KR20180101159A - Heat Storage Material Cleaning Apparatus - Google Patents

Abstract

The present invention provides a heat storage object cleaning apparatus capable of easily cleaning a ball shaped heat storage object provided in a heat storage tub in a short time. The heat storage object cleaning apparatus comprises: a blower (6) sucking gas at the inside of a heat storage tub of a heat storing type burner having the heat storage tub (2) provided with a ball shaped heat storage object (2a); a pipe (9) contacted to the blower and having a suction hole (9d) for sucking the gas of the heat storage tub; a stirring member (12) inserted and passing through the inside of the pipe, having a rotary shaft (10) arranged by having an empty space within an inner circumferential surface of the pipe, and provided with a blade wheel (11) protruded from the pipe at a front end; and a driving motor (13) rotating the stirring member.

Description

[0001] The present invention relates to a heat storage material cleaning apparatus,

The present invention relates to a regenerator cleaning apparatus capable of easily cleaning a ball-shaped regenerator provided in a regenerator (heat-storage tank) in a shorter time.

As an apparatus for cleaning a regenerator of an alternating-current burner for an industrial furnace, for example, an apparatus for cleaning a regenerator attached to a regenerator of a regenerator is provided with a check tank (For example, refer to Patent Document 1). In this vibrator, a vibrator at the tip end is inserted into a heat storage tank and vibration is given to the heat storage element, whereby the deposit attached to the heat storage element is dropped in the check tank.

It is also possible to provide a cleaning device capable of cleaning a regenerator having a rotatable stirring blade provided in a regenerative chamber, a driving device for rotating and driving the stirring blade, and an outlet for discharging dusts removed from the regenerator to the outside A regenerative burner (see, for example, Patent Document 2), a ball shape heat accumulator is placed in the suction hose and the burner side suction pipe from the inside of the heat storage tank and circulated in the suction pipe, (See, for example, Japanese Patent Application Laid-Open No. 2000-34870) is known in which a ball-shaped heat accumulator having a separate attachment is re-charged into the heat accumulation tank.

Patent Document 1: Japanese Patent Application Laid-Open No. 2007-309597 Patent Document 2: Japanese Patent Application Laid-Open No. 2005-257200 Patent Document 3: Japanese Patent Application Laid-Open No. 2006-266673

In the case of dropping the adherend into the inspection tank by vibration using the vibrator as described above, it is necessary to clean the inside of the inspection tank in which the adhered material has fallen and deposited, and the inside of the air supply / discharge pipe containing the adhered material, The work takes a lot of time, and the work is troublesome. In addition, when the rotatable stirring blade is provided in the regenerating chamber, the rotating mechanism is thermally deformed by the high-temperature gas passing through the regenerator, which may cause malfunction. In addition, when the ball shape heat accumulator is taken out from the heat accumulating tank and the deposit is separated from the surface of the ball shape heat accumulator, it takes a lot of time for taking out and filling the ball heat accumulating material, A large space is required.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a regenerator cleaning apparatus which can clean a ball-shaped regenerator provided in a regenerator in a shorter period of time.

A regenerator cleaning apparatus according to the present invention comprises: a suction device for sucking a gas in the heat storage tank of a regenerative burner having a heat storage tank (heat storage tank) having a ball-shaped heat storage body; A pipe connected to the suction device and having a suction hole of the gas of the heat storage tank and a rotary shaft inserted through the pipe and disposed with an air gap between the inner peripheral surface of the pipe and the pipe, An agitating member having a vane wheel at its tip and a rotating mechanism for rotating the agitating member.

The suction device is characterized in that a dust collecting chamber is connected.

The suction device and the pipe are connected by a hose, and the suction device is provided so as to be movable along the rail.

And an oscillation imparting device for imparting oscillation to the stirring member.

And the pipe is provided with a communication hole communicating the outside of the regenerative burner with the air gap.

In the regenerator cleaning apparatus according to the present invention, the ball-shaped heat accumulator provided in the heat storage tank can be easily cleaned in a shorter time.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is an explanatory view showing a first embodiment of a regenerator cleaning apparatus according to the present invention; FIG.
Fig. 2 is a front sectional view of the stirring pipe unit of the regenerator cleaning apparatus shown in Fig. 1. Fig.
3 is a side cross-sectional view of the stirring pipe unit shown in Fig.
4 is an explanatory view for explaining a modification of the regenerator cleaning apparatus according to the first embodiment shown in Fig.
5 is a cross-sectional view showing a second embodiment of the regenerator cleaning apparatus according to the present invention.
6 is a cross-sectional view showing a modified example of the regenerator cleaning apparatus according to the second embodiment shown in Fig.
Fig. 7 is a cross-sectional view showing a main part of a pipe according to a modification of the pipe provided in the regenerator cleaning device according to the present invention. Fig.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a first preferred embodiment of a heat accumulating body cleaning device according to the present invention will be described in detail with reference to the accompanying drawings. As shown in Fig. 1, the thermal storage material cleaning apparatus 1 according to the first embodiment is provided in, for example, a thermal storage tank (heat storage tank) 2 of a regenerative type burner and has a plurality of Is used for cleaning the heat accumulator (2a) in the heat storage tank (2).

In the present embodiment, the regenerative burner has a heat storage tank 2 connected to both sides of the combustion chamber H, and the exhaust gas is supplied to the heat storage tank 2 through the exhaust gas passing through the combustion chamber H, And air is alternately passed through.

In the upper and lower portions of the heat storage tank 2 are provided spaces S1 and S2 forming a air passage through which air for exhaust and combustion flows, and a space S1 provided in the upper part of the heat storage tank 2, And a grating 3 is provided at a boundary between the space S2 provided in the lower part of the thermal storage tank 2 and the thermal storage tank 2. In addition,

An outer wall 4 covering an upper portion of the space S1 on the heat storage tank 2 is provided with an opening 5a having a lid 5 which communicates with the outside and is openable and closable, ) Is cleaned from the opening 5a by opening the lid 5.

The regenerator cleaning apparatus 1 according to the first embodiment includes a blower 6 as a suction device for sucking gas in a thermal storage tank 2 and a bag filter 7 between the blower 6 and the blower 6, A pipe 9 connected to the pipe 9 via a connection hose 8 capable of bending or stretching and a rotary shaft 10 inserted into the pipe 9, A stirring member 12 having an impeller 11 and a driving motor 13 serving as a rotating mechanism for rotating the stirring member 12.

The regenerator cleaning apparatus 1 is characterized in that the blower 6 and the bag filter 7 are provided on the floor next to the regenerative burner and the pipe 9 connected to the bag filter 7 and the connection hose 8, Is inserted from the opening 5a provided in the upper part of the heat storage tank 2 and used.

The bag filter 7 has a chamber 7e having an intake port 7a to which the connecting hose 8 is detachably connected and an exhaust port 7b to be connected to the blower 6. The intake port 7a, And a dust-collecting filter 7c between the exhaust port 7b and the exhaust port 7b. In the chamber 7e, there is provided a dust accumulating portion 7d in which dust removed by the dust collecting filter 7c is deposited.

As shown in Figs. 2 and 3, the pipe 9 has a handle 9a for holding an operator on one end side, and in a state where the operator holds the handle 9a outside the regenerative burner, (5a). That is, the pipe 9 has a length in which the other end (tip end) of the pipe 9 is inserted into the heat storage tank 2 while the operator holds the handle 9a outside the regenerative burner. A flange portion 9b protruding outward from the pipe 9 is provided at the end of the pipe 9 on the holding side and a drive motor 13 is fixed to the flange portion 9b .

More specifically, on the outer peripheral surface of the pipe 9 on the holding side, a pipe 9 is provided at a position protruding outwardly from the opening 5a, when the pipe 9 is inserted from the opening 5a, And a communicating hole 9c communicating with the inside thereof.

The motor shaft 13a of the drive motor 13 is fixed toward the inside of the pipe 9 and the rotary shaft 10 connected to the motor shaft 13a projects from the tip end of the pipe 9. [ At the front end of the rotary shaft 10, a wing wheel 11 protruding from the pipe 9 is provided. Here, the rotary shaft 10 and the impeller 11 correspond to the stirring member 12.

The impeller 11 is detachably attached to the distal end of the rotary shaft 10 and includes a connecting portion 11a connected to the rotary shaft 10, a shaft portion 11b extending from the connecting portion 11a, a shaft portion 11b, And has a radially projecting wing 11c around its periphery. Here, the impeller 11 may be fixed to the rotary shaft 10 such that it can not be detached.

The shaft portion 11b is provided so as to be linearly connected to the rotary shaft 10 when the connecting portion 11a is mounted on the rotary shaft 10. The blade 11c is connected to the tip end side of the shaft portion 11b and the connecting portion 11a Respectively. As shown in Fig. Four wings 11c are provided radially projecting from the circumferential direction of the shaft portion 11b on the front end side and the connecting portion 11a side.

The diameter of the motor shaft 13a and the diameter of the rotating shaft 10 are sufficiently smaller than the inner diameter of the pipe 9 so that the pipe 9 is inserted between the inner surface of the pipe 9 and the outer peripheral surface of the motor shaft 13a and the rotating shaft 10, (9). The connection hose 8 connected to the bag filter 7 is connected to the connection port 9e provided on the peripheral side of the pipe 9 held by the operator. In the following description, the portion constituted by the pipe 9, the drive motor 13 and the stirring member 12, which is connected to the connection hose 8, is referred to as a stirring pipe unit 14.

The actual cleaning operation is performed while the operation of the combustion chamber H is stopped. In the regenerator cleaning apparatus 1 of the first embodiment, when the blower 6 and the drive motor 13 are turned on The impeller 11 is rotated by the rotation of the drive motor 13 so that the gas in the heat storage tank 2 is sucked from the tip of the pipe 9 constituting the suction hole 9d and the pipe 9 ), The connection hose 8, and the bag filter 7 are discharged to the outside. At this time, the plurality of heat accumulators 2a are stirred by the rotating impeller 11 and the vanes 11c and the heat accumulators 2a and the heat accumulators 2a are struck with each other to rub against each other, The dusts such as soot adhering to the surfaces 2a and 2a are separated into dusts in the form of powders and dusts.

The dust removed from the heat accumulator 2a is transferred to the bag filter 7 together with the gas to be sucked, is removed by the dust filter 7c, and deposited on the dust collecting section 7d. In this manner, the regenerator 2a is not removed from the inside of the heat storage tank 2 but is cleaned in the heat storage tank 2. The dust removed from the heat accumulator 2a is sucked together with the gas from the stirring pipe unit 14 and collected in the bag filter 7 so that the dust S2 accumulated in the space S2 under the thermal storage tank 2 and the grating 3 I never do that. Therefore, it is not necessary to clean the space S2, and the cleaning of the heat accumulator 2a can be completed in a shorter time.

On the other hand, the gas whose dust has been removed by the dust filter 7c is discharged to the outside through the air outlet of the blower 6. [ At this time, outside air is sucked not only from the tip of the pipe 9 but also from the communication hole 9c provided on the outer peripheral surface of the holding side of the pipe 9. The high temperature gas in the heat accumulating tank 2 which is attracted to the pipe 9 is mixed with the outside air sucked from the communication hole 9c and the temperature And is sent to the connection hose 8 side in a lowered state. Thereby, it is possible to prevent the drive motor 13, the connecting hose 8, the bag filter 7, the blower 6, and the like from being damaged by the high-temperature gas. At this time, only the gas flowing to the connection hose 8 side is cooled by the outside air without positively cooling the heat storage tank 2, so that the heat storage element 2a can be cleaned without abruptly lowering the temperature of the heat storage tank 2 . In addition, since the dust blown up by the agitation is sucked from the communication hole 9c, the effect of preventing the deterioration of the working environment is also obtained. Therefore, the regenerative burner can be restarted more quickly after the completion of cleaning.

Since the connecting hose 8 is detachably attached to the bag filter 7 in the regenerator cleaning apparatus 1 of the first embodiment, when a plurality of regenerative burners are provided, The blower 6 and the bag filter 7 are provided on the side of each heat accumulating burner so that the connecting hose 8 and the stirring pipe unit 14 are separated from the bag filter 7, The regenerative heaters 2a of the plurality of regenerative burners can be easily cleaned by connecting them to the bag filter 7 having the regenerative type burner.

In the above embodiment, the blower 6 and the bag filter 7 are provided for each regenerative burner. However, the present invention is not limited to this. For example, as shown in Fig. 4, A rail 15 is provided along the direction in which a plurality of regenerative burners are arranged on the upper part of the building in which the burners are arranged and the blower 6 and the bag filter 7 The stirring pipe unit 14 may be connected to the hanging bag filter 7 suspended from the rail 15 via the connecting hose 8. [

In this case, since it is not necessary to provide a plurality of the blower 6 and the bag filter 7, the facility cost can be reduced. Since the blower 6 and the bag filter 7 are moved along the rail 15, there is no need to detach the connecting hose 8 and the stirring pipe unit 14 from the bag filter 7 and replace them . Therefore, it is possible to provide the regenerator cleaning apparatus (1) having more excellent workability. The rail 15 may be provided on the ground but if the blower 6 and the bag filter 7 are hung on the rail 15 provided at the upper portion, the space around the regenerative burner can be used more widely .

For the purpose of cleaning only, the bag filter 7 is not necessarily required, and the suctioned dust may be discharged to the atmosphere by the blower 6 and discarded.

Next, the regenerator cleaning device 16 of the second embodiment will be described. In the following description, the same components as those in the first embodiment are denoted by the same reference numerals in the drawings, and a description thereof will be omitted.

5, the regenerator cleaning device 16 of the second embodiment is a device in which a dust collecting device in which a fan (a small-size blower) 18 and a dust collecting filter 7c are integrated is provided, Is a portable heat storage body cleaning device (16) which is provided directly on the heat exchanger (14) without interposing the connection hose (8). More specifically, for example, a cylindrical dust collecting case 17 having a dust collecting chamber 17b having a communicating tube 17a communicating with the inside of the pipe 9 of the stirring pipe unit 14 is provided, A blower motor 19 for rotating the fan 18 and a blower motor 19 for blowing air are provided at one end of the cylindrical dust collecting case 17 and a communicating pipe 17a is provided at the other end of the cylindrical dust collecting case 17, And an exhaust port 17c communicating with the inside and outside of the dust chamber 17b is provided. A dust collecting filter 7c in the form of a bag is provided in the dust collecting case 17 on the side of the communicating pipe 17a rather than the fan 18. [

When the switch of the blower motor 19 and the drive motor 13 is turned on and the impeller 11 is rotated by the rotation of the drive motor 13, The gas in the thermal storage tank 2 is sucked from the tip of the pipe 9 constituting the suction hole 9d and the gas which has passed through the pipe 9 and the dust filter 7c is discharged from the exhaust port 17c to the outside. At this time, the plurality of heat accumulators 2a are stirred by the rotating impeller 11 and the vanes 11c and the heat accumulators 2a and the heat accumulators 2a are caused to hit each other and rub against each other, 2b, 2c, 2c, 2c, 2c, 2c, 2c, 2c, 2c, The dust removed from the heat generator 2a is collected in the bag-like dust filter 7c together with the gas to be sucked. In this manner, the regenerator 2a is cleaned in the heat storage tank 2.

On the other hand, the dust excluding the dust by the dust filter 7c is discharged to the outside through the exhaust port 17c of the dust collecting case 17. [ In this case as well, since the outside air is sucked from the communication hole 9c provided on the outer peripheral surface of the holding side of the pipe 9, the temperature of the attracted high temperature gas is lowered and the driving motor 13, the dust collecting filter 7c, The fan 18, the blower motor 19, and the like can be prevented from being damaged by the high-temperature gas.

In the portable heat accumulator cleaning device 16 as in the second embodiment, the dust collecting device in which the fan (small blower) 18 and the dust collecting filter 7c are integrated is provided directly on the stirring pipe unit 14 Therefore, the entire regenerator cleaning device 16 can be easily moved, and the regenerator 2a of the regenerative burner can be cleaned in the regenerator 2. Therefore, installation space is not required, and the cost can be reduced.

In the above embodiment, the description has been given of the example in which the impeller 11 is provided at the tip of the stirring pipe unit 14. However, the impeller 11 may not necessarily be the impeller. For example, vibration may be applied to the heat accumulator 2a to remove contaminants such as soot adhering to the heat accumulator 2a as dust. 6, the rotation shaft 10 is provided on the motor shaft 13a of the drive motor 13 via the flexible joint 20, and the rotation shaft 10 is provided at the tip of the rotation shaft 10 And a projection head 21 protruding from the tip of the pipe 9 is provided.

The protrusion head 21 is a member replaceable from the impeller 11 provided at the tip of the rotary shaft 10 in the first embodiment and has the same connecting portion 11a as the impeller 11 and a connecting portion 11a And a head body 21a having a conical shape toward its tip end is provided. The head body 21a is provided with a plurality of projections 21b on its surface.

A weight 22 constituting an eccentric pendulum is provided on the circumferential surface of the rotary shaft 10 at a position near the flexible joint 20 in a range of about 1/4 of the entire circumference. Therefore, when the drive motor 13 rotates, the rotary shaft 10 is eccentrically rotated from the joint portion via the flexible joint 20 in a state of being refracted with respect to the motor shaft 13a. By this eccentric rotation, the rotation shaft 10 and the projection head 21 provided at the tip end of the rotation shaft 10 vibrate. Therefore, when the projection head 21 is inserted into the heat storage tank 2 and the driving motor 13 rotates, the heat storage element 2a is stirred by the rotating projection head 21, and the heat storage element 2a vibrates So that contaminants such as soot adhering to the surface can be removed quickly and further as dust. Here, the rotary shaft 10 and the projection head 21 provided with the drive motor 13, the flexible joint 20, the weight 22, and the like correspond to the vibration imparting device. The rotary shaft 10 provided with the weight 22 and the projection head 21 may be fixed so as not to be detachable.

In the above embodiment, the example in which the communication hole 9c is provided on the outer peripheral surface of the holding side of the pipe 9 has been described, but the communication hole 9c may not necessarily be provided. In addition, although the impeller 11 and the protrusion head 21 are shown as the stirring member 12, if there is a sharpened portion, there is a possibility that the heat accumulator 2a is split at the time of stirring, It is preferable that the corners of the projecting head 11 and the projecting head 21 are curved or spherical so as to be rounded. The shape of the distal end of the agitating member 12 is not limited to the above-described embodiment, but may be any other shape. Needless to say, the vibration imparting device may employ another configuration.

As shown in Fig. 7, the front end of the pipe 9 is provided with a funnel-shaped front cover 9f as a separate component, and a slide formed on the front cover 9f in the longitudinal direction of the pipe 9 The end cover 9f can be slidably engaged with the screw hole 9h formed in the pipe 9 by inserting the bolt 9i from the outside of the pipe 9 with respect to the slit 9g for use It may be mounted on the pipe 9 and the protruding amount of the impeller 11 and the protruding head 21 may be changed or adjusted. It is also possible to increase the amount of expansion and contraction between the pipe 9 and the front cover 9f by interposing at least one slidable member therebetween so as to increase the amount of expansion and contraction by a plurality of slides of two or more stages.

1: regenerator cleaning device 2: thermal storage tank
2a: regenerator 3: grating
4: outer wall 5: lid
5a: opening 6: blower
7: bag filter 7a: intake port
7b: exhaust port 7c: dust filter
7d: dust collecting portion 7e: chamber
8: Connection hose 9: Pipe
9a: handle 9b: flange portion
9c: communicating hole 9d: suction hole
9e: connection port 9f: end cover
9g: slit for slide 9h: screw hole
9i: bolt 10: rotating shaft
11: wing wheel 11a: connecting portion
11b: shaft portion 11c: wing
12: stirring member 13: driving motor
13a: Motor shaft 14: Stirring pipe unit
15: rail 16: regenerator cleaning device
17: dust collecting case 17a: communicating tube
17b: House dust chamber 17c: Exhaust hole
18: Fan 19: Blower motor
20: flexible joint 21: projection head
21a: Head body 21b:
22: Addition H: Combustion chamber
S1: upper space S2: lower space

Claims (5)

A suction device for sucking a gas in the heat storage tank of a regenerative burner having a heat storage tank (heat storage tank) having a ball-shaped heat storage body; A pipe connected to the suction device and having a suction hole of the gas of the heat storage tank and a rotary shaft inserted through the pipe and disposed with an air gap between the pipe and the inner peripheral surface of the pipe, An agitating member having a blade at its tip and a rotating mechanism for rotating the agitating member. The method according to claim 1,
Wherein the suction device is connected to a dust collecting chamber (dust collecting chamber). The method according to claim 1,
Wherein the suction device and the pipe are connected by a hose, and the suction device is provided movably along the rail. The method according to any one of claims 1 to 3,
And an oscillation imparting device for imparting oscillation to the stirring member. The method according to any one of claims 1 to 4,
Wherein the pipe is provided with a communication hole communicating the outside of the regenerative burner with the air gap.

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