CN114973894A

CN114973894A - Temperature simulation test box based on microclimate simulation

Info

Publication number: CN114973894A
Application number: CN202210452104.0A
Authority: CN
Inventors: 王勇; 姜亮
Original assignee: Cssc Jiujiang Dazheng Technology Co ltd
Current assignee: Cssc Jiujiang Dazheng Technology Co ltd
Priority date: 2022-04-27
Filing date: 2022-04-27
Publication date: 2022-08-30
Anticipated expiration: 2042-04-27
Also published as: CN114973894B

Abstract

The invention relates to the field of microclimate experiments, and discloses a temperature simulation test box based on microclimate simulation, which comprises: a test box main body; the rainwater simulation structure is arranged on one side of the test box main body; the sealing structure is fixedly connected with one side of the top end of the test box main body; the spraying structure is fixedly connected to the top end inside the test box main body; the wind power structure is arranged at the bottom end inside the test box main body and comprises a metal protective cover, and the metal protective cover is fixedly connected with the test box main body. The invention has the advantages that the device can simulate the climate phenomenon generated after different climate factors meet, compared with the traditional mode, the experimental mode is more real and has an image, and the climate phenomenon can be observed visually, wherein the weather simulation component comprises a spraying structure and a lighting heating tube which are matched with each other to form a complete rainwater falling process.

Description

Temperature simulation test box based on microclimate simulation

Technical Field

The invention relates to the field of microclimate experiments, in particular to a temperature simulation test box based on microclimate simulation.

Background

The climate simulation is a powerful experimental means for researching the climate change rule. The method has the advantages that the climate mode is more reasonable and objective, and can be used for researching the effects of various factors in climate change of different time scales, predicting the possible influence of human activities on climate and providing a certain basis for large-scale climate modification and control; the possible trend of climate change under a certain condition can be researched, and a basis is provided for climate forecast;

the traditional climate simulation mode is numerical simulation, a series of static, dynamic and thermodynamic equations are applied, a climate mathematical mode is established according to a basic physical law for controlling the climate and the change of the climate, numerical calculation is carried out under certain initial conditions and boundary conditions, and an image of the climate and the change of the climate are obtained.

Disclosure of Invention

The invention aims to provide a temperature simulation test box based on microclimate simulation, which solves the problems in the background technology.

The technical scheme of the invention is as follows: a microclimate simulation-based temperature simulation test chamber comprising:

the test box comprises a test box main body, a test box body and a control device, wherein the interior of the test box main body is in a sealed hollow shape;

the rainwater simulation structure is arranged on one side of the test box main body and comprises a temperature control water storage tank, the bottom end of the temperature control water storage tank is fixedly connected with the outer side of the test box main body, and the temperature inside the temperature control water storage tank can be controlled;

the sealing structure is fixedly connected to one side of the top end of the test box main body and comprises a built-in groove, and the built-in groove is fixedly connected with the test box main body;

the spraying structure is fixedly connected to the top end inside the test box main body and comprises a connecting bottom plate, and the top end of the connecting bottom plate is fixedly connected with the top end inside the test box main body;

the wind power structure is arranged at the bottom end inside the test box main body and comprises a metal protective cover, and the metal protective cover is fixedly connected with the test box main body.

Furthermore, one side on top of the temperature control water storage tank is connected with a connecting hose, and one end of the connecting hose far away from the temperature control water storage tank is provided with an installation plug which is in a tapered shape.

Furthermore, the two sides of the end, far away from the connecting hose, of the installing plug are connected with elastic pressing sheets, the elastic pressing sheets are in an appearance expanding towards the top ends, one side, close to the installing plug, of the top ends of the elastic pressing sheets is connected with an elastic element, and the elastic element has elasticity.

Furthermore, built-in sliding grooves are formed in two sides of the inner portion of the built-in groove and are obliquely arranged, telescopic rods are arranged in the built-in sliding grooves, and the built-in sliding grooves are connected with the telescopic rods in a sliding mode.

Furthermore, the top of telescopic link runs through there is elasticity wire, elasticity wire has elasticity, the top fixedly connected with rubber gasket of telescopic link, and rubber gasket are flaky appearance, and rubber gasket is equipped with the multiunit, and multiunit rubber gasket is annular distribution about the axle center of built-in recess.

Furthermore, connect the both sides fixed connection elasticity becket of bottom plate bottom, and elasticity becket has elasticity, the bottom of elasticity becket be connected with the connecting plate, and the top of connecting plate is connected with the fourth motor, and the output and the connecting plate fixed connection of fourth motor, the surface of connecting plate is equipped with the multiunit and sprays the mouth, and the multiunit sprays the mouth and is the annular distribution about the axle center of connecting plate.

Furthermore, one side of the top end of the connecting plate is connected with a connecting pipe, and one end, far away from the connecting plate, of the connecting pipe is fixedly connected with the built-in groove.

Furthermore, one side of the connecting plate is connected with an illumination heating tube.

Further, the inside of connecting plate is equipped with communicating pipe, and passes through the hose and the built-in recess is connected communicating pipe, one side of communicating pipe is equipped with first pipeline, my opposite side of communicating pipe is equipped with the second pipeline, the one end that communicating pipe was kept away from to the second pipeline is connected with coupling hose, the second pipeline passes through coupling hose and a set of mouth that sprays and connects, the one end that communicating pipe was kept away from to first pipeline is connected with dredging pipeline, first pipeline is connected through dredging pipeline and a set of mouth that sprays, the top of communicating pipe is equipped with the fifth motor, and the output of fifth motor is connected with the transmission lead screw, the one end that the fifth motor was kept away from to the transmission lead screw is connected with the partition panel, and is the screw drive relation between partition panel and the transmission lead screw.

Furthermore, the bottom of the interior of the metal protective cover is provided with a third motor, and the output end of the third motor is fixedly connected with a wind power simulation fan.

The invention provides a temperature simulation test box based on microclimate simulation through improvement, and compared with the prior art, the temperature simulation test box has the following improvements and advantages:

the device can simulate the climate phenomenon generated after different climate factors meet, and compared with the traditional mode, the experimental mode is more real and vivid and can observe the climate phenomenon visually; the weather simulation assembly comprises a spraying structure and an illumination heating pipe which are matched with each other to form a complete rainwater falling process; the spraying structure can not only spray rainwater, but also can control the temperature of the rainwater by matching with the lighting heating pipe, so that the form of the rainwater is changed, and rain, fog and snow can be simulated; the spraying openings distributed annularly on the spraying structure can achieve the effect of uniformly spraying rainwater, so that the rain and snow weather can be better simulated; when the spraying structure rotates, the trend of rain falling under the air flowing state can be simulated, and the illumination heating pipe at the bottom end can be driven to rotate when the spraying structure rotates, so that the effect of simulating the movement of the sun is achieved, and the influence of the change of a light source on the weather is observed; in addition, when the lighting heating tube rotates relative to the connecting plate, a water source is guided into the connecting plate through the built-in groove and enters the connecting tube through the pipeline, the second pipeline and the first pipeline which are arranged on two sides of the communicating tube are respectively connected with the spraying ports on two sides, the fifth motor is started to drive the transmission lead screw to rotate, the transmission lead screw drives the partition plate to move towards the bottom end through screw transmission, the communicating tube can be sealed, and the water quantity difference generated on two sides of the connecting plate can be conveniently controlled by opening and closing a channel in the middle of the communicating tube; the structure and the elastic metal ring are mutually matched to ensure that the height difference is generated on two sides of the control connecting plate, the lighting heating tube is fluctuated when being driven to rotate, so that the effect of simulating the movement track of the sun in one day is achieved, and the back plate is arranged at the back of the lighting heating tube to ensure that the lighting direction is always in the reverse direction of the connecting plate; meanwhile, the intensity of the daylight lamp is adjusted, so that the temperature difference of the sun within one day in the nature is simulated, the truth of the simulator is increased, the state of rainwater can be changed through the mutual matching of the lighting heating tube and the spraying structure, when the temperature in the lighting heating tube control chamber is high, hot air occupies the wind, the spraying structure can fall into the rain, and when the temperature in the lighting heating tube control chamber is low, and cold air occupies the wind, the spraying structure can fall into the snow and hail; the illumination heating pipe can change the temperature in the reaction bin, and simultaneously, the shape change of ice or water sprayed is controlled by matching with the change of the temperature in the reaction bin when the spraying structure is driven to work; finally, the direction and the strength of wind are controlled and adjusted through a wind power structure, the largest factor in the climate is the wind direction, the wind has more uncontrollable factors and more wind types, some dry wind can bring wind and sand to influence the air quality, some wet wind can form rainwater when meeting hot air, and the stronger hot air and cold wind can also determine the form of rainwater falling; the wind power structure plays a certain auxiliary role for the rainwater simulation structure, but the influence of the illumination structure is larger than that of the wind power structure aiming at the rainwater simulation structure;

drawings

The invention is further explained below with reference to the figures and examples:

FIG. 1 is a schematic perspective sectional view of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 according to the present invention;

FIG. 3 is an enlarged partial view of the junction of the installation plug and the internal recess of the present invention;

FIG. 4 is a perspective exploded view of the wind structure of the present invention;

FIG. 5 is a first cross-sectional view of a rain water simulation structure according to the present invention;

FIG. 6 is a second cross-sectional view of the rain water simulating structure according to the present invention;

fig. 7 is a partially enlarged view of the invention at B in fig. 6.

Description of reference numerals: 1. a test box main body; 2. an illumination heat-generating tube; 3. a wind power structure; 301. a metal shield; 302. a wind power simulation fan; 303. a third motor; 4. a rain water simulation structure; 401. a connecting hose; 402. installing a plug; 403. a temperature control water storage tank; 404. elastic tabletting; 405. an elastic element; 5. a sealing structure; 501. a rubber sealing sheet; 502. a resilient wire; 503. a telescopic rod; 504. a chute is arranged inside; 505. a groove is arranged inside; 6. a spray structure; 601. a connecting pipe; 602. a fourth motor; 603. Connecting the bottom plate; 604. a connecting plate; 605. a spray port; 606. an elastic metal ring; 607. a connecting hose; 608. dredging the pipeline; 609. a first conduit; 610. a second conduit; 611. a communicating pipe; 612. a partition panel; 613. a transmission screw rod; 614. and a fifth motor.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings 1 to fig. 1, and the technical solutions in the embodiments of the present invention will be clearly and completely described. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a temperature simulation test box based on microclimate simulation through improvement, as shown in figures 1-7, a temperature simulation test box based on microclimate simulation comprises:

the test box comprises a test box main body 1, wherein the interior of the test box main body 1 is in a sealed hollow shape;

the rainwater simulation structure 4 is arranged on one side of the test box main body 1, rainwater can be sprayed through the rainwater simulation structure 4, the form of a water source can be changed by controlling the temperature of the water source, and rain, fog and snow can be simulated, the rainwater simulation structure 4 comprises a temperature control water storage box 403, a certain water source is stored through the temperature control water storage box 403, so that the use of later experiments is facilitated, the bottom end of the temperature control water storage box 403 is fixedly connected with the outer side of the test box main body 1, the temperature inside the temperature control water storage box 403 can be controlled, temperature control induction is arranged in the temperature control water storage box 403, and the temperature of the stored rainwater can be adjusted according to experimental data;

one side of the top end of the temperature control water storage tank 403 is connected with a connecting hose 401, and one end of the connecting hose 401, which is far away from the temperature control water storage tank 403, is provided with an installing plug 402, and the installing plug 402 is in a tapered shape;

two sides of one end of the inserting head 402, which is far away from the connecting hose 401, are connected with elastic pressing sheets 404, the elastic pressing sheets 404 are in an appearance expanding towards the top end, one side of the top end of the elastic pressing sheets 404, which is close to the inserting head 402, is connected with an elastic element 405, the elastic element 405 has elasticity, and the elastic element 405 pushes the top of the elastic pressing sheets 404 to expand towards the two sides to achieve the effect of strengthening the fixing effect;

the sealing structure 5 is fixedly connected with one side of the top end of the test box main body 1, the sealing structure 5 is used for sealing the joint, the sealing structure 5 comprises a built-in groove 505, the built-in groove 505 is fixedly connected with the test box main body 1, and the elastic pressing sheet 404 is inserted into the built-in groove 505, so that a water source in the temperature control water storage tank 403 can be led into the experimental device;

the two sides of the inner part of the inner groove 505 are provided with inner sliding chutes 504, the inner sliding chutes 504 are placed in an inclined manner, the inner part of the inner sliding chutes 504 is provided with telescopic rods 503, and the inner sliding chutes 504 and the telescopic rods 503 are connected in a sliding manner;

the top end of the telescopic rod 503 is penetrated by an elastic metal wire 502, the elastic metal wire 502 has elasticity, the sealing structure 5 has the working principle that the telescopic rod 503 is pushed upwards by the elasticity of the elastic metal wire 502, the top end of the telescopic rod 503 is fixedly connected with a rubber sealing sheet 501 which can support a plurality of rubber sealing sheets 501, the rubber sealing sheets 501 are flaky, the rubber sealing sheets 501 are provided with a plurality of groups, and the plurality of groups of rubber sealing sheets 501 are annularly distributed around the axis of the built-in groove 505;

the spraying structure 6 is fixedly connected to the top end inside the test box main body 1, the weather simulation assembly comprises the spraying structure 6 and the lighting heating tube 2, and the spraying structure 6 and the lighting heating tube are matched with each other to form a complete rainwater falling process; the spraying structure 6 can achieve the effect of uniform spraying and can better simulate rain and snow weather, the spraying structure 6 can not only spray rainwater, but also can be matched with the lighting heating tube 2 to achieve the effect of controlling the temperature of the rainwater, and the form of the rainwater is changed, so that rain, fog and snow can be simulated, the spraying structure 6 comprises a connecting bottom plate 603, and the top end of the connecting bottom plate 603 is fixedly connected with the top end inside the test box main body 1;

two sides of the bottom end of the connecting bottom plate 603 are fixedly connected with elastic metal rings 606, the elastic metal rings 606 have elasticity, the bottom end of the elastic metal rings 606 is connected with a connecting plate 604, the top end of the connecting plate 604 is connected with a fourth motor 602, the output end of the fourth motor 602 is fixedly connected with the connecting plate 604, the working principle of the spraying structure 6 is that the fourth motor 602 is started to drive the connecting plate 604 to rotate, the state of rainwater falling can be simulated by rotating the connecting plate 604, because the movement track of the rainwater can be influenced by wind in the process of condensing and falling from the sky, a plurality of groups of spraying ports 605 are arranged on the surface of the connecting plate 604, the plurality of groups of spraying ports 605 are distributed in a ring shape relative to the axis of the connecting plate 604, so that the water source is sprayed out from the spraying port 605, one side of the top end of the connecting plate 604 is connected with the connecting pipe 601, one end of the connecting pipe 601 far away from the connecting plate 604 is fixedly connected with the built-in groove 505;

one side of the connecting plate 604 is connected with an illumination heating tube 2; a communicating pipe 611 is arranged inside the connecting plate 604, the communicating pipe 611 is connected with the built-in groove 505 through a hose, a water source is guided into the connecting plate 604 through the built-in groove 505 and enters the communicating pipe 611 through a pipeline, a first pipeline 609 is arranged on one side of the communicating pipe 611, a second pipeline 610 is arranged on the other side of the communicating pipe 611, one end, far away from the communicating pipe 611, of the second pipeline 610 is connected with a connecting hose 607, the second pipeline 610 is connected with a group of spray ports 605 through the connecting hose 607, one end, far away from the communicating pipe 611, of the first pipeline 609 is connected with a dredging pipeline 608, the second pipeline 610 and the first pipeline 609 arranged on two sides of the dredging communicating pipe 611 are respectively connected with the spray ports 605 on two sides, the first pipeline 609 is connected with the group of spray ports 605 through the dredging pipeline 608, and a fifth motor 614 is arranged at the top end of the communicating pipe 611, the output end of the fifth motor 614 is connected with a transmission screw rod 613, the transmission screw rod 613 is driven to rotate by starting the fifth motor 614, one end of the transmission screw rod 613, which is far away from the fifth motor 614, is connected with a partition plate 612, the partition plate 612 and the transmission screw rod 613 are in a thread transmission relationship, the transmission screw rod 613 drives the partition plate 612 to move towards the bottom end through thread transmission, so that the communicating pipe 611 can be closed, and a water amount difference can be conveniently generated on two sides of the connecting plate 604 by opening and closing a channel in the middle of the communicating pipe 611; the structure and the elastic metal ring 606 are mutually matched, so that the height difference is generated on two sides of the control connecting plate 604, and the lighting heating tube 2 is fluctuated when being driven to rotate; thereby achieving the effect of simulating the movement track of the sun in one day, and the back of the lighting heating tube 2 is provided with a back plate, so that the lighting direction is always opposite to the connecting plate 604; meanwhile, the intensity of the daylight lamp is adjusted, so that the temperature difference of the sun within one day in the nature is simulated, the truth of the simulator is increased, the state of rainwater can be changed through the mutual matching of the lighting heating tube 2 and the spraying structure 6, when the temperature in the control chamber of the lighting heating tube 2 is high, hot air occupies the wind, the spraying structure 6 can fall into rain, and when the temperature in the control chamber of the lighting heating tube 2 is low, cold air occupies the wind, the spraying structure 6 can fall into snow and hail; the lighting heating tube 2 can change the temperature in the reaction bin, and simultaneously, when the spraying structure 6 is driven to work, the form change of ice or water sprayed is controlled by matching with the change of the temperature in the reaction bin;

the wind power structure 3 is arranged at the bottom end inside the test box main body 1, the wind power structure 3 controls and adjusts the direction and the strength of wind, the wind power structure 3 comprises a metal protective cover 301, and the metal protective cover 301 is fixedly connected with the test box main body 1;

the inside bottom of metal protection casing 301 is equipped with third motor 303, and the output of third motor 303 is fixedly connected with wind-force simulation fan 302, starts that third motor 303 drives wind-force simulation fan 302 rotatory through external power supply, reaches the effect of control wind power, and the effect of metal protection casing 301 is protection wind-force simulation fan 302 under the circumstances of guaranteeing the wind flow.

The working principle is as follows: firstly, the device can simulate the climate phenomenon generated by different climate factors after meeting, compared with the traditional mode, the experimental mode is more real and more like, and the climate phenomenon can be visually observed; the biggest factor at first in the weather is the wind direction, because wind gets uncontrollable factor more, the kind of wind is also many, and some drier can bring the sand blown by the wind and influence the air quality, and some are more moist meet the hot-air and can form the rainwater, and hot-air and cold wind meet the form that the later person's more strong also can decide the rainwater to descend, just can the rainfall when hot-air accounts for the wind, and cold wind accounts for the wind and just can snowfall and hail.

Then, a certain water source is stored in the temperature control water storage tank 403, so that the temperature control water storage tank is convenient for later-stage experiments, temperature control induction is arranged in the temperature control water storage tank 403, the temperature of the stored rainwater can be adjusted according to experimental data, then the elastic pressing sheet 404 is inserted into the built-in groove 505, so that the water source in the temperature control water storage tank 403 can be guided into an experimental device, and the elastic element 405 pushes the top of the elastic pressing sheet 404 to expand towards two sides to achieve the effect of strengthening the fixing effect; the sealing structure 5 is used for sealing the joint, and then the telescopic rod 503 is pushed upwards by the elasticity of the elastic metal wire 502, so that the plurality of rubber sealing pieces 501 can be supported, then the fourth motor 602 is started to drive the connecting plate 604 to rotate, the water is sprayed out from the spraying port 605, the state of the rainwater falling can be simulated by rotating the connecting plate 604, since the movement of rain water falling from the sky is influenced by wind, and also the illumination heat-emitting tube 2, when rotating with respect to the connection plate 604, the water quantity difference at the two sides of the control connecting plate 604 is matched with the elastic metal ring 606, so that the height difference appears at the two sides of the control connecting plate 604, when the lighting heating tube 2 is driven to rotate, the lighting heating tube is fluctuated, thereby achieving the effect of simulating the movement track of the sun in one day, and a back plate is arranged at the back of the illumination heating tube 2, so that the illumination direction is always opposite to the direction of the connecting plate 604; meanwhile, the intensity of the daylight lamp is adjusted, so that the temperature difference of the sun within one day in the nature is simulated, the reality degree of the simulator is increased, the state of rainwater can be changed through the mutual matching of the lighting heating tube 2 and the spraying structure 6, when the temperature in the control room of the lighting heating tube 2 is high, hot air occupies the wind, the spraying structure 6 can make rainfall, and when the temperature in the control room of the lighting heating tube 2 is low, cold air occupies the wind, the spraying structure 6 can make snowfall and hailstones; the lighting heating tube 2 can change the temperature in the reaction bin, and simultaneously, the shape change of ice or water sprayed in the reaction bin is controlled by matching the change of the temperature in the reaction bin when the spraying structure 6 is driven to work.

Finally, the direction and the strength of wind are controlled and adjusted through the wind power structure 3, the third motor 303 is started through an external power supply to drive the wind power simulation fan 302 to rotate, the effect of controlling the wind power is achieved, and the metal protective cover 301 is used for protecting the wind power simulation fan 302 under the condition that the wind flow is guaranteed.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A temperature simulation test chamber based on microclimate simulation, characterized by comprising:

the test box comprises a test box main body (1), wherein the interior of the test box main body (1) is in a sealed hollow shape;

the rainwater simulation structure (4) is arranged on one side of the test box main body (1), the rainwater simulation structure (4) comprises a temperature control water storage tank (403), the bottom end of the temperature control water storage tank (403) is fixedly connected with the outer side of the test box main body (1), and the temperature inside the temperature control water storage tank (403) can be controlled;

the sealing structure (5) is fixedly connected to one side of the top end of the test box main body (1), the sealing structure (5) comprises a built-in groove (505), and the built-in groove (505) is fixedly connected with the test box main body (1);

the spraying structure (6) is fixedly connected to the top end inside the test box main body (1), the spraying structure (6) comprises a connecting bottom plate (603), and the top end of the connecting bottom plate (603) is fixedly connected with the top end inside the test box main body (1);

wind-force structure (3), the inside bottom of test box main part (1) is equipped with wind-force structure (3), and wind-force structure (3) include metal protection casing (301), fixed connection between metal protection casing (301) and test box main part (1).

2. The microclimate simulation-based temperature simulation test box according to claim 1, wherein: one side at temperature control water storage tank (403) top is connected with coupling hose (401), and coupling hose (401) keep away from the one end of temperature control water storage tank (403) and be equipped with ann plug (402), and ann plug (402) are the appearance of taper.

3. The microclimate simulation-based temperature simulation test box according to claim 2, wherein: two sides of one end, far away from the connecting hose (401), of the installing plug (402) are connected with elastic pressing sheets (404), the elastic pressing sheets (404) are in an appearance expanding towards the top end, one side, close to the installing plug (402), of the top end of each elastic pressing sheet (404) is connected with an elastic element (405), and the elastic elements (405) have elasticity.

4. The microclimate simulation-based temperature simulation test box according to claim 1, wherein: built-in sliding grooves (504) are formed in two sides of the interior of the built-in groove (505), the built-in sliding grooves (504) are placed in an inclined mode, telescopic rods (503) are arranged in the built-in sliding grooves (504), and the built-in sliding grooves (504) are connected with the telescopic rods (503) in a sliding mode.

5. The microclimate simulation-based temperature simulation test box according to claim 4, wherein: elastic metal wire (502) run through on the top of telescopic link (503), elastic metal wire (502) have elasticity, the top fixedly connected with rubber sealing piece (501) of telescopic link (503), and rubber sealing piece (501) are flaky appearance, and rubber sealing piece (501) are equipped with the multiunit, and multiunit rubber sealing piece (501) are the annular distribution about the axle center of built-in recess (505).

6. The microclimate simulation-based temperature simulation test chamber according to claim 5, wherein: connect both sides fixed connection elastic metal ring (606) of bottom plate (603) bottom, and elastic metal ring (606) have elasticity, the bottom of elastic metal ring (606) be connected with connecting plate (604), and the top of connecting plate (604) is connected with fourth motor (602), and the output and the connecting plate (604) fixed connection of fourth motor (602), the surface of connecting plate (604) is equipped with multiunit and sprays mouth (605), and multiunit sprays mouth (605) and is the ring distribution about the axle center of connecting plate (604).

7. The microclimate simulation-based temperature simulation test box according to claim 1, wherein: one side of the top end of the connecting plate (604) is connected with a connecting pipe (601), and one end, far away from the connecting plate (604), of the connecting pipe (601) is fixedly connected with the built-in groove (505).

8. The microclimate simulation-based temperature simulation test chamber according to claim 7, wherein: one side of the connecting plate (604) is connected with an illumination heating tube (2).

9. The microclimate simulation-based temperature simulation test chamber according to claim 7, wherein: a communicating pipe (611) is arranged inside the connecting plate (604), the communicating pipe (611) is connected with the built-in groove (505) through a hose, a first pipeline (609) is arranged on one side of the communicating pipe (611), a second pipeline (610) is arranged on the other side of the communicating pipe (611), one end, far away from the communicating pipe (611), of the second pipeline (610) is connected with the connecting hose (607), the second pipeline (610) is connected with a group of spraying ports (605) through the connecting hose (607), one end, far away from the communicating pipe (611), of the first pipeline (609) is connected with a dredging pipeline (608), the first pipeline (609) is connected with a group of spraying ports (605) through the dredging pipeline (608), a fifth motor (614) is arranged at the top end of the communicating pipe (611), an output end of the fifth motor (614) is connected with a transmission screw rod (613), one end, far away from the fifth motor (614), of the transmission screw rod (613) is connected with a partition plate (612), and the partition plate (612) and the transmission screw rod (613) are in a threaded transmission relationship.

10. The microclimate simulation-based temperature simulation test box according to claim 1, wherein: the bottom of metal protection casing (301) inside is equipped with third motor (303), and the output fixedly connected with wind-force simulation fan (302) of third motor (303).