DK172433B1 - Ventilation device - Google Patents

Abstract

A ventilation device (9) includes an outer housing (8) which is fastened to a wall (10) and has an air intake (11) and an air outlet (12) on the side turned outwards from the room. A grate (18) which is detachably fastened to the side of the outer housing turned inwards to the room, has an intake opening (20) and an output opening (21), which forms draw passages (19) connected to the air intake (11) and the air outlet (12). An intake/output blower (14) which is installed in the drawpassages, is equipped with several sensors (23, 24, 25) on the grate, and a display section projects measurement signals and a warning display section projects in correspondence with the output signals from the calculation circuit. The intake/output blower (14) automatically works together with the warning display section.<IMAGE>

Description

in DK 172433 B1

The present invention relates to a ventilation device with various sensors and a calculation circuit installed on a fan.

A conventional ventilation device of this kind is known (see, for example, Japanese utility model application Koaki Publication No. 23031/1984) and is shown in FIG. 7, has an arrangement of several temperature sensitive elements 4 in a main unit 3 with a fan 1 and a heat exchanger 2 and shows detection values from these temperature sensitive elements 4 on a temperature display 6 attached to a front panel 5 of the main unit 3.

With a ventilation device of the above-mentioned type, there is a problem which consists in the fact that temperature display only takes place by means of temperature-sensitive elements 4, 15 and it is not possible to control automatic operation of the fan 1 except to display a warning at f. eg. performing temperature detection and passing this detection value through e.g. a computational circuit. Thus, a sufficient air conditioning effect is not achieved as a ventilation device.

The present invention was developed to solve the aforementioned problems and is intended to provide a ventilation device capable of providing a reliable air conditioning effect in warning imaging and automatic blower operation.

A ventilation device according to the invention is provided with an outer housing which is fixed to a wall and has an air inlet and an air outlet on its exterior side of the room, a grate removably attached to the interior side of the exterior 30. housing and has an intake orifice and a discharge orifice which forms draft passages associated with the air inlet and outlet, and an intake / exhaust fan installed within the draft passageways and provided with multiple sensors on the grate, a display section showing measurement signals from these sensors, a calculation circuit which processes these measurement signals, and a warning display section which provides display in accordance with output signals from the calculation circuit where the input / exhaust fan operates automatically in conjunction with the warning display section.

A ventilation device according to the invention is furthermore provided on the exterior housing side of the outer housing with an outdoor air temperature sensor and on the interior facing side with an internal air temperature sensor and a humidity sensor for which temperature assumption is provided. the room wall surface and a room dew point temperature are set according to the sensors and the calculation circuit, and where the warning display and the intake / exhaust air blower operate when the assumed value of the room wall surface temperature is lower than the room dew point temperature.

Furthermore, a pressure sensor may be attached to the grate, and 20 over a calculation circuit provides an opportunity to plot a weather forecast.

In addition, a time display function may be provided on the grid.

Furthermore, a heat exchanger may be installed within the outer housing.

Furthermore, there can only be a single calculation circuit.

The display section and the manipulation section associated with the display section may furthermore be arranged separate from the grate and at hand, i.e. in a place where it is convenient to operate and observe.

In accordance with the invention, several sensors are provided on a grate, a display section depicting measurement signals from these sensors, a calculation circuit processing these measurement signals, and a warning display section which displays in accordance with output signals from the calculation circuit , and in that the intake / exhaust fan operates automatically in conjunction with the warning display section, the intake / exhaust fan operates simultaneously with the warning display shown on the grate.

In addition, by providing an exterior air temperature sensor on the exterior housing facing side of the room and providing a room air temperature sensor and a humidity sensor on the exterior housing facing side, a room wall surface temperature assumption 15 and a room dew point temperature and and when the assumed value of the room wall surface temperature is less than the room dew point temperature, the warning display * and the intake / exhaust fan are activated and the humidity on the room wall 20 is reduced.

In addition, when installing a time display function on the grate in addition to the installation of a pressure sensor on the grate to provide a weather forecasting function with a calculation circuit, the time and the weather forecast can be easily reported.

By placing a heat exchanger in the outer housing, air intake and exhaust can be obtained without changing the temperature of the room air.

By using a single calculation circuit, the unit itself can be reduced.

By placing a display section and a control section coupled to this display section separate from the grate and by the hand, you can both easily control the unit itself and see the display.

The invention will now be explained in more detail with reference to the drawing, in which: FIG. 1A and 1B are, respectively, a front view of a display section and a cross-section in one embodiment of a ventilation device according to the invention; 2 is a configuration diagram of the ventilation device of FIG. 1, 10 FIG. 3 is a flow chart of the ventilation device of FIG.

1 / fig. 4 shows a configuration diagram showing another embodiment of the invention; FIG. 5 is a configuration diagram showing a further embodiment of the invention; FIG. 6A and 6B are a front view and a cross-section, respectively, in a further embodiment of a ventilation device according to the invention and FIG. 7 is a front view of the above-mentioned known ventilation device.

FIG. 1A, 1B to 4 show a first embodiment of the invention. In the drawing, 8 denotes an outer housing for the ventilation device 9, which housing is secured to a wall 10 and has an air inlet 11 and an air outlet 12 on its side facing outwardly from the space and having an opening 13 on its inwardly facing side of the space. 14 is an intake / exhaust fan installed in the outer housing and comprising an exhaust fan 15 disposed off the air outlet 12, and an intake fan 16 disposed off the air inlet 11 and 5 an engine 17. A grate 18 is freely attached to or is withdrawn therefrom towards the space facing the outer housing 8 and has an inlet opening 20 and an outlet opening 21 which forms trough passages in an air duct 19 connected to the air inlet 11 and the air outlet 12. 22 is a heat exchanger which is a installed in the outer housing 8. It is located in the air duct 19 where the draft passages 19a and 19b are formed and perform heat exchange without changing the air temperature in the room. 23 is an exterior air temperature 10 sensor and is located near the air inlet 11 of the outer housing 8. 24 and 25 are a room temperature sensor and a room humidity sensor respectively located in the grate 18. 26 is a calculation circuit mounted in the grate 18 and contains a switching circuit (not shown) which is supplied with measurement signals from the outside air temperature sensor 23, room temperature sensor 24 and room humidity sensor 25, and which automatically drives the intake fan 16. 27 is a pressure sensor and is located within the grate 18. 28 is a weather forecast calculation circuit. in accordance with 20, a signal from the pressure sensor 27 provides a weather forecast. 29 is a clock circuit installed in the grate 18, 30 is a pollutant gas sensor also installed on the grate 18. Referring now to FIG. 1A, where 31 represents a display section installed on the grate 25 18, and 32 is a clock display which is controlled by the clock circuit 29.

33 is a weather forecast display powered by the weather forecast calculation circuit 28. 34 is a room debris display and controlled by the mixed gas sensor 30. 35 and 36 are a room temperature display and a room humidity display, respectively, and 37 is an outdoor air temperature display.

38, 39 and 40 are warning displays showing warnings from the calculation circuit 26. Ti is room temperature, H is room humidity, Two is outdoor air temperature, and TD is room dew point temperature which is set by outdoor 35 air temperature sensor 23, room temperature sensor 24, room humidity 24 B1 density sensor 25 and calculation circuit 26. TW is room wall surface temperature.

In a ventilation device as described above, the intake / exhaust fan 14 begins to move by supplying electric current to the motor 17, and at the same time intake / exhaust is conducted through the draft passages 19 from the air intake 11 to the intake opening 20 and from the exhaust opening 21 to the air outlet 12. The display section 31, depending on the sensors and the calculation circuit 10, read out 26. More specifically, and with reference to the embodiment of FIG. 3, the air condition inside and outside the room is measured in accordance with the input values of the room temperature sensor 24, the room humidity sensor 25 and the outside air temperature sensor 23 and by the calculation circuit 26. By means of the calculation circuit 26, an assumption of room wall surface temperature TW When TW <TD, while displaying on the warning display section 40 of the display section 31, a humidity ejection warning (reduction of humidity, which is performed when the absolute humidity in the room is higher than the absolute humidity outside the room), and outside the room), a direction of intake / exhaust fan 14 will be delivered to the motor 17.

25 If, however, the outdoor air temperature To <10 ° C and room humidity H <40%, the warning display 38 will be activated. If the outdoor air temperature To> 25 ° C and the room humidity H> 60%, the warning display 39 will be activated. By means of the calculation circuit 26, which processes the sensor measurement signals, the display section 31, which responds in accordance with the signals of the calculation circuit 26, and by means of the automatic operation of the intake / exhaust fan 14 controlled by the calculation circuit 26, the dirtiness and temperature / joint are evaluated. - 7 DK 172433 B1 in a room, automatic operation becomes possible and in winter it becomes possible to prevent condensation on the wall surface 10. Furthermore, dehumidification can be carried out in a rainy season or in summer, drying of a room in winter can can be prevented, dirtiness, mite formation, mold formation and the like, and a person's comfort in a room can be maintained.

In addition, according to the invention, a weather forecast calculation circuit 28 can be installed independently of the calculation circuit 26. However, it is also possible to reduce the weight of the ventilation device 9 and miniaturize the circuit by including it in the calculation circuit 26 and thereby forming a calculation circuit as shown in FIG. 5th

15 By separate placement as shown in FIG. 6 of the display section 31 and the operating section 41, which are connected to the display section 31, one can further make the display section 31 easier to see, easier to operate and smaller in size.

With a ventilation device according to the invention designed as indicated above, the following advantages are obtained:

A ventilation device according to claim 1 is provided with an outer housing attached to a wall and has an air inlet and an outlet on the side facing into the space, a freely fixed and removable grate connected to the side facing into the space. of an outer housing, has an inlet opening and an exhaust opening and forms draft passages associated with the air inlet and outlet, and an intake / exhaust fan installed in the draft passages, is provided with multiple sensors on the grate, a display section which depicts measurement signals in accordance with these sensors , a calculation circuit which processes these measurement signals, and a warning display section, which displays 8 DK 172433 B1 images in accordance with output signals from the calculation circuit, and further works such that the intake / exhaust fan operates automatically in collaboration, the warning display section red, and can therefore assess the air display section. 5 the state of a room, automatically operate the intake / exhaust nine blower and create a suitable room environment.

A ventilation device according to claim 2 is provided on the exterior side of the outer housing with an outdoor air temperature sensor and on the side facing the space 10 with an internal air temperature sensor and a humidity sensor, a room wall surface temperature assumption and a room dew point temperature set the sensors and computational circuit and act so that the warning display and the intake / exhaust air blower operate when the assumed value of the room wall surface temperature is lower than the room dew point temperature and can therefore remove moisture from a room wall surface, can eliminate condensation and prevent dirt room wall surface from mold and the like.

In a ventilation device according to claim 3, by installing a pressure sensor on the grate to provide a weather forecasting function over a calculation circuit, the weather forecast can be immediately stated and the usefulness of the device improved.

In a ventilation device according to claim 4, by installing a time display function on the grate, the time can be immediately indicated and the usefulness of the device improved.

In a ventilation device according to claim 5, by placing a heat exchanger in the outer housing, air can be supplied without changing the temperature and the air conditions can be stabilized.

In a ventilation device according to claim 6, this can be made smaller and easier by using a single calculation circuit.

In a ventilation device according to claim 7, a display section and an operating section connected to the display section are arranged separately and by hand so that the application is facilitated and the operating efficiency is increased.

Claims (7)

10 DK 172433 B1 Patent claims: A ventilation device comprising an outer housing which is secured to a wall and having an air inlet and an air outlet on its side facing away from the room, and a grate which is removably attached to the facing side of the outer housing and which has an intake orifice and an exhaust orifice which forms draft passages associated with the air inlet and outlet, and an inlet / exhaust fan installed in the draft passages, characterized in that the ventilation device further comprises: a plurality of sensors of 15 the grating, a display section depicting measurement signals from these sensors, a computational circuit processing the measurement signals, and a warning display section depicting output signals from the computational circuit in which the input / exhaust fan operates automatically in conjunction with the warning display section. Ventilation device according to claim 1, characterized in that it is provided on the exterior side of the outer housing of an exterior air temperature sensor and on the inward facing side of an indoor air temperature sensor and a humidity sensor, where a room wall surface temperature assumption and a room wall temperature point and temperature is set according to the sensors and the calculation circuit, and the warning display and the intake / exhaust air blower operate when the assumed value of the room wall surface temperature is lower than the room dew point temperature. Ventilation device according to claim 1, characterized in that it has a pressure sensor attached to the grating, a calculation circuit and a weather prediction display function which shows the weather prediction signal of the calculation circuit. 11 DK 172433 B1 Ventilation device according to claim 1, characterized in that it further comprises a time display function provided on the grate. Ventilation device according to claim 1, characterized in that it further comprises a heat exchanger installed in the outer housing. Ventilation device according to claim 1, characterized in that it has a single calculation circuit. Ventilation device according to claim 1, characterized in that the display section and an operating section connected to the display section are located separately, whereby the operating section is located by hand. 15