KR101524760B1 - Rapping device for electrostatic precipitator - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a striking device for an electrostatic precipitator for dropping stuck dust from a dust collecting plate while being collected on a dust collecting plate of a dust collector.
According to an aspect of the present invention, there is provided a striking device for an electrostatic precipitator, comprising: a cylinder formed on an upper portion of a striking portion; A cylinder head provided at a lower end of the cylinder rod, a lifting means provided in the housing and connected to a lower end of the cylinder rod, A striking part; And an air supply means for controlling the upward and downward movement of the cylinder rod.
According to the present invention, dust can be easily removed due to the weight of the free-falling drop weight by dropping the dust collected in the dust collector using the drop weight falling freely from the impact device provided on the upper part of the dust collector, In a case where two or more devices are provided, the dropping order of the striking devices is made different from each other, so that the dropped impacts are dispersed to prevent breakage of the dust collector, and a shock is continuously applied to the dust collector at predetermined intervals, And the efficiency is improved.

Description

BACKGROUND ART Rapping device for electrostatic precipitator

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a striking device for an electrostatic precipitator, and more particularly, to a striking device for an electrostatic precipitator for dropping dust stuck on a dust collecting plate.

In an industrial field including a coal-fired thermal power plant, an electric dust collector is installed and used to remove dust. On the other hand, as the regulations for fine dust gradually increase, researches for improving the dust collecting efficiency of electrostatic dust precipitators are going on in various directions.

The electrostatic precipitator includes a dust collecting chamber for collecting dust by charging the dust generated from the combustion gas according to the polarity of the charged dust, a chattering device for discharging the dust collected in the dust collecting chamber in the dust collecting chamber, And an ash treatment device for collecting and transferring the dust that has fallen through.

Korean Registered Utility Model No. 20-0442045 (registered on Apr. 26, 2008) relates to a chattering device for an electrostatic precipitator, wherein a protrusion provided on the drive shaft rotates the contact end of a hammer as the drive shaft rotates So that the striking end of the hammer strikes the electrode periodically, thereby dropping the dust. However, the above-mentioned technique has a problem that the protruding portion and the contact end of the drive shaft periodically come into contact with each other, and the surfaces of the drive shaft are gradually worn out, thereby continuously replacing the components. In addition, since the length of the electrode striking the electrode is relatively short, there is a problem that dust is dropped from the dust collecting plate and the efficiency is lowered.

KR 20-0442045 Y1 2008. 09. 26.

According to the present invention, a striking device is provided on an upper part of a dust collector, and the striker is freely dropped from a predetermined height of the striking device provided in the striking device, The present invention relates to a striking device for an electrostatic dust precipitator, which can reduce the maintenance cost by appropriately utilizing an air supply valve.

According to an aspect of the present invention, there is provided a striking device for an electrostatic precipitator, comprising: a cylinder formed on an upper portion of a striking portion; A cylinder head provided at a lower end of the cylinder rod, a lifting means provided in the housing and connected to a lower end of the cylinder rod, A striking part; And an air supply means for controlling the upward and downward movement of the cylinder rod.

The lifting means of the present invention includes a catch for lifting the scoop weight in a state of being engaged with a weight of the scoop weight and a guide surface for guiding the catch so that the retainer strikes the upper surface of the housing during lifting of the scoop weight And a compression spring for interconnecting the weight engagement members. The weight of the weight is added to the weight of the weight of the weight holding member, And a guiding surface for guiding the engaging piece of the elevating means to be seated on the weight receiving surface while descending.

The air supply means of the present invention comprises an air compressor for supplying air to the cylinder; An air supply valve for controlling intermittence of air supplied from the air compressor; And an air supply line for transferring the air supplied from the air supply valve to the cylinder, wherein the air supply line includes a first air supply line for transferring the air required to raise the cylinder rod in a state connected to the lower portion of the cylinder, And a second air supply line for transferring the air required to lower the cylinder rod in a state of being connected to the upper portion of the cylinder, and an air header is further provided between the air supply valve and the second air supply line connected to the upper portion of the cylinder .

According to the present invention, dust can be easily removed due to the weight of the free-falling drop weight by dropping the dust collected in the dust collector using the discharge weight falling freely from the striking device provided at the upper portion of the dust collector, In a case where two or more devices are provided, the dropping order of the striking devices is made different from each other, so that the dropped impacts are dispersed to prevent breakage of the dust collector, and a shock is continuously applied to the dust collector at predetermined intervals, And the efficiency is improved.

According to the present invention, it is possible to drive two or more cylinders with one air supply valve, thereby reducing the manufacturing and maintenance cost, and the second air supply line and the air supply valve The air loss is reduced, and the utilization efficiency of the air compressor is improved.

Further, according to the present invention, the free fall distance of the striking device can be freely formed, and the size of the striking device can be adjusted according to the size of the dust collector.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view showing a cylinder and a striking portion of a striking device according to the present invention. Fig.
Fig. 2 is a view showing the elevating means of Fig. 1; Fig.
FIG. 3 is a view showing an operation process of FIG. 1;
4 is a view showing a detailed configuration of a striking device for an electric precipitator according to the present invention.
5 is a schematic view showing an overall configuration of a striking device for an electrostatic precipitator according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing a cylinder 100 and a striking part 200 of a striking device according to the present invention. The cylinder is provided on the upper part of the striking part and the cylinder rod is raised or lowered by supplying air in a state where the cylinder rod 110 is connected to the elevating means 300 provided on the striking part, Or lowered.

The cylinder includes a cylinder rod 110 and a speed controller 120. The speed controller adjusts the amount of air supplied or discharged through a second air supply line to be described later, So that the hitting by the plurality of striking devices can be sequentially performed.

The striking part 200 provided at the lower part of the cylinder includes a housing 210 forming an outer surface, a lifting means 300 provided inside the housing and connected to the lower end of the cylinder rod, And a striking weight 400 which is lifted up and falls freely. Dusts attached to the dust collecting plate are removed from the dust collecting plate while the dust collector upper plate 600 provided at the bottom is struck through the blow by the striking weight.

The housing serves to guide the striking direction of the striking weight. If necessary, the length of the striking weight can be increased or decreased to increase or decrease the free fall distance of the striking weight according to the size of the dust collector. If the size of the dust collector is large, the weight of the striking weight can be increased, and the size of the cylinder leading up and down the striking weight can be increased so as to cover the weight of the striking weight.

The upper end surface 220 of the housing is also included in the striking part. The upper end surface of the housing 220 is raised so that the swinging part 312 of the weight holding member 310, which is the elevating means, rises in accordance with the rising speed of the cylinder rod, The weight engagement members are opened to each other and the impact is added free fall.

2 is an enlarged view of the lifting means 300 of FIG. 1, wherein the lifting means includes a retaining piece 311 for lifting the lifting weight in a state of being engaged with the weighting surface 410 of the weighting weight 400, A thrusting member 310 for bending against the upper surface 220 of the housing in a process of raising the thrusting weight and guiding the thrusting member to spread, And a compression spring 320. FIG. 2 shows that three weighting members and three compression springs are provided. However, if necessary, two weighting members may be provided at positions opposite to each other. In this case, One piece may be formed for connecting the two formed weft insertion members. Also, at least four weights can be used, and at least two weights can be formed so that the weights of the compression springs remain compressed.

FIG. 2 shows a state in which the weighting members 310 are mutually connected by the compression springs 20 in a state where the weighting members 310 are spaced apart from each other by 120 degrees. In the state where the weighting members are connected to each other by the compression springs, the retaining members 311 formed at the lower portion of the weight retaining member are spaced apart from each other by a minimum interval. In this state, So that the weight is lowered to the lower portion where the weight 400 is positioned, and is engaged with the weight.

A weighting surface 410 and an induction surface 420 are provided on the upper portion of the weight 400. The weighting surface is further raised in a state of being engaged with the engaging piece 311 of the weighting member 310 provided on the lifting means, and the guiding surface of the lifting means is moved upward And guide the user to be seated. The body of the impact weight is formed in a cylindrical shape and the induction surface 420 is coupled to the upper portion of the body of the impact weight in a conical shape so that the engaging piece of the weight interlocking member is gradually So that the catching piece is caught on the chucking surface while being caught by the hitting additional lifting means. That is, the engagement spring of the thrusting member is compressed by the compression spring to reduce the gap by the mutual pulling force, and is coupled to the impact additional lifting and lowering means.

FIG. 3 is a view showing the operation process of FIG. 1, wherein FIG. 3 (a) shows a state in which the lifting means is located in the upper part of the housing, and FIG. 3 And FIG. 3 (c) shows the upper part of the housing in a different state when the lifting unit is engaged with the weight, FIG. 3 (d) Giving.

Referring to FIG. 2, it can be seen that the pushing portion 312, which has a predetermined inclination angle, is formed on the upper portion of the weighting member. The end of the pushing portion bumps against the upper surface 220 of the housing in the lifted state of the lifting means to momentarily overcome the compressive force of the compression spring and the pushing force applied to the lower fastening piece 311 of the pushing- And falls freely downward.

FIG. 4 is a view showing a detailed configuration of a striking device for an electrostatic precipitator according to the present invention. In the state where a plurality of structures composed of a cylinder and a striking portion shown in FIG. 1 are provided, Up and free fall can be achieved continuously. FIG. 4 shows a state in which two cylinders and striking parts are provided for convenience.

4, the air supply means of the present invention includes an air compressor 510 for supplying air to the cylinder 100, an air supply valve 520 for controlling intermittent air supplied from the air compressor, And an air supply line 530 for transferring the air supplied from the air supply valve to the cylinder. Further, the air supply line includes first air supply lines 531, 531 ', and 531 "for transferring the air required to raise the cylinder rod 110 in a state where the air supply line is connected to the lower portion of the cylinder, The air supply valve 520 and the second air supply lines 532 'and 532' 'are formed of second air supply lines 532, 532' and 532 '' for transferring the air required to lower the cylinder rod. An air header 540 is further provided.

The air supply valve 520 intermittently controls the air supplied from the air compressor 510 to provide the air to the cylinder. The air supply valve supplies air to the upper and lower portions of the cylinder, respectively. Air is supplied to the lower portion of the cylinder through the first air supply line 531 to provide a force for moving the cylinder rod upward. 4, it can be seen that the other first air supply lines 531 ', 532 "branched from the first air supply line directly connected to the air supply valve are connected to the lower portion of the cylinder, respectively. The cylinder rod that has been supplied with air through the upper portion pushes up the lifting means in the state of being engaged with the striking weight to reach the upper surface 220 of the housing and the swinging portion 312 of the weight locking member hits the upper surface, It is separated from the additional engaging piece 311 and falls freely.

The air supply valve 520 supplies air to the upper portion of the cylinder through the second air supply line 532 to provide a force for moving the cylinder rod downward. The cylinder rod must be moved to the lower portion again so as to move the upper portion of the free-falling striking weight, and the cylinder rod is moved downward while air is supplied from the air supply valve.

In the case to said first air supply line, the pressure of the air, for example, 3.5kgf / cm ² is supplied, the pressure of the air supplied to the second air supply line is sufficient 0.2kgf / cm ^2. This is because the pressure for simply moving the cylinder rod to the lower portion in the state where the impact is added free fall is not required to be so large as compared with the pressure for overcoming the weight of the impact weight through the air supplied to the first air supply line to be.

An air header is further provided between the air supply valve 520 and the second air supply lines 532 'and 532' 'connected to the upper portion of the cylinder. The air header minimizes the pressure fluctuation within a certain use range, So that when the air is supplied to the lower portion of the cylinder, the air filled in the upper portion of the cylinder rod is used as a space temporarily stored while being pushed by the cylinder rod, and when the air is supplied to the upper portion of the cylinder, So that the cylinder can be smoothly driven without loss of air supplied from the air compressor.

The air supplied through the air supply valve is separately supplied to the lower and upper portions of the cylinder at regular intervals. That is, the air supply valve controls the upward and downward movement of the cylinder rod by periodically interrupting the air supplied through the first air supply line and the air supplied through the second air supply line. For example, air is supplied at a pressure of 0.2 kgf / cm < ² > for 10 seconds through the second air supply line, so that the elevating means at the upper part of the housing moves to the lower position The air is supplied at a pressure of 3.5 kgf / cm ² for 30 seconds via the first air supply line in a state in which the air supply to the second air supply line is interrupted, Can be moved. Thereafter, the supply of air is stopped for the remaining time (80 seconds), and air is supplied again through the second air supply line for 10 seconds so that the next cycle is repeated.

As the air supply valve to which the present invention is applied, various valves may be used, for example, a commonly used solenoid valve may be used as an air supply valve.

Referring to FIG. 4, it can be seen that the two striking devices can be driven by the control of the air supply valve. In this case, although the hitting may be performed at the same time, it is preferable to control the hitting momentarily applied to the dust collecting plate to be sequentially performed, and this is controlled through the speed controller 120 provided at the upper portion of the cylinder 100 . That is, even when the same pressure is applied, the speed of the cylinder rod can be adjusted by appropriately controlling the speed controller, so that the blow applied to the dust collecting plate can be sequentially performed.

4, when the cylinder rod provided in the striking device provided on the left side and the right side respectively have different up and down speeds, even when the same pressure is applied through the air supply valve, It can be done at different times. That is, when the speed controller of the right striking device is adjusted so that the moving speed of the cylinder rod is 0.5 m / s later than that of the left striking device, .

The air supply valve 520 may include a timer 550 and a pressure regulator 560. The timer can adjust the time at which air is supplied to or shut off from the air supply valve to the first air supply line or the second air supply line and the air is supplied to the first air supply line or the second air supply line The supplied pressure can be adjusted.

Although FIG. 4 shows that two striking devices are controlled by one air supply valve, it is needless to say that three or more striking devices may be controlled by one air supply valve as necessary.

FIG. 5 is a simplified diagram showing the overall configuration of the striking device for an electrostatic precipitator according to the present invention, in which two striking devices are connected to an air supply valve 520 in a state where two striking devices are connected, And the pressure regulating portion are omitted.

When the apparatus is configured as shown in FIG. 5, the two striking devices are sequentially operated through the air supplied through the respective air supply valves. By sequentially controlling the intermittent cycles of the respective air supply valves, May be sequentially performed. As a result, the impact applied to the dust collector is dispersed to prevent breakage, and the impact is continuously applied to the dust collector at a predetermined interval, thereby improving the efficiency of removing the dust.

According to the present invention, dust can be easily removed due to the weight of the free-falling drop weight by dropping the dust collected in the dust collector using the discharge weight falling freely from the striking device provided on the upper part of the dust collector, It is possible to reduce the manufacturing and maintenance cost by providing an air header between the second air supply line and the air supply valve in order to reduce the resistance at the time of cylinder rising The air loss is reduced, the utilization efficiency of the air compressor is improved, and the free fall distance of the striking device can be freely formed, so that the size of the striking device can be adjusted according to the size of the dust collector.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: Cylinder
110: cylinder rod 120: speed controller
200:
210: housing 220: upper surface
300: elevating means
310:
311: Retaining tab 312:
320: Compression spring
400: striking weight
410: weight hanging surface 420: guiding surface
510: Air Compressor 520: Air Supply Valve
530: Air supply line
531, 531 ', 531 ": the first air supply line
532, 532 ', 532 ": the second air supply line
540: Air header 550: Timer
560: pressure regulator 600: dust collector top plate

Claims (6)

A cylinder formed on an upper portion of the striking portion;
A cylinder head provided at a lower end of the cylinder rod, a lifting means provided in the housing and connected to a lower end of the cylinder rod, A striking part; And
Air supply means for controlling up-down driving of the cylinder rod;
Lt; / RTI >
Wherein the air supply means comprises:
An air compressor for supplying air to the cylinder;
An air supply valve for controlling intermittence of air supplied from the air compressor; And
An air supply line for transferring the air supplied from the air supply valve to the cylinder;
Lt; / RTI >
The air supply line
A first air supply line for transferring the air required to raise the cylinder rod in a state connected to the lower portion of the cylinder,
And a second air supply line for transferring the air required to lower the cylinder rod in a state of being connected to the upper portion of the cylinder.
The method according to claim 1,
The elevating means includes:
And a jamming part for lifting the striking weight in a state of being engaged with a weighting surface of the striking weight, and a jamming part for striking the upper surface of the housing in the process of lifting the striking weight to guide the jamming piece to widen Member, and
And a compression spring for connecting the weight engagement members to each other.
The method according to claim 1,
[0027]
And a guiding face for guiding the clamping face of the elevating means to be lowered while guiding the clamping face to be seated on the weight holding face. Wherein the striking device is a striking device for an electrostatic precipitator.
delete delete The method according to claim 1,
Wherein an air header is further provided between the air supply valve and a second supply line connected to an upper portion of the cylinder.

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