NL8900900A - INFRARED HEATING SYSTEM. - Google Patents

Description

Subject: Infrared heating system.

The invention relates to an infrared heating system comprising at least one heating tube and a number of burner units distributed along the length of that tube for heating the tube in such a way that it emits infrared radiation from its surface, which heating tube at one end of one or more air supply openings are provided and are connected at the other end to a suction pump, control means being provided to adjust the heat capacity of the system, which control means comprise a throttle valve.

Such a system is known from EP-B-0070360 and is used, among other things, to heat shops, offices, warehouses and factories.

Said control means not only enable the heat capacity of the system to be set, but also, if gaseous fuel with a different Wobbe number is used, the desired heat capacity can be maintained with a simple setting.

In the known system, said throttle valve is placed in the heating tube and is therefore subject to the corrosive action of hot gases. This can lead to rapid wear and / or jamming of the throttle valve.

The object of the invention is to avoid this drawback, that is to say to place the control means outside the influence of the hot gases, while a good control of the heat capacity can nevertheless be achieved by means of the throttle valve.

According to the invention, said throttle valve is arranged for this purpose in a branch of the heating pipe or connecting pipe to the suction pump placed downstream of the burners and connected to the environment.

The throttle valve placed in the branch controls the amount of false air that can enter the heating system and - with a certain suction power of the suction pump - therefore the value of the negative pressure in the system. This negative pressure determines the heat capacity.

The invention will now be explained in more detail with reference to the figure, which schematically shows an embodiment of the heating system according to the invention.

The infrared heating system shown comprises two heating tubes 1, 2 which are connected to a common connecting tube 3. A suction pump 4 is connected to the free end of the connecting tube 3.

Each of the heating pipes 1, 2 is provided with a number of series-mounted burner units 5 with a control box 6 for controlling the amount of flammable gas and combustion air to the burner 7. Such burner units are described in EP-B-0070360 already mentioned and in EP-A-0034264. These units therefore require no further explanation.

A plate 10 with at least one air supply opening is provided at the free end of each heating pipe 1, 2 (so-called vent plate).

An underpressure is caused in the heating system by means of the suction pump 4, whereby additional air is drawn into the system via the opening in the plates 10 and the mixture of combustion gases is discharged via the suction pump 4. The opening in the plates 10 has a fixed cross section.

The negative pressure in the system determines the heat capacity. In order to be able to adjust this quickly and easily, the connecting tube 3 is provided with a branch 8 which communicates with the environment and in which a throttle valve 9 is placed. The amount of false air that can enter the system via the branch 8 is controlled by the setting position of the throttle valve 9. This setting position can be changed with the aid of a motor 9 (or other setting means).

The amount of false air drawn in via the branch determines the height of the underpressure in the pipes 1, 2 and 3 and thus the heat capacity of the system at a given suction power of the pump 4.

It is important that the throttle valve 9 is not exposed to the corrosive effect of the hot combustion gases during operation, but is present in the cool air flowing in via the branch 8. No throttle valves are placed in pipes 1, 2 and 3.

Claims (1)

Infrared heating system comprising at least one heating tube and a number of burner units distributed along the length of said tube for heating the tube such that it emits infrared radiation from its surface, said heating tube at one end of one or more air supply openings provided and at the other end communicates with a suction pump, control means being provided to adjust the heat capacity of the system, said control means comprising a throttle valve, characterized in that said throttle valve (9) is arranged in a installed downstream of the burners (5), surrounding branch (8) of the heating pipe (1, 2) or connecting pipe (3) with the suction pump (4).