CN103411254A - Moistureproof room heating system - Google Patents

Abstract

The invention relates to a moistureproof room heating system comprising a load unit, a sensor and a controller. The load unit comprises a heating unit which is mounted at a set depth position under a heating surface of a room and used for heating the surface of the room and the insides of building materials. The controller comprises a load management module, a display processing module and a sensing processing module, the sensing processing module converts output signals of the sensor into first data conforming to a set format and transmits the first data to the load management module, the load management module transmits the first data to the display processing module, load unit starting time, time of duration and room surface temperature are set in the display processing module, and the load management module controls statuses of the load unit according to output signals of the display processing module. The moistureproof room heating system has the advantage that moisture on the surface of the room and inside the building materials can be treated comprehensively.

Description

The moistureproof heating system in a kind of room

Technical field

The present invention relates to the room health field, more particularly, relate to the moistureproof heating system in a kind of room.

 

Background technology

At present, most moist rooms, such as near the place such as bathroom, shower, swimming pool, be subjected to the microbial contamination of spore to a certain extent.Dim spot on these walls, in bend, on floor is the microorganism species of spore form---mould and fungi, it not only causes damage to room outward appearance and construction material, and to these facilities of frequent use and the healthy adverse effect that causes of living in the people in these rooms.

The measure of processing mould and fungal problems in moist place can be divided into two large classes: the firstth, and the bacterium colony of elimination mould and fungi, the secondth, prevent that it from occurring, prevent that obviously the method for bacterium colony generation is even more ideal.

In prior art, the first method of processing mould and fungal problems is: the adhesiveness (referring to RU2394057 С 2, А 61K31/00, С 09D5/14,13.12.2003) that reduces the microorganism surface with the material of non-ionic surface active agent.The shortcoming of this method is to prevent that microbial spore from deeply corroding construction material, and has and much be difficult to the zone arrived and can't use the method.

In prior art, the second method of processing mould and fungal problems is: with warm-air drier, dry (referring to JP2008183283A, A47K4/00,14.08.2008) after on the surface in room, spraying saturated silver ion solution.The shortcoming of this method is to have much to be difficult to the zone arrived and can't to use this mode, also has some zones and object to get wet.

In prior art, the third method of processing mould and fungal problems is: application is by temperature control component, the air humidity sensor of the air heat exchanger with fan, Air Flow and the equipment that the adjuster of control temperature control component forms on the sensing data basis.Air Flow continues by HEPA (High efficiency particulate air Filter simultaneously, efficient air purifier) filter filters, and with ultra violet lamp (referring to US2005145109A1, F24F1/04, F24F11/00,07.07.2005).The said equipment is to be applicable to the most in of the same type.The shortcoming of this equipment is: forced ventilation has the problem of moisture to process for room construction material the inside.

 

Summary of the invention

The technical problem to be solved in the present invention is, for prior art above-mentioned can't process some in the water zone that is difficult to arrive, can not process the defect that there is the situation of moisture construction material the inside, room, provide a kind of can the overall treatment room surface and the construction material the inside the moistureproof heating system in room of the situation of moisture is arranged.

The technical solution adopted for the present invention to solve the technical problems is: construct the moistureproof heating system in a kind of room, comprise load unit, sensor and controller; Described controller connects electrical network, described load unit comprise be arranged on set depth position under the room area of heating surface, for the heat-generating units of heat rooms surface and construction material inside, described controller comprises load management module, Graphics Processing module and sensing processing module; Described sensing processing module converts the output signal of described sensor to meet the first data of setting form and described the first data are sent to described load management module to, described load management module is sent to described Graphics Processing module by described the first data, described load unit start-up time, duration and room surface temperature are set in described Graphics Processing module, described load management module is controlled the state of described load unit according to the output signal of described Graphics Processing module.

In the moistureproof heating system in room of the present invention, described Graphics Processing module comprises be used to the display that shows the first data be used to storing the memory cell of described start-up time, duration and room surface temperature.

In the moistureproof heating system in room of the present invention, described heat-generating units comprises for extend internally any one or any two or three the combination of heating cable section, the warm seat of electricity and Electric radiant Heating Film of construction material of setpoint distance of the surface of Fast Heating water and described surface, described load management module comprises the first administrative unit, and the two ends of described the first administrative unit are connected with the Graphics Processing module with described heat-generating units respectively.

In the moistureproof heating system in room of the present invention, described load unit also comprises be used to carrying out the ultraviolet radiation device of ultraviolet radiation, described load management module also comprises the second administrative unit, and described the second administrative unit is connected with the Graphics Processing module with described ultraviolet radiation device respectively.

In the moistureproof heating system in room of the present invention, described load unit also comprises be used to removing the ventilation unit of room humid air, described load management module also comprises the 3rd administrative unit, and the two ends of described the 3rd administrative unit are connected with the Graphics Processing module with described ventilation unit respectively.

In the moistureproof heating system in room of the present invention, described load unit also comprises the electromagnetic lock that is arranged on all gateways, described room, enters heating region be used to limiting people, described load management module also comprises the 4th administrative unit, and the two ends of described the 4th administrative unit are connected with the Graphics Processing module with described electromagnetic lock respectively.

In the moistureproof heating system in room of the present invention, described load unit also comprises the light alarming device that is used to indicate described heat-generating units startup and finishes, described load management module also comprises the 5th administrative unit, and the two ends of described the 5th administrative unit are connected with the Graphics Processing module with described light alarming device respectively.

In the moistureproof heating system in room of the present invention, described load unit also comprises the audible alarm unit that is used to indicate described heat-generating units startup, end and the course of work, described load management module also comprises the 6th administrative unit, and the two ends of described the 6th administrative unit are connected with the Graphics Processing module with described audible alarm unit respectively.

In the moistureproof heating system in room of the present invention, described sensor is any one or several combination arbitrarily in temperature sensor, water sensor, ultraviolet radiation sensor, human body proximity sensor and ozone sensor.

In the moistureproof heating system in room of the present invention, described heat-generating units and ventilation unit are opened simultaneously; The opening time of described electromagnetic lock is early than the opening time of described heat-generating units or ultraviolet radiation device, and it lasts longer than the duration of described heat-generating units or ultraviolet radiation device, the concluding time of described electromagnetic lock is later than the concluding time of described ultraviolet radiation device; The opening time of described light alarming device is early than the opening time of described heat-generating units or ultraviolet radiation device or electromagnetic lock, and it lasts longer than the duration of described heat-generating units or ultraviolet radiation device or electromagnetic lock; The audible alarm time of described audible alarm unit and opening time or the concluding time of described light alarming device are complementary.

Implement the moistureproof heating system in room of the present invention, has following beneficial effect: because heat-generating units is arranged on set depth position under the room area of heating surface, it is for heat rooms surface and construction material inside, the sensing processing module converts the output signal of sensor to meet the first data of setting form and send it to the load management module to, the load management module is sent to the Graphics Processing module by the first data, and load unit start-up time is set in the Graphics Processing module, duration and room surface temperature, the load management module is according to the state of the output signal of Graphics Processing module (also namely according to the concrete condition of moisture in room) control load unit, so there is the situation of moisture its energy overall treatment room surface and construction material the inside.

 

The accompanying drawing explanation

Fig. 1 is the structural representation in the moistureproof heating system embodiment in room of the present invention;

Fig. 2 is the location drawing that in described embodiment, heat-generating units may be installed;

Fig. 3 is the circuit structure diagram of three kinds of modes of the moistureproof heating system in room in described embodiment;

Fig. 4 is the circuit diagram of the moistureproof heating system in room in described embodiment.

The specific embodiment

For the ease of those of ordinary skill in the art, can understand and implement the present invention, embodiments of the present invention is further illustrated below in conjunction with accompanying drawing.

In the moistureproof heating system in room of the present invention, the structural representation of the moistureproof heating system in this room as shown in Figure 1.In Fig. 1, the moistureproof heating system in this room comprises controller 1, load unit 2 and sensor 3; Wherein, controller 1 connects electrical network, load unit 2 comprises the heat-generating units (not shown in figure 1), heat-generating units is arranged on set depth position under the room area of heating surface, for heat rooms surface and construction material inside, controller 1 comprises load management module 12, Graphics Processing module 11 and sensing processing module 13; Sensing processing module 13 converts the output signal of sensor 3 to meet the first data of setting form (form that Graphics Processing module 11 deal with data are used) and the first data are sent to load management module 12 to, load management module 12 is sent to Graphics Processing module 11 by the first data, start-up time, duration and the room surface temperature of load unit 2 are set in Graphics Processing module 11, load management module 12 is according to the state of the output signal control load unit 2 of Graphics Processing module 11.Graphics Processing module 11, load management module 12 and sensing processing module 13 have single housing.

In the present embodiment, Graphics Processing module 11 comprises display and memory cell (not shown), wherein display is for showing the first data, and memory cell is for storing above-mentioned start-up time, duration and room surface temperature.Heat-generating units comprises any one or any two or three the combination in heating cable section, the warm seat of electricity and Electric radiant Heating Film, the extend internally construction material of setpoint distance of its surface for the Fast Heating water and described surface.Fig. 2 is the location drawing that heat-generating units may be installed, in Fig. 2, at easy waters in position such as hand basin, shower cabinet, cantilever, sewer line dredging, bathtub and alcoves, time has been grown, the bacterium colony of microbial spore form easily appears in the place of these humidities, in order to prevent the bacterium colony of microbial spore form, heat-generating units can be arranged on to the inside of these surface of positions.Concrete is exactly to house level or vertical surface with heat-generating units, intersecting lens between plane, plane and object cross-stitch, Fast Heating is carried out in the place that between object and object, the water phenomenon likely occurs cross-stitch etc., for example: by one or more heating cable heating system, one or more known surface can be heated to design temperature, guarantee evaporation of water on known surface, and from surface to the place of going deep into certain distance, remove moisture in a certain time interval, can prevent the surface at wet environment like this, even from moist surface, go deep into the appearance that the bacterium colony of microbial spore form appears in certain thickness material internal.Certainly, except heating cable, the warm seat of all right electricity consumption or Electric radiant Heating Film substitute, or any two or three of heating cable, the warm seat of electricity and Electric radiant Heating Film is used in combination.

About the moistureproof heating system in this room, its structure can have three kinds of modes, and the circuit structure diagram of its three kinds of modes as shown in Figure 3.In Fig. 3, the moistureproof heating system in the room of the first frame mode comprises Graphics Processing module 11, the first load management module and load, the two ends of the first load management module are connected with load with Graphics Processing module 11 respectively, namely the first frame mode does not have sensor and sensing processing module yet, except Graphics Processing module 11, only have a load and a load management module.The moistureproof heating system in the room of the second frame mode comprises Graphics Processing module 11, the second load management module, the first load ... M load, sensor and sensor processing module, also namely the second frame mode is compared with the first frame mode, and its distinctive points is that the second frame mode comprises sensor, sensing processing module and a plurality of load.The moistureproof heating system in the room of the 3rd frame mode comprises Graphics Processing module 11, the 3rd load management module, the 3rd load, first sensor ... N sensor, the first sensing processing module ... N sensing processing module, the 3rd frame mode is compared with the second frame mode, its distinctive points is that the 3rd frame mode comprises a load, a plurality of sensor and a plurality of sensing processing module, and the 3rd structure mode kind is that a plurality of sensors are joined a load.In actual applications, as the case may be, can select any one or any two or three combination in the first frame mode, the second frame mode and the 3rd frame mode.

In the present embodiment, the moistureproof heating system in this room is selected the second frame mode, its circuit diagram as shown in Figure 4, in Fig. 4, load management module 12 comprises the first administrative unit 121, the second administrative unit 122, the 3rd administrative unit 123, the 4th administrative unit 124, the 5th administrative unit 125 and the 6th administrative unit 126, load unit 2 comprises heat-generating units 21, ultraviolet radiation device 22, ventilation unit 23, electromagnetic lock 24, light alarming device 25 and audible alarm unit 26, wherein, the two ends of the first administrative unit 121 are connected with Graphics Processing module 11 with heat-generating units 21 respectively, the second administrative unit 122 is connected with Graphics Processing module 11 with ultraviolet radiation device 22 respectively, the two ends of the 3rd administrative unit 123 are connected with Graphics Processing module 11 with ventilation unit 23 respectively, the two ends of the 4th administrative unit 124 are connected 11 with electromagnetic lock 24 with the Graphics Processing module respectively, the two ends of the 5th administrative unit 125 are connected 11 with light alarming device 25 with the Graphics Processing module respectively, the two ends of the 6th administrative unit 126 are connected with Graphics Processing module 11 with audible alarm unit 26 respectively.In the present embodiment, ultraviolet radiation device 22 in above-mentioned load unit 2 is be used to carrying out ultraviolet radiation, ventilation unit 23 is be used to removing the room humid air, electromagnetic lock 24 is arranged on all gateways, room, enters heating region be used to limiting people, light alarming device 25 is used to indicate startup and the end of heat-generating units 21, and audible alarm unit 26 is used to indicate heat-generating units 21 startups, end and the course of work.In the present embodiment, ultraviolet radiation device 22 adopts the UV lamp, and light alarming device 2 adopts warning lamp.

It is worth mentioning that, in the present embodiment, heat-generating units 21 is opened simultaneously with ventilation unit 23; The opening time of electromagnetic lock 24 is early than the opening time of heat-generating units 21 or ultraviolet radiation device 22, and it lasts longer than the duration of heat-generating units 21 or ultraviolet radiation device 22, the concluding time of electromagnetic lock 24 is later than the concluding time of ultraviolet radiation device 22; The opening time of light alarming device 25 is early than the opening time of heat-generating units 21 or ultraviolet radiation device 22 or electromagnetic lock 24, and it lasts longer than the duration of heat-generating units 21 or ultraviolet radiation device 22 or electromagnetic lock 24; The audible alarm time of audible alarm unit 26 and opening time or the concluding time of light alarming device 25 are complementary.

In the present embodiment, sensor 3 is temperature sensor 3, certainly, in other embodiments, sensor 3 also can be any one or the arbitrarily several combination in temperature sensor, water sensor, ultraviolet radiation sensor, human body proximity sensor and ozone sensor.Use Graphics Processing module 11 that startup, duration and the temperature t in the T1 time interval, the T2 time interval, the T3 time interval, the T4 time interval, the T5 time interval, the T6 time interval can manually be set, and the above-mentioned parameter arranged is stored and shown.Startup, duration and the temperature t in the T1 time interval, the T2 time interval, the T3 time interval, the T4 time interval, the T5 time interval, the T6 time interval are stored in the memory cell in Graphics Processing module 11.Wherein, the T1 time interval, the T2 time interval, the T3 time interval, the T4 time interval, the T5 time interval, the T6 time interval are respectively heat-generating units 21, ultraviolet radiation device 22, ventilation unit 23, electromagnetic lock 24, light alarming device 25 and audible alarm unit 26 continuous working periods.It is worth mentioning that, the moistureproof heating system in this room brought into operation in the start-up time in the T1 time interval.

It is worth mentioning that, controller 1 has a single mechanism near load and/or sensor and/or with them as far as possible.Controller 1, load and/or sensor can be positioned at different positions, also can be positioned at same position, in controller 1, there is certain distance the position of each module position and corresponding load and/or sensor, a single institution can be arranged, and also only load management module 12 and sensing processing module 13 have a single mechanism.Certainly, the assembling scheme of a concrete system depends on user's requirement and the characteristics in room.Such as: each module is more suitable for putting together in the little room of Area comparison (as shower room) controller 1, in the controller 1 of a larger zone (as swimming pool) each module should try one's best near they load and/or sensor and/or with them, a single institution is arranged.

In the present embodiment, specifically, possibility water or the level of drenching and/or vertical surface in damp rooms, intersection between surface and surface and the intersection position, space between the object in room, by heating one section or several sections, be arranged on one or more above-mentioned subsurface heating cables, the heating cable section was generated heat and is guaranteed that above-mentioned surface heating is to temperature t in the T1 time interval, the depth structure of setpoint distance of guaranteeing in the T1 time interval to extend internally from these surfaces and top layer is removed or transpiring moisture, thereby prevent that the bacterium colony of microbial spore form from appearring in damp rooms.It is worth mentioning that, temperature sensor 3 is arranged near heating cable, can measure temperature.In the present embodiment, above-mentioned design temperature t is 30 C, and certainly, as the case may be, design temperature can adjust accordingly, and above-mentioned setpoint distance is 50 millimeters, and certainly, as the case may be, setpoint distance can adjust accordingly.This mode can be in the situation that the unmanned area of heating surface, and therefore, temperature t can select to surpass 30 C.It is worth mentioning that, in this mode, can use high-power heating cable, the degree of depth that can attach it under the area of heating surface is the thickness of 20-30 millimeter, the building structure that it provides the surface of Fast Heating water and top layer to extend internally 50 mm depths.

In the other situation of the present embodiment, such as some place in damp rooms does not need so powerful heating, in this case, in order to save the energy and material, can make the warm seat of electricity consumption and/or Electric radiant Heating Film, make its evaporation add the water vapour of thermosetting, make it from surface and next depthkeeping position, surface, rise to the top in room and take away microbial spore.At this time bring into use ultraviolet radiation device 22 to carry out ultraviolet ray (UV) radiation.The selection of ultraviolet radiation energy and wavelength should guarantee to be enough to destroy the microorganism of spore form, forms simultaneously the energy minimum of ozone.Select the duration interval (the T2 time interval) that ultraviolet ray is irradiated to depend on the per unit emittance on surface area.

In the present embodiment, ventilation unit 23 is room ventilation systems or a simple ventilation window, can in the time interval, remove at T3 the humid air in room.The T3 time interval started simultaneously with the T1 time interval, and surface temperature has been recovered initially (before heating) state by the time, but finished while being not less than 30 C.In order to protect people to avoid surface, cross heat injury and ultraviolet radiation, in the T4 time interval, with electromagnetic lock 24, limit people and enter this zone.For safety, the time started in this T4 time interval must not be later than the time started in the T1 time interval or the T2 time interval, concluding time must be later than ultraviolet ray and irradiate (the T2 time interval) concluding time, and is no earlier than that temperature has been recovered initial (before heating) state but time of being not less than 30 C.In other words, T4 start-up time in the time interval should be early than the T1 time interval or the T2 time interval, and its duration should be longer than the T1 time interval or the T2 time interval.

In the present embodiment, cross heat injury and be subjected to ultraviolet radiation in order to protect people to avoid surface, load unit 2 also is provided with light alarming device 25.Beyond the room of appointment, light alarming device 25 work in the T5 time interval.The start-up time in the T5 time interval should be early than the T1 time interval or the T2 time interval or the T4 time interval, the duration in the T5 time interval should be longer than the T1 time interval or the T2 time interval or the T4 time interval, and the concluding time should be the same with the T3 concluding time in the time interval.Light alarming device 25 shows startup and the end of adopting the heating cable mode.

In the present embodiment, beyond the room of appointment, audible alarm unit 26 work in the T6 time interval.The audible alarm time (6 time intervals of Т) should be mated startup or the concluding time at 1 time interval of Т, 2 time intervals of Т, 3 time intervals of Т, 4 time intervals of Т and Т maximum duration interval in 5 time intervals, and its duration should be suitable.In other words, the short-term warning of sounding, beginning or the concluding time that can adopt the heating cable mode of heating, also can send for a long time sound and light alarm, show the process that this mode realizes.

In a word, in the present embodiment, the characteristics of load management module 12 are control load unit 2 states, for example, by the electric current of load in sensing lead unit 2 with by the earthmeter leakage current, in the situation that break down, load management module 12 sends corresponding information signals the power supply of disconnecting consumers immediately to Graphics Processing module 11.Then, Graphics Processing module 11 shows about the information of fault type the circulation that suspends this system and continues on its display.Therefore, load management module 12 has the function with Graphics Processing module 11 exchange messages, Graphics Processing module 11 is sent in the instruction of the T1 time interval, 2 time intervals of Т, 3 time intervals of Т, 4 time intervals of Т, 5 time intervals of Т and Т timely ON/OFF load of 6 time interval to load management module 12, load management module 12 sends about load state information to Graphics Processing module 11.The function of sensing processing module 13 is the signals that use from sensor 3 receiving sensors 3, while sending load management module 12, change into the signal format that load management module 12 is used, in order to simplify the data exchange agreement between each module in controller 1, the data format of incoming call/exhalation is identical.

Can be in Graphics Processing module 11 manual set temperature (t), according to the data of the temperature sensor 3 shown on display, the startup in the T1 time interval and duration etc. are set.The function of the first administrative unit 121 is to control the state of heat-generating units 21, at T1 supply voltage according to the signal controlling heating cable section of Graphics Processing module 11 in the time interval, sends accordingly the signal about the heating cable segment information to Graphics Processing module 11.

It is worth mentioning that, the setting of above-mentioned T1, T2, T3, T4, T5 and the T6 time interval and temperature t should be before being used this system for the first time, according to the above-mentioned time interval and carry out in conjunction with room characteristic.Some setting likely needs this system to adjust after several operation cycle again.The first administrative unit 211 is received according to the command signal of the T1 time interval to heat-generating units ON/OFF electricity from Graphics Processing module 11, from the ground evaporation side that the moisture dense distribution is arranged, when surface temperature has reached the t value, starts the T2 time interval of ultraviolet radiation.The duration in 2 time intervals of Т is depended on the power of ultraviolet radiation device 22 and the volume in illuminated room.The first administrative unit 212 modules are received according to the command signal of the T2 time interval to ultraviolet radiation device 22 ON/OFF electricity from Graphics Processing module 11.

In the present embodiment, ventilation unit 23 adopts scavenger fan, the start-up time in 3 time intervals of Т of scavenger fan work should be the same start-up time with systemic circulation, and the concluding time should be recovered initial (before heating) state but to be not less than time of 30 C the same with surface temperature t.The 3rd administrative unit 213 is received according to the command signal of the T3 time interval to ventilation unit 23 ON/OFF electricity from Graphics Processing module 11.The start-up time in the T4 time interval of electromagnetic lock 24 work should be the same start-up time with systemic circulation, and the concluding time should be the same with the T2 concluding time in the time interval.The 4th administrative unit 214 is received according to the command signal of the T4 time interval to electromagnetic lock 24 ON/OFF electricity from Graphics Processing module 11.The T5 of light alarming device 25 work start-up time in the time interval should be the same start-up time with systemic circulation, and the concluding time should be the same with the T3 concluding time in the time interval.The 5th administrative unit 215 is received according to the command signal of the T5 time interval to light alarming device 25 ON/OFF electricity from Graphics Processing module 11, controls the state of light alarming device 25.The 6th administrative unit 216 is received according to the command signal of the T6 time interval to audible alarm unit 26 ON/OFF electricity from Graphics Processing module 11.

It is worth mentioning that, in the time interval, the concluding time in the time interval that it is the longest is exactly that systemic circulation starts the concluding time at 1 time interval of Т, 2 time intervals of Т, 3 time intervals of Т, 4 time intervals of Т, 5 time intervals of Т and T6.The next one circulation of system can start at once after a upper circulation finishes.This system has solved the problem that forms the microorganism species of spore form in moist room surface and top layer extend internally the depth structure of 50 millimeters, and the degree of depth as the case may be can be different certainly.

The above embodiment has only expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. the moistureproof heating system in room, is characterized in that, comprises load unit, sensor and controller; Described controller connects electrical network, described load unit comprise be arranged on set depth position under the room area of heating surface, for the heat-generating units of heat rooms surface and construction material inside, described controller comprises load management module, Graphics Processing module and sensing processing module; Described sensing processing module converts the output signal of described sensor to meet the first data of setting form and described the first data are sent to described load management module to, described load management module is sent to described Graphics Processing module by described the first data, described load unit start-up time, duration and room surface temperature are set in described Graphics Processing module, described load management module is controlled the state of described load unit according to the output signal of described Graphics Processing module.

2. the moistureproof heating system in room according to claim 1, is characterized in that, described Graphics Processing module comprises be used to the display that shows the first data be used to storing the memory cell of described start-up time, duration and room surface temperature.

3. according to the moistureproof heating system in room claimed in claim 2, it is characterized in that, described heat-generating units comprises for extend internally any one or any two or three the combination of heating cable section, the warm seat of electricity and Electric radiant Heating Film of construction material of setpoint distance of the surface of Fast Heating water and described surface, described load management module comprises the first administrative unit, and the two ends of described the first administrative unit are connected with the Graphics Processing module with described heat-generating units respectively.

4. according to the moistureproof heating system in room claimed in claim 3, it is characterized in that, described load unit also comprises be used to carrying out the ultraviolet radiation device of ultraviolet radiation, described load management module also comprises the second administrative unit, and described the second administrative unit is connected with the Graphics Processing module with described ultraviolet radiation device respectively.

5. according to the moistureproof heating system in room claimed in claim 4, it is characterized in that, described load unit also comprises be used to removing the ventilation unit of room humid air, described load management module also comprises the 3rd administrative unit, and the two ends of described the 3rd administrative unit are connected with the Graphics Processing module with described ventilation unit respectively.

6. according to the moistureproof heating system in room claimed in claim 5, it is characterized in that, described load unit also comprises the electromagnetic lock that is arranged on all gateways, described room, enters heating region be used to limiting people, described load management module also comprises the 4th administrative unit, and the two ends of described the 4th administrative unit are connected with the Graphics Processing module with described electromagnetic lock respectively.

7. according to the moistureproof heating system in room claimed in claim 6, it is characterized in that, described load unit also comprises the light alarming device that is used to indicate described heat-generating units startup and finishes, described load management module also comprises the 5th administrative unit, and the two ends of described the 5th administrative unit are connected with the Graphics Processing module with described light alarming device respectively.

8. according to the moistureproof heating system in room claimed in claim 7, it is characterized in that, described load unit also comprises the audible alarm unit that is used to indicate described heat-generating units startup, end and the course of work, described load management module also comprises the 6th administrative unit, and the two ends of described the 6th administrative unit are connected with the Graphics Processing module with described audible alarm unit respectively.

9. according to the moistureproof heating system in the described room of claim 1 to 8 any one, it is characterized in that, described sensor is any one or the arbitrarily several combination in temperature sensor, water sensor, ultraviolet radiation sensor, human body proximity sensor and ozone sensor.

10. according to the moistureproof heating system in room claimed in claim 9, it is characterized in that, described heat-generating units and ventilation unit are opened simultaneously; The opening time of described electromagnetic lock is early than the opening time of described heat-generating units or ultraviolet radiation device, and it lasts longer than the duration of described heat-generating units or ultraviolet radiation device, the concluding time of described electromagnetic lock is later than the concluding time of described ultraviolet radiation device; The opening time of described light alarming device is early than the opening time of described heat-generating units or ultraviolet radiation device or electromagnetic lock, and it lasts longer than the duration of described heat-generating units or ultraviolet radiation device or electromagnetic lock; The audible alarm time of described audible alarm unit and opening time or the concluding time of described light alarming device are complementary.

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