DE102016202126A1 - heater - Google Patents

Abstract

The invention relates to a heater 1 with a fan 3 for supplying combustion air to a burner 5, with an intake system 6, which is arranged upstream of the blower for guiding the combustion air. The intake system 6 comprises an intake system outer housing 7 with a flow channel 8 arranged therein. According to the invention, the intake system outer housing 7 is divided and has a cavity 9 in which the flow channel 8 can be shaped differently with air guiding elements 15, through which the combustion air flows the blower 3 is feasible.

Description

 The invention relates to a heater for heating a heat transfer medium for heating a building or for providing hot water based on the combustion of a fuel.

From the patent application DE 10 2006 036 471 A1 For example, a generic heater with an intake manifold comprising an intake manifold is known upstream of the combustion air blower. Intake pipes are basically known in order to acoustically detune the combustion system and thus reduce the noise emissions. It is proposed to improve the effect of the intake pipe by introducing sharp-edged deflections, holes and elastic materials in the intake manifold.

 Like all fixed-size intake pipes, this intake pipe also has the disadvantage of exhibiting its best effect in a restricted range of operating parameters. Therefore, in each case sets of several intake pipes are usually kept ready for certain heaters, with which the intake system can be acoustically adjusted by replacing the intake pipe according to the boundary conditions. In addition, the intake pipe is basically to be provided as an additional component and increases the complexity and cost of the heater.

 It is therefore an object of the invention to provide a heater with an intake system which avoids the aforementioned disadvantages.

 This object is achieved according to the features of claim 1, characterized in that the intake system has a split outer housing in which a cavity is provided. In this cavity can be configured with air guide elements, a flow channel. By adding and removing the air vanes or by changing the positions, flow channels of different lengths can be easily configured without parts needing to be completely replaced. This allows the heater to be preconfigured for specific applications. During commissioning, the specialist tradesman can adapt to the actual installation environment without having to use a new intake pipe.

 In one embodiment, the outer housing is made of foam material, preferably EPP. Likewise, in one embodiment, the air guiding elements are made of foam material, preferably of EPP.

Particularly preferably, the intake system outer housing is integrally formed with a fixation for at least one unit of the heating system or connected to such a fixation, in the fixation of an aggregate form-fitting inserted and thus can be fixed, without being screwed for example with the recording. Such recordings are known from the patent application DE 10 2014 225 548.1 , Herein a heater is described with insulating means in which the individual units of the heater are inserted so that the units are positively fixed by the insulating means. According to the invention in the present invention, therefore, the intake system is formed directly by the insulating means, wherein the insulating means is the outer casing of the intake system, which encloses the cavity.

 The inserted units are at least the fuel gas-air mixing device and / or the fan for supplying the combustion air to the burner.

 Preferably, the intake system is designed so that the heat loss of the pump is used to promote a heat transfer medium for preheating the combustion air by being passed past the pump and so absorbs the heat loss.

 The air guide elements can be positively inserted into the cavity, clamped non-positively or materially connected by gluing or welding.

 The invention will now be explained in detail with reference to FIGS.

They show:

1 a suction system according to the invention with an opened outer housing,

2 a suction system according to the invention with closed outer casing,

3 : an inventive extraction system with air guide elements,

4 an inventive heater with exhaust system,

5 the cavity of an extraction system according to the invention,

6 : the cavity of an extraction system according to the invention with air guide elements,

7 : an inventive exhaust system with damper.

1 represents an inventive extraction system with open and 2 with closed Outer housing dar. The extraction system consists of a suction system outer housing 7 , which is made in two parts and by a parting line 14 shared. Substantially in the parting plane, the extraction system outer housing 7 a cavity 9 on, a flow channel 8th forms. In this example, the flow channel 8th not completely provided in the parting plane. According to the invention, it is sufficient if a part of the cavity 9 lies in the parting plane to there air guiding elements 15 (in 3 shown) to bring. In 1 is also in the intake system outer housing 7 the fuel gas-air mixing device 4 and the fan 3 fixed. For this purpose, the intake system outer housing 7 fixations 16 for example in the form of pockets, recesses or holders, in which the units are fixed in a form-fitting manner. In the example shown here, the intake system outer housing 7 the fuel gas-air mixing device 4 enclose sealing in the area of the air inlet to an exclusive air flow through the cavity 9 or the flow channel 8th sure.

In the 3 to 5 is shown as in the invention according to the invention 9 the intake system outer casing 7 the flow channel 8th is formed. The intake system outer housing sees this 7 Recordings 10 before, with which the air guide elements 15 in the cavity 9 can be attached. This can, as in the example in 3 shown, form-fitting. It is also possible, the air guide elements 15 frictionally between the housing halves of the intake system outer housing 7 clamp or connect by gluing or welding cohesively. 4 and 5 show two variants in which with air guide elements 15 in the cavity 9 a flow channel 8th is formed. The illustration corresponds to a plan view of FIG 1 shown variant. Between the housing halves of the intake system outer housing is a G-shaped cavity 9 educated. In the example in 4 is a total of a short flow channel 8th educated. In the example in 5 is with air guiding elements 15 a meandering flow channel 8th trained, which is longer. By selecting different air guide elements at different positions, the length of the flow channel 8th be adjusted according to the invention easily and without replacing a suction pipe to the desired values.

6 represents a heater according to the invention with the intake system according to the invention 6 In this heater are aggregates such as the burner 5 and the pump 17 , with the one from the burner 5 heated heat transfer medium is circulated in fixations of the insulation 11 fixed in a form-fitting manner. To the fixations will open 1 directed. For safety reasons, fan assisted heaters have a vacuum chamber formed by the outside air not directly to the fan 3 is fed, but first into the interior of the housing is passed and then from the blower 3 is sucked. This creates a vacuum in the entire housing 2 of the heater 1 ensured that no gas from the heater 1 can escape to the outside. In 6 gets the air through an air supply 19 through a channel in the insulation 11 in the through the housing 2 enclosed heater 1 directed. The air flows through channels 18 the pump 17 and absorbs their heat loss. Subsequently, the air flows due to the blower 3 produced pressure gradient through the flow channel 8th in the intake system outer housing in the manner described above by the fuel gas-air mixing device 4 where it is mixed with fuel gas, and by the blower 3 in the burner 5 , In this case, the intake system outer housing 7 integral with the insulation 11 be executed, be directly connected to this or connected indirectly via brackets with this.

7 put that in 4 described intake system in which an additional damper 12 is provided. This damper 12 may consist of a porous material, a flow or a sintered body. Through the damper 12 In addition, the occurrence of self-excited vibrations in the intake system 6 attenuated.

LIST OF REFERENCE NUMBERS

1

 heater

2

 casing

3

 fan

4

 Fuel gas-air mixing device

5

 burner

6

 intake system

7

 Intake outer casing

8th

 flow channel

9

 cavity

10

 admission

11

 insulation

12

 damper

13

 Vacuum chamber

14

 parting line

15

 air guide

16

 fixation

17

 pump

18

 channels

19

 air supply

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102006036471 A1 [0002]
• DE 102014225548 [0007]

Claims (10)

Heater ( 1 ) with a blower ( 3 ) for supplying combustion air to a burner ( 5 ), with an intake system ( 6 ), which is upstream of the blower ( 3 ) is arranged for guiding the combustion air, comprising an intake system outer housing ( 7 ) and a flow channel arranged therein ( 9 ), characterized in that the intake system outer housing ( 7 ) a cavity ( 8th ), that the intake system outer housing ( 7 ) along the cavity ( 8th ) and that the intake system outer housing ( 7 ) inside shots ( 10 ) for receiving air guide elements ( 15 ), with which within the cavity of the flow channel ( 9 ) is malleable in different ways, through which the combustion air to the blower ( 3 ) is feasible. Heater according to claim 1, characterized in that the intake system outer housing ( 7 ) made of foam material, preferably consists of EPP. Heater according to claim 1 or 2, characterized in that the air guide elements ( 15 ) made of foam material, preferably made of EPP. Heater according to one of claims 1 to 3, characterized in that at least a part of the intake system outer housing ( 7 ) in one piece with a fixation ( 16 ) for at least one aggregate ( 3 . 4 . 5 . 17 ) of the heater ( 1 ) and / or with one in an insulation ( 11 ) of foam material, preferably of EPP, provided fixation ( 16 ) for fixed aggregates ( 3 . 4 . 5 . 17 ) of the heater is connected. Heater according to claim 4, characterized in that at least one fixed unit is a fuel gas-air mixing device ( 4 ). Heater according to claim 4 or 5, characterized in that at least one fixed unit, the blower ( 3 ). Heater according to one of claims 4 to 6, characterized in that at least one fixed unit a pump ( 17 ) for conveying a heat transfer medium, and that the fixation ( 16 ) for the pump ( 17 ) Channels ( 18 ) which is so connected to the cavity ( 9 ) are connected in operation so that at least a portion of the combustion air at the pump ( 17 ) is passed, that the heat loss of the pump ( 17 ) preheats the combustion air. Heater according to claim 7, characterized in that the connection between the air ducts ( 18 ) and the cavity ( 9 ) at least one vacuum chamber ( 13 ) within the housing ( 2 ) of the heater ( 1 ) is formed. Heater according to one of claims 1 to 8, characterized in that the receptacle ( 10 ) is formed so that the air guide element ( 15 ) positively, positively or cohesively with the intake system outer housing ( 7 ) connected is. Heater according to one of the preceding claims, characterized in that in the flow channel ( 8th ) in the airway a flow-through damper ( 12 ) is provided from an air-permeable, preferably a porous material.

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