CN212805998U - Experience stage property in space with set constant temperature and constant humidity - Google Patents

Abstract

The utility model relates to a demonstration stage property technical field for terminal sale, in particular to an experience stage property with set space with constant temperature and constant humidity, which comprises a plurality of different environment experience spaces, wherein each environment experience space is not communicated with each other, and an openable experience window is arranged on the outer side wall of each environment experience space; the inner side wall of each environment experience space is provided with a corresponding vent hole, each vent hole is correspondingly communicated with an independent air channel, each independent air channel is internally connected with an environment control device, and the environment control device controls the air environment in the independent air channel and supplies the air environment to the corresponding environment experience space through the vent hole; each environmental control device is connected to a controller, which controls the operation of the environmental control device. Use the utility model discloses technical scheme can realize the simulation of the adverse circumstances of various differences, can realize each middle environmental space's independent control, and the occupation space of whole stage property is little, low in production cost.

Description

Experience stage property in space with set constant temperature and constant humidity

Technical Field

The utility model relates to an electric terminal product's demonstration technical field specifically is an experience stage property in space with invariable temperature and the invariable humidity of settlement.

Background

Some brands of air conditioners can deal with various severe climates, and the indoor temperature can achieve a comfortable function. However, the functions of the air conditioner are not convenient to directly display, and the consumer cannot be deeply impressed if the functions are only described in a blank way. Meanwhile, in the market environment where the earth is precious, the requirements for the props need to be minimized as much as possible, and the space is saved. And the cost is required to be controlled when prop products are in batches, so that the cost is not too high. At present, a prop which has a small space and can comprehensively display various severe climates is urgently needed to enhance the body feeling of consumers.

SUMMERY OF THE UTILITY MODEL

The adverse circumstances to the air conditioner reply among the prior art can't effectively carry out the defect of directly perceived show, the utility model provides an experience stage property in space with the invariable temperature of settlement and invariable humidity, can furthest reduce stage property cost not occupy under the prerequisite in too much sales field space, satisfy the consumer and carry out the adverse circumstances of various settlement and experience.

In order to achieve the above object, the utility model provides a following technical scheme:

an experience prop with a set space with constant temperature and constant humidity comprises a plurality of different environment experience spaces, wherein the environment experience spaces are not communicated with each other, and an openable experience window is arranged on the outer side wall of each environment experience space; the inner side wall of each environment experience space is provided with a corresponding vent hole, each vent hole is correspondingly communicated with an independent air channel, each independent air channel is internally connected with an environment control device, and the environment control device controls the air environment in the independent air channel and supplies the air environment to the corresponding environment experience space through the vent holes; each environment control device is connected to a controller, and the controller controls the operation of the environment control devices.

Further, the multiple different environment experience spaces comprise low-temperature high-humidity spaces, a first vent hole is formed in the inner side wall of each low-temperature high-humidity space, and the first vent hole is communicated with a first independent air channel; the first independent air channel is internally connected with first environment control equipment, and the first environment control equipment is connected with the controller and comprises a first fan, a first semiconductor refrigeration module and a first humidification module; the refrigeration end of the first semiconductor refrigeration module is arranged in the first independent air channel, the heating end of the first semiconductor refrigeration module is positioned outside the first independent air channel, the first fan is arranged in the middle of the first independent air channel, and the first humidification module is arranged at the bottom of the first independent air channel; the refrigeration end of the first semiconductor refrigeration module cools air in the first independent air channel, the first humidification module humidifies the air in the first independent air channel, and the first fan is started to enable the first independent air channel and the interior of the low-temperature high-humidity space to form circulating air. Therefore, the environment with low temperature and high humidity can be simulated, and consumers can directly perform body sensing experience in the space.

Further, the first humidifying module is connected to a first water tank through a water pipe, and the first humidifying module is an ultrasonic humidifying module; the heating end of the first semiconductor refrigeration module is communicated with a first circulating water pipe, the end part of the first circulating water pipe is connected to a first water tank through a first water pump, the front section of the first circulating water pipe brings water in the first water tank into the heating end of the first semiconductor refrigeration module, the water passing through the heating end of the first semiconductor refrigeration module flows to the rear section of the first circulating water pipe, the rear section of the first circulating water pipe is communicated with a first water drain, and the first water drain discharges the water and brings the water back to the first water tank through the rear section of the first circulating water pipe; the first water discharge is arranged on one side behind the heating end of the first semiconductor refrigeration module, and a first heat dissipation fan is arranged behind the first water discharge; and a first water level monitoring device is arranged in the first water tank and is connected with the controller. From this, when can effectively cooling down to first semiconductor refrigeration module, improve the water utilization ratio and can realize the water-deficient protection of stage property.

Further, the plurality of different environment experience spaces comprise a low-temperature low-humidity space, a second vent hole is formed in the inner side wall of the low-temperature low-humidity space, and the second vent hole is communicated with a second independent air channel; a second environment control device is connected in the second independent air channel, is connected with the controller and comprises a second fan and a second semiconductor refrigeration module; the refrigerating end of the second semiconductor refrigerating module is arranged in the second independent air channel, the heating end of the second semiconductor refrigerating module is positioned outside the second independent air channel, and the second fan is arranged in the middle of the second independent air channel; and the refrigerating end of the second semiconductor refrigerating module cools air in the second independent air channel, and the second fan is started to enable the second independent air channel and the interior of the low-temperature low-humidity space to form circulating air. Because under the low temperature mode, the air gas condenses, and air humidity can descend naturally, can effectively simulate out the environment that has low temperature low humidity, controls the work of second fan and second semiconductor refrigeration module through controller control, can adjust the environmental condition in the low temperature low humidity space according to the demand.

Furthermore, a heating end of the second semiconductor refrigeration module is communicated with a second circulating water pipe, the end of the second circulating water pipe is connected to a second water tank through a second water pump, the front section of the second circulating water pipe brings water in the second water tank into the heating end of the second semiconductor refrigeration module, the water passing through the heating end of the second semiconductor refrigeration module flows to the rear section of the second circulating water pipe, the rear section of the second circulating water pipe is communicated with a second water drain, and the second water drain is discharged and is brought back to the second water tank through the rear section of the second circulating water pipe; the second water discharge is arranged on one side behind the heating end of the second semiconductor refrigeration module, and a second heat dissipation fan is arranged behind the second water discharge; and a second water level monitoring device is arranged in the second water tank and is connected with the controller. Therefore, the utilization rate of water can be improved while the second semiconductor refrigeration module is effectively cooled, and water shortage protection of the prop can be realized.

Further, the plurality of different environment experience spaces comprise constant temperature and humidity spaces, wherein a third air vent is formed in the inner side wall of each constant temperature and humidity space and communicated with a third independent air channel; a third environment control device is connected in the third independent air channel, is connected with the controller and comprises a third fan, a first heating device and a dehumidification module; the third fan is arranged in the middle of the third independent air channel, the first heating device is arranged inside the third independent air channel, and the dehumidification module is arranged at the bottom of the third independent air channel; the first heating device heats air in the third independent air channel, the dehumidification module dries and dehumidifies the air in the third independent air channel, and the third fan is started to enable the third independent air channel and the inside of the constant-temperature and constant-humidity space to form circulating air. Therefore, a dry environment in a constant temperature state can be simulated for the experience of consumers.

Further, the first heating device is a first heating wire connected with the controller, and the dehumidification module is a calcium chloride dehumidification box or a calcium sulfate dehumidification box. Therefore, the heating power and time of the first heating wire are controlled by the controller, so that the temperature in the constant-temperature and constant-humidity space can be adjusted according to requirements.

Further, the multiple different environment experience spaces comprise high-temperature high-humidity spaces, a fourth air vent is arranged on the inner side wall of each high-temperature high-humidity space, and the fourth air vent is communicated with a fourth independent air duct; a fourth environment control device is connected in the fourth independent air channel, is connected with the controller and comprises a fourth fan, a second heating device and a second humidifying module; the fourth fan is arranged in the middle of the fourth independent air channel, the second heating device is arranged inside the fourth independent air channel, and the second humidifying module is arranged at the bottom of the fourth independent air channel; the second heating device heats the air in the fourth independent air channel, the second humidifying module humidifies the air in the fourth independent air channel, and the fourth fan is started to enable the fourth independent air channel and the inside of the high-temperature high-humidity space to form circulating air. Therefore, the high-temperature and high-humidity environment can be effectively simulated, and the temperature and the humidity in the high-temperature and high-humidity space can be controlled according to the requirement through the controller.

Further, the second heating device is a second heating wire connected with the controller; the second humidifying module is connected with a third water tank through a water pipe; and a third water level monitoring device is arranged in the third water tank and is connected with the controller. Thereby realizing the controllability of the temperature and the humidity of the internal environment and realizing the water shortage protection of the prop.

Further, every all be provided with digital display tube on the inside wall in environment experience space, digital display tube connects the controller, controller control the temperature and humidity numerical value in the environment experience space that digital display tube shows to correspond, every the lateral wall in environment experience space is transparent construction.

Use the utility model discloses technical scheme's beneficial effect: the simulation of the adverse environment of setting for various different constant temperatures and constant humidity can be realized, and the consumer can stretch the hand and carry out the experience of inside specific environment. Meanwhile, independent air channels are designed in the independent environments of the props, so that independent control of the environment spaces is improved, the occupied space of the whole prop is small, and production cost is low.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of an experience prop according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a rear cut-away of an experience prop according to an embodiment of the present invention;

fig. 3 is a schematic view of a main viewing structure of an experience prop according to an embodiment of the present invention;

fig. 4 is a schematic view of the low-temperature high-humidity experience space cut open by an independent air duct in the embodiment of the present invention;

fig. 5 is a schematic view of a low-temperature and low-humidity experience space cut open by an independent air duct according to an embodiment of the present invention;

fig. 6 is a structure diagram of the cooling principle for the low-temperature and high-humidity experience space and the low-temperature and low-humidity experience space in the embodiment of the present invention;

fig. 7 is a schematic view of a split view of an independent air duct for a constant temperature and humidity experience space according to an embodiment of the present invention;

fig. 8 is the high temperature and high humidity experience space of the utility model discloses in the embodiment is with independent wind channel sketch map cut open.

In the figure: experience item 100, housing 200; an ambient experience space 10; an independent air duct 20;

the system comprises a low-temperature high-humidity experience space 1, a first vent hole 11, a first independent air duct 12, a first environment control device 13, a first fan 131, a first semiconductor refrigeration module 132, a first humidification module 133, a door and window 14 of the low-temperature high-humidity experience space, a first water tank 134, a first circulating water pipe 1341, a first water pump 1342, a refrigeration end 1321 of the first semiconductor refrigeration module, a heating end 1322 of the first semiconductor refrigeration module, a water inlet 1323 of the heating end 1322, first water discharge 135 and a first heat dissipation fan 136;

the low-temperature and low-humidity experience space 2, the second vent hole 21, the second independent air duct 22, the second environment control device 23, the second fan 231, the second semiconductor refrigeration module 232, the refrigeration end 2321 of the second semiconductor refrigeration module, the heating end 2322 of the second semiconductor refrigeration module, the water inlet 2323 of the heating end 2322, the second circulating water pipe 233, the second water pump 234, the second water tank 235, the second water discharge 236 and the second heat dissipation fan 237; the constant temperature and humidity experiencing space 3, a third ventilation hole 31, a third independent air duct 32, a third environment control device 33, a third fan 331, a first heating device 332, a dehumidification module 333 and an installation box 3331; the high-temperature high-humidity experience space 4, a fourth ventilation hole 41, a fourth independent air duct 42, a fourth environment control device 43, a fourth fan 431, a second heating device 432 and a second humidifying module 433.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 8, in an embodiment of the present invention, an experience prop 100 having a space with a set constant temperature and a set constant humidity is provided with a casing 200, the casing 200 includes a plurality of different environment experience spaces 10, each environment experience space 10 is not communicated with each other, and an openable experience window is disposed on an outer side wall of each environment experience space 10; the inner side wall of each environment experience space 10 is provided with a corresponding vent hole, each vent hole is correspondingly communicated with an independent air channel 20, an environment control device 30 is connected in each independent air channel 20, and the environment control device 30 controls the air environment in the independent air channels 20 and supplies the air environment to the corresponding environment experience space 10 through the vent holes; each environmental control device 30 is connected to a controller that controls the operation of the environmental control device 30.

The utility model discloses in the embodiment, as shown in fig. 1 ~ 4, wherein independent wind channel 20 has top export and bottom export, and corresponding for two sets of from top to bottom setting, two sets of ventilation holes that set up about having on the inside wall that corresponds, the top export intercommunication is located the ventilation hole of top, and the bottom export intercommunication is located the ventilation hole of below to effectively provide the air cycle in the independent wind channel 20.

Preferably, all be provided with digital display tube 101 on the inside wall in every environment experience space 10, digital display tube 101 connection controller, temperature and humidity numerical value in the environment experience space 10 that the controller control digital display tube 101 shows corresponds, and, in order to utilize advertising or increase consumer's sense of security and straight face and feel, the outside wall in every environment experience space 10 all preferably is transparent structure, as the main view shown in fig. 3, wherein show for transparent structure with the outside is other.

In the embodiment of the present invention, the attached fig. 1-3 only show the external housing 200 and the portion without the housing 200, wherein the structure inside the independent air duct 20 is shown as a schematic diagram, and in the embodiment of the present invention, four different environmental experience spaces 1 are taken as examples, as shown in fig. 1 and 2, a low temperature and high humidity experience space 1, a low temperature and low humidity experience space 2, a constant temperature and constant humidity experience space 3, and a high temperature and high humidity experience space 4 are sequentially taken as examples; correspondingly, the vent holes are a first vent hole 11, a second vent hole 21, a third vent hole 31 and a fourth vent hole 41 in sequence; the corresponding independent air channels 20 are a first independent air channel 12, a second independent air channel 22, a third independent air channel 32 and a fourth independent air channel 42 in sequence; the corresponding environment control devices 30 are, in order, a first environment control device 13, a second environment control device 23, a third environment control device 33, and a fourth environment control device 43.

As shown in fig. 1 to 4, a first vent hole 11 is formed in an inner side wall of the low-temperature high-humidity space 1, and the first vent hole 11 is communicated with a first independent air duct 12; a first environment control device 13 is connected in the first independent air duct 12, the first environment control device 13 is connected to the controller, wherein the first environment control device 13 comprises a first fan 131, a first semiconductor refrigeration module 132 and a first humidification module 133 which are arranged in the first independent air duct 12; the refrigeration end of first semiconductor refrigeration module 132 sets up in the inside in first independent wind channel 12, and the end that generates heat of first semiconductor refrigeration module 132 is located the outside in first independent wind channel 12, and first fan 131 sets up in first independent wind channel 12 middle part, and first humidification module 133 sets up in the bottom in first independent wind channel 12, the utility model discloses in the embodiment, first humidification module 133 can be installed in the independent structure of the bottom in first independent wind channel 12, and this independent structure and first independent wind channel 12 are the intercommunication to effectual installation can be stabilized to each part. The cooling end 1321 of the first semiconductor cooling module 132 cools the air in the first independent air duct 12, the first humidification module 133 humidifies the air in the first independent air duct, and the first fan 131 is started to enable the first independent air duct 12 and the interior of the low-temperature high-humidity space 1 to form circulating air. Inside low temperature and high humidity air in first independent wind channel 12 will get into in low temperature and high humidity space 1 through first ventilation hole 11, from this, can simulate out the environment of low temperature and high humidity, and the consumer can stretch into low temperature and high humidity space 1 through door and window 14 on the lateral wall in low temperature and high humidity space 1 and carry out the body and feel and experience.

Preferably, as shown in the schematic structure diagram of fig. 6, the first humidification module 133 is connected to the first water tank 134 through a water pipe, and the first humidification module 133 is preferably an ultrasonic humidification module; a water inlet 1323 of the heating end 1322 of the first semiconductor refrigeration module 132 is communicated with a first circulating water pipe 1341, the end of the first circulating water pipe 1341 is connected to the first water tank 134 through a first water pump 1342, the front section of the first circulating water pipe 1341 takes water in the first water tank 134 into the heating end 1322 of the first semiconductor refrigeration module 132, the water passing through the heating end 1322 of the first semiconductor refrigeration module 132 flows to the rear section of the first circulating water pipe 1341, the rear section of the first circulating water pipe 1341 is communicated with a first water discharge 135, and the first water discharge 135 discharges the water and takes the water back to the first water tank 134 through the rear section of the first circulating water pipe 1341; the first water discharge 135 is disposed at one side behind the heating end 1322 of the first semiconductor refrigeration module 132, and a first heat dissipation fan 136 is disposed behind the first water discharge 135; the first water tank 134 is preferably provided with a first water level monitoring device (not shown) connected to the controller. From this, can carry out the water-cooling to first semiconductor refrigeration module 132, and through first heat dissipation fan 136 cooling down with higher speed, when effectively cooling down, improved the water utilization ratio and can realize experiencing the water shortage protection of stage property 100.

In the embodiment of the present invention, as shown in fig. 1 to 3 and fig. 5, the inner sidewall of the low-temperature and low-humidity space 2 is provided with the second ventilation hole 21, and the second ventilation hole 21 is communicated with the second independent air duct 22; a second environment control device 23 is connected in the second independent air duct 22, and the second environment control device 23 is connected to the controller and includes a second fan 231 and a second semiconductor refrigeration module 232; the refrigerating end 2321 of the second semiconductor refrigerating module 232 is arranged inside the second independent air duct 22, the heating end 2322 of the second semiconductor refrigerating module 232 is located outside the second independent air duct 22, and the second fan 231 is arranged in the middle of the second independent air duct 22; the cooling end 2321 of the second semiconductor cooling module 232 cools the air in the second independent air duct 22, and after the second fan 231 is started, the second independent air duct 22 and the interior of the low-temperature and low-humidity space form circulating air. Because under the low temperature mode, the air gas condenses, and air humidity can descend naturally, can effectively simulate out the environment that has low temperature low humidity, controls the work of second fan 231 and second semiconductor refrigeration module 232 through the controller control, can adjust the environmental condition in the low humidity space of low temperature according to the demand. The consumer can stretch into low temperature and low humidity space 2 through door and window 24 on the lateral wall of low temperature and low humidity space 2 and experience the body.

As shown in fig. 6, the second semiconductor refrigeration module 132 and the cooling structure thereof in the low-temperature and high-humidity space 1 are the same, wherein a second water circulation pipe 233 is communicated with a water inlet 2323 of a heating end 2322 of the second semiconductor refrigeration module 232, an end of the second water circulation pipe 233 is connected to the second water tank 235 through a second water pump 234, a front section of the second water circulation pipe 233 brings water in the second water tank 235 into the heating end 2322 of the second semiconductor refrigeration module 232, water passing through the heating end 2322 of the second semiconductor refrigeration module 232 flows to a rear section of the second water circulation pipe 233, a rear section of the second water circulation pipe 233 is communicated with a second water discharge 236, and the second water discharge 236 discharges the water and brings the water back to the second water tank 235 through the rear section of the second water circulation pipe 233; the second water drainage 236 is arranged at one side behind the heating end 2322 of the second semiconductor refrigeration module 232, and a second heat dissipation fan 237 is arranged behind the second water drainage 236; a second water level monitoring device (not shown) is disposed in the second water tank 235 and connected to the controller. Therefore, the utilization rate of water can be improved while the second semiconductor refrigeration module 232 is effectively cooled, and water shortage protection of the prop can be realized. In an embodiment of the present invention, in order to reduce the occupied space and improve the compactness of the whole structure, it is preferable that the first water tank 134 and the second water tank 235 are the same water tank, as shown in fig. 2 and 5.

In the embodiment of the present invention, as shown in fig. 1 to 3 and fig. 7, the inner side wall of the constant temperature and humidity space 3 is provided with the third ventilation hole 31, and the third ventilation hole 31 is communicated with the third independent air duct 32; a third environment control device 33 is connected in the third independent air duct 32, the third environment control device 33 is connected with the controller and comprises a third fan 331, a first heating device 332 and a dehumidifying module 333; the third fan 331 is disposed in the middle of the third independent air duct 32, the first heating device 332 is disposed inside the third independent air duct 32, and the dehumidifying module 333 is disposed at the bottom of the third independent air duct 32, wherein the dehumidifying module 333 can be disposed in a mounting box 3331 shown in fig. 4, and the mounting box 3331 is communicated with the third independent air duct 32. The first heating device 332 may be a first heating wire and is installed at an upper position of the third independent air duct 32, the first heating device 332 heats air in the third independent air duct 32, the dehumidifying module 333 dries and dehumidifies air in the third independent air duct 32, and the third fan 331 is started to make the third independent air duct 32 and the interior of the constant temperature and humidity space 3 form circulating air. Therefore, a dry environment in a constant temperature state can be simulated for the experience of consumers. The consumer can stretch into the constant temperature and humidity space 3 through the door and window 34 on the lateral wall of the constant temperature and humidity space 3 to experience the body.

As shown in fig. 7, the dehumidifying module 333 is preferably a calcium chloride dehumidifying box or a calcium sulfate dehumidifying box, so that the heating power and time of the first heating wire are controlled by the controller, so as to adjust the temperature and humidity in the constant temperature and humidity space according to the requirement.

In the embodiment of the present invention, as shown in fig. 1 to 3 and fig. 8, in the embodiment of the present invention, a fourth ventilation hole 41 is provided on the inner side wall of the high temperature and high humidity space 4, and the fourth ventilation hole 41 is communicated with a fourth independent air duct 42; a fourth environment control device 43 is connected in the fourth independent air duct 42, the fourth environment control device 43 is connected with the controller and comprises a fourth fan 431, a second heating device 432 and a second humidifying module 433; the fourth fan 431 is disposed in the middle of the fourth independent air duct 42, and the second heating device 432 is disposed inside the fourth independent air duct 42, which is disposed at the upper portion of the fourth independent air duct 42 in the embodiment of the present invention as an example; the second humidifying module 433 is arranged at the bottom of the fourth independent air duct 42; the second heating device 432 heats the air in the fourth independent air duct 42, the second humidifying module 433 humidifies the air in the fourth independent air duct 42, and the fourth fan 431 is started to make the fourth independent air duct 42 and the inside of the high-temperature and high-humidity space 4 form circulating air. Therefore, the high-temperature and high-humidity environment can be effectively simulated, and the temperature and the humidity in the high-temperature and high-humidity space 4 can be controlled according to the requirement through the controller. The consumer can extend into the low-temperature high-humidity space 4 through the door and window 44 on the outer side wall of the low-temperature high-humidity space 4 to perform body feeling experience. Preferably, also, as shown in fig. 8, the second heating device 432 is a second heating wire connected to the controller, similarly to the structure and installation position of the first heating device 332; the second humidifying module 433 is connected with a third water tank 434 through a water pipe; a third water level monitoring device (not shown) is disposed in the third water tank 434, and the third water level monitoring device is connected to the controller. Thereby, controllability of the internal environment temperature and humidity is realized, and water shortage protection of the prop 100 can be realized.

The utility model discloses in the embodiment, in order to improve the utilization ratio of first heat dissipation fan 136 and second heat dissipation fan 237, wherein as shown in fig. 2, first water discharge 135 and second water discharge 236 and the first heat dissipation fan 136 and the second heat dissipation fan 237 that correspond can preferably set up near the rear in third independent wind channel 32 and the independent wind channel 42 of fourth, so not only make the compact of the structural component in whole casing 200, and because the operating temperature in experiencing stage property 100 during operation casing 200 can rise, and the rear space in high temperature and high humidity space 4 and constant temperature and humidity space 3 is the higher space of temperature relatively, first heat dissipation fan 136 and second heat dissipation fan 237 can cool down this region here.

Use the utility model discloses technical scheme's beneficial effect: the simulation of four different adverse circumstances can be realized, and can carry out appropriate adjustment and reach the constancy of the temperature in every respective space and humidity according to the demand to temperature and humidity, and the consumer can stretch the hand and carry out the experience of inside specific environment. Meanwhile, the independent air channels 20 are designed in the independent environments in the props 100, so that the independent control of the environment spaces is improved, the occupied space of the whole prop is small, and the production cost is low.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an experience stage property in space with invariable temperature of setting for and invariable humidity which characterized in that: the system comprises a plurality of different environment experience spaces, wherein the environment experience spaces are not communicated with each other, and an openable experience window is arranged on the outer side wall of each environment experience space;

the inner side wall of each environment experience space is provided with a corresponding vent hole, each vent hole is correspondingly communicated with an independent air channel, each independent air channel is internally connected with an environment control device, and the environment control device controls the air environment in the independent air channel and supplies the air environment to the corresponding environment experience space through the vent holes;

each environment control device is connected to a controller, and the controller controls the operation of the environment control devices.

2. The experience prop of claim 1, wherein: the multiple different environment experience spaces comprise low-temperature high-humidity spaces, wherein the inner side walls of the low-temperature high-humidity spaces are provided with first vent holes, and the first vent holes are communicated with first independent air channels; the first independent air channel is internally connected with first environment control equipment, and the first environment control equipment is connected with the controller and comprises a first fan, a first semiconductor refrigeration module and a first humidification module;

the refrigeration end of the first semiconductor refrigeration module is arranged in the first independent air channel, the heating end of the first semiconductor refrigeration module is positioned outside the first independent air channel, the first fan is arranged in the middle of the first independent air channel, and the first humidification module is arranged at the bottom of the first independent air channel;

the refrigeration end of the first semiconductor refrigeration module cools air in the first independent air channel, the first humidification module humidifies the air in the first independent air channel, and the first fan is started to enable the first independent air channel and the interior of the low-temperature high-humidity space to form circulating air.

3. The experiential prop according to claim 2, wherein:

the first humidifying module is connected to the first water tank through a water pipe, and the first humidifying module is an ultrasonic humidifying module;

the heating end of the first semiconductor refrigeration module is communicated with a first circulating water pipe, the end part of the first circulating water pipe is connected to a first water tank through a first water pump, the front section of the first circulating water pipe brings water in the first water tank into the heating end of the first semiconductor refrigeration module, the water passing through the heating end of the first semiconductor refrigeration module flows to the rear section of the first circulating water pipe, the rear section of the first circulating water pipe is communicated with a first water drain, and the first water drain discharges the water and brings the water back to the first water tank through the rear section of the first circulating water pipe;

the first water discharge is arranged on one side behind the heating end of the first semiconductor refrigeration module, and a first heat dissipation fan is arranged behind the first water discharge;

and a first water level monitoring device is arranged in the first water tank and is connected with the controller.

4. The experience prop of claim 1, wherein: the plurality of different environment experience spaces comprise low-temperature and low-humidity spaces, wherein second ventilation holes are formed in the inner side walls of the low-temperature and low-humidity spaces and communicated with second independent air channels; a second environment control device is connected in the second independent air channel, is connected with the controller and comprises a second fan and a second semiconductor refrigeration module;

the refrigerating end of the second semiconductor refrigerating module is arranged in the second independent air channel, the heating end of the second semiconductor refrigerating module is positioned outside the second independent air channel, and the second fan is arranged in the middle of the second independent air channel;

and the refrigerating end of the second semiconductor refrigerating module cools air in the second independent air channel, and the second fan is started to enable the second independent air channel and the interior of the low-temperature low-humidity space to form circulating air.

5. The experience prop of claim 4, wherein: the heating end of the second semiconductor refrigeration module is communicated with a second circulating water pipe, the end part of the second circulating water pipe is connected to a second water tank through a second water pump, the front section of the second circulating water pipe enables water in the second water tank to be carried into the heating end of the second semiconductor refrigeration module, the water passing through the heating end of the second semiconductor refrigeration module flows to the rear section of the second circulating water pipe, the rear section of the second circulating water pipe is communicated with a second water drain, and the second water drain discharges the water and brings the water back to the second water tank through the rear section of the second circulating water pipe;

the second water discharge is arranged on one side behind the heating end of the second semiconductor refrigeration module, and a second heat dissipation fan is arranged behind the second water discharge;

and a second water level monitoring device is arranged in the second water tank and is connected with the controller.

6. The experience prop of claim 1, wherein: the multiple different environment experience spaces comprise constant-temperature and constant-humidity spaces, third air vents are arranged on the inner side walls of the constant-temperature and constant-humidity spaces, and the third air vents are communicated with third independent air channels; a third environment control device is connected in the third independent air channel, is connected with the controller and comprises a third fan, a first heating device and a dehumidification module;

the third fan is arranged in the middle of the third independent air channel, the first heating device is arranged inside the third independent air channel, and the dehumidification module is arranged at the bottom of the third independent air channel;

the first heating device heats air in the third independent air channel, the dehumidification module dries and dehumidifies the air in the third independent air channel, and the third fan is started to enable the third independent air channel and the inside of the constant-temperature and constant-humidity space to form circulating air.

7. The experience prop of claim 6, wherein: the first heating device is a first heating wire connected with the controller, and the dehumidification module is a calcium chloride dehumidification box or a calcium sulfate dehumidification box.

8. The experience prop of claim 1, wherein: the multiple different environment experience spaces comprise high-temperature high-humidity spaces, wherein a fourth air vent is arranged on the inner side wall of each high-temperature high-humidity space and communicated with a fourth independent air channel; a fourth environment control device is connected in the fourth independent air channel, is connected with the controller and comprises a fourth fan, a second heating device and a second humidifying module;

the fourth fan is arranged in the middle of the fourth independent air channel, the second heating device is arranged inside the fourth independent air channel, and the second humidifying module is arranged at the bottom of the fourth independent air channel;

the second heating device heats the air in the fourth independent air channel, the second humidifying module humidifies the air in the fourth independent air channel, and the fourth fan is started to enable the fourth independent air channel and the inside of the high-temperature high-humidity space to form circulating air.

9. The experience prop of claim 8, wherein: the second heating device is a second heating wire connected with the controller; the second humidifying module is connected with a third water tank through a water pipe; and a third water level monitoring device is arranged in the third water tank and is connected with the controller.

10. The experience prop according to any one of claims 1 to 9, wherein: a digital display tube is arranged on the inner side wall of each environment experience space and is connected with the controller, and the controller controls the digital display tubes to display the temperature and humidity values in the corresponding environment experience space; and the outer side wall of each environment experience space is of a transparent structure.

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