all nodes and adjusted according to the temperature. Whole system is when the assembly, the user can be according to factors such as space size and pipeline length, each node of actual test can reach the settlement demand under what kind of operating power, then set for the threshold value to the temperature of every node, then set for corresponding program, make control module can come the operating power of dynamic adjustment each equipment according to various threshold values of preset, thereby under the prerequisite that the temperature of the gaseous state working medium that guarantees to get into in the hatching cabinet meets the requirements, can also avoid single equipment to operate with higher power through the operating power of adjusting a plurality of equipment, reduce the energy consumption.

The present invention is not limited to the above-mentioned alternative embodiments, and various other products can be obtained by anyone under the teaching of the present invention. The above detailed description should not be taken as limiting the scope of the invention, which is defined by the appended claims, which are to be interpreted as illustrative of the scope of the invention.

Claims (10)

1. An automatic sterile hatching system has a plurality of independent hatching equipment, and supplies disinfectant to a plurality of hatching equipment to spray and disinfect in the hatching equipment, and is characterized in that: including water tank, supply channel and control box, the water tank is connected and all is equipped with the spray line through supplying water with the supply channel in every incubation device, and the spray line has the joint of connecting the supply channel to be equipped with the solenoid valve of being connected with the control box on connecting.

2. An automated disinfecting hatching system as claimed in claim 1, wherein: the spraying pipeline comprises a spray head (9) arranged in the hatching equipment, and the spray head (9) faces the direction of the inner wall of the hatching equipment.

3. A self-disinfecting incubation system as claimed in claim 2, wherein: the hatching equipment is an open hatching bed arranged in the closed space, and the closed space supplies heat to the hatching bed through heating.

4. A self-disinfecting incubation system as claimed in claim 2, wherein: the hatching equipment is a closed hatching cabinet arranged in the closed space, and an air inlet/exhaust system is arranged on the hatching cabinet, supplies heat to the closed space and exchanges heat with the closed space through the air inlet/exhaust system of the hatching bed.

5. An automated sterile incubation system as claimed in claim 4, wherein: the hatching cabinet comprises a vertical cabinet body (2), and the air inlet/exhaust system comprises an air inlet control part (1) arranged at the top of the cabinet body (2) and an exhaust module (4) arranged at the bottom in the cabinet body (2).

6. An automated sterile incubation system as claimed in claim 5, wherein: the spraying pipeline further comprises a water distribution pipe (8) arranged on the inner wall of the cabinet body (2), a plurality of spray heads (9) are arranged on the water distribution pipe (8), the spraying pipeline further comprises a connecting pipe which penetrates through the cabinet body (2) and is communicated with the water supply pipeline, the end part of the connecting pipe is a joint, and the other end of the connecting pipe is communicated with the water distribution pipe (8).

7. An automated sterile incubation system as claimed in claim 6, wherein: the water distribution pipe (8) is of an annular structure and comprises an external hard shell and an inner pipe arranged in the hard shell, the nozzles (9) are provided with a plurality of groups which are equally divided, and the equal central angles of each group of nozzles are arranged on the water distribution pipe (8);

the water supply pipeline comprises at least three independent water pipes, including a first medicament pipe and a second medicament pipe for supplying fumigation and a clean water pipe for supplying clean water;

each group of spray heads (9) comprises at least three corresponding first medicament pipes, second medicament pipes and clean water pipes.

8. An automated disinfecting hatching system according to claim 7 wherein: the water distribution pipe (8) is arranged at the inner top of the cabinet body (2) and is arranged around an air inlet (10) arranged at the top.

9. An automated disinfecting hatching system according to claim 7 wherein: the spray head (9) is rotationally connected with the hard shell of the water distribution pipe (8), and the end part of the spray head (9) is communicated with the inner pipe of the water distribution pipe (8) through a hose;

wherein the hose of the spray head (9) has a length redundancy;

the rotary joint of the spray head (9) and the hard shell of the water distribution pipe (8) is provided with a damper;

each group of spray heads (9) is rotated to spray towards the inner wall of the cabinet body (2).

10. A self-disinfecting incubation system as claimed in claim 9, wherein: the bottom of the cabinet body (2) is provided with an exhaust port (5), and the exhaust module (4) is arranged on the end surface of the inner side of the exhaust port (5);

the exhaust module (4) comprises a hood (4.2) buckled at the exhaust port (5) and used for filling gaps, the hood (4.2) is a through channel, a fan (4.1) is arranged in the channel, and air entering from an opening communicated with the interior of the cabinet body (2) at the upper part is pushed to the exhaust port (5) through the fan (4.1) to be exhausted;

a liquid accumulation groove (7) for liquid sprayed from a spray head (9) is further formed in the bottom of the cabinet body (2), an air inlet (4.4) facing the liquid accumulation groove (7) is formed in the hood (4.2), the air inlet (4.4) is communicated with a channel in the hood (4.2), and an opening in the channel is located at the lower portion of the fan (4.1);

an electric control louver board (6) is further arranged at the position, close to the exhaust port (5), of the hood (4.2), and the hood (4.2) is communicated with/closed from the outside of the cabinet body (2) through rotation of the louver board (6).

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