JPH0219367B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a cooling device for immediately cooling an extinguished infrared burner.

(Prior Art) There is an infrared burner configured to include a combustion plate on the front side of a burner body having a mixed gas chamber, and to heat a space on the front side by red-hot radiant heat from the plate.

(Problems to be Solved by the Invention) A drying apparatus using an infrared burner as described above is configured to dry an object such as paper or cloth while guiding it into a space on the front side of the burner and passing it through. However, with this type of drying equipment, when the operation is stopped, the material to be dried located in front of the infrared burner is affected by the residual heat of the infrared burner, especially when the material to be dried is paper, cloth, etc. had the problem of burning or being scorched.

(Means for Solving the Problems) In order to solve the above problems, the present invention has the following configuration. That is, in the infrared burner cooling device according to the present invention, an intake port is provided in the mixed gas chamber on the back side of the combustion plate for sucking out the gas in the mixed gas chamber, and an intake device is connected to the intake port to extinguish the burner. The present invention is characterized in that the outside air from the front side of the combustion plate is sucked into the back side of the combustion plate through the mixed gas chamber.

(Function) When the suction device performs suction, the hot air in the mixed gas chamber is sucked and discharged to the outside. In addition, the air flow generated at this time removes heat, so that the infrared burner is rapidly cooled.

(Embodiment) FIG. 1 is a block diagram of one embodiment of a cooling device according to the present invention. Infrared burners 2, 2 equipped with this cooling device 1 are installed on both sides of the dried material passage 3, and these pair of infrared burners 2, 2
and a moving device (not shown) constitute the drying device 4. The intake device 6 of this cooling device 1 serves both as a blower for supplying combustion air and a blower for pumping cooling air.

The infrared burner 2 is formed from a thin steel plate,
A combustion plate 11 made of porous ceramic material is provided on the front side of the burner body 2a, which has a horizontally elongated mixed gas chamber 10 along the passage 3. A second mixed gas chamber 14 is provided at the rear of the mixed gas chamber 10, which is attached to the burner body 2a by a threaded boss 20. A flow guide plate 13 having an arcuate cross section is installed between the mixed gas chamber 10 and the second mixed gas chamber 14 . The mixed gas chamber 10 is provided with nozzles 15 at predetermined intervals along its longitudinal direction. Also, inside the mixed gas chamber 10, a perforated plate 17 is provided which partitions the mixed gas chamber into two front and rear chambers 10a and 10b.
and a full plate 18 surrounding the nozzle 15.
are provided for each.

The nozzle 15 has a first mixed gas chamber 10 and a second mixed gas chamber 10.
It is screwed onto a threaded boss 20 fixed to the mixed gas chamber 14 from the first mixed gas chamber side, and the rear end opening of the central portion 21 opens into the second mixed gas chamber 14 . A plurality of orifices 27, 27, which communicate with the first mixed gas chamber 10 are provided at the tip of the nozzle 15.
... are drilled radially. On the other hand, the needle valve 24 is screwed onto a threaded boss 23 fixed to the second mixed gas chamber 14, and its conical tip 24a is connected to the opening of the hollow section 21 of the nozzle 15. is inserted into. The needle 24 valve can be moved back and forth by engaging a screwdriver or the like with an engagement groove 29 formed on the rear end surface and turning it. When the needle valve 24 moves forward, the hollow part 21 of the nozzle 15 and the tip part 24 of the needle valve 24 move forward.
a narrows the gap 30 between the second mixed gas chamber 14
The amount of mixed gas supplied to the first mixed gas chamber 10 decreases. Conversely, when the needle valve 24 is moved backward, the gap 30 widens and the amount of mixed gas supplied increases. 33 in the figure is a cap nut that serves both to protect and seal the needle valve.

Furthermore, this infrared burner 2 has a burner main body 2
An air passage 36 made of a square steel pipe 35 with a rectangular cross section is provided on the outer periphery of a. Square steel pipe 35
There is a space between the burner body 2a and the front edge 37a of the steel plate 37 constituting the burner body 2a, which is bent outward, and the mounting plates 38 fixed at appropriate positions on both ends of the bottom surface of the steel plate 37. They are supported at intervals 39. Guide plates 40 and 41 are attached to both the front and rear surfaces of the square steel pipe 35, respectively. The guide plate 40 on the front side is provided with a distance 44 between the front edge 37a of the steel pipe and the steel pipe 35 by a spacer 43, and its outer edge 40a is formed on the outer surface of the steel pipe 35. It is bent downward along the line. The inner edge portion 40b of the guide plate 40 serves as a plate holding portion having a hook-shaped cross section, and the portion adjacent thereto serves as a folded portion 40c that projects rearward. The combustion plate 11 is held by the plate holding portion 40b and the front surface of the burner body 2a. The guide plate 41 on the back side is provided in close contact with the back surface of the steel pipe 35, extends inward along the back surface of the burner body 2a, and has an inner edge 41a facing rearward on the side of the mixed gas chamber 14. It is bent to. The gap 39 between the burner body 2a and the steel pipe 35 and the gap 45 between the burner body 2a and the guide plate 41 constitute an air outflow path 46. Through holes 48 and 49 communicating with the outflow passage 46 are provided in the steel pipe 35 in a staggered manner alternately in the front and rear. Further, the steel pipe 35 is provided with similar through holes 50, . . . that communicate with the interval portion 44.

The blower 6, which is the intake device of this cooling device 1, is
One ventilation port (discharge port) 6a is connected to a combustion air hose 61 connected to the mixed gas mixer 60, a cooling air hose 62 connected to the air supply port 36a of the air passage 36 of the infrared burner 2, and a blower connected to the outside. The other ventilation port (intake port) 6b is connected to the first ventilation hose 63 of the infrared burner 2.
A suction hose 65 connected to an intake port 64 provided on the back side of the mixed gas chamber 10 is connected to a suction hose 66 leading to the outside. Further, a fuel gas hose 68 in which a solenoid valve SV is installed is connected to the mixed gas mixer 60, and the fuel gas sent through the fuel gas hose 68 and the air sent through the combustion air hose 61 are supplied to the mixer 60.
and the mixed gas hose 69 connects the gas to the supply port 69a.
The mixed gas is supplied to the second mixed gas chamber 14 from the mixed gas chamber 14 . Each of the above hoses is provided with a valve that can be opened and closed, but the hoses 61, 6
3, 65, 66, 69 valves V ₁ , V ₂ , V ₃ ,
V ₄ and V ₅ are linked to each other and can be switched at once by a switching motor 71. The mutual relationship among these valves is as shown in FIG.

While the drying device 4 is in operation, a moving device (not shown) operates, and the material to be dried moves in a predetermined direction along the path 3. At this time, a fixed amount of the mixed gas in the second mixed gas chamber 14 is supplied from the nozzle 15 to the first mixed gas chamber 10, and this mixed gas is supplied to the first mixed gas chamber 10.
From the front chamber 10a of the mixed gas chamber 10 to the combustion plate 1
It reaches the surface of the plate through the pores 1 and burns there, making the combustion plate 11 red hot. The object to be dried is dried by the radiant heat of the red-hot combustion plate 11. Perforated plate 1
7 and the buffle plate 18, the mixed gas in the first mixed gas chamber is evenly distributed over the entire back surface of the combustion plate 11, and effective combustion is performed.

The cooling air sent into the air passage 36 from the air supply port 36a is ejected from the through holes 48, 49 and the through hole 50. Air ejected from the through holes 48 and 49 flows out through the air outflow path 46. At this time, the side and back parts of the burner main body 2a and the side parts of the second mixed gas chamber 14 are cooled. The front side of the burner body 2a is the hottest part, and since air is directly blown from the through hole 48 to this part, the cooling effect is particularly remarkable. Further, the air ejected from the through hole 50 cools the guide plate 40 when passing through the gap portion 44 .

When the drying device 4 is stopped, the movement of the material to be dried is stopped, and the solenoid valve SV is switched to the closed side to stop the supply of fuel gas. At the same time, the switching motor 71 starts and each valve
V ₁ , V ₂ , V ₃ , V ₄ , and V ₅ are switched in the opposite direction. That is, at the same time as the supply of the mixed gas is stopped and the burner 2 is extinguished, the high temperature combustion gas or air in the first mixed gas chamber 10 is discharged through the air supply hose 65. Note that the cooling air is supplied through the air hose 62.
The air continues to be supplied to the air passage 36 through the air. Instead of the air exhausted from the first mixed gas chamber 10 , outside air on the passage 3 side is drawn into the first mixed gas chamber 10 through the pores of the combustion plate 11 . In this way, since the flow of air in the opposite direction to that during combustion occurs in the first mixed gas chamber, the hot air in the first mixed gas chamber 10 does not leak to the passage 3 side, and the drying material is absorbed by the residual heat of the burner 2. Not affected by heat. Moreover, the burner 2 is rapidly cooled by this air flow and the cooling air in the air passage 36. Therefore, even if the material to be dried, such as paper or cloth, is left in the passageway 3 after extinguishing the infrared burner 2, the material to be dried will not be burned or scorched.

Cooling air in the air passage 36 is taken in from the intake air hose 66 while the burner is burning, and after the fire is extinguished, the air sucked in by the aforementioned suction hose 65 is circulated. This cooling air may be stopped when the infrared burner 2 has been sufficiently cooled.

Note that the intake blower for cooling may be provided independently as a cooling device.

(Effects) As is clear from the above description, the infrared burner cooling device according to the present invention is configured to suck outside air through the first mixed gas chamber of the burner with the intake device after extinguishing the fire. , the burner is effectively cooled, and the front part of the burner is not exposed to residual heat after extinguishing.

[Brief explanation of drawings]

FIG. 1 is a block diagram of one embodiment of a cooling device according to the present invention, and FIG. 2 is a sectional view of an infrared burner thereof. DESCRIPTION OF SYMBOLS 1... Cooling device, 2... Infrared burner, 2a... Burner body, 4... Drying device, 6... Intake device, 10... First mixed gas chamber, 11... Combustion plate.

Claims (1)

[Claims] 1. A cooling device for an infrared burner, comprising a combustion plate provided on the front surface of a burner body equipped with a mixed gas chamber, and configured to heat a space on the front side by red-hot radiant heat from the plate, the cooling device comprising: The gas chamber is provided with an intake port for sucking out the gas in the mixed gas chamber, and an intake device is connected to the intake port, so that when the burner is extinguished, outside air from the front side of the combustion plate is sucked into the back side of the combustion plate through the mixed gas chamber. A cooling device for an infrared burner, characterized in that it is configured to.