CN215957404U - Movable high-luminous-efficiency accelerated breeding cabin - Google Patents

Abstract

The application provides a portable high light efficiency is breeding cabin with higher speed. This portable high light efficiency seed breeding cabin with higher speed includes: the control room, the environmental control room, the laboratory and the buffer room are connected in sequence; wherein the control room and the buffer room are positioned at two sides of the breeding cabin; a partition door is arranged between the laboratory and the buffer room; a first access door is arranged in the buffer room; a second access door is arranged on one side, which is not connected with the environment control room and the buffer room, of the laboratory, and the second access door is used for conveying materials; the top of laboratory is provided with lighting device. This breeding cabin adopts standardized design, convenient transportation and placing, utilizes equipment in the laboratory can accurate control humiture, illumination and ventilation, and the ideal environment of simulation or coerce the environment can be tested and tested anytime and anywhere. In addition, the illumination device in the laboratory can be utilized to achieve the aim of accelerating breeding by optimizing the photoperiod and other environmental conditions.

Description

Movable high-luminous-efficiency accelerated breeding cabin

Technical Field

The application relates to a breeding equipment technology, in particular to a mobile high-light-efficiency accelerated breeding cabin.

Background

Accelerated breeding is a technology which achieves the aim of accelerating breeding by changing the photoperiod of plants in an environment-controlled artificial climate chamber to accelerate the life history. In the related technology, the plants are bred into a new variety through cross breeding, which often needs several years and is limited by factors such as geography, climate and time, and related tests and tests cannot be carried out at any time and any place. In addition, the traditional greenhouse has limited control effect on environmental factors in the breeding process, and the aim of accelerating breeding cannot be achieved.

SUMMERY OF THE UTILITY MODEL

In view of this, this application provides a portable high light efficiency accelerating breeding cabin.

The embodiment of the application provides a portable high light efficiency seed breeding cabin with higher speed, includes: the control room, the environmental control room, the laboratory and the buffer room are connected in sequence; wherein the control room and the buffer room are positioned at two sides of the breeding cabin;

a separation door is arranged between the laboratory and the buffer room;

a first access door is arranged in the buffer room;

a second access door is arranged on one side, which is not connected with the environmental control room and the buffer room, of the laboratory, and the second access door is used for conveying materials;

and the top of the laboratory is provided with an illumination device.

In some embodiments, the control room is provided with an electric cabinet, a relay and a PLC unit.

In some embodiments, the environmental chamber, comprises: the device comprises a circulating fan, a heater, a humidifier, a surface cooler, a temperature sensor, a humidity sensor and an illumination sensor;

the circulating fan is connected with the heater, the humidifier and the surface cooler; the temperature sensor, the humidity sensor and the illumination sensor are arranged on one side, close to the laboratory, of the environmental control room.

In some embodiments, the laboratory further comprises: a seedbed;

the seedbed set up in the bottom of laboratory, the seedbed with the illumination device sets up relatively.

In some embodiments, the laboratory further comprises: an automated testing device;

the automatic testing device is arranged between the illumination device and the seedbed.

In some embodiments, the automated testing apparatus comprises: an automated mobile platform and a watch type device;

the automatic moving platform is provided with a guide rail;

the watch type device is slidably connected to the guide rail.

In some embodiments, further comprising: an air outlet;

the air outlet set up in the seedbed is close to one side of laboratory bottom, the air outlet pass through the wind channel with circulating fan connects.

In some embodiments, the laboratory further comprises: a sterilizing device;

the sterilizing device is arranged on one side, close to the buffering room, of the laboratory and is used for sterilizing the laboratory.

In some embodiments, the control room further comprises: a compressor;

the compressor is connected with the surface cooler.

In some embodiments, the buffer room includes: an operating device;

the operating device is used for controlling the automatic testing device.

The mobile high-luminous-efficiency accelerated breeding cabin provided by the embodiment of the application comprises a control room, an environmental control room, a laboratory and a buffer room which are sequentially connected; wherein the control room and the buffer room are positioned at two sides of the breeding cabin; a separation door is arranged between the laboratory and the buffer room; a first access door is arranged in the buffer room; a second access door is arranged on one side, which is not connected with the environmental control room and the buffer room, of the laboratory, and the second access door is used for conveying materials; and the top of the laboratory is provided with an illumination device. This breeding cabin adopts standardized design, convenient transportation and placing, utilizes equipment in the laboratory can accurate control humiture, illumination and ventilation, and the ideal environment of simulation or coerce the environment can be tested and tested anytime and anywhere. In addition, the illumination device in the laboratory can be utilized to achieve the aim of accelerating breeding by optimizing the photoperiod and other environmental conditions.

Drawings

In order to more clearly illustrate the technical solutions in the present application or the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only the present application, and that other drawings can be obtained by those skilled in the art without inventive efforts.

Fig. 1 shows a schematic structural diagram of a mobile high-light-efficiency accelerated breeding cabin provided in an embodiment of the present application.

Fig. 2 shows a side view of a laboratory according to an embodiment of the present application.

Description of reference numerals:

1-control room, 2-environmental control room, 3-laboratory, 4-buffer room, 5-partition door, 6-first access door, 7-second access door, 101-electric cabinet, 102-compressor, 201-circulating fan, 301-illumination device, 302-seedbed, 303-automatic testing device, 304-air outlet, 305-disinfection device, 401-operation device, 3031-automatic mobile platform, 3032-phenotype device, 30311-guide rail and 3041-air duct.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to the accompanying drawings in combination with specific embodiments.

It is to be noted that technical or scientific terms used herein should have the ordinary meaning as understood by those of ordinary skill in the art to which this application belongs, unless otherwise defined. As used in this application, the terms "first," "second," and the like do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect.

As described in the background section, accelerated breeding is a technique for accelerating the life cycle of a plant by changing the photoperiod in a climatic chamber controlled in the environment, thereby achieving the purpose of accelerating breeding. In the related technology, the plants are bred into a new variety through cross breeding, which often needs several years and is limited by factors such as geography, climate and time, and related tests and tests cannot be carried out at any time and any place. In addition, the traditional greenhouse has limited control effect on environmental factors in the breeding process, and the aim of accelerating breeding cannot be achieved.

Fig. 1 shows a schematic structural diagram of a mobile high-light-efficiency accelerated breeding cabin provided in an embodiment of the present application.

As shown in fig. 1, the mobile high light efficiency accelerated breeding cabin comprises a control room 1, an environmental control room 2, a laboratory 3 and a buffer room 4 which are connected in sequence; wherein, the control room 1 and the buffer room 4 are positioned at two sides of the mobile high-light-efficiency accelerated breeding cabin. The appearance of the portable high light efficiency accelerated breeding cabin that this application provided can be the cuboid, can set gradually 4 between control room 1, ring control room 2, laboratory 3 and buffering along length direction. Be provided with compartment 5 between buffer 4 and laboratory 3, the laboratory staff can pass between laboratory 3 and buffer 4 through compartment 5, is convenient for carry out further test and experiment to the vegetation of being surveyed in laboratory 3.

Be provided with first business turn over door 6 in buffering room 4, first business turn over door 6 can supply the experimenter to use as daily business turn over door. After the laboratory staff gets into the breeding cabin, air and impurity that are different from the interior environment of laboratory 3 can be brought into for the cabin body is inside, consequently set up buffer room 4 and can make the laboratory staff get into behind the cabin body direct contact laboratory 3, but after buffering to the outside air in buffer room 4, carry out follow-up test in reentrant laboratory 3 to guarantee that the breeding environment in laboratory 3 is not destroyed, protect surveyed plant and the plant of being bred.

A second access door 7 is provided at a side of the laboratory 3 not connected to the environmental control room 2 and the buffering room 4, and referring to fig. 1, the second access door 7 may be provided at a side of the laboratory 3. The second access door 7 can be used for transporting material into the laboratory 3 or transporting the bred plants out of the laboratory 3 through the second access door 7.

As the light cycle of the plant is changed in the environment-controllable artificial climate chamber to accelerate the life history so as to achieve the purpose of accelerating breeding, the illumination device 301 is arranged at the top of the laboratory 3, high illumination can be provided for the plant in the laboratory 3, the high-illumination LED lamp is selected, the light intensity at the position 60cm below the lamp can reach 800 plus 1000 mu mol/m s, the required illumination condition can be efficiently provided for the plant in the laboratory 3 in an energy-saving manner, and the purpose of accelerating breeding is achieved by optimizing the light cycle and other environmental conditions.

In some embodiments, the electric cabinet 101, the relay and the PLC unit are disposed in the control room 1, and referring to fig. 1, the electric cabinet 101, the relay and the PLC unit may be integrally disposed in the electric cabinet 101, thereby saving an internal space of the control room 1.

For the control of the equipment in the breeding chamber, an operating device 401 may be placed in the buffer room 4 for regulating the equipment and devices in the breeding chamber.

In order to enable the mobile high-light-efficiency accelerated breeding cabin provided by the application to be applicable to various researches requiring precise control/simulation environment, such as the fields of plant cultivation, cultivation condition optimization, stress simulation, accelerated breeding, high-low temperature environment simulation, controlled ecological conservation and high-throughput scale type measuring lamps. In the environmental control room 2, be provided with circulating fan 201, heater, humidifier, surface cooler, temperature sensor, humidity transducer and illumination sensor, wherein circulating fan 201 is connected with heater, humidifier and surface cooler, in this application, can integrate heater, humidifier and surface cooler at circulating fan 201 air outlet department for the wind that circulating fan 201 blew off, simultaneously through the effect of heater, humidifier and/or surface cooler, thereby satisfy the demand of being surveyed the plant to environmental condition in the laboratory 3.

Since environmental factors in the laboratory 3 have a great influence on the cultivated plants, it is necessary to provide corresponding sensors for the environmental factors in the laboratory 3. In some embodiments, a temperature sensor, a humidity sensor, and a light sensor may be provided, and various sensors may be all provided on a side of the environmental control room 2 near the laboratory 3, as shown in fig. 1, and various sensors may be provided in an area a communicating with the laboratory 3. The sensor located in the area a can determine whether the temperature, humidity, and illumination intensity of the air in the laboratory 3 need to be adjusted currently by detecting the air received in the laboratory 3.

For some plants having a special requirement for the concentration of carbon dioxide in the air, a carbon dioxide detecting device may be disposed in the area a for monitoring the concentration of carbon dioxide in the laboratory 3, and the concentration of carbon dioxide in the air in the laboratory 3 is changed by filling or extracting the air in the laboratory 3 with the circulating fan 201.

Specifically, circulating fan 201 can be under controlling means 401's control, according to control command, when the sensor of regional A's tripe department detects the air that needs in to laboratory 3 to adjust in laboratory 3, can carry out the new trend exchange in laboratory 3, on the one hand indoor dirty air discharge is outdoor, on the other hand can filter outdoor fresh air through the filtration system in circulating fan 201 and then input to indoorly, adopt advanced heat exchange technology at the in-process of air exchange, thereby reach energy recuperation's function, reduce indoor energy loss and let all be fresh clean air in laboratory 3 in real time, be favorable to the growth of plant greatly, play the acceleration action to the cycle of the growth of plant.

In some embodiments, the surface air cooler may also be replaced with an air conditioner. The air conditioner may include an air conditioner internal unit and an air conditioner external unit, which are matched, the air conditioner internal unit may be placed in the environmental control room 2, the air conditioner external unit may be placed outside the cabin or in the control room 1, wherein the air conditioner internal unit may be communicated with the laboratory 3.

Fig. 2 shows a side view of a laboratory 3 of an embodiment of the present application.

A bed 302 may be provided for the cultivated plants in the laboratory 3, as shown in fig. 2, the bed 302 may be provided at the bottom of the laboratory 3, and the bed 302 may be provided opposite to the lighting device 301 in order that the plants cultivated in the bed 302 can sufficiently receive the lighting of the lighting device 301.

In order to better monitor the state of the cultivated plants, an automatic testing device 303 can be further arranged in the laboratory 3, and the indexes of morphological structure, photo-photosynthesis physiology, pigment content, NDVI and the like of the plants in the cabin can be measured in an unattended full-automatic and high-flux manner. In order to be able to test all the plants on the seedbed 302, a self-automated testing device 303 may be provided between the lighting device 301 and the seedbed 302, and the test area covers the planting area of the plants on the seedbed 302.

It is noted that the automated testing device 303 may include an automated moving platform 3031 and a watch type device 3032, and the automated moving platform 3031 further includes a guide rail 30311. The projection of the area surrounded by the guide rail 30311 on the seedbed 302 is slightly larger than the area of the seedbed 302, and the projection can cover the whole area of the seedbed 302, so that when the plants on the seedbed 302 are tested, the test range can cover all the plants, and the obtained data is more accurate and reliable. The automatic moving platform 3031 may adopt an XYZ three-axis automatic moving positioning system, and further mount a photosynthetic phenotype measurement system with an imaging area of 18cm × 18cm or 40cm × 40 cm.

The phenotype device 3032 is slidably connected to the guide rail 30311, and the phenotype device 3032 can perform phenotype measurement on the morphological structure, the photo-biological property, the pigment content, the NDVI and other indexes of the plants, and the phenotype device 3032 can perform phenotype measurement on all the plants on the seedbed 302 by sliding along the guide rail 30311 under the control of the control device 401.

In order to provide an environment corresponding to the requirement for the plants cultivated on the seedbed 302, the circulating fan 201 can send the humidified, heated or cooled air to the air outlet 304 located at the bottom of the laboratory 3 through the air duct 3041 penetrating the bottom of the environmental control chamber 2 and the bottom of the laboratory 3, wherein the air outlet 304 is located right below the seedbed 302. When the air in the laboratory 3 needs to be adjusted, the air outlet 304 blows the fresh air exchanged by the circulating fan 201 and processed by the humidifier, the heater or the surface air cooler into the laboratory 3, so that the cultivation requirement or the test requirement of the plant is met.

For the environment in the laboratory 3, it is necessary to ensure that it avoids the loss of plants in the seedbed 302 due to bacterial growth, and for this reason, a disinfection device 305 may also be provided in the laboratory 3. The sterilization device 305 is disposed at a side of the laboratory 3 close to the buffer room 4, and is used for sterilizing the laboratory 3. Wherein, the sterilizing device 305 can be an ultraviolet lamp, and after the seedbed 302 is placed in the protecting device, the sterilizing device 305 is used for sterilizing the laboratory 3.

For the surface cooler, a compressor connected with the surface cooler is also arranged in the control chamber 1 and is used for supporting the temperature control function of the surface cooler.

It should be noted that, the portable high light efficiency seed breeding cabin of speeding that this application provided, cabin body size can set up to length 9000mm, and wide 3000mm, high 2800mm, and the laboratory space in the laboratory 3 can set up to length 6000mm, wide 2800mm, high 2600mm, adopts heat insulation wall. The space in the buffer compartment 4 may be set 900mm long, 2800mm wide and 2600mm high.

The temperature control range of a heater and a surface cooler adopted by the mobile high-luminous-efficiency accelerated breeding cabin can reach 15-40 ℃, and the precision is +/-1 ℃; the humidity control range of the humidifier can reach 50% -85% RH, and the precision is +/-5% RH. The fresh air ventilation of the circulating fan 201 is set at 10 times/hour, the whole power distribution requirement is 380V voltage, 50Hz frequency and 45kW installed power.

The seedbed 302 can also be provided with a water channel for supplying water with a water supply pipe DN15, and the pressure of the water supply is 1.5 kg.

The movement stroke of the automatic mobile platform 3031 is 2.5m on the X axis and 6m on the Y axis, the movement speed is set to be 30-200mm/s, a 86 stepping motor is used as a driving motor, the length of the motor is 115mm, the rated current is 4.2A, and the static torque is 8.5 Nm. Wherein, the automatic system adopts 32-bit SOC treater, supports up to 8 axle CANopen motion network/6 axle 200kHz pulse wave control.

For the phenotype device 3032, the camera resolution reaches 130 ten thousand pixels, the image acquisition speed is 20 frames/second, the image acquisition time is shortened, for a single chlorophyll fluorescence image of 20-1000us, the acquired image format is converted into a 16-bit RAW format, the spectral range is 350-1000 nm, the lens type is a high-quality 10Mp lens, the spectral range of the lens is 400-1000 nm, the excitation light intensity is 25cm, and the lens is 1500-6000 umolm^-2s^-1At 60cm, 800-3500 umolm^-2s^-1The strength is adjustable.

The photochemical strength is 100-600 umolm at 60cm^-2s^-1And the strength is adjustable. Optical filters (for multi-spectral versions) use 6 high quality optical interference filters, including fluorescent, red, green, blue, anthocyanins, and near infrared filters.

In a specific embodiment, seedling germination is most suitable for rice at 28-32 ℃; the daily tillering period is more than 20 ℃; the ear differentiation is carried out at the proper temperature of about 30 ℃; the heading temperature is 25-35 ℃; the optimal temperature for blooming is about 30 ℃; below 20 ℃ or above 40 ℃, fertilization is severely affected. Preferably, the relative humidity is 50 to 90%. Rice likes light, and needs sufficient sunlight in the tillering stage to improve the photosynthetic strength of leaves, produce organic matters and promote the increase of tillering number. The key stage of fructification is the stage when the panicle is differentiated to the full filling stage; the group with balanced nutrition and high lighting effect has great significance for improving the seed setting rate and the grain weight.

The set temperature can be 30 ℃, when the temperature sensor in the breeding cabin detects that the current temperature is lower than the set value, the program starts the PTC heater to start the heating mode, so that the cabin temperature reaches the set value; when the temperature sensor in the breeding cabin detects that the current temperature is higher than a set value, the program starts the refrigerating unit to start a cooling mode, so that the temperature of the cabin reaches the set value.

The set humidity can be 80% RH, when the humidity sensor in the breeding cabin detects that the current humidity is lower than the set value, the program starts the humidifier to start the humidification mode, so that the humidity in the cabin reaches the set value; when the humidity sensor in the breeding cabin detects that the current humidity is higher than the set value, the program starts the dehumidification equipment to start the dehumidification mode, so that the humidity in the cabin reaches the set value.

The set illumination intensity can be 200 [ mu ] mol · m-2 · s-1, when the illumination sensor in the breeding cabin detects that the current illumination is lower than or higher than the set value, the program starts the illumination device 301, namely the LED light supplement lamp, and the illumination in the cabin reaches the set value through the dimmer.

The mobile high-luminous-efficiency accelerated breeding cabin provided by the embodiment of the application comprises a control room, an environmental control room, a laboratory and a buffer room which are sequentially connected; wherein the control room and the buffer room are positioned at two sides of the breeding cabin; a separation door is arranged between the laboratory and the buffer room; a first access door is arranged in the buffer room; a second access door is arranged on one side, which is not connected with the environmental control room and the buffer room, of the laboratory, and the second access door is used for conveying materials; and the top of the laboratory is provided with an illumination device. This breeding cabin adopts standardized design, convenient transportation and placing, utilizes equipment in the laboratory can accurate control humiture, illumination and ventilation, and the ideal environment of simulation or coerce the environment can be tested and tested anytime and anywhere. In addition, the illumination device in the laboratory can be utilized to achieve the aim of accelerating breeding by optimizing the photoperiod and other environmental conditions.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the context of the present application, features from the above embodiments or from different embodiments may also be combined, steps may be implemented in any order, and there are many other variations of the different aspects of the present application as described above, which are not provided in detail for the sake of brevity.

The present application is intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims. Therefore, any omissions, modifications, substitutions, improvements, and the like that may be made without departing from the spirit and principles of the application are intended to be included within the scope of the application.

Claims (10)

1. A portable high light efficiency accelerated breeding cabin which is characterized by comprising:

the control room, the environmental control room, the laboratory and the buffer room are connected in sequence; wherein the control room and the buffer room are positioned at two sides of the breeding cabin;

a separation door is arranged between the laboratory and the buffer room;

a first access door is arranged in the buffer room;

a second access door is arranged on one side, which is not connected with the environmental control room and the buffer room, of the laboratory, and the second access door is used for conveying materials;

and the top of the laboratory is provided with an illumination device.

2. The mobile high light efficiency accelerated breeding cabin of claim 1, wherein the control room is provided with an electric control box, a relay and a PLC unit.

3. The mobile high light efficiency accelerated breeding cabin of claim 1, wherein the environmental control chamber comprises: the device comprises a circulating fan, a heater, a humidifier, a surface cooler, a temperature sensor, a humidity sensor and an illumination sensor;

the circulating fan is connected with the heater, the humidifier and the surface cooler; the temperature sensor, the humidity sensor and the illumination sensor are arranged on one side, close to the laboratory, of the environmental control room.

4. The mobile high light efficiency accelerated breeding cabin of claim 3, characterized in that the laboratory further comprises: a seedbed;

the seedbed set up in the bottom of laboratory, the seedbed with the illumination device sets up relatively.

5. The mobile high light efficiency accelerated breeding cabin of claim 4, characterized in that the laboratory further comprises: an automated testing device;

the automatic testing device is arranged between the illumination device and the seedbed.

6. The mobile high light efficiency accelerated breeding cabin of claim 5, wherein the automated testing device comprises: an automated mobile platform and a watch type device;

the automatic moving platform is provided with a guide rail;

the watch type device is slidably connected to the guide rail.

7. The mobile high light efficiency accelerated breeding cabin of claim 4, characterized in that the laboratory further comprises: an air outlet;

the air outlet set up in the seedbed is close to one side of laboratory bottom, the air outlet pass through the wind channel with circulating fan connects.

8. The mobile high light efficiency accelerated breeding cabin of claim 1, characterized in that the laboratory further comprises: a sterilizing device;

the sterilizing device is arranged on one side, close to the buffering room, of the laboratory and is used for sterilizing the laboratory.

9. The mobile high light efficiency accelerated breeding cabin of claim 3, characterized in that the control room further comprises: a compressor;

the compressor is connected with the surface cooler.

10. The mobile high light efficiency accelerated breeding cabin of claim 6, wherein the buffer room comprises: an operating device;

the operating device is used for controlling the automatic testing device.

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