KR200193057Y1 - Hammer dril of tap hole - Google Patents

Abstract

The present invention prevents damage to the hammer drill and prolongs its life by preventing leakage of high pressure nitrogen and cooling water when opening the exit port by the single opening method using the opening machine used for the opening of the furnace exit port. The hammer drill of the furnace opening of the blast furnace is made possible, and in the opening machine for opening the furnace opening of the furnace by equipping a hammer drill for injecting cooling water and nitrogen, a spring for supplying the cooling water and nitrogen The outer heat-resistant rubber hose 203 is connected to the rear end side via the socket 201, and the center portion is made of an integral tube 23-1, 23-2, 23-3, and the tip is The screw rod 102 is characterized by supplying cooling water and nitrogen by an integral waterproof spray tube extending to the tip outlet side.

Description

Hammer drill in the furnace opening of the furnace

The present invention relates to a hole opening machine used in the opening of the furnace exit port, more specifically, the damage generated in the hammer drill used to open the exit port by spraying a mixed liquid of high-pressure nitrogen and cooling water by a blow opening method Furnace to extend the life of the hammer drill by preventing the water from the connection of the injection tube and solve the problems such as lag, opening delay, leakage increase due to manual operation and adjustment of the coolant injection, and improved productivity and reduced workload. It relates to the hammer drill of the exit opening machine.

In the furnace equipment, an opening machine for opening one of the plurality of exit ports formed in the furnace and discharging the molten iron therefrom is provided. In the conventional opening method, a high temperature exit hole is drilled by a drill bit. As a result of this problem, the depth of the drill is very high (about 3000mm) and the temperature is very high. Therefore, the drill is deteriorated and cannot be opened at one time. Therefore, after opening the bit firstly, the iron rod is used after the bit opening. To complete.

However, the conventional opening method of the opening of the exit leads to a heavy heat load, and recently, the opening of the exit is opened by a technique called a single opening method, which improves the cooling function of the drill bit contact surface. It is a method of mixing and spraying nitrogen and cooling water at high pressure (about 15kg / cm ² ) to open at one time, and it has achieved breakthrough effects such as reducing the number of workers. In the process of being delivered to the drill bit 13 through the inside of the hammer drill 1, water leakage occurs at the connection part of the injection tube, which frequently causes the hammer drill to be broken, and the cooling water supply, the number of stages, and the flow rate control are made manually. Precise operation is very difficult.

2 is an assembly view of a conventional drilling machine hammer drill, the drill hammer drill hole is largely fixed hammer piston 103, screw rod 102, rotary chuck 107 and chuck bushing 108, the operation gears 110 (111) (113), etc., the open-air drill rotational force is transmitted from the air motor gear 113 to the rotating chuck 107 via the transmission gear (110) (111) and the rotating chuck 107 is a screw rod Rotate 102 and the screw rod 102 passes through the reverse hammer 2 to rotate the tapping socket 7, the opening pipe 12, and the drill bit 13 at the end of the opening pipe to open the outlet 11. It will open.

On the other hand, the exit refractories have high temperature and strong cohesion as they enter the interior, which degrades the wear of the end of the drill bit (13). The injection nitrogen and the cooling water are sprayed at the same time, which is blown at the drill bit tip contact surface to cool the drill bit.

If the tap hole is opened in the middle, it is not easily opened by the rotational force of the drill bit alone. By operating the hammer hammer piston 103, the forward force is applied to the screw rod 102 and transmitted to the drill bit. A pioneer will be opened.

When the operator manually opens the nitrogen and jet coolant manual shutoff valve 33 at the same time as the drill bit 13 rotates during the opening work (the coolant flow control valve is fixed to a certain degree), the high pressure nitrogen and jet coolant is As shown in FIG. 3, from the rear end of the hammer drill, the flexible hose 32, the union 31, 30, the nipple 29, the connecting cap 28, and the injection tube gland 26 and The first discharge is carried out from the rear end of the injection tube 23, and then the injection tube 23 is injected from the end of the tube, and then the tapping socket 7 → the opening pipe 12 → the drill bit 13 through the internal passage of the screw rod 102. Sprayed to the tip.

The method of spraying the coolant is to open the coolant manual shut-off side 33 at the moment when the drill bit tip touches the exit port while the operator manually operates the opening, and if the flow rate of the coolant increases by a certain amount or more, the hammer drill 1 Since it is immersed into the inner working part is fixed fixed to a certain amount in the manual flow control valve 34 and the problem of the conventional cooling water injection device is as follows.

The general opening method of the exit port has a great effect in terms of reducing the work load and convenience, but the inlet nipple (29) and the inlet nipple (29) have to be mixed and sprayed with the high-pressure nitrogen into the hammer drill (1) which is driven by pneumatic operation. Water leakage occurs between the connection part between the rear end of the injection tube 23 and the connection end of the injection tube and the internal pneumatic flow path connection at the rear end of the screw rod 102, so that the hammer piston 103, the rotating chuck 107, the chuck bushing 108, and the washer bushing ( 106) and cooling water penetrates into each working flow path such as gears 110, 111, 113, etc. It must be operated manually according to the opening condition of the piers (drill bit forward speed, opening chip refractory color, etc.), which makes it difficult to operate correctly and has a risk of explosion, and it is a major cause of increased workload, stiff yellowing and stable operation.

The present invention has been made in order to solve such a conventional problem, the purpose of the injection tube gland inside the hammer drill from the outside of the rear end of the hammer drill is mounted on the opening to open the furnace exit opening by a single opening method, By inserting the injection tube of nitrogen and coolant mixed water into the integral type to the fixed hammer piston and screw rod end outlet side, it is possible to prevent the hammer drill damage by preventing the hammer drill from being accidentally inserted. It is to provide a hammer drill of the blast furnace opening hole which enables the increase and automatic remote operation to reduce the workload and reduce the cost by remotely automating the cooling water injection and flow rate control.

1 is an overall configuration diagram showing the main components and the exit surface of the general opening machine from the side.

2 (a) to 2 (c) is an assembly view showing a hammer drill, which is a conventional opening operation unit.

3 is an assembly structure diagram showing the structure of the state of the conventional coolant jet tube set (SET) together with the peripheral parts.

Figure 4 is an exploded perspective view showing a conventional cooling water injection tube.

Figure 5 is an exploded perspective view showing an integral waterproof spray tube used for the hammer drill of the opening of the furnace outlet according to the present invention.

Figure 6 is an assembly view of the integral waterproof tube used for the hammer drill of the opening of the furnace outlet according to the present invention.

7 is an assembly structure in which the peripheral parts of the integrated waterproof spray tube set and the hammer drill of the present invention are assembled and the cooling water automatic spray unit is connected.

* Explanation of symbols for main parts of the drawings

1: hammer drill 11: exit

13: bit 23-1,23-2,23-3: integral waterproof spray tube

As a technical configuration for achieving the above object, the present invention is equipped with a hammer drill for injecting cooling water and nitrogen in the opening machine for opening the exit of the furnace, the spring is supplied for supplying the cooling water and nitrogen The heat-resistant rubber hose is connected to the rear end via a socket, the center part is made of an integral tube, and the end is supplied with cooling water and nitrogen by an integral waterproof spray tube extending up to the outlet side of the screw rod end. By providing a hammer drill in the opening of the exit opening.

Hereinafter, the present invention will be described in detail.

The present invention is supplied to the hammer drill which is the core component of the opener, which is a device for drawing out the molten iron (smooth water) manufactured in the blast furnace, so that the high pressure nitrogen and the coolant In order to prevent the mixed water from leaking, as shown in FIGS. 5 to 7, an integral waterproof spray tube is used to spray the tip of the screw rod 102 out of the inside of the hammer drill.

That is, the integral waterproof spray tube body 23-1, 23-2, 23-3 and the direct connection socket 201, the heat-resistant spring is external, seismic rubber hose 203 and the connection nipple 202 and other It is composed of a support device and a coolant spray automatic valve (35).

The injection tube main body 23-1 is formed longer than the conventional injection tube 23 (about 200 mm) and is close to the inclined jaw of the screw rod 102 at an appropriate interval (about 4 mm) and the front end of the injection tube 23. The tip of -2) is welded at the tip of the injection tube main body with a length of 420 mm to completely escape the inside of the hammer drill to the tip of the screw rod. It protrudes out of the gland 26 and the connecting cap 28.

The support fixing of the integral waterproof spray tube (23-1) (23-2) (23-3) is tightly supported by the injection tube gland (26) and the connection cap (28) together with the internal support rubber (21) and connected to the gland. Sealing gaskets 25 and 27 are respectively inserted between the caps, and the connecting sockets 201 are fastened to the rear end screw portion 23-3 protruding from the outside of the injection tube. The seismic rubber hose 203 is fastened to withstand vibration and high heat.

In addition, the cooling water injection automatic valve 35 is installed at the rear end of the manual shut-off valve 33 and the flow control valve 34 so as to be remotely operated by a circuit and the flow control valve 34-1 can be remotely controlled. Installation is connected and automated.

The operation of the present invention is that the opening of the exit opening first, by pressing the drilling start button with the remote control after the center of the drill bit 13 to the center of the exit opening 11 by remote operation, the advance with the rotation of the drill bit At the same time, the cooling water vehicle short side 35 shown in FIG. 7 is opened and the cooling water supplied at a high pressure (15 kg / cm ² ) is mixed with the injection nitrogen to directly connect the socket 201 from the spring sheath rubber hose 203. Screw rod 102 beyond the end of the operating part of the hammer drill 1 without a connection part or a connection gap (space) to the tip of the integrated waterproof spray tube 23-1, 23-2, 23-3 via It is sprayed from the tip to prevent the immersion of mixed water into the structural part such as hammer piston 103, rotary chuck 107, injection tube gland 26, gears, etc. Color of Refractory Chip The remote control by opening and closing the coolant flow control automatic valve (34-1) by remote control while seeing the advance speed of the rug and drill bit.

After the completion of the opening, the stage of the injection cooling water is automatically cut off by pressing the reverse start button of the drill bit 13 and closing the vehicle short side (3%).

In other words, by integrating the injection tube to prevent the leakage of coolant and nitrogen therefrom to prevent damage to the hammer drill fundamentally, and to achieve the automation of the cooling water spray to reduce the work load due to the establishment of a single opening method and remote remote control operation and stable It will contribute greatly to the operation.

According to the hammer drill of the furnace opening port opening machine according to the present invention as described above, the injection tube gland inside the hammer drill from the outside of the rear end of the hammer drill mounted on the hole opening machine to open the furnace outlet opening by a single opening method, By inserting the injection tube of nitrogen and cooling water mixed water integrally to the fixed hammer piston and the screw rod end outlet side, it is possible to prevent the hammer drill damage accident by preventing the hammer drill from being damaged. It is possible to increase and automatic remote operation, which has the excellent practical effect to reduce the workload and reduce the cost by remotely automating the cooling water injection and flow rate control.

Claims (1)

In the opening machine for opening the outlet of the furnace by having a hammer drill for injecting cooling water and nitrogen, a heat-resistant rubber hose 203 with a spring for supplying cooling water and nitrogen is used to mediate the socket 201. It is connected to the rear end side of the furnace, the central portion is composed of integral tubes (23-1) (23-2) (23-3), the tip is to the integral waterproof spray tube extending to the outlet end of the screw rod (102) The hammer drill of the opening of the furnace opening, characterized in that the supply of cooling water and nitrogen.