KR100504396B1 - apparatus for repairing brick of coke chamber - Google Patents

Abstract

The present invention relates to a device for performing a dusting operation for sealing and repairing the gap between the edges constituting the carbonization chamber, more specifically, the dusting operation can be safely performed even under high temperature conditions, and the work required time is shortened It is about a carbonization chamber and repair device which can increase the life span and improve the life of the body.

The present invention is a device for sealing and repairing the gap between the edge 11 and the edge 11 constituting the carbonization chamber 10, the hopper 42 is provided with a predetermined amount of compound, the hopper 42 The supply pipe 43 is connected to the supply pipe 43 is provided with a screw 45 is rotated by the rotary motor 44 to supply the compound (40); The main air supply line 62 is connected to each of the plurality of tanks 61 connected to the supply pipe 43 so as to discharge the compound as high-pressure air, and the charging opening is opened through the supply hose 64. It is disposed in the (13), and provided with a heat dissipating plate 63 having a spray nozzle (63a) to provide a carbonization chamber repair and repair apparatus comprising a; operating unit (60) for injecting compound into the carbonization chamber (10) .

Description

Apparatus for repairing brick of coke chamber}

The present invention relates to a device for performing a dusting operation for sealing and repairing the gap between the edges constituting the carbonization chamber, more specifically, the dusting operation can be safely performed even under high temperature conditions, and the work required time is shortened It is about a carbonization chamber and repair device which can increase the life span and improve the life of the body.

In general, in order to obtain a product called coke, the fire is burned under the carbonization chamber by an under zet system, and the radiant heat is transferred to the carbonization chamber from both sides, and the air is blocked after the high temperature. After burning the gas with a heat source for about 17 to 18 hours (about 1260 ° C.), a high-strength coke is produced. In this process, as shown in FIG. ), Repeated expansion and contraction, and maltar (12), which is a joint between 11 and 11, due to long time operation of coke oven was dropped, and the drift minus pressure of the chimney during the loading of bituminous coal using mobile bogie A large amount of gas from the car is sucked into the adjacent combustion chamber, resulting in incombustible combustion and the release of live gas into the atmosphere, while greatly reducing the lifetime of the furnace and carbonization chambers. It was.

In order to prevent this, in the past, the coking manufacturing process is stopped to reduce dust in the carbonization chamber, and the dusting where the mortar between the yolk 11 and the yolk 11 is dropped as a compound is sealed and repaired. The work was carried out once or twice a day.

That is, a pair of two workers move the moving vehicle 21 on which the tank 20 storing the compound is mounted to the vicinity of the charging inlet 13 of the carbonization chamber 10, and the selected one of the plurality of charging inlets 13 is selected. When the operator pumps the supply pump installed in the tank 20 in a state in which the nozzle 23 is inserted into the charging port, and the charging hole 13 is blocked as the lid 22, the supply pipe 21 is supplied through the supply pipe 21. As the compound is injected from the nozzle 23, the gap between the lead 11 and the lead 11 can be repaired.

However, the conventional dusting work is made by hand and takes about 40 to 60 minutes of excessive work time, which reduces work productivity, causes a problem of stopping and stopping production, and thus, two workers are put into the dusting work. There were problems of labor cost and cost increase.

In addition, since the maintenance work is performed only in one charging hole 13, the repair efficiency of the inner wall of the carbonization chamber 10, in which the nozzle 23 is not inserted, is remarkably decreased. Repeatedly, the inefficiency of the work emerged. In addition, there is a high possibility that an operator may be burned and the heat loss in which the temperature of the carbonization chamber decreases during a long dusting operation has been a problem.

Therefore, the present invention has been made in view of the above-mentioned conventional problems, the object of which is to perform a dusting work to seal the gap between the lead without interruption of operation, to protect the operator from the risk of burns, to reduce the working time In order to shorten the temperature of the carbonization chamber to prevent it, and to provide a facility for repairing the carbonization chamber can improve the operation rate.

As a technical configuration for achieving the above object, the present invention,

In the device for sealing and repairing the gap between the yeonwa constituting the carbonization chamber,

A feeder having a hopper for storing a predetermined amount of compound, the supply pipe being connected to the hopper, having a screw rotated by a rotation motor to supply the compound;

Each of the plurality of tanks connected to the supply pipe is connected to the main air supply line so that the compound can be discharged as a high-pressure air, disposed in the open charging port via the supply hose, the injection heat sink having a spray nozzle By providing an operation and repair device for the carbonization chamber characterized in that it comprises; an operating unit for injecting compound into the carbonization chamber.

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

2 is an installation state diagram showing a carbonization chamber repair and repair apparatus according to the present invention, Figure 3 is an overall configuration showing a carbonization chamber repair repair apparatus according to the present invention, Figure 4 is a carbonization chamber repair repair according to the present invention Figure 5 is a perspective view showing a supply unit constituting the device, Figure 5 is a detailed view showing the operating unit showing a carbonization chamber repair repair apparatus according to the present invention, Figure 6 is a minute employed in the coal cabin repair equipment according to the present invention. As a detailed view showing the heat sink used, as shown, the soft repair device 1 of the present invention is moved along with the moving cart 80 moved along the charging hole 13 from the upper side of the carbonization chamber 10. It is installed in this to inject the compound into the carbonization chamber 10 to safely seal the damaged mortar between the brim 11 and the brim 11, such a device (1) to the supply unit 40 and the operating unit (60) consist of.

That is, the supply part 40 is fixedly installed in the moving trolley 80 and moved together with the hopper 42 in which a predetermined amount of compound is stored, and is communicatively connected to the feed port 42a of the hopper 42. It comprises a screw 45 that is driven to rotate by the power of the supply pipe 43 and the rotary motor 44 is supplied.

A supply cover 41 is installed on the upper surface of the hopper 42 so as to replenish the compound in powder form, and the discharge of the compound through the feed hole 42a may be unobstructed toward the supply pipe 43 in the inner space. The clogging prevention nozzle 32 is connected to the auxiliary air supply line 33 so as to be made. Accordingly, the injection nozzle 32 can prevent the blockage by mixing the compound (mixing) by the high-pressure air at the time of supplying the compound discharge through the transfer port (42a).

In addition, both ends are supported by the bearing block in the inner space of the hollow-cylindrical cylindrical feed pipe 43 installed horizontally in communication with the transfer port 42a of the hopper 42, and one end of the rotary motor 44 causes the rotational force. The spiral screw 45 connected to the rotatable assembly is rotatably assembled, and as shown in FIG. 4, an incision 47a is formed on the outer surface of the supply pipe 43 so that the internal space can be easily observed. A fixing hole 48a fitted to the 49a is formed to include a washer 48b and a lid member 47 detachably assembled as the nut member 48c.

In addition, the operation unit 60 for injecting and supplying the compound supplied from the supply pipe 43 into the carbonization chamber 10 extends from the supply pipe 43 and has a plurality of connection pipes 61a having an on / off valve 61c. A plurality of tanks 61 detachably assembled to each other, a main air supply line 62 for supplying high-pressure air to discharge the compound introduced into the tank 61, and an open charging hole 13 And a supply hose 64 for supplying and guiding the compound of the tank 61 with the injection heat dissipation plate 63 having the injection nozzle 63a and the compound of the tank 61 toward the injection heat dissipation plate 63 side.

Each of the tanks 61 is provided with a pressure gauge 65 for detecting the pressure of the internal space, and upper and lower level gauges 66a and 66b for detecting the highest and the lowest level of the supplied compound, respectively. The pressure vent port 65a for lowering the internal pressure is mounted when the internal pressure detected by the pressure gauge 65 becomes larger than the set reference value.

In addition, the connection pipe 62a connecting between the main air supply line 62 and each tank 61 has an oil / water separator 67a for separating high pressure air and water, a solenoid valve 67b, and an air control valve ( 67c is provided, and an outlet 61b is provided at an end of each of the distribution pipes 68a, 68b, and 68c branched from the connecting pipe 62a and connected to the upper, middle, and lower portions of the tank 61, respectively. The nozzle nozzle is narrow in order to accelerate the injection speed of the high pressure air in the vicinity of the upper nozzle 69a and the middle nozzle 69b and the discharge port 61b to increase the internal pressure so that the discharge of the compound through the discharge is made smoothly without clogging. The lower nozzle 69b may be provided.

  In addition, the supply hose 64 connecting between the tank 61 and the heat dissipation plate 63 for injection has one end and an upper end of the discharge pipe 71 extending from the discharge port 61b, and the heat dissipation plate 63 and the bottom end. Removably assembled as the connector (71a) (71b), respectively, the injection heat dissipation plate (63) is connected to the bracket (73a) of the shanghai transport cylinder 73 installed on the bracket (72a) of the left and right transport cylinder (72) It can be transported to the open charging (13) side.

The operation and effects of the present invention as described above will be described.

First, the replenishment and supply of the compound, which is performed before the dusting operation of spraying the compound into the carbonization chamber 10 through the charging opening 13 of the carbonization chamber 10, is performed by opening the supply cover 41 and the hopper. Replenish a certain amount of compound in (42) and store it in a dry state. In this state, when the high pressure air is supplied to the nozzle clogging prevention nozzle 32 through the auxiliary air supply line 33, the compound in the hopper 42 is supplied to the supply pipe 43 through the feed hole 42a formed at the lower end thereof. It is transported and supplied without blocking to the side.

Subsequently, when a rotary force is generated by supplying power to the rotary motor 44 provided on one side of the supply pipe 43, the screw 45 connected thereto rotates in one direction and connects the compound in the supply pipe 43 to each connection pipe 61a. And start supplying to each tank 61 side. At this time, the on-off valve 61b provided in the connection pipe 61a is open.

When the supply amount of the compound which is continuously filled in each tank 61 is excessively detected and the highest level is detected by the upper limit level gauge 66a, the corresponding opening / closing valve 61c is shut off by the signal, and the rotary motor 44 ) Is stopped and the supply of the compound through the connection pipe 61a of the supply pipe 43 is temporarily suspended. On the contrary, the discharge consumption of the compound through the discharge port 61b of the tank 61 becomes excessive and the lower limit level gauge ( When the lowest level is detected by the signal 66b), the corresponding on-off valve 61c which has been shut off by the signal is opened again, and the rotating motor 44 which has been stopped is restarted to resume the operation of supplying the compound to the tank 61 side. do.

When the compound is sufficiently filled in each tank 61 as described above, the preparation for dusting work for repairing the broken portion between the lead 11 and the lead 11 constituting the carbonization chamber 10 as a compound is performed. It's done.

In such a state, after extruding the completed coking coke completed in the carbonization chamber 10 for a long time and making it to the air condition, the door 22 and the rising pipe 15 on both sides of the carbonization chamber are closed and the lid 22 is closed. In order to open the charging inlet 13 in which the inlet is blocked, advance the charging cylinder lid opening primary cylinder 81 installed in the mobile trolley 80, and then when the secondary cylinder 83 is lowered, The mounted magnet 86 is disposed directly above the lid 22. At this time, when the magnetic power is generated by supplying power to the magnet 86, the lid 22 made of iron material is lifted upward. The charging hole 13 is opened by being attached to the magnet 86.

In FIG. 6, reference numeral 82 denotes a cylinder base, and 85 denotes a rotation cylinder.

Subsequently, when the secondary cylinder 83 is raised and the primary cylinder 81 is returned to the home position, each charging hole 13 provided in the upper surface of the carbonization chamber 10 in the nominal state is opened. In order to arrange the heat dissipation plate 63 for each injection hole 13, when the shanghai transport cylinder 72 is advanced and the shanghai transport cylinder 73 is lowered, the injection is mounted on the bracket 73a at the rod end. The heat dissipation plate 63 is aligned with the open charging hole 13 and is disposed therein, thereby placing the injection nozzle 63a therein while blocking the charging hole 13.

In this state, when the operator opens the solenoid valve 67b of each connecting pipe 62a connected to the main air supply line 62 in the cab, the high pressure air passing through the oil / water separator 67a is the air control valve 66c. It is supplied to the tank 61 through each of the distribution pipes 68a, 68b, 68c while being adjusted by.

Accordingly, some of the air introduced into the tank 61 is injected through the upper nozzle (69a) of the upper side distribution pipe (68a) to increase the internal pressure to smoothly discharge the compound through the discharge port (61b) The other air portion is injected above the outlet 61b through the middle nozzle 69b of the middle distribution pipe 68b to prevent the compound from clogging at the outlet 61b, while the other air portion is The compound coming out of the outlet (61b) is to inject a high pressure once again.

As the compound is injected with air at a high pressure as described above guided to the supply hose 64 side through the injection nozzle 63a of the heat sink 62 disposed in the charging hole 13 via the supply hose 64 It is injected into the interior space of the carbonization chamber 10. Accordingly, the compound sprayed from the injection nozzle 63a of the injection heat dissipation plate 63 disposed at each charging hole 13 is attached to the broken portion between the lead 11 and the lead 11 to remove the mortar portion. Repair the damaged parts evenly while sealing.

Then, when the discharge amount of the compound introduced into the tank 61 becomes excessive, the level reaches the lowest level, and when the lower limit level gauge 66b detects this, the corresponding solenoid valve 67b is blocked by the signal and high pressure is applied. At the same time as the air supply is suspended, the rotary motor 44 is driven, and the corresponding on / off valve 61c is opened to resume the supply of the compound.

On the other hand, when the dusting operation as described above is performed for a predetermined time 10 minutes, the sealing repair work is completed, while the Shanghai transport cylinder 73 is raised to space the injection heat sink 63 from the charging inlet 13, left and right Returning the cylinder 72 to the shingles and backing up the heat sink 63 until the next dusting operation, and at the same time, the dribble sleeve 83 of the moving trolley 80 is lowered to the charging hole 13 side. The coal briquettes stored in the respective hoppers 87 of the charging vehicle are introduced into the carbonization chamber 10.

According to the present invention having the configuration as described above, since the maintenance work to seal the falling off part of the mortar by supplying the compound into the carbonization chamber in the air while moving with the moving cart, it is easy to operate for a long time as in the prior art It is possible to prevent the interruption, to reduce the labor cost by reducing the number of workers, and dusting work in high temperature conditions as in the prior art is unnecessary to protect the worker from the risk of burn. In addition, the working time can be significantly reduced as compared with the prior art, and the effect of not only preventing the temperature of the carbonization chamber from being lowered, but also extending the service life of the carbonization chamber and extending the life of the furnace can be obtained.

1 is a working state showing the dusting operation in the carbonization chamber according to the prior art,

Figure 2 is an installation state showing a carbonization chamber and repair apparatus according to the present invention,

3 is an overall configuration diagram showing a carbonization chamber repair and repair apparatus according to the present invention;

4 is a perspective view showing a supply unit constituting the carbonization chamber repair repair apparatus according to the present invention,

5 is a detailed view showing an operating unit showing a carbonization chamber repair repair apparatus according to the present invention,

Figure 6 is a detailed view showing a heat sink for spraying employed in the coal munition repair apparatus according to the present invention.

* Explanation of symbols for the main parts of the drawings *

10 .... carbonization chamber 13 .... charging

42 .... Hopper 43 .... Supply Line

44 .... rotary motor 45 .... screw

61 .... Tank 62 .... Main Air Supply Line

63 .... Spray Heat Sink 64 .... Supply Hose

65 .... Pressure gauge 66a, 66b .... Upper and lower level gauge

67b ... solenoid valve 69b .... intermediate nozzle

72 .... left and right transfer cylinder 73 .... shanghai transfer cylinder

Claims (7)

In the device for sealing and repairing the gap between the edge 11 and the edge 11 constituting the carbonization chamber 10, The supply unit 40 is provided with a hopper 42 to store a predetermined amount of compound, and the supply pipe 43 connected to the hopper 42 is equipped with a screw 45 that is driven by a rotary motor 44 to supply the compound. ); The main air supply line 62 is connected to each of the plurality of tanks 61 connected to the supply pipe 43 so as to discharge the compound as high-pressure air, and the charging opening is opened through the supply hose 64. And an operating unit (60) disposed at (13) and having a heat dissipation plate (63) having an injection nozzle (63a) to inject the compound into the carbonization chamber (10). Device. The method of claim 1, In the inner space of the hopper 42 is installed a clogging prevention nozzle 32 connected to the auxiliary air supply line 33 so that the discharge of the compound through the conveying port (42a) to the supply pipe 43 side without clogging. Carbonization chamber repair and repair device. The method of claim 1, An incision 47a is formed on the outer surface of the supply pipe 43 so that the internal space can be easily observed, and a fixing hole 48a is fitted to the fixing screw 49a to form a washer 48b and a nut member ( 48C), the carbonization chamber and repairing device characterized in that it comprises a cover member 47 is detachably assembled. The method of claim 1, Each of the tanks 61 is provided with a pressure gauge 65 for detecting the pressure of the internal space, and upper and lower level gauges 66a and 66b for detecting the highest and the lowest level of the supplied compound, respectively. And a pressure vent port (65a) for lowering the internal pressure when the internal pressure detected at (65) is greater than the set reference value. The method of claim 1, The connecting pipe 62a connecting between the main air supply line 62 and each tank 61 has an oil / water separator 67a for separating high pressure air and water, a solenoid valve 67b, and an air control valve 67c. Carbonization chamber repair and repair apparatus characterized in that the installation. The method of claim 5, Upper nozzle 69a for increasing the internal pressure at the end of each distribution pipe 68a, 68b, 68c branched from the connection pipe 62a so that the discharge of the compound through the discharge port 61b can be smoothly made without clogging. And an intermediate nozzle (69b) and a lower nozzle (69b) for accelerating the injection speed of the high pressure air in the vicinity of the discharge port (61b). The method of claim 1 The injection heat dissipation plate 63 is carbonized, characterized in that connected to the bracket (73a) of the shanghai transport cylinder (73) installed on the bracket (72a) of the left and right transport cylinder (72) so that it can be transferred to the open charge (13) side Demonstration and repair device.