JP2023069966A - Fire shutter and driving control mechanism used therefor - Google Patents

Abstract

To provide a fire shutter mechanism which is for preventing backflow of combustion.SOLUTION: A fire shutter has an openable/closable shutter mechanism in a granular material providing device and a driving control mechanism for driving and controlling the shutter mechanism, which is characterized in that it is constituted to surely guide a shutter to a closing direction during power failure by providing the shutter mechanism using an air cylinder for selecting passage or non-passage of the granular material, and a tension coil spring for energizing the shutter mechanism always in the closing direction at a proper place of a granular material passage in the granular material providing device, and the driving control mechanism including a solenoid valve and a conduit is provided for driving and controlling the air cylinder.SELECTED DRAWING: Figure 2

Description

The present invention relates to a fire shutter used in a pellet transporter and a drive control mechanism used for the shutter.

Conventionally, various shutter mechanisms have been used, but as shown in the present invention, there is no fire shutter mechanism combining an air cylinder and a tension coil spring and a drive control mechanism for driving the shutter mechanism.

In general, when an object to be burned is transferred, backflow of combustion may occur, and an effective and simple mechanism for preventing this is desired. SUMMARY OF THE INVENTION In view of the above, the present invention has been devised for the purpose of providing new and effective means for solving the above problems by combining an air cylinder and a tension coil spring.

As means for solving the problems, the present invention has the following configuration.
That is, one aspect of the present invention is to provide an open/close type shutter mechanism using an air cylinder for selecting passage or non-passage of the granular material at an appropriate position of the granular material passage in the granular material providing device, and the shutter mechanism. is provided with a tension coil spring for always urging the shutter in the closing direction, and is configured to reliably guide the shutter in the closing direction even in the event of a power failure. A fire prevention shutter having a shutter mechanism and a drive control mechanism for driving and controlling the mechanism in a granular material providing device, characterized in that a drive control mechanism including
Another aspect of the present invention is that the drive control mechanism comprises a first solenoid valve for controlling the inflow air from the air compressor, and an air for retaining the air that has passed through the first solenoid valve at a predetermined pressure. a tank, a cylinder pipe connected to the air tank for ventilation, a second solenoid valve connected to the cylinder pipe, an air cylinder connected to the second solenoid valve, and the cylinder pipe An air blow pipe branching from, a third solenoid valve connected to the air blow pipe, and a fourth solenoid valve connected to the air blow pipe, used for a fire shutter It is a drive control mechanism.

According to the present invention, it is possible to obtain useful means for preventing backflow of combustion with a simple shutter mechanism. In addition, by using a tension coil spring, it is possible to obtain a reliable closed state of the shutter. A closed state can be obtained.

Structural explanatory diagram of the present invention (planar view, partially omitted) Structural explanatory drawing of the present invention (front view) Structural explanatory diagram of the present invention (main part) Explanatory drawing of drive control mechanism used in the present invention Pellet transfer mechanism for use in connection with the present invention

Embodiments of the present invention will be described below.
1 and 2 are structural explanatory diagrams of the present invention. The present invention is used by being incorporated in a table feeder to be described later. 1 is a support plate, 2 is a cylinder bracket attached to the support plate, 3 is an air cylinder whose rear portion is supported by the cylinder bracket, and 4 is rotatably supported on the shaft of the cylinder via an appropriate member. 5 is a shutter drive shaft; 6 is an injection chute; A tension coil spring 8 is engaged between a pin projecting from the driving lever and a pin projecting from the charging chute via a suitable member. An air blow pipe 9 is provided obliquely downward on the side wall of the hopper 10 positioned above the charging chute.
Reference numeral 11 denotes a screw conveyor arranged oppositely in the hopper, and 12 denotes a feeder exit air blow hole located above the hopper.

FIG. 4 is a circuit diagram for driving the air cylinder according to the configuration of the present invention.
Compressed air from an air compressor (not shown) passes through a first electromagnetic valve 20 and is stored in an air tank 21 . Compressed air coming out of this air tank passes through a regulator 22 and an air filter 23 and is branched into two by a pipeline. One enters the cylinder line 24 and enters the air cylinder via the second solenoid valve 26 via the pressure switch 25 .
The other air enters the air blow pipe line 27, passes through the third electromagnetic valve 28, and is blown from the air blow pipe 9. As shown in FIG. The other of the air blow pipes passes through the fourth solenoid valve 29 and the speed controller 30 for adjusting the amount of air blown, and reaches the feeder outlet air blow hole 12 for blowing. Each of the solenoid valves described above controls the operation of each part connected to these solenoid valves and the fumarole. These are controlled by a control panel (not shown). Each of the devices described above is incorporated in the table feeder shown in FIG. 5 and used.
That is, the granular material is put into the table feeder main body 40, and the granular material stirred by the electric stirring blade 41 is discharged from the outlet 42 through the above device.

The operation and function of the present invention will now be described.
When a pellet-shaped combustion object is sent to a combustion furnace, it is necessary to adjust the flow rate of the pellets and block it, and it is necessary to prevent the backflow of combustion as described above, and this device is for that purpose.
When the cylinder rod is retracted, the fire shutter 7 is opened as shown in FIG. 2, and when the rod is extended, it is closed. In order to ensure this closed state, the extension coil spring described above is provided. Due to the pulling action of this spring, even if the solenoid valve stops functioning due to, for example, a power outage, this shutter is closed and combustion backflow is prevented.
Since the electromagnetic valve 26 stops functioning during a power outage, the cylinder rod exposed portion of the air cylinder moves in the short direction, and the fire shutter 7 moves in the direction to open naturally. By supplying air to the air cylinder, the fire shutter 7 moves in the closing direction. Therefore, the tension coil spring and the air supply from the air tank both act to urge the fire shutter 7 in the closing direction even in the event of a power failure, thereby ensuring the closed state of the fire shutter. can be done.
In addition, when the fire shutter is closed, if pellets are caught in the gap, it will be incompletely closed. To prevent this, an air blow pipe 9 is provided from which air is blown to prevent pellets from adhering. and a perfect closed state can be obtained.
Also, an air blow hole 12 is similarly provided in the upper part of the hopper to prevent clogging of the pellet transport. The hopper is provided with the aforementioned screw conveyor (FIG. 3 is a view of the conveyor viewed from the axial direction), and pellets are transported by this conveyor.

The present invention has been described above, and the present invention provides a new and useful means having a fire prevention function with a simple mechanism. Note that the above-described example is an example of implementation, and other similar configurations may be used. As described above, the present invention can provide an apparatus having a fire prevention function during pellet transfer.

1 support plate 2 cylinder bracket 3 air cylinder 4 drive lever 5 shutter drive shaft 6 input chute 7 fire shutter 8 tension coil spring 9 air blow pipe 10 hopper 11 screw conveyor 12 hopper exit air blow hole 20 first solenoid valve 21 air tank 22 Regulator 23 Air filter 24 Cylinder pipe 25 Pressure switch 26 Second solenoid valve 27 Air blow pipe 28 Third solenoid valve 29 Fourth solenoid valve 30 Speed controller 40 Table feeder body 41 Stirring blade 42 Hopper outlet

Claims (2)

An open/close type shutter mechanism using an air cylinder is provided at an appropriate position of the granular material passage in the granular material providing device for selecting passage or non-passage of the granular material, and the shutter mechanism is always biased in the closing direction. A tension coil spring is provided for the shutter so as to surely guide the shutter in the closing direction even in the event of a power failure, and a drive control mechanism including an electromagnetic valve and a pipe line is provided to drive and control the air cylinder. A fire shutter having a shutter mechanism and a drive control mechanism for driving and controlling the mechanism in a granular material providing device, characterized by: The drive control mechanism consists of a first solenoid valve for controlling the inflow air from the air compressor, an air tank for holding the air that has passed through the first solenoid valve at a predetermined pressure, and a ventilation connection to the air tank. a cylinder pipeline, a second solenoid valve connected to the cylinder pipeline, an air cylinder connected to the second solenoid valve, and an air blow pipeline branching from the cylinder pipeline and a drive control mechanism for use in a fire shutter, comprising a third solenoid valve connected to the air blow pipe and a fourth solenoid valve connected to the air blow pipe.

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