CN217131406U - Humidity adjusting device and intelligent management system - Google Patents

Abstract

The application provides a humidity control device and intelligent management system. The humidity adjusting device is arranged in a preset area and comprises: a housing; a humidity adjustment module comprising: a humidifying unit comprising: a humidifying water tank; an atomizer; one end of the humidifying pipeline is connected with the humidifying water tank; the humidity provider is connected with the other end of the humidifying pipeline and arranged on one side of the shell; a dehumidification unit comprising: a dehumidifying fan disposed at one side of the housing; the dehumidification fan is arranged at one end of the dehumidification pipeline; the dehumidification unit is arranged at the other end of the dehumidification pipeline; the dehumidification water tank is arranged on one side of the dehumidification unit; the control circuit is connected with the atomizer and the dehumidification unit; a first sensor module including at least a humidity sensor; and the control circuit provides a plurality of control signals to drive the moving module to move at a plurality of places in the preset area.

Description

Humidity adjusting device and intelligent management system

Technical Field

The present application relates to a humidity control device and an intelligent management system, and more particularly, to a humidity control device and an intelligent management system that can be moved conveniently and improve the convenience of a user.

Background

Generally, a humidifier or a dehumidifier is usually installed at a fixed position, and although wheels are installed to facilitate movement, a user needs to manually carry the humidifier or the dehumidifier to a proper corner to adjust humidity.

Therefore, it is an important issue in the industry to provide a humidity adjustment device that is convenient to move and improves the convenience of the user.

SUMMERY OF THE UTILITY MODEL

The technical problem that this application will solve lies in, provides a humidity control device to prior art's not enough, sets up in a predetermined area, and its characterized in that includes: a housing; a humidity adjustment module comprising: a humidifying unit comprising: a humidifying water tank; an atomizer; one end of the humidifying pipeline is connected with the humidifying water tank; the humidity provider is connected with the other end of the humidifying pipeline and arranged on one side of the shell; a dehumidification unit comprising: the dehumidifying fan is arranged on one side of the shell; the dehumidification fan is arranged at one end of the dehumidification pipeline; the dehumidification unit is arranged at the other end of the dehumidification pipeline; the dehumidification water tank is arranged on one side of the dehumidification unit; the control circuit is connected with the atomizer and the dehumidification unit; the first sensor module at least comprises a humidity sensor, and is electrically connected with the control circuit; the mobile module is electrically connected with the control circuit; wherein the control circuit provides a plurality of control signals to drive the moving module to move at a plurality of locations of the predetermined area.

Optionally, the humidifying water tank is connected with the dehumidifying water tank.

Optionally, a switch unit is disposed between the humidification water tank and the dehumidification water tank.

Optionally, the method further comprises: the map analysis module is electrically connected with the control circuit; and the second sensor module is electrically connected with the control module and at least comprises an infrared sensor or a laser ranging sensor.

Optionally, the control module is disposed inside the housing, the first sensor module is disposed inside or outside the housing, and the moving module is disposed at a bottom side of the housing.

Optionally, the moving module includes a motor and a moving unit, the motor is connected to the moving unit, and the motor receives the driving signal to drive the moving unit.

Optionally, the first sensor module further includes a temperature sensor or an illuminance sensor.

Optionally, the apparatus further includes a second sensor module, where the second sensor module at least includes one of a gyroscope sensor, a geomagnetic sensor, an optical sensor, an infrared sensor, a laser ranging sensor, an olfactory gas sensor, a weight sensor, and an image sensor.

Optionally, when the second sensor module includes the infrared sensor or the laser ranging sensor, the infrared sensor or the laser ranging sensor is disposed outside the housing.

Optionally, the method further comprises: a power module disposed in the housing and electrically connected to the control circuit, the power module comprising: the battery unit provides driving electric energy for the control circuit; and a charging unit electrically connected to the battery unit.

Optionally, the charging unit is a wired charging unit or a wireless charging unit, and the charging base is a wired power supply base or a wireless power supply base.

Optionally, the mobile device further comprises a communication module for performing communication connection with a mobile device or a server.

Optionally, the communication module is a Wi-Fi communication unit, a bluetooth communication unit, a zigbee communication unit, a LoRa communication unit, a Sigfox communication unit, or an NB-IoT communication unit.

The application also discloses an intelligent management system, sets up in a predetermined area, its characterized in that includes: a server; and a humidity adjusting device, which is in communication connection with the server, wherein the humidity adjusting device comprises: a housing; a humidity adjustment module comprising: a humidifying unit comprising: a humidifying water tank; an atomizer; one end of the humidifying pipeline is connected with the humidifying water tank; the humidity provider is connected with the other end of the humidifying pipeline and arranged on one side of the shell; a dehumidification unit comprising: the dehumidifying fan is arranged on one side of the shell; the dehumidification fan is arranged at one end of the dehumidification pipeline; the dehumidification unit is arranged at the other end of the dehumidification pipeline; the dehumidification water tank is arranged on one side of the dehumidification unit; the control circuit is connected with the atomizer and the dehumidification unit; the first sensor module at least comprises a humidity sensor, and is electrically connected with the control circuit; the mobile module is electrically connected with the control circuit; wherein the control circuit provides a plurality of control signals to drive the moving module to move at a plurality of locations of the predetermined area.

Optionally, the server is a local server and is disposed in the predetermined area.

One of the advantages of the present application is that the humidity adjustment apparatus of the present application includes a moving module, which can move in a predetermined area. Moreover, the humidity adjusting device of the application can also carry out the air quality detection procedure in a plurality of places of the predetermined area to decide the sequence of carrying out the humidity adjusting procedure in a plurality of places, not only the user experience is effectively improved, the efficiency of the humidity adjusting procedure is also effectively improved.

For a better understanding of the nature and technical content of the present application, reference should be made to the following detailed description and accompanying drawings which are provided for purposes of illustration and description and are not intended to limit the present application.

Drawings

Fig. 1 is a schematic diagram of an intelligent management system according to an embodiment of the present application.

Fig. 2 is a schematic view of a humidity adjustment device according to an embodiment of the present application.

Fig. 3 is another schematic diagram of a humidity adjustment device according to an embodiment of the present application.

Fig. 4 is a block diagram of a humidity adjustment device according to an embodiment of the present application.

Fig. 5 is a schematic diagram of the humidity adjustment device according to the embodiment of the present application moving according to a first travel route.

Fig. 6 is a schematic diagram of the humidity adjustment device according to the second travel route in the embodiment of the present application.

Detailed Description

The following description is given of embodiments of the present application with reference to specific embodiments, and those skilled in the art will appreciate advantages and effects of the present application from the description provided herein. The present application is capable of other and different embodiments and its several details are capable of modifications and variations in various respects, all without departing from the present application. The drawings in the present application are simply illustrative, and are not drawn to scale, but are described in advance. The following embodiments will further explain the related art contents of the present application in detail, but the contents are not provided to limit the scope of the present application.

It will be understood that, although the terms "first," "second," "third," etc. may be used herein to describe various components or signals, these components or signals should not be limited by these terms. These terms are used primarily to distinguish one element from another element or from one signal to another signal. In addition, the term "or" as used herein should be taken to include any one or combination of more of the associated listed items as the case may be.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, fig. 1 is a schematic diagram of an intelligent management system according to an embodiment of the present application. Fig. 2 is a schematic view of a humidity adjustment device according to an embodiment of the present application. Fig. 3 is another schematic diagram of a humidity adjustment device according to an embodiment of the present application. Fig. 4 is a block diagram of a humidity adjustment device according to an embodiment of the present application.

Referring to fig. 1, the intelligent management system SYS1 includes a humidity adjustment device 1 and a server 2. The humidity control apparatus 1 is connected to the server 2 by communication. In the present embodiment, the humidity control apparatus 1 and the server 2 are both disposed in a predetermined Area. The predetermined Area may be a home Area, an office Area, or a public Area.

Referring to fig. 2 and 3, the humidity adjustment apparatus 1 includes a housing 10, a control module 11, a humidity adjustment module 12, a communication module 13, a power module 14, a mobile module 15, a storage module 16, a first sensor module 17, a map analysis module 18, and a second sensor module 19.

The control module 11 is electrically connected to the humidity adjustment module 12, the communication module 13, the power module 14, the moving module 15, the storage module 16, the first sensor module 17, the map analysis module 18, and the second sensor module 19. The power module 14 provides a driving power to the control module 11, the humidity adjustment module 12, the communication module 13, the moving module 15, the storage module 16, the first sensor module 17, the map analysis module 18, and the second sensor module 19. The storage module 16 stores a map data corresponding to the Area. In the present embodiment, the control module 11 is a control circuit. That is, the control module 11 may be a Central Processing Unit (CPU), an Application Specific Integrated Circuit (ASIC), a Microprocessor (MCU). The memory module 16 is a flash memory, a read only memory, a programmable read only memory, an electrically rewritable read only memory, an erasable programmable read only memory, or an electrically erasable programmable read only memory.

The control module 11, the communication module 13, the power module 14, the storage module 16 and the map analysis module 18 are all disposed inside the housing 10. The first sensor module 17 is disposed inside or outside the housing 10. The mobile module 15 is disposed on the bottom side of the housing 10.

Referring to fig. 3 and 4, the moving module 15 includes a motor 151 and a moving unit 152. The motor 151 is connected to the moving unit 152. The motor 151 receives a driving signal to drive the moving unit 152. The moving unit 152 includes various steering gears, a plurality of wheels, or a plurality of tracks, and the motor 151 is connected to the moving unit 152 so that the humidity adjusting apparatus 1 can travel in all directions.

The first sensor module 17 in this embodiment includes at least one humidity sensor 171. The humidity sensor 171 of the first sensor module 17 is electrically connected to the control module 11. The first sensor module 17 may also include a temperature sensor or an illuminance sensor. The humidity adjustment apparatus 1 may periodically transmit various environmental parameters (brightness, temperature, humidity) in the Area to the server 2, so as to continuously perform the environmental detection of the Area. In addition, the server 2 may be connected to other intelligent appliances in the Area, such as a lighting device, an audio device or an air conditioner, and adjust various environmental parameters of the Area according to various environmental parameters of the humidity adjusting device 1.

In the present embodiment, the humidity adjustment module 12 includes a humidifying unit 121 and a dehumidifying unit 122. The humidifying unit 121 includes a humidifying water tank 121A, an atomizer 121B, a humidifying pipe 121C, and a humidity supplier 121D. One end of the humidifying pipe 121C is connected to the humidifying water tank 121A. The humidity supplier 121D is disposed at the other end of the humidifying pipe 121D. The humidity provider 121D is disposed at one side of the case 10. The humidification water tank 121A stores a certain amount of moisture, and the moisture is atomized by the atomizer 121B through vibration and supplied to the air at each location through the humidification duct 121C and the humidity supplier 121D to increase humidity. The humidity provider 121D is a fan.

The dehumidifying unit 122 includes a dehumidifying fan 122A, a dehumidifying pipe 122B, a dehumidifying unit 122C and a dehumidifying water tank 122D.

The dehumidifying fan 122A is disposed at one side of the case 10. The dehumidifying fan 122A is disposed at one end of the dehumidifying duct 122B. A dehumidifying unit 122C is provided at the other end of the dehumidifying pipe 122B. The dehumidification water tank 122D is disposed at one side of the dehumidification unit 122C.

In the present embodiment, the control module 11 is connected to the atomizer 121B and the dehumidifying unit 122C. The dehumidifying unit 122C is a heat exchanger or a refrigeration chip, which is not limited in this application.

As shown in fig. 2, the humidification water tank 121A is connected to the dehumidification water tank 122D. Further, a switch unit 12S is provided between the humidification water tank 121A and the dehumidification water tank 122D. In other embodiments, the humidification water tank 121A and the dehumidification water tank 122D may not be connected to each other.

The dehumidifying unit 122 removes moisture from the air and may remain in the dehumidifying water tank 122D. Since the dehumidification water tank 122D and the humidification water tank 121A are connected to each other, the moisture of the dehumidification water tank 122D can be supplied to the humidification water tank 121A through the switching unit 12S as the moisture supplied to the air by the humidification unit 121.

The second sensor module 19 includes at least one of an infrared sensor 191 or a laser ranging sensor 192.

The second sensor module 19 may further include a gyroscope sensor, a geomagnetic sensor, an optical sensor, a weight sensor, or an image sensor. In other embodiments, a gyro sensor or a geomagnetic sensor may be used to detect whether the humidity control apparatus 1 is tilted in the casing 10 during traveling.

The laser ranging sensor 192 or the infrared sensor 191 of the second sensor module 19 is disposed outside the housing 10. In the present embodiment, the second sensor module 19 includes two laser ranging sensors 192 and two infrared sensors 191 respectively disposed on the top side and the bottom side of the housing 10. Although there are map data (two-dimensional map) and guidance of a travel route, since the humidity control apparatus 1 has a certain height, sensors are provided on the top side and the bottom side of the housing 10, respectively, to avoid obstacles having different heights in the map data.

Since the infrared sensor 191 or the laser ranging sensor 192 of the second sensor module 19 is used to measure the Area of the predetermined Area in the present embodiment, the size of the Area of the predetermined Area is recorded first. Various obstacles or furnishings in the Area are then measured. After the size of the Area is recorded, the Area can be analyzed and established. The resolution of the coordinates can be based on the minimum travel distance of the moving module 15, so that the map of the Area in the predetermined Area can be used as the basis for the movement of the humidity adjustment device. In this embodiment, the map analysis module 18 can be implemented by software, firmware or hardware. In firmware or hardware, the map analysis module 18 may be implemented using an Application Specific Integrated Circuit (ASIC). In terms of software, the map analysis module 18 may be implemented by a software program paired with the server 2 or the control module 11.

Referring to fig. 5 and 6, fig. 5 is a schematic view illustrating a humidity adjustment device according to an embodiment of the present disclosure moving along a first travel path. Fig. 6 is a schematic diagram of the humidity adjustment device according to the second travel route in the embodiment of the present application.

The control module 11 obtains a first route PATH1 according to the map data, and drives the moving module 15 to perform a humidity detection procedure on a plurality of locations L1-L9 of the Area according to the first route PATH1 and the humidity sensor 171 of the first sensor module 17, respectively, and obtain a plurality of humidity parameters of a plurality of locations L1-L9. The control module 11 performs a humidity detection process at a plurality of locations L1-L9 of the Area by using the humidity sensor 171 to obtain humidity parameters of a plurality of locations L1-L9, respectively. The sequence of the first travel route PATH1 may be set by the user or determined by analyzing the humidity control apparatus 1 based on map data of the predetermined Area. In addition, the plurality of sub-areas H1-H8 of the predetermined Area may be respectively provided with one or more locations to perform the humidity sensing process. In the present embodiment, the humidity control apparatus 1 moves from the location L1 to the locations L2-L9 sequentially to perform the humidity detection process. In this embodiment, the humidity detection procedure may further include an environmental parameter such as temperature in addition to humidity.

The humidity parameters at these locations L1-L9 are mainly based on the humidity detected by the humidity sensor 171. The humidity parameters at the multiple locations L1-L9 are arranged according to a high-low order, that is, in this embodiment, the humidity parameters are arranged from low to high to generate a first order of humidity parameters. For example, the first order of humidity parameters from low to high for the plurality of locations L1-L9 is: location L8, location L7, location L6, location L5, location L4, location L9, location L3, location L1, and location L2.

Referring to fig. 6, next, the control module 11 generates a second route PATH2 according to a first sequence (humidity parameters are arranged from low to high) of the humidity parameters of the locations L1-L9. The second route PATH2 starts from location L8, and then location L7, location L6, location L5, location L4, location L9, location L3, location L1, and location L2.

That is, the control module 11 drives the moving module 15 according to the second PATH2 to perform a humidity adjustment procedure at a plurality of points L1-L9 of the Area. As described above, humidity control apparatus 1 performs a humidity control program at each location after starting from location L8, and then proceeding from location L7, location L6, location L5, location L4, location L9, location L3, location L1, and location L2.

In the embodiment, the first travel route PATH1 and the second travel route PATH2 may be provided by the map analysis module 18, but the control module 11 transmits the map data and the plurality of locations to the server 2 for a more complicated route planning, such as a humidity adjustment procedure for more than 10 locations. The server 2 can plan and calculate the travel route of the map data and the plurality of location data, and then transmit the calculated travel route to the control module 11 of the humidity adjustment device 1. Therefore, the control module 11 can move according to the travel route provided by the server 2 and complete the humidity adjustment process.

In addition, when the control module drives the moving module 15 through the first PATH1 or the second PATH2, the humidity adjusting device is moved to the plurality of locations of the predetermined area to perform the humidity detecting procedure or the humidity adjusting procedure, the infrared sensor 191 or the laser ranging sensor 192 of the second sensor module 19 is continuously provided to the control module 11 for providing a traveling signal. The travel signal includes the distance to the obstacle and the distance change. The humidity control device 1 may determine the time to each point based on the current traveling speed of the movement module 15.

In the present embodiment, the power module 14 is disposed in the housing 10 and electrically connected to the control module 11. The power module 14 includes a battery unit 141 and a charging unit 142. The battery unit 141 provides a driving power to the control module 11, the humidity adjustment module 12, the communication module 13, the moving module 15, the storage module 16, the first sensor module 17, the map analysis module 18, and the second sensor module 19. The charging unit 142 is electrically connected to the battery unit 141.

When the battery unit 141 is lower than a predetermined electric quantity value, the control module 11 provides a low-electric-quantity driving signal and a charging route to the moving module 15 according to the map data, so that the humidity adjusting device 1 finds a charging base according to the charging route for charging.

The battery unit 141 is a lithium ion battery, a lithium manganese battery, a nickel metal hydride battery, or a lithium ion polymer battery. The charging unit 142 is a wired charging unit or a wireless charging unit. The charging base is a wired power supply base or a wireless power supply base. When the charging unit 142 is a wired charging unit, the charging unit 142 may be an ac-to-dc voltage converter or a dc-to-dc voltage converter. When the charging unit 142 is a wireless charging unit, the charging unit 142 includes a wireless charging coil. In addition, the charging unit 142 may include both a wired charging unit and a wireless charging unit, and the charging unit is adjusted and switched according to the detected type of the charging base.

In this embodiment, the humidity adjustment apparatus 1 can be communicatively connected to a mobile apparatus 9 or a server 2 through the communication module 13. That is, the user may directly transmit the coordinates of the target position to the humidity adjustment device 1 through the moving device 9, and request the humidity adjustment device 1 to move to the target position. Alternatively, the user may transmit the coordinates of the target position to the server 2 via the moving device 9, and the server 2 may transmit a movement signal to the humidity control device 1 to move the humidity control device 1 to the target position. Further, the server 2 may provide the map data to the humidity adjustment device 1. Further, the server 2 may provide more sophisticated map analysis functions. When the Area of the predetermined Area is complicated and wide, the function of analyzing the traveling route may be performed by the server 2.

In the embodiment, the mobile device 9 is a smart phone, a tablet computer, a desktop computer, a notebook computer or a wearable electronic device.

In the present embodiment, the communication module 13 includes a wired communication unit (not shown) and a wireless communication unit (not shown). A wired communication unit (not shown) may cooperate with the power module 14 to communicate with the power circuit. The wired communication unit (not shown) may also be independently configured to be in communication with the server 2, receive control signals from the server 2, or receive data from a database.

The wireless communication unit (not shown) may be a Wi-Fi communication unit, a bluetooth communication unit, a Zigbee communication unit (Zigbee), a LoRa communication unit, a Sigfox communication unit, or an NB-IoT communication unit.

[ advantageous effects of the embodiments ]

One of the advantages of the present application is that the humidity adjustment apparatus of the present application includes a moving module, which can move in a predetermined area. Moreover, the humidity adjusting device of the application can also carry out the humidity adjusting program in a plurality of places of the preset area so as to determine the sequence of carrying out the humidity adjusting program in the plurality of places, thereby not only effectively improving the user experience, but also effectively improving the efficiency of the humidity adjusting program.

The above-mentioned embodiments are only preferred and practical embodiments of the present application, and not intended to limit the scope of the claims of the present application, so that all technical equivalents and modifications made by using the contents of the specification and the drawings of the present application are included in the scope of the claims of the present application.

Claims (15)

1. A humidity adjustment device disposed in a predetermined area, comprising:

a housing;

a humidity adjustment module comprising:

a humidifying unit comprising:

a humidifying water tank;

an atomizer;

one end of the humidifying pipeline is connected with the humidifying water tank; and

the humidity provider is connected with the other end of the humidifying pipeline and arranged on one side of the shell;

a dehumidification unit comprising:

the dehumidifying fan is arranged on one side of the shell;

the dehumidification fan is arranged at one end of the dehumidification pipeline;

the dehumidification unit is arranged at the other end of the dehumidification pipeline; and

the dehumidification water tank is arranged on one side of the dehumidification unit;

the control circuit is connected with the atomizer and the dehumidification unit;

the first sensor module at least comprises a humidity sensor, and is electrically connected with the control circuit; and

the mobile module is electrically connected with the control circuit;

wherein the control circuit provides a plurality of control signals to drive the moving module to move at a plurality of locations of the predetermined area.

2. A humidity regulating device in accordance with claim 1 wherein said humidification water tank is connected to said dehumidification water tank.

3. A humidity adjusting device as claimed in claim 2, wherein a switch unit is provided between the humidifying water tank and the dehumidifying water tank.

4. A humidity conditioning unit according to claim 1, further comprising:

the map analysis module is electrically connected with the control circuit; and

and the second sensor module is electrically connected with the control circuit and at least comprises an infrared sensor or a laser ranging sensor.

5. A humidity adjustment device as in claim 4 wherein said control circuit is disposed within said housing, said first sensor module is disposed within or outside of said housing, and said moving module is disposed on a bottom side of said housing.

6. The apparatus of claim 5, wherein the moving module comprises a motor and a moving unit, the motor is connected to the moving unit, and the motor receives a driving signal to drive the moving unit.

7. The humidity adjustment device as claimed in claim 6, wherein the first sensor module further comprises a temperature sensor or an illumination sensor.

8. The humidity adjustment device as claimed in claim 7, wherein the second sensor module further comprises one of a gyroscope sensor, a geomagnetic sensor, an optical sensor, an olfactory gas sensor, a weight sensor, and an image sensor.

9. A humidity adjustment device as in claim 8 wherein when said second sensor module includes said infrared sensor or said laser ranging sensor, said infrared sensor or said laser ranging sensor is disposed outside of said housing.

10. A humidity conditioning unit according to claim 9, further comprising:

a power module disposed in the housing and electrically connected to the control circuit, the power module comprising:

the battery unit provides driving electric energy for the control circuit; and

and the charging unit is electrically connected with the battery unit.

11. The humidity adjustment device as claimed in claim 10, wherein the charging unit is a wired charging unit or a wireless charging unit.

12. The apparatus of claim 11, further comprising a communication module for communicating with a mobile device or a server.

13. The humidity adjustment device as claimed in claim 12, wherein the communication module is a Wi-Fi communication unit, a bluetooth communication unit, a zigbee communication unit, a LoRa communication unit, a Sigfox communication unit, or an NB-IoT communication unit.

14. An intelligent management system, which is arranged in a predetermined area, comprising:

a server; and

a humidity adjustment device communicatively connected to the server, wherein the humidity adjustment device comprises:

a housing;

a humidity adjustment module comprising:

a humidifying unit comprising:

a humidifying water tank;

an atomizer;

one end of the humidifying pipeline is connected with the humidifying water tank; and

the humidity provider is connected with the other end of the humidifying pipeline and arranged on one side of the shell;

a dehumidification unit comprising:

the dehumidifying fan is arranged on one side of the shell;

the dehumidification fan is arranged at one end of the dehumidification pipeline;

the dehumidification unit is arranged at the other end of the dehumidification pipeline; and

the dehumidification water tank is arranged on one side of the dehumidification unit;

the control circuit is connected with the atomizer and the dehumidifying unit;

the first sensor module at least comprises a humidity sensor, and is electrically connected with the control circuit; and

the mobile module is electrically connected with the control circuit;

wherein the control circuit provides a plurality of control signals to drive the moving module to move at a plurality of locations of the predetermined area.

15. The intelligent management system of claim 14, wherein the server is a local server disposed in the predetermined area.

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