FI58972C - APPARATUS TEMPERATURKAENNANDE ELEMENT FOER REGLERING AV EN VENTIL I ETT VENTILATIONSSYSTEM - Google Patents

Description

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Sweden-Sweden (SE) (72) Olov Ragnar Lennart Eriksson, Kalmar, Sweden-Sweden (SE) (7M Leitzinger Oy (5 ^) Device with temperature sensing element for valve control in a ventilation system - Apparat med temperaturkännande element för reguliering av en ventil i ett ventilationssystem

The present invention relates to a device with a temperature sensor for automatically adjusting a valve in a ventilation duct of a building.

There is considerable natural ventilation in flats and other apartments due to the fact that outside air enters, especially from windows and doors, and flows out due to the natural draft usually present in the kitchen, toilet and bathroom outlets. In a very large number of dwellings, e.g. virtually all villas have such so-called self-propelled systems.

When the outside temperature is low and especially if it is still windy, the natural draft will be strong and the resulting heat losses will be high, unless the exhaust air ducts are equipped with restricting devices that resist this unnecessary and uneconomical increase in natural draft for ventilation. However, natural traction can be limited in winter by gradually closing the valves that may be present in individual dwellings or completely. However, this method is impractical and too generous. This results in 58972 either too much or too little ventilation. The adjustment of the valve does not become economically efficient unless it is continuously adjusted, for example, according to daily weather variations.

It is known to form shut-off supply air ducts and to place a temperature sensor with a sensor in the exhaust air duct, which closes or opens the valve to a degree when the ambient air temperature changes, so that the amount of exhaust air can be adjusted to some extent. It is also known to place a temperature sensor at the outlet end of the exhaust air duct so that the outside air temperature can also influence the dimensions or shape of the sensor and its ability to close the valve at the outlet end.

However, it has been shown that conventional exhaust air restriction devices do not effectively provide energy-saving ventilation in a natural draft system. Namely, at low outside temperatures and winds, ventilation becomes much stronger than at the same low temperatures without wind. Ventilation losses in naturally ventilated houses during the cold season, ie during the heating season, account for about one third of all heat losses. Besides, the humidity of the air inside the house in cold weather tends to drop to unhealthy low values. Many find the low humidity of homes during the heating season difficult.

After the air in the house has warmed to room temperature, the initially cold air coming from the outside is formed to an uncomfortably low relative humidity. The greater the ventilation allowed in cold weather, the drier the air in the house.

A third important weather factor in addition to outside temperature and wind strength is the intensity of the radiation. For example, in strong solar radiation, the indoor temperature tends to rise. One way to avoid this is to increase the amount of exhaust air per unit time.

The above disadvantages and advantages have been substantially eliminated and correspondingly achieved with the exhaust air limiting or regulating device disclosed in Swedish Patent Publication 385 731. This device can adjust the valve in the exhaust air duct according to all significant factors, including, for example, indoor and outdoor operation. outdoor temperature, wind strength and hot and cold radiation.

The present invention is based on the principle which forms the basis of the invention according to the above-mentioned patent publication, and in particular it is possible to apply this technique also to supply air ducts, i.e. ventilation ducts which normally lead to air indoors indoors, further reducing energy generation. total cost of ownership.

In particular, it is an object of the invention to improve the device disclosed in Swedish patent 385 731 so that it is suitable for automatic supply air control and possibly both extract and supply air control, thus effectively, automatically and optimally limiting ventilation in the house, i.e. economically and physiologically acceptable regardless of outdoor temperature and wind .

Another object of the invention is to provide a low-volume, reliable automatic device which can be used to keep the supply air volume per unit time constant and which, if desired, can be used to adjust the exhaust air duct according to the above-mentioned patent.

To achieve these objects, the invention provides a device for controlling the air flow through a ventilation duct in dwellings and other buildings with a ventilation duct, the device comprising a duct, a movable valve member for controlling the air flow through the duct and a temperature sensitive body arranged to react to small temperature changes. and thus directing the valve member to either close or open the duct depending on the temperature responses of the sensor, the device having openings for directing a portion of the air flowing through the duct to contact the sensor, so that both this air and the air at as the sensor increases, the effect on the sensor is such that it tends to close the wind force of the valve member. when the outside temperature decreases and to open when the internal temperature of the valve member rises, the outside wind decreases and the outside temperature rises, the device according to the invention characterized in that the device has a housing with an inlet and an outlet, a first chamber connecting the inlet and outlet, a chamber into which the sensor is fitted and which is connected to the first chamber through an opening in the wall, and that the housing supports the valve member under the influence of the sensor in connection with the inlet or outlet of the housing.

The device according to the invention can replace or supplement previously known and simpler supply air ventilation systems and also, for example, considerably more expensive mechanical ventilation systems, possibly in combination with heat intake units, eliminating their disadvantages, but the device can also be used in exhaust air ducts. In both cases, the unit can also maintain an acceptable level of ventilation during the cold season or during the heating season, both in relation to outdoor temperature fluctuations and prevailing wind conditions, and can also maintain an acceptable level when the sun is strong and the indoor temperature rises, which is especially difficult in cold weather.

When the device is used in an exhaust air duct, it operates in essentially the same way as the device according to the above-mentioned patent publication, i.e. the exhausted part of warm exhaust air and cold outside wind simultaneously affect the sensor to varying degrees depending on wind strength and exhaust air temperature and speed. In strong winds the effect of wind temperature dominates the sensor and in weak winds the effect of warm exhaust air. In a strong, cold wind, the valve closes more than in a weak wind at the same temperature, because in the first case the partial flow of warm exhaust air cannot heat the sensor as much as in the second, in the latter case. The result is that the heating effect of the warm exhaust air on the sensor decreases with increasing wind intensity and increases with 5,58972 decreasing wind intensity, and the valve gradually closes with increasing wind intensity and gradually opens as the exhaust air and / or outside temperature rises.

However, due to its space-consuming structure, the device according to the invention is particularly useful in connection with the supply air duct. In this case, too, the airflow tends to increase as the wind force increases outside the building, and a partial current is diverted from this airflow to the sensor, which is then affected by the cold outdoor temperature depending on the wind force (wind speed), but also by indoor (room air) movements. As the wind force increases outside the building, the effect of the supply air (as the air inflow in the duct increases) with respect to the indoor temperature, and in this case part of the indoor air flow can be led away and the sensor body affected. In this case, as the wind force increases and the outdoor temperature decreases, the sensor closes the valve more and more, but the indoor air temperature and flow in contact with the sensor have the opposite direction, i.e. the valve opening direction, and possible indoor airflow. Also in this case, the most economical ventilation of the room is achieved. With a device that allows a duct pre-adjustment to bring warm indoor air into contact with the sensor and / or a pre-adjustment of the operating range of the sensor, different rooms can be adjusted in different ways and satisfy different personal needs.

Like the device according to the Swedish patent 385 731, the device according to the present invention uses a heat-sensitive bimetallic strip as a sensor, which is formed as a simple thread, but is arranged in a housing designed in a special, space-saving manner for the invention, which forms both a valve housing and a valve housing. , wherein the housing has walls in which the openings are arranged so that the air currents escape and act on the sensor body. This arrangement according to the invention provides a space-saving device which can be connected to existing ventilation ducts and which can be used for both supply air and exhaust air ducts.

When the device according to the invention is used for regulating the supply air, it can easily be connected to the inner end of an already present supply air duct, such as an outer wall to the inner end of a ventilation duct connected to or adjacent to a window. Such a channel may be a gap in the window structure or near the window in the associated outer wall. Such ducts are often located under the window sill and sometimes above the window in residential buildings and are usually equipped with a manually adjustable valve. However, it is simple to replace this valve with a device according to the invention, i.e. a valve controlled by a bimetallic element. The bimetallic element and valve are preferably housed in a low-space, elongate device housing having an inlet and an outlet arranged for connection to the slotted vent and intended to terminate or join a space within the outer wall, the low-space device housing branching from the duct - or a bypass channel extending through the chamber in which the bimetallic element is fitted and terminating in the room through openings in the wall of the bimetallic chamber. The bimetallic element is directly or indirectly associated with the valve member, which is preferably. in the form of a valve flap which regulates the flow through the main duct in the device housing, i.e. the flow between the gap in the outer wall and the inlet of the device in the space inside the outer wall.

In the following, the invention will be explained in the form of an exemplary embodiment with reference to the accompanying drawings in order to illustrate the above-mentioned features of the invention and also additional features.

Figure 1 is a horizontal sectional view and a partial plan view of a ventilation control device of the so-called spring valve type according to the invention.

Figure 2 shows the device in cross-section along the line II-II in Figure 1.

In the drawing, reference numeral 25 shows an outer wall separating the room 26 in the residential building from the outdoor air shown by reference numeral 27.

7,58972

A horizontal slot 28 is provided in the wall 25 or in the window part (i.e. in the frame or frame), for example above the window or, as shown, below the window (not shown). As can be seen from the drawing, the device according to the invention is very space-consuming and is generally indicated by reference numeral 30 and comprises a housing 31 with two chambers 32, 33. The second chamber 32 is channel-shaped and substantially equal in length to the slot 28. and said chamber is connected on the one hand to the slot 28 through the inlet slot 34 in the base plate 35 and on the other hand to the room 26 through the outlet slot 36 arranged at an angle to the inlet slot 34 in a suitable outlet direction.

The bimetallic element 37 is in the form of a simple spiral and is arranged / arranged in a chamber 33, which is separated from the chamber 32 by a pivoting sleeve 38 mounted inside the device housing 31 in a cylindrical part 31a. This part 31a of the housing 31 is provided with one or more openings 39, and the sleeve 38 is provided with an inlet slot or inlets 40 and outlets or openings 41. The inlet slot 40 connects the main chamber or channel 32 to the bimetallic chamber or channel 33, and the openings 41 communicate with the openings 39 and through these to living room 26.

The sleeve 38 can be pivoted from the handle 42, which can be accessed from the living room 26, whereby the flow area of the openings 39, 41 can be adjusted.

The other end 37a of the bimetallic element 37 is connected to the device housing 31 preferably via a device 43 which allows the angular position of the bimetallic element to be adjusted in the sleeve 38, and the other end of the bimetallic element is connected to or forms a control arm 37b arranged to act on the valve flap 44 is shown in solid lines in a fully open position and in dotted lines in a fully closed position with respect to the inlet 36 of the supply air duct 32.

In the embodiment shown, the valve flap 44 is fixed inside the device housing so that the inner edge of the flap 44 in the form of a thickening 44a is fixed to a circular seat in the device housing wall 31. In this case, the flap 44 may be of a material 58572 and arranged to form an element, whose own resilience tends to return it to the closed open position, whereby the element always remains against the bimetallic arm 37b. However, the flap 44 may also be bearing its edge thickness 44 on said seat and its own weight may be such or it may be connected to the bimetallic arm 37b so as to either open or. closes by weight or forced. Optionally, the flap 44 may be forced toward the open position by a spring (not shown).

The base plate 35 of the device housing 31 is fixed to the wall 25, for example by screws 45, and in the embodiment shown has two parallel strips 46, and at the inner edges of the opposite side walls the housing 31 has grooves running towards the strips. Due to the suitable shape of the strips 46 and the grooves running towards them, the housing 31 can be easily mounted on the base plate 35 by applying pressure against the housing to provide adhesion between the housing 31 and the base plate strips 46. If the housing 31 is a plate, the base plate may be of a resilient material, for example plastic, which facilitates the installation of the housing 31 explained above.

In general, the bimetallic element 37 need not be as long as the device housing 31. In the illustrated embodiment, the length of the bimetallic element 37 is approximately half the length of the housing 31, and the bimetallic arm 37b substantially affects the midpoint of the valve flap 44 ends.

In Figure 2, the air flow from the outside is indicated by arrows 50 and the air inflow into the room 26 is indicated by arrows 51.

Some of the supply air may flow through the chamber 33 as a partial flow 52a, but warm air may also flow from the living room through the chamber 33 as indicated by the arrows 52.

The airflows 50 to 51, 52, 52a correspond in principle to the airflows that may occur in the embodiment according to the Swedish patent 385,731.

As the wind force increases outside the wall 25, the air currents in the direction 50, 52a begin to dominate. These cold air currents act on the bimetallic element 37, causing the valve 36 to close 9 58972 depending on the amount and temperature of the air. However, warm air also flows through the bimetallic element 37 according to the flow arrows 52, in which case the bimetallic element is also affected by the indoor air temperature, whereby the valve flap .44 is in a position depending on both indoor air temperature (warm air) and outdoor air temperature and wind power. both external and internal conditions are taken into account.

Since the angles (starting position) of the passages 39, 41 and the bimetallic element 37 can be adjusted as shown, the device 30 can be easily adapted to different ventilation needs.

The device shown in the drawing is an example of a clever solution to the problem of applying the principle set out in Swedish patent 385,731, optionally to a supply air duct or an exhaust air duct. In the embodiment shown, the device is used in an apartment when the inlet slot 34 joins the ventilation duct slot 28, but the device can be placed at the outlet end of the exhaust air duct if the inlet slot 34 joins the outlet end of the exhaust air duct. Due to its simplicity and small space requirement, the structure according to the invention can be used very advantageously instead of the conventional, usually manually adjustable slit or so-called spring valves used in connection with openings in the outer walls above or below the windows.

It is advantageous to use both automatically adjusted exhaust air valves according to Swedish patent 385 731 and automatically adjusted supply air valves according to the invention in order to achieve fully automatic control of dwellings and other houses. As an automatic supply air valve, the device can be used to adjust and limit the ventilation that takes place directly through the house from the wind side to the shield side and which results in a large, previously completely unregulated energy loss when using unregulated, so-called spring valves. The invention is also applicable to ventilation systems provided by fans, which can be easily detected without special description.

In a house equipped with several controlled valves according to the invention, the valves close to a greater extent on the wind side 5 8 9 7 2 10 than on the shelter side, whereby optimal ventilation always takes place on the more favorable polish of the house, which is very advantageous.

When testing the devices according to the invention, it has been found that, acting as control devices for the supply air ducts, for example in the ventilation slots in the wall, said devices insulate sound surprisingly effectively, which otherwise penetrates the ventilation slots in the walls without obstruction. This unexpected effect is explained by the fact that the air flow turns at an angle in the housing 30 and that the housing then acts as a muffler. This sound-absorbing effect can be enhanced by making the housing from a suitable material, for example plastic.

It should also be mentioned that the automatic device according to the invention, when connected to high ventilation ducts in flats or other apartments, eliminates the general problem of conventional valves associated with providing an easily accessible control device. On the other hand, the valve members of the device can be connected to a device accessible from a standing height to close the valve member manually when it is desired to close the ventilation duct despite the bimetallic element's tendency to keep the valve member in the open position.

Furthermore, the device can be equipped with an accessory for presetting the area around which the valve flap is automatically adjusted by means of a bimetallic element. A device of the latter type may consist, for example, of one or a pair of adjustable stop responses of a bimetallic element or valve flap, or it may consist of a device 42 for adjusting the initial position (angle) of the bimetallic element to act on the valve flap.

The valve flap can also be arranged so that if the weather is cold, i.e. the outdoor temperature is relatively low, with strong, short-term temperature shocks to the valve flap, these turn the valve flap towards the closed position, even if the temperature is not so low that the bimetallic element closes the valve.

This possibility can be easily seen by looking at Figure 2. Assuming that the temperature drops, causing the bimetallic element 11 58972 to turn the valve flap closer to the outlet 36, and a strong gust of wind occurs, the air pressure against the back of the valve flap can turn the valve flap to the closed position. When the gust of wind ceases and the force of the wind decreases, the valve flap returns under the action of a spring force, which in the case shown is the resilience of the part of the valve flap material closest to the joint 44a. The flapping of the valve flap is damped by the resistance provided by the spring force.

These and other modifications for applying the device according to the invention to certain ventilation openings in the house and for certain ventilation purposes are also included within the scope of the invention, since the principle of use of the device remains the same.

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Claims (12)

An apparatus for connecting to a housing and other housing with a ventilation passage (50) and to regulate the flow of air through the ventilation passage, which apparatus comprises a duct (32, 36), a movable valve means (44) for controlling the air flow through the duct and a temperature-sensitive body (37) adapted to respond to small temperature changes and thereby actuate the valve means in the direction of closing or opening the duct depending on the temperature reactions of the sensing body, the apparatus having openings * (39, 40) in order to divert a portion (52a) of the air flowing through the duct to contact the sensing body (32), so that both this part of the air and the air at the outlet side of the duct (32, 36) is allowed to affect the sensing body, such that the impact of the sensing body increases with increasing outdoor wind strength and the sensing body is thereby impacted, so that it tends to close the valve member with increasing wind strength and decreasing external strength. temperature and open the valve means (44) with increasing indoor temperature, decreasing outdoor wind strength and increasing outdoor temperature, characterized in that the apparatus includes. a housing (30) having an inlet (34) and an outlet (36), a first chamber (32) connecting the inlets and outlets (34, 36), separated from the first chamber by a second wall (38) chamber (33), in which the sensing body (37) is arranged and which is connected to the first chamber (32) through an opening in said wall, and that the valve member (44) operable by the sensing body (37) is supported by the housing ( 30) in connection with the inlet or outlet of the house. 2. Apparatus according to claim 1, characterized in that the housing (30) is elongated and substantially tubular with end walls and a longitudinal opening arranged in one side of the housing (34) and that inside the housing at its opposite side to the inlet opposite. is arranged a tubular element (38), the interior of which forms said second chamber (33), the first chamber (32) being a space between the tubular element (38) and the inlet (34) of the housing. 3. Apparatus according to claim 2, wherein the sensing body consists of a helical bimetal element (37), characterized in that the bimetal element has approximately the same outer diameter as the inner diameter of the tubular element minus a sufficient amount to allow the required movement of bim 58 the tubular element, that one end of the bimetal element is preferably adjustably connected to the housing or to the tubular element and that the bimetal element at the other end has or is connected to a projection, which extends through the opening (40) connecting the second chamber ( 33) with the first chamber (32), forming means for actuating the valve means (44). 4. Apparatus according to claim 2 or 3, characterized in that its outlet (36) consists of a longitudinal opening in the wall (31) of the tubular housing (30) opposite the first chamber (32) and the valve member is in the form of an elongated valve flap (44) mounted on the inside of the housing and pivotable in the first chamber (32) in the direction of and from the outlet (36) for controlling the outlet throughflow area. Apparatus according to any one of claims 2-4, characterized in that the tubular element (38) and the housing (30) in a semi-cylindrical part of its wall (31) enclosing the tubular element are heated openings. (39, 41) for connecting the second chamber (33) to the outside of the housing (30), Apparatus according to claim 5, characterized in that the tubular element (38) is rotatably mounted in the housing (30) and is adjustable by means of an adjusting device (42) to allow relative adjustment of said openings (39, 41) for connection of the the second chamber to the outside of the housing, so that the passage through these openings can be closed or opened as desired. Apparatus according to any of the preceding claims, characterized in that a device for manual closing or presetting is connected to the valve means (44). 8. Apparatus according to any one of the preceding claims, characterized in that the housing (30) in the area of the inlet (34) has a mounting plate (35) which has an opening for connecting the housing to the inlet from said ventilation passage ( 50), and that the housing and plate have means (46) for detachable mounting, for example clamping, of the housing on the plate (35). 9. Apparatus according to claim 4, characterized in that the valve flap (44) has a spring-loaded articulation device and is arranged to be actuated by the sensing body against the action of the spring force. 10. Apparatus according to claim 9, characterized in that the hinge and the spring load are a flexible,