CN111358968A - Method and device for disinfecting designated space - Google Patents

Abstract

An apparatus for disinfecting a designated space, comprising: the temperature sensing module and the heating module. The temperature sensing module is a module used for sensing the air temperature in real time and is connected with the heating module or connected with a network. The heating module is a part heated by electric heating or combustion, and can be switched on or off or/and timed according to the reading of the temperature sensing module. One feature of the present invention is sterilization by heating and sensing the temperature of the air in the space. Another feature of the present invention is that a temperature sensing module can be deployed in a particular area to ensure more satisfactory disinfection of that area. Another feature of the present invention is that the temperature sensing module and the heating module are separately deployed and may correspond to a plurality of temperature sensing modules and a plurality of heating modules. Another feature of the invention is that the sterilization can be performed in the presence of personnel, generally without toxicity on the site, and the elevated temperatures can be accommodated at least to some extent by perspiration.

Description

Method and device for disinfecting designated space

Technical Field

The invention relates to the technical field of electric appliances, in particular to a method and a device for disinfecting a designated space.

Background

Ozone can disinfect a space, but ozone has the disadvantage of being toxic above a certain level and requiring a period of time to be left idle in order to reduce toxicity. It is a feature of the present invention that the sterilization is performed by heating and detecting the temperature of the air in the space, so that the target space can be used faster than the ozone sterilization, and some bacteria or viruses can be sterilized relatively more thoroughly than the spray of sterilizing water. Another feature of the present invention is that a temperature sensing module can be deployed in a particular area to ensure more satisfactory disinfection of that area. One disadvantage of the present invention is that the temperature of the area to be disinfected is temporarily raised. Another feature of the present invention is that the temperature sensing module and the heating module are separately deployed and may correspond to a plurality of temperature sensing modules and a plurality of heating modules. Another feature of the invention is that the sterilization can be performed in the presence of personnel, generally without toxicity on the site, and the elevated temperatures can be accommodated at least to some extent by perspiration.

Disclosure of Invention

According to one aspect of the present disclosure, an apparatus for disinfecting a designated space, comprises: the temperature sensing module and the heating module.

The temperature sensing module is a module used for sensing the air temperature in real time and is connected with the heating module or connected with a network.

The heating module is a part heated by electric heating or combustion, and can be switched on or off or/and timed according to the reading of the temperature sensing module.

Preferably, the heating module can be heated by electricity or fuel.

According to one aspect of the present disclosure, a method of disinfecting a designated space, comprises:

deploying one or more of said temperature sensing modules into a designated space.

Deploying one or more of the heating modules into a designated space.

And starting the heating module and the temperature sensing module, and stopping the heating module when the temperature reading of the temperature sensing module reaches a certain condition.

Preferably, the temperature sensing module can set the whistle alarm temperature and can load the default or last set whistle alarm temperature.

Preferably, the heating module may set a temperature and may load a default or previously set temperature as a threshold or trigger condition.

Preferably, the heating module may be provided with a timing function.

Preferably, as an alternative embodiment, the heating module may record that the temperature values transmitted by the temperature sensing modules meet a certain value for a period of time before stopping heating.

Preferably, as an alternative embodiment, the heating module may be de-energized after receiving a temperature reading from one of the temperature sensing modules that exceeds a certain value.

Preferably, as an alternative embodiment, the heating module may give a prompt of the kind of power-off.

Preferably, the heating module may be provided with a speaker or a buzzer or a liquid crystal display.

Preferably, as an alternative embodiment, the heating module may be provided with a timer to specify an upper limit for the total heating time.

Preferably, each temperature sensing module may be connected to a plurality of the heating modules, and may be connected to a network.

Preferably, each temperature sensing module may send temperature readings to all heating modules currently connected at a particular time.

Preferably, as an alternative implementation, the temperature sensing module may broadcast the real-time temperature message through a UDP broadcast form.

Preferably, the heating module may be simultaneously connected to a plurality of temperature sensing modules to receive temperature information.

Preferably, as an alternative embodiment, the heating module may turn off heating after the readings of all connected temperature sensing modules reach or exceed a certain value, and after a certain time.

Preferably, as an alternative embodiment, when the heating module turns off heating, the number of the temperature sensing modules connected at the time can be displayed or/and recorded.

Preferably, as an alternative embodiment, when the indoor temperature to be heated is too high, a water container can be added to the heating module to increase the humidity of the air.

Furthermore, the water container can be placed on the water container, and an electric control time valve or an electric control water valve can be arranged to intermittently discharge water.

Preferably, as an alternative embodiment, a fan may be added to the temperature sensing module or the heating module to make the temperature in the space more quickly and uniformly transferred.

Preferably, as an alternative embodiment, when using the invention for disinfection of a not completely closed space, it is possible to ensure that the overall temperature is above a certain value by arranging several temperature sensing modules at the outlet.

Preferably, as an alternative embodiment, the temperature sensing module may have a floor stand or a stand fixed somewhere.

Preferably, as an alternative embodiment, a maximum heating time may be set for the heating module, and when heating is stopped due to the maximum heating time being reached, a warning tone may be used to prompt this.

Preferably, as an alternative embodiment, the heating module may start heating again after the temperature sensed by the temperature sensing module is less than a certain value.

Further, at this time, it can be ensured that the temperature of the heated space is stable in a certain interval at most times to at least a certain extent.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 shows a schematic representation of a layout of a heating module with a water container on the top, in a front view.

Detailed Description

The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Example 1

Step 1: and starting the temperature sensing module, wherein the temperature sensing module can search the heating module through a network to connect.

Step 2: and starting the heating module, establishing network connection with the temperature sensing module, and receiving real-time temperature data of the temperature sensing module on each connection.

And step 3: the heating module is turned on, which raises the ambient temperature and affects the ambient temperature and the readings of the temperature sensing module.

And 4, step 4: the reading of the temperature sensing module is broadcasted (or sent) to the heating module connected with each temperature sensing module according to a certain time interval, the heating module receives the temperature information and then compares the temperature information with the current temperature threshold value, if the temperature information exceeds the threshold value, timing is started, when the timing time meets a certain time, the heating module is closed, a prompt tone can be played, then the number of the connected temperature sensing modules when the heating module is closed, the reading of each temperature sensing module at the time and other information can be displayed.

The above is a specific embodiment of the present invention, but the scope of the present invention should not be limited thereto. Any changes or substitutions that can be easily made by those skilled in the art within the technical scope of the present invention are included in the protection scope of the present invention, and therefore, the protection scope of the present invention is subject to the protection scope defined by the appended claims.

Claims (5)

1. An apparatus for disinfecting a designated space, comprising: the temperature sensing module heats the module;

the temperature sensing module is a module for sensing the air temperature in real time and is connected with the heating module or connected with a network;

the heating module is a part heated by electric heating or combustion, and can be switched on or off or/and timed according to the reading of the temperature sensing module.

2. A method of disinfecting a designated space, comprising:

deploying one or more of the temperature sensing modules into a designated space;

deploying one or more of the heating modules into a designated space;

and starting the heating module and the temperature sensing module, and stopping the heating module when the temperature reading of the temperature sensing module reaches a certain condition.

3. The method of claim 2, wherein deploying one or more of the temperature sensing modules into a designated space further comprises:

the temperature sensing module can set the whistle alarm temperature and can load the default whistle alarm temperature or the whistle alarm temperature set last time.

4. The method of claim 2, wherein deploying one or more of the heating modules into a designated space further comprises:

the heating module can set temperature and load default or last set temperature as a threshold or a trigger condition;

the heating module can be provided with a timing function;

as an alternative embodiment, the heating module may record that the temperature values transmitted by the temperature sensing modules are higher than a certain value for a period of time, and then stop heating;

as an alternative embodiment, the heating module may be powered down after receiving a temperature reading from one of the temperature sensing modules that exceeds a certain value;

as an alternative embodiment, the heating module may give a prompt for the kind of power outage;

as an alternative embodiment, the heating module may have a timer to specify an upper limit for the total heating time.

5. The method of claim 2, wherein activating the heating module and the temperature sensing module, the heating module being deactivated when a temperature reading of the temperature sensing module reaches a condition, further comprising:

each temperature sensing module can be connected with a plurality of heating modules and can be in network connection;

each temperature sensing module can send temperature readings to all heating modules connected currently according to a certain specific time;

as an alternative embodiment, the temperature sensing module may broadcast the real-time temperature message in a UDP broadcast form;

the heating module can be simultaneously connected with a plurality of temperature sensing modules to receive temperature information;

as an alternative embodiment, the heating module may turn off heating after the readings of all connected temperature sensing modules reach or exceed a certain value, and after a certain time;

as an alternative embodiment, when the heating module turns off heating, the number of the temperature sensing modules connected at the time can be displayed or/and recorded.

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