JP3786536B2 - Spray combustion equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a spray combustion apparatus in which liquid fuel is sprayed from a nozzle and burned.
[0002]
[Prior art]
In this type of spray combustion apparatus, generally, a fuel pump provided in the middle of the fuel feed pipe always feeds a constant amount of liquid fuel to the spray nozzle, and via the fuel return pipe from the spray nozzle to the position upstream of the fuel pump. By controlling the flow rate of the liquid fuel returned to the fuel feed pipe, the amount of liquid fuel burned by the spray nozzle is controlled.
[0003]
[Problems to be solved by the invention]
FIG. 4 schematically shows such a conventional spray combustion apparatus. In the middle of the fuel feed pipe 91, there is a fuel pump unit 92 in which an accumulator 92b and a check valve 92c are added to an electromagnetic pump 92a. In the middle of the fuel return pipe 93, a hot water amount adjusting valve unit 94, which includes an accumulator 94b, a check valve 94c, a strainer 94d and the like, is provided as a unit in the middle of the fuel return pipe 93.
[0004]
However, when such a configuration is viewed as a whole, both the fuel pump unit 92 and the hot water adjustment valve unit unit 94, and an electromagnetic valve 95 and a strainer provided to open and close the fuel feed pipe 91 on the upstream side thereof. 97 and the spray nozzle 96 provided on the downstream side are not only cluttered in configuration, but also the work of connecting the pipes of each part is required at the time of assembly, and the assembly cost is high.
[0005]
Accordingly, an object of the present invention is to provide a spray combustion apparatus in which the overall configuration is simplified and the assembly cost can be greatly reduced.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the spray combustion apparatus according to the present invention is provided with an electromagnetically driven fuel pump for feeding a constant amount of liquid fuel to the spray nozzle at the middle of the fuel feed pipe and at a position upstream from the fuel pump. The fuel feed pipe is provided with a fuel return pipe for returning a part of the liquid fuel from the spray nozzle, and the flow rate of the liquid fuel returned to the fuel feed pipe via the fuel return pipe is set to an electromagnetically driven return flow rate. In the spray combustion apparatus configured to control the amount of liquid fuel combusted by the spray nozzle by controlling with the control valve, the fuel pump and the flow rate control valve are each electromagnetically driven, and the fuel An electromagnetic coil for driving the pump and an electromagnetic coil for driving the flow control valve are arranged in parallel, and each member arranged on the upstream side of the both electromagnetic coils is combined into one block. In addition, each member disposed downstream of the two electromagnetic coils is provided in one block, the two electromagnetic coils are sandwiched between the two blocks, and they are formed as one unit as a whole. And
[0007]
The member attached to the upstream block may include an electromagnetic valve for opening and closing the fuel feed pipe and an accumulator for absorbing fuel pulsation passing through the fuel feed pipe. Good.
[0008]
Further, the member attached to the downstream block may include the spray nozzle and an accumulator for absorbing fuel pulsation passing through the fuel return pipe.
[0009]
A strainer for filtering fuel may be provided in both or one of the upstream block and the downstream block.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described with reference to the drawings.
1, 2, and 3 show a spray combustion apparatus that is used as a heat source for a hot water supply apparatus or the like using liquid fuel such as petroleum, FIG. 1 is a front sectional view, and FIG. 2 is a partial sectional view. The side view shown and FIG. 3 are piping diagrams.
[0011]
As shown in FIG. 3, the oil in the oil tank 1 passes through the fuel feed pipe 1 by a fuel pump 41 inserted in the middle of the fuel feed pipe 1 that connects the oil tank 10 and the spray nozzle 5. A constant amount is always sent to the spray nozzle 5.
[0012]
Part of the oil sprayed in the tip of the spray nozzle 5 is returned to the fuel feed pipe 1 via the fuel return pipe 6 at the junction 8 where it joins the fuel feed pipe 1 upstream from the fuel pump 41. .
[0013]
Therefore, by changing the amount of oil returned from the spray nozzle 5 through the fuel return pipe 6, the amount of oil sprayed from the spray nozzle 6 onto the combustion section and used for combustion is controlled.
[0014]
The fuel pump 41 is an electromagnetically driven electromagnetic pump, and the flow rate control valve 71 is an electromagnetically controlled electromagnetic control valve. As shown in FIG. 1, the electromagnetic coil 41 a of the fuel pump 41 and the electromagnetic coil 71 a of the flow control valve 71 are arranged substantially in parallel.
[0015]
And between the upstream block 20 to which all members upstream from the two electromagnetic coils 41a and 71a are attached and the downstream block 30 to which all members downstream from the two electromagnetic coils 41a and 71a are attached. In addition, the two electromagnetic coils 41a and 71a are sandwiched, and the whole is unitized.
[0016]
The upstream block 20 and the downstream block 30 are respectively formed with a fuel feed pipe 1 and a fuel return pipe 6. The upstream block 20 receives fuel flowing through the fuel feed pipe 1 in addition to the junction 8. A strainer 2 for removing dust by filtration, an electromagnetic on-off valve 3 for opening and closing the fuel feed pipe 1, and an accumulator 42 (see FIG. 2) for absorbing pulsation by the fuel pump 41 are attached in order from the upstream side. It has been.
[0017]
On the other hand, the downstream block 30 has a check valve 73 for preventing the back flow of fuel from the flow rate control valve 71 side to the spray nozzle 5, and a filter for removing dust by filtering the fuel flowing through the fuel return pipe 6. A strainer 74 and a pulsation absorbing accumulator 72 are attached in order from the upstream side.
[0018]
A check valve 43 for preventing the reverse flow of fuel from the spray nozzle 5 side to the fuel pump 41 is disposed from the fuel pump 41 to the downstream block 30. In addition, since the internal structure of the fuel pump 41 and the flow control valve 71 are publicly known, detailed description thereof is omitted.
[0019]
The spray combustion apparatus configured as described above includes the electromagnetic coil 41a of the fuel pump 41 and the electromagnetic coil 71a of the flow rate control valve 71, the upstream block 20 to which all the upstream members are attached, and the downstream member. Since it is sandwiched between all attached downstream blocks 30 and is made into a single unit, the overall structure is very simple and there is almost no need for pipe connection work during assembly. Cost can be greatly reduced.
[0020]
【The invention's effect】
According to the present invention, the fuel pump and the two electromagnetic coils that drive the flow rate control valve are arranged in parallel, and each member arranged on the upstream side of both electromagnetic coils is provided in one block. The entire structure of the spray combustion device is very simple by providing each member arranged on the downstream side in one block, sandwiching both electromagnetic coils between both blocks, and forming them as one unit as a whole. As a result, almost no pipe connection work is required at the time of assembly, so that the assembly cost can be greatly reduced.
[Brief description of the drawings]
FIG. 1 is a front sectional view of a spray combustion apparatus according to an embodiment of the present invention.
FIG. 2 is a side view showing a part of the spray combustion apparatus according to the embodiment of the present invention in cross section.
FIG. 3 is a piping diagram of the spray combustion apparatus according to the embodiment of the present invention.
FIG. 4 is a piping diagram of a conventional spray combustion apparatus.
[Explanation of symbols]
1 Fuel Feed Pipe 5 Spray Nozzle 6 Fuel Return Pipe 20 Upstream Block 30 Downstream Block 41 Fuel Pump 41a Electromagnetic Coil 71 Flow Control Valve 71a Electromagnetic Coil

Claims (4)

An electromagnetically driven fuel pump for always feeding a constant amount of liquid fuel to the spray nozzle is provided in the middle of the fuel feed pipe, and a part of the liquid fuel is supplied from the spray nozzle to the fuel feed pipe at a position upstream from the fuel pump. A liquid to be burned by the spray nozzle is provided by providing a fuel return pipe for returning and controlling the flow rate of the liquid fuel that is returned to the fuel feed pipe via the fuel return pipe by an electromagnetically driven return flow control valve. In a spray combustion apparatus designed to control the amount of fuel,
The fuel pump and the flow control valve are each electromagnetically driven, and the electromagnetic coil for driving the fuel pump and the electromagnetic coil for driving the flow control valve are arranged in parallel, upstream of the two electromagnetic coils. Each member arranged on the side is provided in one block, each member arranged on the downstream side of the two electromagnetic coils is provided in one block, and both the electromagnetic coils are sandwiched between the two blocks. The spray combustion apparatus characterized by forming the above into a single unit. The member attached to the upstream block includes an electromagnetic valve for opening and closing the fuel feed pipe and an accumulator for absorbing pulsation of fuel passing through the fuel feed pipe. The spray combustion apparatus as described. 3. The spray combustion apparatus according to claim 1, wherein the member attached to the downstream block includes the spray nozzle and an accumulator for absorbing fuel pulsation passing through the fuel return pipe. The spray combustion apparatus according to claim 1, 2 or 3, wherein a strainer for filtering fuel is provided in both or one of the upstream block and the downstream block.

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