JPS603556B2 - Slurry supply device for mechanical descaling grinding - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a slurry supply device for use in mechanical descaling.

Recently, a so-called mechanical descaling method has been adopted in which high-pressure water containing an abrasive is sprayed to remove scale from the surface of steel materials.

The disadvantages of this method are that it requires a large amount of high-pressure water, resulting in high energy costs; the high-pressure slurry containing the abrasive material causes a lot of wear on piping and nozzles; and the cleaning slurry must be used until the pressure is increased. The piping is easily clogged due to high concentration slurry and foreign matter, and there are significant restrictions on the equipment layout of the supply equipment. The present invention overcomes this drawback and provides a mechanical descaling slurry supply device that is efficient, highly reliable, and has a high degree of freedom in equipment arrangement.

As mentioned above, the method of jetting ordinary abrasive slurry (hereinafter referred to as "slurry") and high-pressure water from one location of the descaling/slur at the same time is not practical because the abrasion of the abrasive slurry in the system is severe.

Therefore, a slurry external acceleration type descaling nozzle N (hereinafter referred to as nozzle N) as shown in FIG. 1 has been developed. In the descaling nozzle N, the polishing slurry enters from the slurry inlet N and is discharged from the slurry outlet hole N2. The high-pressure water enters from the high-pressure water inlet N3 and is ejected from the high-pressure water jet hole N4 provided around the slurry outlet hole N2. Scale is removed from the surface of the material to be polished by the nozzle N. A conventional slurry supply device for polishing material equipped with such a nozzle N is shown in FIG.

The slurry enters the supply tank 2 from the slurry input port 1,
The inside of the supply tank 2 is covered with flies to make the concentration of the slurry uniform with a fly wing 3. The slurry naturally falls to the nozzle header with a built-in external acceleration descaling nozzle N due to the head difference between the supply tank 2 and the nozzle header.
They are each supplied to external acceleration type descaling nozzles N via hoses 4. High pressure water enters the nozzle header via a high pressure water supply V supply pipe 5. Note that a rotary joint 6 is used for the nozzle header so that it can be moved freely within the target women's village or for maintenance purposes. According to Honso Naoki, since the slurry is supplied by natural fall, high concentration slurry tends to accumulate in the hose 4 and nozzle N and block the passage, and therefore it is difficult to send high concentration slurry. Not only is reliability low, but only relatively light slurry can be supplied, which is unfavorable in terms of cleaning efficiency and energy efficiency.Also, as mentioned above, between the supply tank 2 and the nozzle header N, the slurry naturally falls due to its own weight. Therefore, there were restrictions on equipment layout.The present invention is a slurry supply device applied to the external acceleration type descaling nozzle N developed as a wear countermeasure as described above, and by adding it to the above-mentioned equipment,
This solves problems such as slurry blockage and equipment layout constraints.
Its characteristics are that a slurry pump 7 and a slurry distributor 8 are provided following the supply tank 2, and a nozzle header using an external acceleration type descaling nozzle N is also provided.

The present invention will be specifically described below based on an embodiment shown in FIG.

The explanation will be omitted if it is duplicated in Figures 1 and 2. A slurry pump 7 is placed next to the supply tank 2 for the slurry for lab workers, and It is connected to a slurry distributor 8, which in turn is connected to a pipe 4' corresponding to the nozzle N.

The pipe 4' connected oppositely to the distributor 8 and the nozzle N does not necessarily have to be of the flexible pull type. Also, the nozzle header is movable like the conventional one shown in FIG. That is, the present invention provides a slurry pump 7 following the supply tank 2 and a single hose 4 between the supply tank 2 and the distributor 8, thereby ensuring an appropriate value of pressure flow rate in the pipe and preventing blockage of slurry, etc. This solves equipment layout problems and simplifies hoses and piping.

Furthermore, the cleaning efficiency and energy efficiency are also improved as a result of being able to increase the slurry concentration. Table 1 below shows comparative examples between the follower device and the device of the present invention.

Table 1 As is clear from Table 1, the apparatus of the present invention has a cleaning efficiency of 1 for the same amount of energy used compared to the conventional apparatus.

This is a two-fold improvement.

In other words, it is shown that there is an energy saving effect for the same cleaning effect. On the other hand, slurry outlet part N2 of nozzle N
For wear, it is possible to use ordinary wear-resistant materials such as ceramic materials, but the amount of wear is larger than that of conventional types, and the diameter of the slurry outlet N2 tends to become larger. Therefore, by using a variable rotation speed pump that can control the rotation speed of the slurry pump, it is possible to appropriately set the discharge amount.

In addition, it is preferable to design the discharge flow rate of the externally accelerated descaling nozzle N to 5 to 2 h/sec in order to prevent slurry from clogging the tube and wearing it out.

[Brief explanation of the drawing]

FIG. 1 shows an example of a slurry external acceleration type descaling nozzle, in which a and b are sectional views taken along the line A-A, and b is a plan view. FIG. 2 is an explanatory diagram of a conventional mechanical descaling polishing slurry supply device. FIG. 3 is an explanatory diagram of an embodiment of the cleaning slurry supply device of the present invention. 1... Slurry inlet, 2... Supply V supply tank, 3...
...Rope scale blade, 4,4'...hose, piping, 5...
High pressure water supply piping, 6... Rotary joint, 7... Slurry pump, 8... Distributor, H... Nozzle header, N...
・External acceleration type descaling nozzle, N,...slurry inlet, N2...slurry outlet hole, N3...high pressure water inlet, N4...high pressure jet hole. Juice l diagram outside diagram Z diagram outside diagram 3

Claims (1)

[Claims] 1 A supply tank 2 for polishing slurry and a distributor 8 are connected by a conveying pipe 4 via a variable rotation speed slurry pump, and this distributor 8 has a plurality of externally accelerated descaling nozzles incorporated in a nozzle header H. A supply device for slurry for mechanical descaling and cleaning, characterized in that a branch pipe 4' is connected to each of N.