DE29605084U1 - Pressure measurement device - Google Patents

Description

&Oacgr; 6. WSiZ &Iacgr;996

Joh. Vaillant GmbH u. Co. GM 1447

The invention relates to a device for measuring pressure on a fan-assisted heating device according to the preamble of claim 1.

Fan-assisted circulating and continuous flow water heaters must be equipped with a monitoring device that monitors the function of the fan and influences the gas release. The difficulty in designing this monitoring device lies in generating a sufficient control pulse that reliably causes a control device, such as a pressure sensor, to emit a control pulse in all operating states. This is necessary in order to safely shut down the heating device if critical conditions occur. In the known devices of this type, a sensor is subjected to atmospheric pressure on the one hand and to the pressure recorded at the pressure sensor on the other.

In order to generate a sufficient control impulse in such a device, it is necessary to arrange the pressure sensor behind the fan, which, however, often leads to considerable space problems.

The aim of the invention is to avoid these disadvantages and to propose a device of the type mentioned at the outset which enables the generation of a sufficient control pulse in critical operating conditions in a simple manner, even if the pressure sensor is not placed directly downstream of the fan.

According to the invention, this is achieved in a device of the type mentioned at the outset by the characterizing features of claim 1.

The proposed measures ensure that the pressure cell is not only subjected to the dynamic pressure, but also to a negative pressure occurring downstream of the second line, which results in a higher control pulse at the pressure cell. This significantly increases the reliability of the control of the fuel supply to the burner.

The features of claim 2 result in the advantage that the two ends of the lines can be arranged very close to each other and the pressure reduction through both lines takes place practically in the same flow path.

The features of claim 3 make it possible to avoid influences on the pressure measurement due to different distances from the blower.

The features of claim 4 result in an increase in both the dynamic pressure and the negative pressure, which are recorded at one end of the two lines. This further increases the reliability of the control of the fuel supply to the burner.

The invention will now be explained in more detail with reference to the drawing.

Fig. 1 and 2 show a longitudinal and cross-sectional view through a first embodiment of the invention and

♦ ··

Fig. 3 and 4 show a longitudinal and cross-section through a second embodiment of the invention.

The same reference numerals indicate the same details in all figures.

In the embodiment according to Figures 1 and 2, a guide tube 2 is arranged in an air or exhaust line 1 connected to a fan (not shown) of a fan-assisted heating device, for example a continuous or circulating water heater, which is arranged essentially in the flow direction 13 of the air flowing through the air line 1. This guide tube 2 has an extension 3 at its upstream end.

Two lines 5, 6 are held inside the guide tube 2, which pass through the wall of a cylindrical section 4 of the guide tube 2 in the middle area and are angled parallel to the surface lines of the cylindrical section 4 of the guide tube 2. The two lines 5, 6 are angled in opposite directions and the two front openings 7, 8 are used to absorb pressure, with the opening 8 being acted upon by the dynamic pressure and the opening 7 by the negative pressure that develops on the downstream side of the line 5.

The lines 5, 6 are connected to a pressure cell 9 outside the air line 1, whereby the two lines 5, 6 are each connected to one of the chambers 11, 12 of the pressure cell 9 separated by a membrane 10.

The membrane 10 bends according to the differential pressure prevailing between the openings 7 and 8, whereby this deflection of the membrane is used either directly via a pneumatic valve! or by converting it into electrical signals via a solenoid valve to control the fuel supply to a burner (not shown).

The embodiment according to Figs. 3 and 4 differs from that according to Figs. 1 and 2 in that the ends of the lines 5, 6 are arranged in separate guide tubes 2, 2 ^1. These two guide tubes 2, 2 ¹ are arranged in a cross-sectional plane of the air line 1 and are directed with their extensions 3 against the flow direction 13.

In the guide tube 2', the end of the line 6 with its opening 8 is directed against the flow direction 13. The end of the line 5 arranged in the guide tube 2 runs in its angled area in the flow direction 13 to its opening 7, so that the latter absorbs the pressure at the downstream end of the line 5.

In the embodiment according to Fig. 2, the lines 5 and 6 are also connected to the pressure cell 9 or its two chambers 11 and 12.

Claims (1)

· Joh. Vaillant GmbH u. Co. GM 1447 CLAIM Device for measuring pressure on a fan-assisted heating device, in which a pressure sensor is arranged in an air or exhaust line (1) in the vicinity of the fan, which has an opening (8) directed essentially against the flow direction (13) and an opening (7) running essentially in the flow direction (13), the two openings (7, 8) being connected via lines (5, 6) to various chambers (11, 12) of a pressure measuring cell (9) separated from one another by a membrane (10), characterized in that the pressure sensor has two guide tubes (2, 2') running parallel to one another, essentially in the flow direction (13), for separately receiving the two openings (7, 8), the two openings (7, 8) opening essentially in a cross-sectional plane of the air or exhaust pipe (1) and the guide tubes (2, 2') being provided on the upstream side with funnel-shaped extensions (3) are provided.