CN111006376B - Intelligent indoor room following type damp and hot environment control system - Google Patents

Abstract

The invention relates to the field of intelligent life, in particular to a following type damp and hot environment control system for an indoor room of an intelligent life. The invention aims to provide an intelligent indoor room following type damp and hot environment control system. The invention discloses a following type damp and hot environment control system for rooms in an intelligent living room, which comprises a controller, a wireless terminal, a constant temperature and humidity control system and the like, and realizes the effect of achieving high-precision constant temperature and humidity in the room by matching with automatic detection and regulation based on the constant temperature and humidity control system or manual operation; the more accurate local constant temperature and humidity effect is realized, and the phenomenon that a user needs to passively adjust the temperature and humidity by self is avoided; increase user's comfort level of living, realize intelligent life and experience, and follow-up formula automated inspection regulation and control mechanism is flexible can build whole artistic aesthetic feeling, can not feel dull and withered because of dull furred ceiling, still can provide illumination and atmosphere lamp effect.

Description

Intelligent indoor room following type damp and hot environment control system

Technical Field

The invention relates to the field of intelligent life, in particular to a following type damp and hot environment control system for an indoor room of an intelligent life.

Background

The indoor thermal environment refers to environmental factors affecting the sensation of cold and heat of a human body. These factors include primarily room air temperature, air humidity, air flow velocity, and radiative heat transfer between the human body and the surrounding environment. The suitable indoor thermal environment is an indoor environmental condition that the temperature of indoor air, the speed of humidity airflow and the heat radiation of the environment are proper, so that a human body can easily keep thermal balance to feel comfortable. The living standard of people is gradually improved, the quality of life is also gradually pursued to be high, and especially the requirement on the comfort level of the indoor environment is gradually improved. However, the academic community still has a certain debate on the definition of comfort, the most mature definition is that "thermal neutrality" is equal to "comfort" without stimulation and without self-regulation, and with the development of the thermal comfort theory, another idea is that the comfort is a short time pleasant, and the dynamic environment is accompanied by the elimination of discomfort, so that the comfort and the health can be brought. These two opposing comfort perspectives also correspond to distinct indoor environment construction approaches. The former is constant temperature and humidity, the more the indoor environment is close to neutral, the smaller the fluctuation amplitude is, the better the fluctuation amplitude is, however, the more and more airtight the building is caused by the endless pursuit of no deviation, no stimulation and stability of the indoor environment, all the mechanical ventilation system and the strict automatic control system are adopted, and the energy consumption of the building is higher and higher. Studies have shown that such an indoor environment is not only unnecessary, but also presents a health hazard to the occupants. At present, most domestic residential projects use 'constant temperature and humidity' as the control target of indoor thermal environment, which is unreasonable. Firstly, the suitable environmental parameters are all corresponding to certain personnel metabolic rate and dressing conditions, if the temperature and humidity of the indoor environment are locked, the user becomes a completely passive receiver of the thermal environment, and the dressing and the activity intensity of the user are adjusted to achieve thermal comfort, so that the user is more easily unsatisfied with the current thermal environment. Therefore, it is also desirable for the user to be able to actively and manually adjust the thermal environment while intelligently controlling the thermal environment.

In summary, in the prior art, when the constant temperature and humidity are realized, a very extensive data is still adopted to unify the indoor temperature and humidity; it is unreasonable that the user passively adjusts the indoor temperature and humidity by self, when abnormal temperature and humidity variables of local areas occur in a certain room, the prior art realizes that the constant temperature and humidity adjustment and control still keeps indoor balanced data, and the phenomenon that the user needs to passively adjust the indoor temperature and humidity by self can be generated; when the abnormal variables of the temperature and the humidity of the local area are kept for a period of time, the abnormal variables of the constant temperature and the constant humidity in the corresponding room can be generated, and the constant temperature and the constant humidity are invalid at the moment; therefore, it is necessary to develop a following type damp and hot environment control system for the room in the intelligent living room to overcome the above problems.

Disclosure of Invention

The invention aims to overcome the defect that in the prior art, when the constant temperature and the constant humidity are realized, a universal data is still adopted to unify the indoor temperature and humidity; it is unreasonable that the user passively adjusts the indoor temperature and humidity by self, when abnormal temperature and humidity variables of local areas occur in a certain room, the prior art realizes that the constant temperature and humidity adjustment and control still keeps indoor balanced data, and the phenomenon that the user needs to passively adjust the indoor temperature and humidity by self can be generated; when the abnormal variables of the temperature and the humidity of the local area are kept for a period of time, the abnormal variables of the constant temperature and the humidity in the corresponding room can be generated, and the constant temperature and the humidity are invalid at the moment.

The invention is achieved by the following specific technical means:

a following type damp and hot environment control system for rooms in an intelligent living room comprises a user, a controller, a wireless terminal, a constant temperature and humidity control system, a first room automatic detection regulating and controlling mechanism, a second room automatic detection regulating and controlling mechanism and a third room automatic detection regulating and controlling mechanism; the user and the controller realize control and information feedback; the user and the wireless terminal realize wireless control and information feedback, and the wireless terminal and the controller realize control and information feedback; the controller realizes control and the constant temperature and humidity control system realizes control and information feedback; the controller and the first room automatic detection regulating and controlling mechanism realize control and information feedback, and the first room automatic detection regulating and controlling mechanism and the constant temperature and humidity control system realize control and information feedback; the controller and the second room automatic detection regulation and control mechanism realize control and information feedback, and the second room automatic detection regulation and control mechanism and the constant temperature and humidity control system realize control and information feedback; the controller realizes control and information feedback with the third room automatic detection and control mechanism, and the third room automatic detection and control mechanism and the constant temperature and humidity control system realize control and information feedback;

the second automatic detection and regulation mechanism for the room comprises a buckle plate body, a first dust collection mechanism, a first dust collection box, a first dust collection port, a second dust collection mechanism, a second dust collection box, a second dust collection port, a decorative buckle plate and a following automatic detection and regulation mechanism; a first dust collecting mechanism is arranged on the left side in the pinch plate body; a first dust collecting box is arranged on the left front side of the bottom in the pinch plate body, and the top of the first dust collecting box is connected with a first dust collecting mechanism; a first dust suction port is formed in the left side of the bottom end of the pinch plate body, and the top of the first dust suction port is connected with a first dust collection mechanism; a second dust collecting mechanism is arranged at the right side in the buckle plate body; a second dust collecting box is arranged on the right front side of the bottom in the pinch plate body, and the top of the second dust collecting box is connected with a second dust collecting mechanism; a second dust suction port is formed in the right side of the bottom end of the pinch plate body, and the top of the second dust suction port is connected with a second dust collection mechanism; the front side and the rear side of the bottom of the buckle plate body are both provided with decorative buckle plates; a following type automatic detection regulation and control mechanism is arranged at the middle front part and the left front part in the buckle plate body;

the following type automatic detection regulating mechanism comprises an outer housing, an electric push rod, a first cold and hot air mechanism, a second cold and hot air mechanism, a lighting lamp panel, a first humidity sensor, a first temperature sensor, a second humidity sensor, a second temperature sensor, a gas sensor and a circular array type atmosphere lamp panel; an electric push rod is arranged above the middle upper part in the outer housing; a first cold and hot air mechanism is arranged on the left side in the outer housing; a second cold and hot air mechanism is arranged at the front side in the outer housing; the bottom in the outer housing is provided with a lighting lamp panel; a first humidity sensor is arranged at the right front part of the bottom end of the illuminating lamp panel; a first temperature sensor is arranged at the right rear part of the bottom end of the illuminating lamp panel; a second humidity sensor is arranged at the left front part of the bottom end of the illuminating lamp panel; a second temperature sensor is arranged at the left rear part of the bottom end of the illuminating lamp panel; a gas sensor is arranged in the middle of the bottom end of the illuminating lamp panel; the annular atmosphere lamp panel is arranged on the outer ring of the top end of the illuminating lamp panel, and the interior of the annular atmosphere lamp panel is connected with the outer housing; the top of the outer housing is connected with the buckle plate body; the top of the electric push rod is connected with the pinch plate body;

a plurality of following automatic detection and regulation mechanisms are horizontally attached to each other and are arranged at the bottom in the pinch plate body in a rectangular shape in upward view;

when the plurality of following type automatic detection regulating and controlling mechanisms are combined and arranged at the inner bottom of the buckle plate body, the side end faces of the following type automatic detection regulating and controlling mechanisms close to the outer frame of the buckle plate body are not provided with a first cold and warm air mechanism and a second cold and warm air mechanism, and the rest end faces are provided with a first cold and warm air mechanism and a second cold and warm air mechanism;

the first cold and warm air mechanism and the second cold and warm air mechanism can realize the adjustment of the wind direction and can adjust the dryness, humidity and cold and warm degrees of the wind;

the first room automatic detection regulation and control mechanism, the second room automatic detection regulation and control mechanism and the third room automatic detection regulation and control mechanism can be matched with automatic detection and control based on the regulation and control of the constant temperature and humidity control system, or can be directly and manually regulated and controlled through a controller or a wireless terminal independently from a user;

after the constant temperature and humidity control system automatically regulates and controls the indoor temperature indoors and outdoors, when any room of the first room automatic detection regulating and controlling mechanism, the second room automatic detection regulating and controlling mechanism and the third room automatic detection regulating and controlling mechanism generates abnormal variables based on the regulation and control of the constant temperature and humidity control system, the corresponding room is automatically started to detect and regulate and control proper temperature and humidity;

the following automatic detection regulating mechanisms are distributed in a staggered manner when stretching out and drawing back.

Compared with the prior art, the invention has the following beneficial effects:

in order to solve the problem that in the prior art, when the constant temperature and the constant humidity are realized, a universal data is still adopted to unify the indoor temperature and humidity; it is unreasonable that the user passively adjusts the indoor temperature and humidity by self, when abnormal temperature and humidity variables of local areas occur in a certain room, the prior art realizes that the constant temperature and humidity adjustment and control still keeps indoor balanced data, and the phenomenon that the user needs to passively adjust the indoor temperature and humidity by self can be generated; when the temperature and humidity abnormal variables of local areas are kept for a period of time, the abnormal variables corresponding to the constant temperature and humidity in the living room are caused to be generated, and the constant temperature and humidity are the problem of failure at the moment, the controller, the wireless terminal, the constant temperature and humidity control system, the first living room automatic detection and control mechanism, the second living room automatic detection and control mechanism and the third living room automatic detection and control mechanism are designed, when the intelligent living room following type moist and hot environment control system is used, a user can adjust the constant temperature and humidity control system through the controller, the constant temperature and humidity control system is matched with the data of the constant temperature and humidity living room to be matched with the first automatic detection and control mechanism, the second living room automatic detection and control mechanism and the third living room automatic detection and control mechanism to automatically detect and adjust, and simultaneously the data is fed back to the controller, the user can directly check, in the technology, the functions can be realized by directly controlling the controller through the wireless terminal, and the wireless terminal feeds back the functions to the user for direct checking; the first room automatic detection regulation and control mechanism, the second room automatic detection regulation and control mechanism and the third room automatic detection regulation and control mechanism can be directly regulated through the controller or directly controlled through a wireless terminal after passing through the constant temperature and humidity control system; namely, manual adjustment is realized; during detection, when any one of the first, second and third automatic detecting and regulating mechanisms for rooms has a hot pot, a large amount of high temperature and moisture can be generated at the local position of the corresponding room, so that when the corresponding room automatically detects abnormal data variables, the local position is automatically regulated and controlled to be regulated in a constant temperature and humidity manner, and when a user does not modify the automatically regulated data or manually regulates the data until the data is not changed any more, and when data similar to the abnormal variable approach is detected next time, the previous regulating scheme is automatically started; the effect of achieving high-precision constant temperature and humidity in the regulation and control room based on a constant temperature and humidity control system or manual operation is achieved in cooperation with automatic detection; the more accurate local constant temperature and humidity effect is realized, and the phenomenon that the user needs to passively adjust the temperature and humidity automatically is avoided; increase user's comfort level of living, realize intelligent life and experience to following formula automated inspection regulation and control mechanism is flexible can build whole an artistic aesthetic feeling, can not feel dull because of monotonic furred ceiling, still can provide illumination and atmosphere lamp effect.

Drawings

FIG. 1 is a block diagram of the system of the present invention;

fig. 2 is a schematic structural view of an automatic detection and control mechanism for a second room according to the present invention;

fig. 3 is a schematic structural diagram of the following type automatic detection regulating mechanism of the present invention.

The labels in the figures are: 1-user, 2-controller, 3-wireless terminal, 4-constant temperature and humidity control system, 5-first living room automatic detection regulation mechanism, 6-second living room automatic detection regulation mechanism, 7-third living room automatic detection regulation mechanism, 601-buckle plate body, 602-first dust collection mechanism, 603-first dust collection box, 604-first dust suction port, 605-second dust collection mechanism, 606-second dust collection box, 607-second dust suction port, 608-decorative buckle plate, 609-following automatic detection regulation mechanism, 60901-outer cover shell, 60902-electric push rod, 60903-first cold and warm air mechanism, 60904-second cold and warm air mechanism, 60905-lighting, 60906-first humidity sensor, 60907-first temperature sensor, 60908-a second humidity sensor, 60909-a second temperature sensor, 609010-a gas sensor, and 609011-a circular atmosphere lamp panel.

Detailed Description

The invention is further described below with reference to the figures and examples.

Examples

An intelligent indoor room following type damp and hot environment control system for living is shown in figures 1-3 and comprises a user 1, a controller 2, a wireless terminal 3, a constant temperature and humidity control system 4, a first automatic room detection and regulation mechanism 5, a second automatic room detection and regulation mechanism 6 and a third automatic room detection and regulation mechanism 7; the user 1 and the controller 2 realize control and information feedback; the user 1 and the wireless terminal 3 realize wireless control and information feedback, and the wireless terminal 3 and the controller 2 realize control and information feedback; the controller 2 realizes control and the constant temperature and humidity control system 4 realizes control and information feedback; the controller 2 and the first room automatic detection regulating and controlling mechanism 5 realize control and information feedback, and the first room automatic detection regulating and controlling mechanism 5 and the constant temperature and humidity control system 4 realize control and information feedback; the controller 2 and the second room automatic detection regulating mechanism 6 realize control and information feedback, and the second room automatic detection regulating mechanism 6 and the constant temperature and humidity control system 4 realize control and information feedback; the controller 2 realizes control and information feedback with the third room automatic detection regulating and controlling mechanism 7, and the third room automatic detection regulating and controlling mechanism 7 realizes control and information feedback with the constant temperature and humidity control system 4.

The second automatic detection and regulation mechanism 6 for living room comprises a buckle plate body 601, a first dust collection mechanism 602, a first dust collection box 603, a first dust collection port 604, a second dust collection mechanism 605, a second dust collection box 606, a second dust collection port 607, a decorative buckle plate 608 and a following automatic detection and regulation mechanism 609; a first dust collecting mechanism 602 is arranged at the left side in the pinch plate body 601; a first dust collection box 603 is arranged on the left front side of the bottom in the buckle plate body 601, and the top of the first dust collection box 603 is connected with a first dust collection mechanism 602; a first dust suction port 604 is formed in the left side of the bottom end of the pinch plate body 601, and the top of the first dust suction port 604 is connected with a first dust collection mechanism 602; a second dust collecting mechanism 605 is arranged at the right side in the buckle plate body 601; a second dust collection box 606 is arranged at the right front side of the bottom in the buckle plate body 601, and the top of the second dust collection box 606 is connected with a second dust collection mechanism 605; a second dust suction port 607 is arranged at the right side of the bottom end of the buckle plate body 601, and the top of the second dust suction port 607 is connected with a second dust collection mechanism 605; the front side and the rear side of the bottom of the buckle plate body 601 are both provided with decorative buckle plates 608; the left front part in the gusset plate body 601 is provided with a following type automatic detection regulating mechanism 609.

The following type automatic detection regulation and control mechanism 609 comprises an outer casing 60901, an electric push rod 60902, a first cold and hot air mechanism 60903, a second cold and hot air mechanism 60904, a lighting lamp panel 60905, a first humidity sensor 60906, a first temperature sensor 60907, a second humidity sensor 60908, a second temperature sensor 60909, a gas sensor 609010 and an annular atmosphere lamp panel 609011; an electric push rod 60902 is arranged at the upper middle part in the outer casing 60901; a first cold-hot air mechanism 60903 is arranged on the middle left side in the outer casing 60901; a second cold-hot air mechanism 60904 is arranged at the middle front side in the outer casing 60901; an illuminating lamp panel 60905 is arranged at the bottom in the outer housing 60901; a first humidity sensor 60906 is arranged at the right front part of the bottom end of the illuminating lamp plate 60905; a first temperature sensor 60907 is arranged at the right rear part of the bottom end of the illuminating lamp panel 60905; a second humidity sensor 60908 is arranged at the left front part of the bottom end of the illuminating lamp panel 60905; a second temperature sensor 60909 is arranged at the left rear part of the bottom end of the illuminating lamp panel 60905; a gas sensor 609010 is arranged in the middle of the bottom end of the lighting lamp panel 60905; an annular atmosphere lamp panel 609011 is arranged on the outer ring of the top end of the illumination lamp panel 60905, and the interior of the annular atmosphere lamp panel 609011 is connected with the outer housing 60901; the top of the outer casing 60901 is connected with the pinch plate body 601; the top of the electric push rod 60902 is connected with the pinch plate body 601.

The following automatic detection and control mechanisms 609 are horizontally attached to one another and are arranged in a plurality of rectangular shapes from the top view, and the rectangular shapes are arranged at the bottom in the buckle plate body 601.

When a plurality of following automatic detection regulating and controlling mechanisms 609 are combined and arranged at the bottom in the buckle plate body 601, a first cold-hot air mechanism 60903 and a second cold-hot air mechanism 60904 are not installed on the end face of the following automatic detection regulating and controlling mechanism 609 close to the outer frame of the buckle plate body 601, and a first cold-hot air mechanism 60903 and a second cold-hot air mechanism 60904 are arranged on all the other end faces.

The first cold-warm air mechanism 60903 and the second cold-warm air mechanism 60904 can adjust the wind direction, and can adjust the dryness and the temperature of the wind.

The first room automatic detection regulating mechanism 5, the second room automatic detection regulating mechanism 6 and the third room automatic detection regulating mechanism 7 can be matched with automatic detection regulation based on the regulation and control of the constant temperature and humidity control system 4, or can be directly and manually regulated and controlled through the controller 2 or the wireless terminal 3 independently from the user 1.

After the constant temperature and humidity control system 4 automatically regulates and controls the indoor temperature indoors and outdoors, when any room among the first room automatic detection regulating and controlling mechanism 5, the second room automatic detection regulating and controlling mechanism 6 and the third room automatic detection regulating and controlling mechanism 7 generates abnormal variables based on the regulation and control of the constant temperature and humidity control system 4, the corresponding room is automatically started to detect and regulate and control proper temperature and humidity.

The following automatic detection and control mechanisms 609 are distributed in a staggered manner during expansion and contraction.

A following type damp and hot environment control system for rooms in an intelligent living room comprises a user 1, a controller 2, a wireless terminal 3, a constant temperature and humidity control system 4, a first room automatic detection regulating and controlling mechanism 5, a second room automatic detection regulating and controlling mechanism 6 and a third room automatic detection regulating and controlling mechanism 7; the user 1 and the controller 2 realize control and information feedback; the user 1 and the wireless terminal 3 realize wireless control and information feedback, and the wireless terminal 3 and the controller 2 realize control and information feedback; the controller 2 realizes control and the constant temperature and humidity control system 4 realizes control and information feedback; the controller 2 and the first room automatic detection regulating and controlling mechanism 5 realize control and information feedback, and the first room automatic detection regulating and controlling mechanism 5 and the constant temperature and humidity control system 4 realize control and information feedback; the controller 2 and the second room automatic detection regulating mechanism 6 realize control and information feedback, and the second room automatic detection regulating mechanism 6 and the constant temperature and humidity control system 4 realize control and information feedback; the controller 2 realizes control and information feedback with the third room automatic detection regulating and controlling mechanism 7, and the third room automatic detection regulating and controlling mechanism 7 realizes control and information feedback with the constant temperature and humidity control system 4.

When the intelligent living room temperature follow-up type damp and hot environment control system is used, a user 1 can adjust the constant temperature and humidity control system 4 through the controller 2, the constant temperature and humidity control system 4 is matched with the constant temperature and humidity data to be matched with the first living room automatic detection and control mechanism 5, the second living room automatic detection and control mechanism 6 and the third living room automatic detection and control mechanism 7 automatically detect and adjust, and meanwhile, the data is fed back to the controller 2, the user 1 can directly check, in the technology, the controller 2 can be directly controlled through the wireless terminal 3 to realize the functions, and the wireless terminal 3 feeds back the data to the user 1 to directly check; or the first room automatic detection regulating mechanism 5, the second room automatic detection regulating mechanism 6 and the third room automatic detection regulating mechanism 7 can be directly regulated by the controller 2 after passing through the constant temperature and humidity control system 4, or the wireless terminal 3 is used for directly controlling the first room automatic detection regulating mechanism, the second room automatic detection regulating mechanism and the third room automatic detection regulating mechanism; namely, manual adjustment is realized; during detection, when any one of the rooms in the first room automatic detection regulating mechanism 5, the second room automatic detection regulating mechanism 6 and the third room automatic detection regulating mechanism 7 eats a hot pot, a large amount of high temperature and moisture are generated at the local position corresponding to the room, at this time, when the abnormal data variable is automatically detected in the corresponding room, the local position is automatically regulated and controlled to be constant temperature and humidity, and when the user 1 does not modify the automatically regulated data or manually regulates the data until the data is not changed any more, and when the data similar to the abnormal variable approach quantity is detected next time, the previous regulating scheme is automatically started; the effect of achieving high-precision constant temperature and humidity in the regulation and control room based on the constant temperature and humidity control system 4 or manual operation is achieved in cooperation with automatic detection; the more accurate local constant temperature and humidity effect is realized, and the phenomenon that the user 1 needs to passively adjust the temperature and humidity automatically is avoided; increase user 1's comfort level of living, realize intelligent life and experience.

The second automatic detection and regulation mechanism 6 for living room comprises a buckle plate body 601, a first dust collection mechanism 602, a first dust collection box 603, a first dust collection port 604, a second dust collection mechanism 605, a second dust collection box 606, a second dust collection port 607, a decorative buckle plate 608 and a following automatic detection and regulation mechanism 609; a first dust collecting mechanism 602 is arranged at the left side in the pinch plate body 601; a first dust collection box 603 is arranged on the left front side of the bottom in the buckle plate body 601, and the top of the first dust collection box 603 is connected with a first dust collection mechanism 602; a first dust suction port 604 is formed in the left side of the bottom end of the pinch plate body 601, and the top of the first dust suction port 604 is connected with a first dust collection mechanism 602; a second dust collecting mechanism 605 is arranged at the right side in the buckle plate body 601; a second dust collection box 606 is arranged at the right front side of the bottom in the buckle plate body 601, and the top of the second dust collection box 606 is connected with a second dust collection mechanism 605; a second dust suction port 607 is arranged at the right side of the bottom end of the buckle plate body 601, and the top of the second dust suction port 607 is connected with a second dust collection mechanism 605; the front side and the rear side of the bottom of the buckle plate body 601 are both provided with decorative buckle plates 608; the left front part in the gusset plate body 601 is provided with a following type automatic detection regulating mechanism 609.

When the following type automatic detection and control mechanism 609 detects that a local area in a room generates different normal temperature and humidity variables, if a person eats a hot pot, the area can generate a large amount of hot moisture, if the lens of the person with glasses can generate water mist under the large amount of hot moisture, the lens cannot be normally used, and meanwhile, the large amount of hot moisture can generate heat sensation, so that the room can be far away from the position of the hot pot area, if the person watches television at one side of the room, the person watching television can passively adjust the lens based on the constant temperature and humidity control system 4 to keep constant temperature and humidity, and different temperature and humidity requirements can be generated in the same room; at this time, compared with the ' universal ' constant temperature and humidity ' effect, the constant temperature and humidity control system 4 cannot meet the discomfort brought to people by the temperature and the humidity generated when people eat hot pots, and the ' constant temperature and humidity ' effect of the constant temperature and humidity control system 4 is invalid at this time; therefore, the buckle plate body 601, the first dust collection mechanism 602, the first dust collection box 603, the first dust collection port 604, the second dust collection mechanism 605, the second dust collection box 606, the second dust collection port 607, the decorative buckle plate 608 and the following type automatic detection and control mechanism 609 can be assembled and installed as a suspended ceiling of an indoor ceiling, and then the suspended ceiling can be installed through the first dust collection mechanism 602 and the first dust collection port 604 at ordinary times; the second dust collection mechanism 605 and the second dust collection port 607 collect dust from the plurality of follow-up automatic detection control mechanisms 609, and then the collected dust is processed by the first dust collection box 603 and the second dust collection box 606 periodically; because the following automatic detection and control mechanisms 609 can adhere to dust during expansion and contraction, the dust is easy to fly during repeated expansion and contraction; the decorative buckle 608 increases the aesthetic appearance of the buckle body 601 surface; the automatic detection and regulation without dead angles in the room are realized, so that the effect of constant temperature and humidity is achieved.

The following type automatic detection regulation and control mechanism 609 comprises an outer casing 60901, an electric push rod 60902, a first cold and hot air mechanism 60903, a second cold and hot air mechanism 60904, a lighting lamp panel 60905, a first humidity sensor 60906, a first temperature sensor 60907, a second humidity sensor 60908, a second temperature sensor 60909, a gas sensor 609010 and an annular atmosphere lamp panel 609011; an electric push rod 60902 is arranged at the upper middle part in the outer casing 60901; a first cold-hot air mechanism 60903 is arranged on the middle left side in the outer casing 60901; a second cold-hot air mechanism 60904 is arranged at the middle front side in the outer casing 60901; an illuminating lamp panel 60905 is arranged at the bottom in the outer housing 60901; a first humidity sensor 60906 is arranged at the right front part of the bottom end of the illuminating lamp plate 60905; a first temperature sensor 60907 is arranged at the right rear part of the bottom end of the illuminating lamp panel 60905; a second humidity sensor 60908 is arranged at the left front part of the bottom end of the illuminating lamp panel 60905; a second temperature sensor 60909 is arranged at the left rear part of the bottom end of the illuminating lamp panel 60905; a gas sensor 609010 is arranged in the middle of the bottom end of the lighting lamp panel 60905; an annular atmosphere lamp panel 609011 is arranged on the outer ring of the top end of the illumination lamp panel 60905, and the interior of the annular atmosphere lamp panel 609011 is connected with the outer housing 60901; the top of the outer casing 60901 is connected with the pinch plate body 601; the top of the electric push rod 60902 is connected with the pinch plate body 601.

When the first humidity sensor 60906, the first temperature sensor 60907, the second humidity sensor 60908, the second temperature sensor 60909 and the gas sensor 609010 detect that the local area generates different normal temperature and humidity variables, the following type automatic detection regulating and controlling mechanism 609 regulates the corresponding position of the local area of the living room according to the detected data; the following type automatic detection regulation mechanism 609 is staggered and stretched to an indefinite length, the electric push rod 60902 stretches to drive the outer housing 60901 to descend, then different wind directions and different temperatures and humidities are regulated through the first cold-hot wind mechanism 60903 and the second cold-hot wind mechanism 60904 according to detected data, high-precision 'constant temperature and humidity' regulation in the area is realized, and a user 1 passively receives the 'constant temperature and humidity' effect without the 'constant temperature and humidity' effect provided by the constant temperature and humidity control system 4; meanwhile, when data detection is not abnormal, the room can be illuminated through a plurality of illuminating lamp panels 60905, or illumination and room atmosphere creation can be realized by opening a plurality of annular atmosphere lamp panels 609011 as required; the intelligent life experience is realized; and the following automatic detection and control mechanism 609 is staggered and telescopic, so that an integral artistic aesthetic feeling can be built, and the ceiling cannot feel dull due to monotonous.

A plurality of following automatic detection and regulation mechanisms 609 are horizontally attached to each other and are arranged at the bottom in the buckle plate body 601 in a rectangular shape in the upward view; the detection and adjustment of no dead angle in the room can be realized simultaneously, the appearance is attractive, and the whole structure is well-arranged.

When the plurality of following type automatic detection regulating and controlling mechanisms 609 are combined and arranged at the inner bottom of the buckle plate body 601, the end faces of the following type automatic detection regulating and controlling mechanisms 609 close to the outer frame of the buckle plate body 601 are not provided with the first cold-hot air mechanism 60903 and the second cold-hot air mechanism 60904, and the rest end faces are provided with the first cold-hot air mechanism 60903 and the second cold-hot air mechanism 60904; the side end face of the follow-up automatic detection regulating mechanism 609 close to the outer frame of the buckle plate body 601 is generally close to a wall surface, so that the arrangement is not needed, and the resource waste is reduced.

The first cold-warm air mechanism 60903 and the second cold-warm air mechanism 60904 can realize the adjustment of the wind direction and can adjust the dryness and the cold-warm degree of the wind; the precision of the balanced constant temperature and humidity control system 4 can be automatically adjusted.

The first room automatic detection regulation and control mechanism 5, the second room automatic detection regulation and control mechanism 6 and the third room automatic detection regulation and control mechanism 7 can be matched with automatic detection and control based on the regulation and control of the constant temperature and humidity control system 4, or can be directly and manually regulated and controlled through the controller 2 or the wireless terminal 3 independently from the user 1; namely, the automatic adjustment of the user 1 and the adjustment and control based on the constant temperature and humidity control system 4 can be realized to be matched with the automatic detection and adjustment.

After the constant temperature and humidity control system 4 automatically regulates and controls the indoor temperature indoors and outdoors, when any one of the first room automatic detection regulating mechanism 5, the second room automatic detection regulating mechanism 6 and the third room automatic detection regulating mechanism 7 generates abnormal variables based on the regulation and control of the constant temperature and humidity control system 4, the corresponding room is automatically started to detect and regulate and control proper temperature and humidity; the automatic detection and regulation of the local area of the single room based on the constant temperature and humidity control system 4 are realized.

The layout of the following automatic detection control mechanisms 609 is staggered during extension, so that the first cold and hot air mechanism 60903 and the second cold and hot air mechanism 60904 between the following automatic detection control mechanisms 609 can be prevented from being blocked mutually.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (1)

1. An intelligent indoor room following type damp and hot environment control system for a living room comprises a user (1), and is characterized by further comprising a controller (2), a wireless terminal (3), a constant temperature and humidity control system (4), a first room automatic detection regulation and control mechanism (5), a second room automatic detection regulation and control mechanism (6) and a third room automatic detection regulation and control mechanism (7); the user (1) and the controller (2) realize control and information feedback; the user (1) and the wireless terminal (3) realize wireless control and information feedback, and the wireless terminal (3) and the controller (2) realize control and information feedback; the controller (2) realizes control and the constant temperature and humidity control system (4) realizes control and information feedback; the controller (2) and the first room automatic detection and regulation mechanism (5) realize control and information feedback, and the first room automatic detection and regulation mechanism (5) and the constant temperature and humidity control system (4) realize control and information feedback; the controller (2) and the second room automatic detection and regulation mechanism (6) realize control and information feedback, and the second room automatic detection and regulation mechanism (6) and the constant temperature and humidity control system (4) realize control and information feedback; the controller (2) realizes control and information feedback with the third room automatic detection and regulation mechanism (7), and the third room automatic detection and regulation mechanism (7) realizes control and information feedback with the constant temperature and humidity control system (4);

the second automatic detection regulating mechanism (6) for the living room comprises a buckle plate body (601), a first dust collecting mechanism (602), a first dust collecting box (603), a first dust suction port (604), a second dust collecting mechanism (605), a second dust collecting box (606), a second dust suction port (607), a decorative buckle plate (608) and a following automatic detection regulating mechanism (609); a first dust collecting mechanism (602) is arranged on the left side in the pinch plate body (601); a first dust collection box (603) is arranged on the left front side of the bottom in the buckle plate body (601), and the top of the first dust collection box (603) is connected with a first dust collection mechanism (602); a first dust suction port (604) is formed in the left side of the bottom end of the pinch plate body (601), and the top of the first dust suction port (604) is connected with a first dust collection mechanism (602); a second dust collecting mechanism (605) is arranged on the right side in the pinch plate body (601); a second dust collection box (606) is arranged on the right front side of the bottom in the buckle plate body (601), and the top of the second dust collection box (606) is connected with a second dust collection mechanism (605); a second dust suction port (607) is formed in the right side of the bottom end of the buckle plate body (601), and the top of the second dust suction port (607) is connected with a second dust collection mechanism (605); the front side and the rear side of the bottom of the buckle plate body (601) are both provided with decorative buckle plates (608); a following type automatic detection regulating mechanism (609) is arranged at the middle-left front part in the pinch plate body (601);

the following type automatic detection regulation and control mechanism (609) comprises an outer housing (60901), an electric push rod (60902), a first cold and hot air mechanism (60903), a second cold and hot air mechanism (60904), a lighting lamp panel (60905), a first humidity sensor (60906), a first temperature sensor (60907), a second humidity sensor (60908), a second temperature sensor (60909), a gas sensor (609010) and a circular-column atmosphere lamp panel (609011); an electric push rod (60902) is arranged at the upper middle part in the outer casing (60901); a first cold and hot air mechanism (60903) is arranged on the left side in the outer casing (60901); a second cold and hot air mechanism (60904) is arranged at the middle front side in the outer casing (60901); a lighting lamp panel (60905) is arranged at the bottom in the outer housing (60901); a first humidity sensor (60906) is arranged at the right front part of the bottom end of the lighting lamp plate (60905); a first temperature sensor (60907) is arranged at the right rear part of the bottom end of the lighting lamp panel (60905); a second humidity sensor (60908) is arranged at the left front part of the bottom end of the lighting lamp plate (60905); a second temperature sensor (60909) is arranged at the left rear part of the bottom end of the lighting lamp plate (60905); a gas sensor (609010) is arranged in the middle of the bottom end of the lighting lamp plate (60905); an annular atmosphere lamp panel (609011) is arranged on the outer ring of the top end of the illumination lamp panel (60905), and the interior of the annular atmosphere lamp panel (609011) is connected with an outer housing (60901); the top of the outer housing (60901) is connected with the pinch plate body (601); the top of the electric push rod (60902) is connected with the pinch plate body (601);

a plurality of following automatic detection and regulation mechanisms (609) are horizontally attached to each other and are arranged at the bottom in the buckle plate body (601) in a rectangular shape in the upward view;

when the following automatic detection and regulation mechanisms (609) are combined and arranged at the bottom in the buckle plate body (601), the end faces of the following automatic detection and regulation mechanisms (609) close to the outer frame of the buckle plate body (601) are not provided with a first cold and hot air mechanism (60903) and a second cold and hot air mechanism (60904), and the rest end faces are provided with a first cold and hot air mechanism (60903) and a second cold and hot air mechanism (60904);

the first cold-warm air mechanism (60903) and the second cold-warm air mechanism (60904) can realize the adjustment of the wind direction and can both adjust the dryness and the cold and warm degrees of the wind;

the first room automatic detection regulation and control mechanism (5), the second room automatic detection regulation and control mechanism (6) and the third room automatic detection regulation and control mechanism (7) can be matched with automatic detection and control based on the regulation and control of the constant temperature and humidity control system (4), or can be directly and manually regulated and controlled through the controller (2) or the wireless terminal (3) independently from the user (1);

after the constant temperature and humidity control system (4) automatically regulates and controls the indoor temperature indoors and outdoors, when any room among the first room automatic detection regulating and controlling mechanism (5), the second room automatic detection regulating and controlling mechanism (6) and the third room automatic detection regulating and controlling mechanism (7) generates abnormal variables based on the regulation and control of the constant temperature and humidity control system (4), the corresponding room is automatically started to detect and regulate and control proper temperature and humidity; the following automatic detection regulating mechanisms (609) are distributed in a staggered manner during extension and retraction.

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