EP2048439A1 - Ventilator with integrated control valve - Google Patents

Abstract

The radial fan (1) comprises a housing (2) in which a radial fan wheel is arranged, and with a regulating valve (3) for regulating the amount of gas. The regulating valve comprises a valve seat (4). The valve seat of the regulating valve is formed from a part of the housing. The valve seat is formed in the interior of the housing.

Description

The invention relates to a fan, in particular for a gas burner, for premixing of air and gas, which has a housing, and with a control valve for regulating the amount of gas, which comprises a valve seat, wherein the valve seat of the control valve is formed from a part of the housing.

State of the art

From the prior art, it is known to use in gas burners gas and air pre-mixing Gasheizgebläse, with an air ratio lambda of 1.3 is desired. For safety reasons, the provision of the gas according to a standard requirement by at least two safety valves of the classes C and B must be secured against a possible gas leakage. To ensure this safety requirement and to control the amount of gas required, gas combi regulators are commonly used which provide both the prescribed safety valves for shutting off the gas path upon termination a heat demand or flame failure of the gas burner as well as the control valve needed to control the amount of gas. The gas combi regulators are often arranged upstream of the blower as an extra assembly, with the gas combi regulator providing a connection to the blower which mixes the sucked air with the supplied gas and supplies it to the gas burner.

From the DE 101 61842 A1 a mixing device for fan-assisted gas burner is known, wherein the fan and the gas-combi controller are housed in a common housing. As a result, the advantage is achieved that the mixing of the amount of gas required for combustion takes place directly on the impeller. A disadvantage of this design, however, is that at least the gas-conducting region of the common housing must be gas-tight in accordance with the EN161 standard. Usually the casings of gas blowers are made of die cast. However, a production of a gas-tight die-cast housing is possible only with additional costly effort. Alternatively, a seal should additionally be provided for the housing, that certainly no gas can escape. Furthermore, it is disadvantageous in the construction shown that an integration of blower and gas combination controller in a housing leads to complex manufacturing and test procedures. Also in case of service, the solution disclosed by the prior art has significant disadvantages, since in case of failure of the fan, the gas combination regulator must also be replaced with. Accordingly, if the gas-combi regulator fails, the fan must also be replaced. This also leads to high costs in both cases.

From the DE 197 29 047 C1 For example, a mixing device for generating a mixture of gas and combustion air for a burner is known. Such a mixing device is further from the DE 10 2004 007 123 B3 disclosed. In the said mixing devices of the prior art, gas is introduced into a mixing chamber through which the air flow of an externally arranged blower flows. The mixing and mixing of the gas takes place either through an annular gap, or through a Venturi nozzle. The indicated Mixing devices are provided as additional components in addition to the gas burner and the blower and ensure a good mixing in the desired gas / air ratio. A disadvantage of the shown mixing devices is that for the mixing of air and gas, an additional component must be provided by means of which gas and combustion air should mix in the right proportions. For this purpose, on the one hand a large amount of space required, on the other hand, additional costs are generated by appropriate additional components, such as a mixing chamber. Also, at a large distance or a large volume up to the gas burner, a long dead time arise. Dead time in this case means the time until after a rest phase of the system the gas heater sufficient gas is supplied from the gas line.

task

The invention is therefore based on the object to provide a fan with a short dead time, which has a small size and is inexpensive to manufacture.

solution

The object is achieved by a blower with the features of claim 1. The blower according to the invention has a housing with a gas supply and a control valve for controlling the amount of gas. The control valve comprises a valve seat, which is formed from a part of the housing. This advantageously ensures that the dead time is very short until the desired amount of gas is fed in and the overall height of the overall structure is significantly reduced. The control valve itself does not have to ensure gas tightness. A safeguard against gas leakage can be ensured only by one or more safety devices outside the housing or on the outside of the housing of the blower.

In alternative embodiments of the invention, the valve seat may also be formed in the interior of the housing or on the outer surface of the housing.

It is also beneficial to use gas safety valves that meet the above-mentioned standards as a safety device against gas leakage. Depending on the design and class of the gas safety valve, one or more of these valves may be provided.

In an advantageous embodiment, the control valve may have a valve seat and a valve body. As a particularly preferred embodiment of a valve body, a valve cone can be used, which cooperates with the corresponding valve seat. The valve seat may in this case be designed, for example, as a funnel-shaped depression with a centrally arranged passage opening. To achieve the necessary tolerances, the housing is advantageously produced as a die-cast part, wherein the formation of the valve seat on the housing in the casting process, preferably without machining, is produced. Since there is no requirement for gas tightness on the valve seat, die casting quality is sufficient for the surface. Additional post-processing steps can thus be omitted.

In a preferred embodiment, the control valve has a control device, by means of which the valve body is movable relative to the valve seat. As a favorable variant, this offers a stepper motor for the control device.

As a favorable embodiment can be provided to form an inflow between the control device and the valve seat, which may have a gas outlet to the Radialgebläserad out. In the inflow space, the valve body can move axially and thus determine the degree of opening of the control valve. Due to the advantageous arrangement of the control valve with valve seat directly to the housing only very short flow paths of the gas are traversed and via the inflow space, the gas can be introduced directly to the impeller for mixing with the air.

Due to the construction of the blower according to the invention is also advantageous that the opening position of the control valve is preset in a ready position of the blower for a subsequent operating phase. When using the Blowers according to the invention in gas burners can be achieved by an optimal adjustment of the control valve, an optimization of the ignition behavior for the next start-up of the gas burner. This is particularly favorable since it can thus be ensured that the commissioning of the gas burner following the standby position takes place under optimum ignition conditions.
For gas burners with premixed blowers, this may be of particular importance, since their ignition range is much smaller than that of atmospheric burners.

In an alternative embodiment, it is also possible for the control device of the control valve to be arranged on the outside of the housing in a split tube or in an additional protective housing attached to the outside of the housing and sealed against gas leakage. The protective housing can either be formed as the housing of a die-cast or even a casting or plastic. This is a structurally simple, cost-effective and easy to maintain solution with regard to the arrangement of

Control valve provided on the housing.

In an integrated on the housing arrangement of the control valve leading to the control device electrical line is sealed against gas leakage. The sealing of the electrical cable, which is usually designed as a cable, can be ensured, for example, by a silicone encapsulation.

In the structure according to the invention is also advantageous that the control device is electronically controlled via a bus. It is particularly advantageous that the BUS gas burner for data transmission for the fan and the stepper motor is used. It is also advantageous that the control of the fan and a control or regulation of the control valve via a single circuit board is executable. The microcomputer receives the commands for the control device (stepper motor) via the BUS, whereby the electronics are controlled.

In a favorable embodiment of the invention, the control device can be fixed to the housing without additional fastening means. It is favorable that a simple assembly without additional fasteners such as screws or the like can be performed.

In the construction according to the invention, the gas supply can be arranged in a preferred embodiment directly to the gas safety valve or the gas safety valves.

Further advantages of the invention will be described in more detail below together with the description of preferred embodiments of the invention with reference to the figures. The illustrations in the attached figures are exemplary and schematic. In the figures, the same parts are provided with the same reference numerals. Furthermore, only the essential elements for understanding the invention are shown.

Show it:

• Fig. 1 a partially broken side view of the radial fan according to the invention;
• Fig. 2 a sectional view of a portion of the housing with the outside arranged protective housing;
• Fig. 3 a sectional view of a portion of the housing with arranged thereon safety device against gas leakage;
• Fig. 4 a perspective view of the control device;
• Fig. 5 a schematic representation of a controller.

In Fig. 1 a radial fan 1 for a gas burner for premixing of air and gas is shown in a partially broken side view. The housing 2 of the radial fan 1 is preferably made of die-cast and formed by two enclosing a housing interior complementary cover. Inside the housing, a radial fan wheel is arranged, which sucks in ambient air from axially arranged openings and mixes these with a gas supplied via a gas connection arranged on the housing 2. This mixture is discharged via an outlet opening 17 on the housing 2, preferably to a gas burner. The arranged on the housing 2 gas supply 9 has outside the housing 2 on a safety device 14 against gas leakage, which is designed so that all standard requirements are met and neither by the housing 2 nor by components therein must be ensured against gas leakage. To control the desired amount of gas, the radial fan 1, a control valve 3 with a valve seat 4, wherein the valve seat 4 of the control valve 3 is formed from a part of the housing 2. The valve seat 3 is thus formed as the housing 2 made of die-cast and must provide no tightness for the supplied gas. To control the desired amount of gas, a valve body 5, which is movable relative to the valve seat 4, is provided, which can be moved by means of a control device 6 and, depending on the position, regulates the inflow quantity of the gas. In the embodiment shown, the valve body 5 is designed as a valve cone and the valve seat 4 with a shape complementary to the valve cone 5 in order to make a very fine dosage of the amount of gas and especially to be able to adjust very small amounts of gas.
The control device 6 is preferably designed as a stepping motor and received between the covers of the housing 2 in a corresponding receiving space. The storage takes place here by recesses in the Dekkeln of the housing 2. To power the control device 6, an electric line 11 is provided from the interior of the housing 2 via a passage 16 to the outside. The passage 16 may be sealed. At a position of the control valve 3, in which the valve body 5 is spaced from the valve seat 4, gas flows from the gas supply 9 into the inflow 7, is sucked through a gas outlet 8 of the Radialgebläserad and mixed with the sucked air from the impeller. Preferably, the gas outlet 8 is formed as an annular gap.

Due to the fact that the control valve 3 according to the invention does not have to perform a safety function against gas leakage, it can already be set at the end of the operation of the gas burner in an optimal position for the next commissioning. The optimal position depends in particular on the Ignition behavior of the gas burner. The safety function against gas leakage is ensured exclusively by the direction indicated in the gas supply 9 safety device 14 against gas leakage.

Fig. 2 shows a cross-sectional view of a portion of the housing 2 with a protective housing 10 attached thereto on the outside. Within the protective housing 10, the control device 6 is arranged, which regulates the position of the valve body 5 to the valve seat 4. The protective housing 10 is attached to the housing 2 by means of screws 18 and sealed with gaskets 15 against gas leakage. The control device 6 is arranged in the gas path. The leading to the control device 6 electrical line 11 extends through the arranged on the protective housing 10 passage 16 ', which is also sealed against gas leakage. The valve seat 4 is formed in the embodiment shown in the interior of the housing 2, but it may also be provided to provide the valve seat 4 directly on the outer edge of the housing 2. For this purpose, it would only be necessary to shorten the connection between the control device 6 and the valve body 5. The gas outlet 8, which is also arranged in the embodiment shown in the interior of the housing, would then also provided offset on the outer edge of the housing 2 in the circumferential direction. Also in this embodiment, a tightness of the valve seat 4 is not necessary, so that the preferably made of die-cast housing ensures a sufficiently good surface. The protective housing 10 may be made of cast iron, die-cast or plastic, for example. In an alternative embodiment, it is also possible to provide, instead of a protective housing 10, parts of the control valve 3, for example the control device 6, in a split tube.

In Fig. 3 a further alternative embodiment for a formed from a part of the housing 2 valve seat 4 is shown in a sectional view. The gas supply 9 takes place directly into the housing 2, on which two arranged in series, for example, designed as a solenoid 20 securing devices 14 are provided against gas leakage after completion of the operation of the radial fan 1 completely and exclusively the protection against gas leakage take. The gas connection of the gas supply 9 via an internal and external thread or a flange. Compared to the statements according to Fig. 1 and Fig. 2 is the valve seat 4 of the control valve 3 in the embodiment according to Fig. 3 not aligned in the radial but in the axial direction of the radial impeller. In an open position of the valve body 5 relative to the valve seat 4 flows with open safety devices 14 against gas leakage gas into the inflow 7 and further through the gas outlet 8 to the Radialgebläserad. The control device 6 for regulating the control valve is provided in a protective housing 10 arranged on the outside of the housing 2. This protective housing 10 is screwed to the housing 2 and sealed against gas leakage by means of seals 15. In the embodiment shown, two safety devices 14 are provided against gas leakage. As long as the standard requirements are met, it may also suffice to provide only one such device. The safety devices 14 against gas leakage are also sealed against the housing 2 by means of seals 15 against gas leakage and secured by screws 18 to the housing 2.

In Fig. 4 is a perspective view of the control device 6 is shown on the housing 2 shown only to a small extent. To accommodate the control device 6, it is provided that the housing 2 formed from two covers has receptacles 19 into which the control device 6 can be inserted or fitted. Thus, the control device 6 without additional fastening means in the housing 2 can be fixed. The control device 6 can be held in particular by two clips, not shown, or by the corresponding counterpart of the housing 2 in the receptacle 19. The receptacle 19 preferably formed as a groove is taken into account in the manufacturing process of the associated cover of the housing 2 and thus does not have to be added afterwards.

Fig. 5 shows a schematic representation of a printed circuit board 13 with attached control device 6 and radial fan 1. The circuit board 13 receives via a bus 12, both the data for the radial fan 1 as for the control device 6. For this purpose, the circuit board 13 is divided into the parts A and B, wherein the Bereich.A is provided for the air mass flow control of the radial fan 1 and the area B for the driver of the control device 6. Thus, the control device 6 electronically via the same BUS 12 as the radial fan 1 can be controlled.

It is expressly understood that alle.verschiedenen feature elements of each embodiment can be combined with each other, as far as technically possible and there is no contradiction. So it is z. B. possible, a recording of the control device according to Fig. 1 also in an embodiment according to Fig. 3 provided.

Claims (23)

Radial fan, in particular for a gas burner for premixing air and gas, comprising a housing (2) with a radial impeller disposed therein, and a control valve (3) for regulating the amount of gas comprising a valve seat (4), the valve seat (4) 4) of the control valve (3) is formed from a part of the housing (2). Radial fan according to claim 1, characterized in that the valve seat (4) in the interior of the housing (2) is formed. Radial fan according to claim 1, characterized in that the valve seat (4) is formed on the outer edge of the housing (2). Radial fan according to at least one of the preceding claims, characterized in that the housing (2) is made of die-cast. Radial fan according to at least one of the preceding claims, characterized in that the control valve (3) has a valve body (5). Radial fan according to claim 5, characterized in that the valve body (5) is a valve cone. Radial fan according to at least one of the preceding claims, characterized in that the control valve (3) has a control device (6). Radial fan according to claim 7, characterized in that the control device (6) is a stepper motor. Radial fan according to at least one of the preceding claims, characterized in that between the control device (6) and the valve seat (4) an inflow space (7) is formed. Radial fan according to claim 9, characterized in that the inflow space (7) has a gas outlet (8) to the radial impeller. Radial fan according to claim 10, characterized in that the gas outlet (8) is designed as an annular gap. Radial fan according to at least one of the preceding claims, characterized in that the open position of the control valve (3) in a standby position of the radial fan (1) is preset for a subsequent operating phase. Radial fan according to at least one of the preceding claims, characterized in that at least parts of the control valve (3) are arranged in a split tube. Radial fan according to at least one of the preceding claims 1 - 12, characterized in that the control device (6) in an additional, outside of the housing (2) fixed and sealed against gas leakage protective housing (10) is arranged. Radial fan according to claim 14, characterized in that the protective housing (10) made of cast, die-cast or plastic can be produced. Radial fan according to at least one of the preceding claims, characterized in that an electrical line (11) to the control device (6) is sealed against gas leakage. Radial fan according to at least one of the preceding claims 7 - 16, characterized in that the control device (6) can be controlled electronically via a BUS (12). Radial fan according to at least one of the preceding claims, characterized in that its control and a control or regulation of the control valve (3) via a single circuit board (13) is executable. Radial fan according to at least one of the preceding claims 7 - 19, characterized in that the control device (6) without additional fastening means in the housing (2) can be fixed. Radial fan according to at least one of the preceding claims, characterized in that the housing (2) is formed by two enclosing a housing interior cover, between which the control device (6) is arranged. Radial fan according to at least one of the preceding claims, characterized in that at least one securing device (14) against leakage outside the housing (2) or on the outside of the housing (2) is arranged. Radial fan according to claim 21, characterized in that the at least one securing device (14) is designed to prevent gas leakage as at least one gas safety valve. Radial fan according to claim 22, characterized in that the gas supply (9) is arranged on the at least one gas safety valve (14).

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