DE202011108998U1 - Detection device for the intake air flow in space heaters - Google Patents

Abstract

Detection device (1) for the inlet air flow in space heaters, the device (1) comprising at least one flat holder, provided with at least one elongate element (8) on which at least one resistance temperature detector or NTC (10) is present, the device (1 ) is mounted in a line (2) to the air inlet in one of the devices, the device (1) being characterized in that it provides the at least one elongate element (8) inclined with respect to the main axis of the line (2) and the at least one NTC (10) is directed along the line (2) to the outlet thereof.

Description

The present invention relates to a detection device for the intake air flow in space heaters, suitable for reading the speed of the intake air into the furnace and indirectly the sucked air flow.

When setting a biomass device for space heating, it is important to know the air flow and its inlet speed. The latter data allow to obtain always optimum wood or pellet combustion, with significant advantages, such as waste reduction, emission reduction, greater efficiency, greater purity of rust (brazier), etc. Measuring the intake air instead allows to determine whether combustion takes place efficiently; otherwise, it is possible to intervene by increasing or decreasing the speed of the smoke engine (thereby changing the intake airflow) to bring the combustion back to optimal levels.

The device, which is based on the principle of "heat flow meter", consists of two resistance temperature detectors of the NTC (negative temperature coefficient), ie resistors whose value is proportional to the temperature, mounted on the same circuit board, but in different positions, so that they do not affect each other.

An NTC resistance temperature detector (hereinafter referred to simply as NTC) is used to measure only the temperature of the inlet fluid; the other NTC is driven by means of an electric current of known intensity so that it can be brought to a temperature which is greater than that of the fluid to be measured. The two NTCs are buried in the fluid with their free surface facing the wall of the inlet tube of the air drawn through the device, and the fluid cools the heated resistor in proportion to its velocity: as the flow increases, the heat released and vice versa versa.

The amount of heat given off in such cooling is detected by measuring the temperature variation in the NTC. The properties of the fluid (its pressure and temperature) significantly affect the accuracy of such a measurement and a known solution ( 10 ) to this disadvantage requires use of the NTC, which measures the temperature of the inlet fluid (temperature compensation) in the inlet pipe, and use in the firmware allows to select the operating level (pressure compensation), as far as pressure is concerned.

However, this solution has another drawback due to the dirt (ash, animal skins, etc.) which may be deposited on the resistance temperature detectors and affect the measurement.

The device is placed parallel to the flow, with the temperature sensors (NTC) being completely loaded by the fluid ( 10 ). For this reason, the dirt adheres to the sensor, thereby forming an insulating film. As a result, the heat detection by the device becomes smaller and flow values always determined by the device are not always correct.

However, with incorrect flow rates, the adjustment of combustion can not be made adequately and this causes undesirable device malfunctions.

Hence, there is a need for a solution that overcomes this serious drawback by providing an inlet airflow detection device in space heating biomass devices that does not attract debris and reliably detect inlet airflow.

Furthermore, there is a clear need to find an economical and easy-to-implement solution to introduce a product into the competitive price market.

In particular, the purpose of the present invention is to provide an inlet airflow detection device in space heaters that does not attract dirt and that reliably detects the intake airflow.

Another purpose of the present invention is to provide a device which does not affect the air flow to be measured, preventing or reducing the introduction thereof into the space heater.

Accordingly, it is an object of the present invention to provide an inlet air flow detection device in space heaters, the device comprising a flat support provided with at least one elongate member having at least one resistance temperature detector or NTC mounted thereto in a conduit to the air inlet in one of the devices, the device being characterized in that it represents the at least one elongate element inclined with respect to the major axis of the conduit and the at least one NTC is directed along the conduit to the outlet thereof, d. H. in the direction opposite to that of the inlet of the airflow.

According to the invention, the device is mounted on a conduit to the air inlet in one of the devices, the conduit having an opening for mounting a cap provided with a known execution unit, the device being mounted on the opening of the conduit by means of another cap representing at least one slot for the passage of the at least one elongate member, having a first transverse inclined wall, the cap being mounted at the opening, present in the conduit.

In addition, according to the invention, the at least one slot has a second transverse inclined wall, and parallel to the first transverse wall.

According to the invention, the device is mounted on a portion of the conduit, comprising at least one slot for the passage of the at least one elongated member, having a first transverse inclined wall, the portion of the conduit being engaged with any conduit of known design.

A further object of the invention is a method for detecting the intake air flow in space heaters, comprising the use of a detection device comprising a flat support provided with at least one elongated member on which at least one resistance temperature detector or NTC is present, the device being mounted on a Conduit for the air inlet into one of the appliances characterized by inclining the appliance with respect to the main axis of the conduit, the at least one NTC being directed along the conduit to the outlet thereof, d. H. in the direction opposite to that of the inlet of the airflow.

The present invention will now be described by way of illustration, but not limitation, according to one embodiment with reference to the accompanying drawings. Especially:

1 shows a first embodiment of the device according to the invention in a side view of a conduit to which it is attached;

2 shows a first embodiment of the device according to the invention in explosive assonometric view;

3 shows a first embodiment of the device according to the invention in a bottom view;

4 shows a first embodiment of the device according to the invention in an assonometric sectional view;

5 shows a first embodiment of the device according to the invention in a front view of a conduit to which it is attached;

6 shows a second embodiment of the device according to the invention in a front view of a conduit to which it is attached;

7 shows a second embodiment of the device according to the invention in a side view of a conduit to which it is attached;

8th shows a second embodiment of the device according to the invention in explosive assonometric view;

9 shows a second embodiment of the device according to the invention in an assonometric sectional view, and

10 shows a device according to the prior art in an assonometric sectional view.

As can be seen from the figures, the flow detection device according to the invention is indicated in the figures by the reference numeral 1 provided, rotated, so that its main plane of extension is orthogonal to the air flow, entering into the device, and inclined in relation to the movement in the line 2 to follow.

When looking at the now 10 put known pipes, used to guide air in heaters, an opening 3 at the one cap 4 is mounted with a slot 5 , suitable to the device 1 take.

Considering now the 1 . 2 . 3 . 4 and 5 becomes the device 1 mounted on a cap 6 , having two slots 7 to the passage of the arms or elongated elements 8th the device 1 to enable. The slots 7 have slightly inclined walls, so the device 1 inserted into this, can only assume a tilted position, as shown in 1 ,

Advantageously, the cap 6 on any line 2 known embodiment are mounted, such as those that are used to now on heaters.

Considering now the 6 . 7 . 8th and 9 becomes the device 1 mounted on a section of the pipe 9 having a slot 7 to allow the passage of the device 1 ,

Advantageously, the section of the line 9 engage with any conduit 2 known design, not the opening 3 represents as described above.

The resistance temperature detectors 10 or NTC are positioned on the surface of the device 1 , directed to the wall of the pipe 2 and to the interior of the heater.

This advantageously allows to avoid the flow directly to the NTCs 10 affected.

In this way, dirt that will eventually be transported together with the intake air, never the NTCs 10 If they heat up excessively, their orientation will prevent much of the dirt from being deposited on them.

The solution described in accordance with the present invention reduces the disadvantage of depositing the powder on the NTCs by tilting the device in the flow direction, representing the NTCs protected by a printed circuit board to avoid accumulation of impurities on their surface.

Advantageously, such a solution makes it possible to provide a detection device for the intake air flow in space heaters, which does not attract dirt and reliably detects the heat.

Another advantage is the ability to provide a device that does not affect the air flow to be measured, preventing or reducing its introduction into the space heater.

In summary, an intake air flow detection device is provided in space heaters, preferably comprising a flat support provided with at least one elongated member having at least one resistance temperature detector or NTC mounted therein in a conduit to the air inlet in one of the devices the device providing at least one elongated element inclined with respect to the major axis of the conduit and the at least one NTC directed along the conduit to the exit thereof, d. H. in a direction opposite to that of the inlet of the airflow.

The present invention has been described by way of illustration, not limitation, in accordance with a preferred embodiment, it being understood, however, that variations and / or modifications may be made by those skilled in the art without departing from the scope thereof as defined by the appended claims ,

Claims (4)

Detection device ( 1 ) for the intake air flow in space heaters, the device ( 1 ) comprises at least one flat support provided with at least one elongated element ( 8th ), to which at least one resistance temperature detector or NTC ( 10 ), the device ( 1 ) is mounted in a line ( 2 ) to the air inlet in one of the devices, the device ( 1 ) characterized in that it comprises the at least one elongate element ( 8th ) inclined with respect to the main axis of the line ( 2 ) and that at least one NTC ( 10 ) along the line ( 2 ) is directed to the outlet thereof. Contraption ( 1 ) according to claim 1, characterized in that it is connected to a line ( 2 ) is installed for the air inlet in such a device for ambient heating, wherein the line ( 2 ) an opening ( 3 ) for mounting a cap ( 4 ), the device ( 1 ) is mounted on the opening ( 3 ) of the line ( 2 ) by means of another cap ( 6 ), providing at least one slot ( 7 ) for the passage of the at least one elongated element ( 8th ), with a first transverse inclined wall, and in that the cap ( 6 ) is mounted in accordance with the opening ( 3 ) provided on the line ( 2 ). Contraption ( 1 ) according to claim 2, characterized in that the at least one slot ( 7 ) has a second transverse wall inclined and parallel to the first transverse wall. Contraption ( 1 ) according to claim 1, characterized in that it is installed on a line part ( 9 ), providing at least one slot ( 7 ) for the passage of the at least one elongated element ( 8th ), with a first transverse inclined wall, and in that the conduit part ( 9 ) is engaged with any line ( 2 ) known version.

Images