DE102019109369A1 - Adapter device designed to be attached to a suction opening of a gas blower - Google Patents

Abstract

The invention relates to an adapter device (1) designed to be attached to a suction opening of a gas blower and designed for the supply of fuel gas and air to the gas blower, comprising an outer housing (2) and one extending from the outer housing (2) in one piece in the axial direction the outer housing (2) up to an outlet (5) of the adapter device (1) extending pipe section (4) which with the outer housing (2) defines two separate coaxial flow channels (6, 7) through the adapter device (1), the coaxial Flow channels (6, 7) are brought together in the region of the outlet (5) of the adapter device (1), one of the flow channels having an air inlet (8) and the other of the flow channels having a fuel gas inlet (9), and the pipe section (4) in the Area of the outlet (5) of the adapter device (1) protrudes over an axial end edge (10) of the outer housing (2) in the axial flow direction (SR) in order to, in the assembled state nd the adapter device (1) on the gas blower project into the suction opening of the gas blower.

Description

The invention relates to an adapter device designed for a fixed arrangement on a suction opening of a gas blower and designed for the supply of fuel gas and air to the gas blower.

Generic adapter devices are already known in the art. These serve as a mixing device for fuel gas and air and are attached to the suction opening of the gas blower. The fuel gas feed is fixed to the housing of the mixing device. The mixing devices currently used are assembled from several individual parts comprising a housing and pipe inserts, an annular gap being provided in the mixing device between the flow path for the air and the flow path for the fuel gas, so that the fuel gas and the air mix in the mixing device and together be fed to the gas blower. Due to the multi-part structure with pipe inserts to design the flow paths for the air and the fuel gas, seals must always be used to ensure that the fuel gas flows exclusively in the predetermined gas flow path.

The invention is therefore based on the object of providing an adapter device which can dispense with sealing the flow paths between the fuel gas and air by means of additional seals and the number of parts for connection to a gas fan is reduced.

This object is achieved by the combination of features according to patent claim 1.

According to the invention, an adapter device designed to be attached to a suction opening of a gas blower and designed for the supply of fuel gas and air to the gas blower is proposed, which an outer housing and one extending from the outer housing in one piece in the axial direction through the outer housing to an outlet of the adapter device Includes pipe section. The pipe section and the outer housing define two separate coaxial flow channels through the adapter device, the coaxial flow channels being brought together in the region of the outlet of the adapter device. One of the flow channels has an air inlet, the other of the flow channels has a fuel gas inlet. The pipe section in the area of the outlet of the adapter device protrudes over an axial end edge of the outer housing in the axial flow direction in order to protrude into the suction opening of the gas blower when the adapter device is mounted on the gas blower.

Due to the one-piece connection and design of the outer housing with the pipe section, a seal between the two components is obsolete both in the area of the inlet of air and fuel gas and in the area of the outlet of the adapter device. In addition to reducing the number of parts, it is also advantageous that incorrect assembly of seals that would otherwise be required are excluded. In addition, the adapter device can be mounted more quickly on the gas blower. At the same time, it can be achieved with the solution according to the invention that the mixture of fuel gas and air does not have to be carried out inside the adapter device, rather the pipe section separating the coaxial flow channels is lengthened in the direction of flow so that it protrudes over the axial end edge of the outer housing and thus the mixture of fuel gas and air at the intake opening. The number of parts of the pipe inserts for creating the annular gap is thus also reduced. Furthermore, this solution reduces the pressure loss and consequently increases the throughput and the heat output that can be achieved as a result of a heater connected to the gas fan.

A preferred embodiment provides that the adapter device is designed in one piece as a whole. In particular, production from plastic by injection molding is suitable, in which the outer housing and the pipe section are designed without undercuts. Another preferred embodiment provides aluminum materials which can be mapped, for example, using manufacturing processes based on the die-casting concept.

In a variant of the adapter device it is further provided that the pipe section defines the air inlet and the outer housing defines the fuel gas inlet, so that the flow channel running inside the pipe section is designed for air to flow through and the flow channel running coaxially between the outer housing and the tube section for fuel gas to flow through . The fuel gas inlet is preferably arranged on an outer jacket surface of the outer housing and forms a connection pipe in one piece on the outer housing for fastening the fuel gas connection.

In a favorable embodiment, the tube section extends uninterruptedly from the air inlet to the outlet of the adapter device. The pipe section is preferably designed to be rotationally symmetrical and guides the sucked in air over the entire axial flow length through the adapter device from the air inlet to the outlet. There is no fuel gas supply in the flow channel of the air flow within the Adapter device. Mixing only takes place after the air emerges from the pipe section at the outlet.

A further development of the adapter device is characterized in that the pipe section tapering from the air inlet to the outlet so that an axial flow cross-sectional area of the flow channel located within the pipe section is reduced towards the outlet. It is further preferred that the flow cross-sectional area of the pipe section steadily decreases in the axial flow path from the air inlet to the outlet and is smallest at the outlet. The air that is sucked in and flowing through the pipe section is thus accelerated by the adapter device and generates a negative pressure at the outlet which can be used to suck the fuel gas out of the flow channel for the fuel gas that coaxially surrounds the pipe section. Since the outlet of the adapter device rests against the suction opening of the gas blower, the fuel gas is drawn in indirectly via the negative pressure described and also directly by the gas blower. The negative pressure can be determined via the flow cross-sectional area of the pipe section at the outlet.

In a further embodiment of the adapter device, the outer housing has an inner diameter that increases towards the outlet, seen in the axial flow direction, so that an axial flow cross-sectional area of the flow channel for the fuel gas between the pipe section and the outer housing increases towards the outlet. In this case, it is particularly advantageous if the flow cross-sectional area of the flow channel for the fuel gas located between the pipe section and the outer housing increases towards the outlet. If the pipe section is simultaneously reduced in the flow cross-section towards the outlet, the outer housing and the pipe section run apart in the radial direction along their axial flow direction.

The adapter device is mounted on the gas blower. A preferred embodiment of the adapter device therefore provides that fastening means for fastening it to the gas fan are provided on the axial end edge of the outer housing. In particular, a flange can also be formed on the axial end edge via which the adapter device is screwed to the gas blower. The fastening means cooperating in each case on the gas blower and the adapter device are arranged in the circumferential direction relative to one another in such a way that the adapter device can be mounted on the gas blower in various rotational positions. The gas connection can thus be aligned in different circumferential directions and the adapter device is suitable for different installation positions.

A further development of the adapter device is also characterized in that an opening is provided on an outer jacket surface of the outer housing, which creates a pressure connection to the flow channel between the outer housing and the pipe section. A pin projecting from the outer jacket surface of the outer housing is preferably formed at the opening, onto which, for example, a hose can be plugged for taking pressure off and checking the pressure in the flow channel of the fuel gas.

The invention further comprises a gas blower with a blower housing, a motor and a blower wheel, the blower housing having an intake opening and a blow-out opening and the adapter device described above with the outer housing can be attached to the intake opening in such a way that the pipe section protrudes into the intake opening of the gas blower. The fuel gas is combined with the air in the area of the intake opening of the gas blower, so that the components determining the intake opening of the gas blower are also used to design a nozzle that forms an inlet gap for the fuel gas. A further development here provides that an inlet nozzle is additionally provided on the suction opening itself, which together with an outer jacket surface of the pipe section forms the inflow gap for the fuel gas in the area of the suction opening. The inlet nozzle reduces the cross-sectional area through which the flow can flow in the area of the suction opening. The adapter device is fastened with its axial end edge of the outer housing to the gas blower or the inlet nozzle of the gas blower so that the protruding pipe section and the inlet nozzle run in an axial plane. The mixture of fuel gas and sucked air takes place when entering the suction opening.

The gas blower is further characterized in that a carrier plate is attached to the adapter device to hold at least one gas valve securely so that the at least one gas valve can be fixed to the adapter device and thus to the gas blower via the carrier plate. This embodiment ensures that the gas blower with the adapter device and the gas valve or the gas valves can be installed and distributed as a structural unit.

• 1 eine Seitenansicht einer Ausführung einer Adaptervorrichtung;
• 2 eine Ansicht im Radialschnitt B-B durch die axiale Mitte der Adaptervorrichtung aus 1,
• 3 eine Ansicht im Axialschnitt A-A der Adaptervorrichtung aus 1,
• 4 die Detailansicht Z aus 3;
• 5 eine Gesamtansicht eines Gasgebläses im Schnitt;
• 6 eine Gesamtansicht eines Gasgebläses in perspektivischer Ansicht.

Other advantageous developments of the invention are characterized in the subclaims or are described below together with the description of the preferred embodiment of the Invention illustrated in more detail with reference to the figures. Show it:

• 1 a side view of an embodiment of an adapter device;
• 2 a view in radial section BB through the axial center of the adapter device 1 ,
• 3 a view in axial section AA the adapter device 1 ,
• 4th the detail view Z from 3 ;
• 5 an overall view of a gas blower in section;
• 6th an overall view of a gas blower in a perspective view.

The 1-3 show an embodiment of the one-piece adapter device 1 with the outer case 2 showing the axial air inlet 8th and the radial fuel gas inlet 9 by means of the nozzle 3 having. Inside the outer case 2 is in one piece that extends in the axial direction through the outer housing 2 up to the outlet 5 the adapter device 1 extending pipe section 4th formed through which the air inlet 8th from the fuel gas inlet 9 is separated. The pipe section 4th forms together with the outer housing 2 the two separate coaxial flow channels 6th , 7th through the adapter device 1 , the one between the outer casing 2 and the pipe section 4th lying flow channel 7th the flow path for the fuel gas and that within the pipe section 4th lying flow channel 6th provides the flow path for the sucked in air. Through the continuous, uninterrupted pipe section 4th the two media air and fuel gas flow in the coaxial flow channels 6th , 7th through the entire adapter device 1 separated before they are in the area of the outlet 5 the adapter device 1 be merged. The flow channel 7th for the fuel gas is shorter and ends at the axial front edge 10 of the outer housing, which through the flange plate 19th is formed. The pipe section 4th is in the area of the outlet when viewed in the axial flow direction SR 5 over a length L over the axial front edge 10 the flange plate 19th of the outer housing 2 around the section 14th in the assembled state of the adapter device 1 on the gas blower 50 into the suction opening 54 of the gas blower 50 protrude into it as it does in 5 is shown. The merging of the flows of fuel gas and air takes place in the area of the suction opening, ie at the outlet of the adapter device 1 .

Referring to 2 it is easy to see that the pipe section 4th from the area of the air inlet 8th to the outlet 5 the adapter device 1 is designed to taper so that the axial flow cross-sectional area of the inside the pipe section 4th lying flow channel 6th to the outlet 5 reduced towards. In the first quarter of the axial extension of the adapter device 1 forms the flow channel 6th a step 20th , then the flow cross-sectional area of the inside the pipe section is reduced 4th lying flow channel 6th to the outlet 5 steadily further. At the outlet 5 is the flow cross-sectional area of the pipe section 4th least. The flow channel is against it 7th between the pipe section 4th and the outer case 2 constructed in exactly the opposite way, namely in such a way that the inner diameter of the outer housing 2 seen in the axial flow direction SR to the outlet 5 steadily increased. The flow cross-sectional area of the between the pipe section 4th and the outer case 2 lying flow channel 7th enlarges towards the outlet 5 through both the widening shape of the outer housing 2 and the tapered shape of the pipe section 4th .

The adapter device 1 is made as a whole in one piece from plastic by injection molding and has no undercuts.

Referring to the 3 and 4th shows a detailed view Z the opening 11 on the outer surface of the outer housing 2 . The protruding pin is in one piece on the jacket surface 12 formed with the opening 11 is in flow connection, so that a direct connection to the flow channel 7th between the pipe section 4th and the outer housing 2 is guaranteed. On the peg 12 For example, a hose can be attached via which the pressure in the flow channel 7th is tapped.

5 shows the adapter device 1 which by means of screws over the flange plate 19th on the gas blower 50 is mounted. The gas blower 50 includes the engine 52 which is the one in the fan housing 51 positioned impeller 53 drives. About the rotation of the fan wheel 53 are through the suction opening 54 Fuel gas and air from the adapter device 1 sucked in and in the area of the suction opening 54 mixed. In the nozzle 3 the adapter device 1 is the gas supply 90 connected. On the fan housing 51 is in the suction opening 54 the inlet nozzle 56 built in, the flow cross-section to the fan wheel 53 reduced towards and together with the outer surface of the pipe section 4th in the area of the suction opening 54 the inflow gap 57 forms for the fuel gas. The inlet nozzle 56 lies directly on the axial face 10 the adapter device 1 and reduces the cross-sectional area of the flow following the outer flow channel 7th parallel to the previous section 14th of the pipe section 4th . The previous section 14th of the pipe section 4th protrudes into the suction opening 54 and works with the inlet nozzle 57 together to next to the suction via the fan wheel 53 a negative pressure for the defined supply of the fuel gas via the inflow gap 57 to guarantee.

6th shows the compact design of the gas blower in a perspective view 50 with at the suction opening 54 attached adapter device 1 . The screw connection of the adapter device 1 on the fan housing 51 can be used at the same time as a carrier plate 60 provide with the two gas valves 61 being held. The carrier plate 60 can also be aligned vertically or can be supplemented by another plate, which is with the flange plate 19th is in communication and on the fan housing 51 is attached. Two gas valves are shown by way of example 61 , but the number can be adapted to the desired application.

Claims (15)

Adapter device (1) designed to be attached to a suction opening of a gas blower and designed for the supply of fuel gas and air to the gas blower, comprising an outer housing (2) and one from the outer housing (2) in one piece in the axial direction through the outer housing (2 ) up to an outlet (5) of the adapter device (1) extending pipe section (4) which, together with the outer housing (2), defines two separate coaxial flow channels (6, 7) through the adapter device (1), the coaxial flow channels (6, 7) are brought together in the area of the outlet (5) of the adapter device (1), one of the flow channels having an air inlet (8) and the other of the flow channels having a fuel gas inlet (9), and the pipe section (4) in the area of the outlet ( 5) the adapter device (1) protrudes over an axial end edge (10) of the outer housing (2) in the axial flow direction (SR) in order to allow the adapter device (1 ) protrude on the gas blower into the suction opening of the gas blower. Adapter device according to Claim 1 , characterized in that it is formed in one piece. Adapter device according to Claim 1 or 2 , characterized in that the pipe section (4) defines the air inlet (8) and the outer housing (2) defines the fuel gas inlet (9), so that the flow channel (6) running inside the pipe section (4) allows air to flow through and the duct coaxially between the outer housing (2) and the pipe section (4) running flow channel (7) are formed for the flow of fuel gas. Adapter device according to one of the preceding claims, characterized in that the pipe section (4) extends uninterruptedly from the air inlet (8) to the outlet (5) of the adapter device. Adapter device according to one of the preceding claims, characterized in that the pipe section (4) is conically tapered from the air inlet (8) to the outlet (5), so that a cross-sectional flow area of the flow channel (6) lying within the pipe section (4) reduced towards the outlet (5). Adapter device according to the preceding claim, characterized in that the flow cross-sectional area of the pipe section (4) continuously decreases in the axial flow path from the air inlet (8) to the outlet (5) and is smallest at the outlet (5). Adapter device according to one of the preceding claims, characterized in that the outer housing (2), seen in the axial flow direction (SR), has an inner diameter which increases towards the outlet (5), so that a flow cross-sectional area of the between the pipe section (4) and the Outer housing (2) lying flow channel (7) towards the outlet (5) enlarged. Adapter device according to the previous claim, characterized in that the flow cross-sectional area of the flow channel (7) lying between the pipe section (4) and the outer housing (2) increases towards the outlet (5). Adapter device according to one of the preceding claims, characterized in that fastening means for fastening the adapter device (1) to the gas blower are provided on the axial end edge (10) of the outer housing (2). Adapter device according to one of the preceding claims, characterized in that it is made of plastic and the outer housing (2) and the pipe section (4) are designed without undercuts. .Adapter device according to one of the preceding claims, characterized in that an opening (11) is provided on an outer jacket surface of the outer housing (2) which provides a pressure connection to the flow channel (7) between the outer housing (2) and the pipe section (4). manufactures. Adapter device according to the preceding claim, characterized in that at the opening (11) one of the outer circumferential surface of the Outer housing (2) protruding pin (12) is formed. Gas blower (50) with a blower housing (51), a motor (52) and a blower wheel (53), the blower housing (51) having a suction opening (54) and a blow-out opening and the adapter device (1) at the suction opening (54) according to one of the preceding claims is fastened to the outer housing (2) and the pipe section (4) projects into the suction opening (54) of the gas blower (50). Gas blower according to the previous claim, characterized in that an inlet nozzle (56) is provided on the suction opening (54), which together with an outer surface of the pipe section (4) forms an inflow gap (57) in the area of the suction opening (54). Gas blower according to one of the preceding two claims, characterized in that a carrier plate (60) is fastened to the adapter device (1) for fastening at least one gas valve (61) so that the at least one gas valve (61) is attached to the carrier plate via the Adapter device (1) and thus attachable to the gas blower (50).

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