KR100350426B1 - High or Low pressure water change of by-pass valve for descaling - Google Patents

Abstract

The present invention relates to a high-pressure low-pressure water conversion valve, the inlet flow path 110 and the main flow path 130 and the discharge flow path 140, the spool hole 120 is formed through the upper hydraulic chamber ( 121 and a valve body 100 each having a lower hydraulic chamber 122, a spool 200 for supplying low pressure water to the main flow passage 130 while sliding the spool hole 120, and the main flow passage. The main check disk 300 and the high pressure in the discharge flow path 140 is installed to be movable on the slide 130 to supply the low pressure water from the main flow path 130 to the discharge flow path 140 and block the reverse flow. By supplying water to the lower pressure chamber 122 of the spool hole 120, the high-pressure water orifice flow passage 400 for pushing up the spool 200 upward, flows into the lower pressure chamber 122 of the spool hole 120 High pressure water discharge passage 500 for discharging the high pressure water to the discharge passage 140, and discharges the high pressure water introduced into the spool hole 120. It consists of a secondary check disk (600) which blocks the reverse flow with the outlet Sikkim 140, will a manner that reduces the passage damage between the spray valves and the spray head by an air hammer ring blocking a high-pressure water.

Description

High or low pressure water change of by-pass valve for descaling}

The present invention relates to a valve, in particular, for descaling, which is installed in a high pressure water injection device for cooling and removing oxidative scales and can supplement low pressure water between the spray valve and the nozzle when the high pressure water control spray valve is not operated. It relates to a high pressure low pressure water conversion valve.

In general, the valve is installed between the flow pipe and the pipe to control the flow of the fluid by opening and closing the passage of the fluid.If the fluid is high pressure, use an actuator and if the pressure is not large, the valve is manually operated. It opens and closes to control the flow of fluid.

Valves are divided into various types such as ball valves, butterfly valves, globe valves and bellows valves depending on the characteristics of the pipe and the pressure of the fluid.

On the other hand, a spray valve for supplying / blocking high pressure water is installed in a device that cools the iron plate to a process temperature and removes the scale of oxidation generated on the surface of the iron plate by spraying high pressure cooling water during the steel plate production process. .

Here, when the supply of the high pressure water is blocked while the spray valve 70 is closed, the flow path between the spray valve 70 and the nozzle 31 becomes empty and the spray valve 70 supplies the high pressure water again. The pressure is rapidly opened, which causes a pressure difference between the inside of the spray valve 70 and the flow path 20 at the rear end of the spray valve 70, resulting in a hammering phenomenon, thereby damaging the flow path.

Therefore, even when the spray valve is opened suddenly by filling the flow path between the spray valve 70 and the nozzle 31, the pressure difference on the two flow paths is reduced so that the flow path is not damaged.

As shown in FIG. 1, the conventional descaling low pressure water filling device has a structure in which an orifice 40 is communicated between the high pressure water passage 10 and the low pressure water passage 20.

The conventional descaled low pressure water filling device is to connect the orifice 40 to the high pressure water passage 10 to lower the pressure of the high pressure water and then supply water to the low pressure water passage 20.

Therefore, as time passes, the pressure supplied to the low pressure water passage 20 increases and the supply flow rate also increases, thereby reducing the life of the low pressure water passage 20.

In addition, since the pressure and flow rate supplied to the low pressure flow path 20 are not constant, the pressure and flow rate in the low pressure flow path 20 increase, so that there is a problem in the safety of the low pressure flow path 20. .

Therefore, the low pressure water flow channel 20 or the nozzle 31 and the injection head 30 is often replaced, there is a problem that the maintenance cost is high and the work efficiency is lowered.

Accordingly, the present invention has been made to solve the above problems, the low pressure water can be supplemented by connecting the valve for supplying the low pressure water between the spray valve and the injection head between the supply of high pressure water. The purpose is to provide a high pressure low pressure water conversion valve for descaling.

The present invention for achieving the above object, the inlet flow passage and the main flow passage and the discharge flow passage, the spool hole is formed through the spool hole and the valve body formed with the upper hydraulic chamber and the lower hydraulic chamber, respectively, slide the spool hole A spool for moving the low pressure water to the main flow path while being moved, a main check disk installed on the main flow path so as to be slide-movable, to supply the low pressure water from the main flow path to the discharge flow path, and to block the reverse flow thereof; In the high pressure water orifice flow channel to push the spool upwards by supplying the high pressure water to the lower pressure chamber of the spool hole, the high pressure water discharge passage for discharging the high pressure water introduced into the lower pressure chamber of the spool hole to the discharge flow path, It is a structure composed of auxiliary check disk which discharges the high-pressure water introduced into the discharge channel and blocks the reverse flow.

Therefore, the spool can supply the low pressure water to the flow path between the high pressure water spray valve and the spray head by supplying the low pressure water to the main flow path while moving the spool hole and pushing the main check disk back to the discharge flow path. The high pressure water flows into the lower pressure chamber from the discharge channel through the high pressure water orifice channel and pushes the spool upward. When the high pressure water is blocked, the high pressure water introduced into the lower pressure chamber is discharged through the high pressure water discharge channel. This will allow the spool to move downward.

1 is an opening diagram showing a descaling low pressure water filling device according to the prior art,

Figure 2 is a schematic opening diagram showing a state in which the present invention is installed between the spray valve and the spray head,

Figure 3 is a schematic cross-sectional view showing a descaling high pressure low pressure conversion valve according to the present invention,

4 is a schematic plan view showing a spool and a main check disk of the present invention;

5 is a perspective view showing a spool of the present invention,

6 is an operating state of the spool and the main check disk of the present invention,

7 is a schematic plan view showing the auxiliary check disk and the high-pressure water orifice flow path of the present invention;

8 is a plan view showing a state in which the auxiliary check disk and the high-pressure water orifice flow passage of the present invention operates when the low-pressure water flows;

9 is a plan view showing a state in which the auxiliary check disk and the high-pressure water orifice flow passage of the present invention operates when the high-pressure water flows.

Explanation of symbols on the main parts of the drawings

100: valve body 110: inflow passage

111: inlet port 120: spool hole

121: upper hydraulic chamber 122: lower hydraulic chamber

130: main euro 135: main disc hole

140: discharge passage 200: spool

210: pilot flow path 211: through hole

220: connection path 221: slot hole

230: spool head 300: main check disk

310, 610: elastic spring 400: high pressure water orifice euro

410: orifice 500: high pressure water discharge flow path

600: auxiliary check disk 650: auxiliary disc hole

700: spray valve 800: injection head

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

Figure 2 is a schematic opening diagram showing a state in which the present invention is installed between the spray valve and the spray head, Figure 3 is a schematic cross-sectional view showing a high-pressure low-pressure water conversion valve for descaling according to the present invention.

According to the present invention according to the drawings, the inlet flow path 110, the main flow path 130 and the discharge flow path 140 is formed through the spool hole 120 is formed through the main flow path 130 and the spool The upper hydraulic chamber 121 is formed at the upper portion of the hole 120 and the valve body 100 having the lower hydraulic chamber 122 formed at the lower portion thereof, and the inflow passage 110 and the upper hydraulic chamber in the axial direction therein. A pilot flow path 210 communicating with the 121 is formed and a connection flow path 220 for communicating the inflow flow path 110 and the discharge flow path 140 is formed to slide the spool hole 120 while the main flow path is moved. A spool 200 for supplying low pressure water to the flow path 130 and a slide moveable on the main flow path 130 to supply low pressure water from the main flow path 130 to the discharge flow path 140 and to discharge the flow path. Main check disk 300 to block the inflow of high-pressure water from the 140 to the main flow path 130, and the spool hole (1) The lower pressure chamber 122 of the 20 and the discharge passage 140 are in communication with each other and provided with an orifice 410 to the high pressure water in the discharge passage 140, the lower pressure chamber 122 of the spool hole 120 The high pressure water orifice flow passage 400 for pushing up the spool 200 upward by supplying it to the lower pressure chamber 122 and the discharge flow passage 140 of the spool hole 120 communicate with each other to allow the spool hole 120 to communicate with each other. The high pressure water discharge passage 500 for discharging the high pressure water introduced into the lower pressure chamber 122 of the discharge passage 140, the slide is installed on the high pressure water discharge passage 500 to the slide spool hole ( 120 and the secondary check disk 600 to discharge the high-pressure water introduced into the discharge passage 140 and block the reverse flow.

A characteristic of the present invention having the above structure is that the spool 200 and the main check disk 300 is provided in the valve body 100, the spool 200 while moving the spool hole 120 low pressure By supplying water to the main flow path 130 and again pushing up the main check disk 300 and discharging it to the discharge flow path 140, low pressure water can be supplied to the flow path between the high pressure water spray valve 700 and the spray head 800. Will be.

Another feature of the present invention is that the high pressure water discharge passage 500 and the high pressure water orifice flow passage 400 communicating the spool hole 120 and the discharge flow passage 140 are provided with a high pressure water orifice flow passage ( The high pressure water flows into the lower pressure chamber 122 from the discharge passage 140 through the 400 and pushes up the spool 200 upward. When the high pressure water is blocked, the high pressure water introduced into the lower pressure chamber 122 is blocked. It is discharged to the discharge passage 140 through the high-pressure water discharge passage 500 to allow the spool 200 to move downward.

The valve body 100 has both ends formed therethrough, and an inflow passage 110 through which low pressure water flows is formed in the inlet port 111, and a main flow passage 130 is formed with a step with the inflow passage 110. In addition, the spool hole 120 penetrates through the inflow passage 110 and the main passage 130 and extends to the main passage 130 to form a stepped passage 140.

That is, the inflow passage 110 and the discharge passage 140 are similar in height to the installation height and the main passage 130 is installed at a position lower than the two passages, three passages are formed in the same direction, the spool hole 120 is formed across the three flow paths in the vertical direction.

The inflow passage 110 is an inlet for connecting the low pressure water into the valve through the inflow passage 110 is connected to the flow path for supplying low pressure water, such as tap water is usually used at low pressure.

The main flow path 130 is in communication with the inflow path 110 through the spool hole 120 at one end, and the other end is in communication with the discharge flow path 140, between the main flow path 130 and the discharge flow path 140. The main check disk 300 is formed in a direction crossing the two flow paths to block the high pressure water from the discharge flow path 140 to the main flow path 130.

The discharge passage 140 is used as a passage for supplying the low pressure water to the flow path between the high pressure water spray valve 700 and the injection head 800 is introduced into the low pressure water passing through the main flow path 130, on the contrary It is also a passage through which high pressure water flows in from a flow path between the high pressure water spray valve 700 and the injection head 800.

The spool hole 120 is a space in which the spool 200 slides between the inflow passage 110 and the main passage 130 in a direction crossing the two passages, and the upper portion of the spool hole 120. The upper hydraulic chamber 121 for sliding the spool head 230 of the spool 200 is installed, and the lower hydraulic chamber 122 into which the high pressure water to push up the lower end of the spool 200 is formed is formed. have.

That is, the diameters of the upper hydraulic chamber 121 and the lower hydraulic chamber 122 are larger than the central portion of the spool hole 120 so that the upper hydraulic chamber 121 and the lower hydraulic chamber are moved even when the spool 200 is moved. The high pressure water or the low pressure water may be introduced into the space 122.

The upper hydraulic chamber 121 is formed in the upper portion of the spool hole 120, the low pressure water flows into the upper hydraulic chamber 121 through the pilot flow path 210 formed in the center of the spool 200 in the axial direction The pressure difference between the upper end of the 200 and the low pressure water interacts to form a thrust that pushes the spool downwards so that the spool head 230 slides the upper pressure chamber 121 downward.

The lower pressure receiving chamber 122 is formed at the lower end of the spool hole 120, and is formed so that the lower end of the spool 200 can move, and the diameter thereof is smaller than the upper end of the spool hole 120, but the orifice 410 It will be pushed to the top by the high pressure passed through it.

Figure 4 is a schematic plan view showing a spool and a main check disk of the present invention, Figure 5 is a perspective view showing a spool of the present invention, Figure 6 is an operating state diagram of the spool and the main check disk of the present invention, Figure 6 (A ) Is a cross-sectional view showing a state in which the low pressure water is blocked when the high pressure water is introduced, (B) is an operating state diagram showing the state in which the low pressure water is introduced when the spool and the main check disk of the present invention is blocked.

The spool 200 has a larger diameter than the spool head 230 is formed in the upper spool, the pilot flow path 210 is formed through the spool head 230 upward from the approximately central portion of the axial direction, A plurality of slot holes 221 are formed in the circumferential direction so as to be in communication with the pilot flow path 210 on the substantially central sidewall of the spool 200, and a connection flow path 220 is formed.

That is, a pilot flow path 210 is formed upward from an approximately central portion of the spool 200, and a plurality of through holes 211 are formed in the circumferential direction through the lower side wall of the pilot flow path 210 so that the inflow flow path is formed. The low pressure water introduced into the 110 flows into the pilot flow path 210 through the through hole 211 and is discharged back into the upper pressure chamber 121.

In other words, the pilot flow path 210 is a flow path communicating with the inflow flow path 110 and the through hole 211 to supply low pressure water to the upper hydraulic chamber 121.

The connection flow path 220 is the main pressure through the slot hole 221 the low pressure water flowing through the through hole 211 of the spool 200 from the inflow flow path 110 when the spool 200 is moved downwards It serves to export to the flow path 130, when the spool 200 is moved upward, the low pressure water is not supplied to the main flow path 130 through the connection flow path 220, and eventually, the shandong copper of the spool 200 In accordance with the low pressure water is selectively supplied to the main flow path (130).

That is, the slot hole 221 is formed at a lower portion of the through hole 211 at a predetermined interval so that when the spool 200 moves downward, the low pressure water introduced into the through hole 211 is a pilot flow path 210. It may be sent upwards through) or sent downwards through the connection flow path (220).

Of course, when the spool 200 is moved upward, the low pressure water flows into and out of the slot hole 221 as well as the through hole 211.

The main check disk 300 is inserted into the main disk hole 135 formed between the main flow passage 130 and the discharge flow passage 140 and slides upward and downward to reach the main flow passage 130. The lower side of the main check disk 300 is pushed upward by the water pressure of one low pressure water, and the high pressure water flows into the main disk hole 135 through the discharge passage 140 and is closed.

That is, the main check disk 300 has an upper portion fixed to the upper side wall of the main disk hole 135 with an elastic spring 310 to adjust the elastic force of the elastic spring 310 to be lower than the low pressure water pressure. By opening the main check disk 300 by causing the elastic spring 310 to contract, on the contrary, when the high pressure water flows into the upper portion of the main check disk 300 and applies a high pressure greater than the water pressure of the low pressure water, the elastic spring 310 is opened. At the same time, the flow path is blocked by the self-weight of the main check disk 300 and the pressure of the high pressure water.

7 is a schematic plan view showing the auxiliary check disk and the high-pressure water orifice flow path of the present invention, Figure 8 is a plan view showing a state in which the auxiliary check disk and the high-pressure water orifice flow channel of the present invention operates when the inflow of low pressure water, Is a plan view showing a state in which the auxiliary check disk and the high pressure water orifice flow passage of the present invention operates when the high pressure water is introduced.

The high pressure water orifice flow passage 400 is a flow passage formed by communicating a lower pressure chamber 122 formed at a lower end of the spool hole 120 and a main disk hole 135 formed at a tip of the main flow passage 130. The high pressure water is supplied from the main disk hole 135 and serves to lower the water pressure and send it to the lower pressure chamber 122.

That is, a plurality of orifices 410 are installed on the high pressure water orifice flow passage 400 to depressurize the high pressure water supplied from the main disk hole 135 to flow into the lower pressure chamber 122.

Here, the high pressure water orifice flow path 400 may be introduced into the high pressure water from the lower pressure chamber 122 as the spool 200 descends, the speed is significantly dropped while passing through the orifice 410. It takes a considerable time to discharge the high pressure water through the orifice flow path 400 to the main disk hole (135).

Therefore, the high pressure water pushed by the spool 200 in the lower pressure chamber 122 is discharged directly without being lowered through the high pressure water discharge passage 500 so that the spool 200 can be quickly descended downward. do.

The high pressure water discharge passage 500 is a passage for communicating the lower pressure chamber 122 formed at the lower end of the spool hole 120 and the main disk hole 135 formed in the main flow passage 130. It is connected in parallel with the flow path 400, and serves to discharge the high pressure water introduced into the lower hydraulic chamber 122 to the main disk hole 135.

Here, an auxiliary disk hole 650 is formed upstream of the high-pressure water discharge passage 500, and the auxiliary check disk 600 is slidably inserted into the auxiliary disk hole 650.

The auxiliary check disk 600 is fixed to the elastic spring 610 and to adjust the elastic force, so that the high pressure water is pushed up from the lower hydraulic chamber 122 by the spool 200 elastic spring 610 ) Is contracted to open the flow path, on the contrary, when the high pressure water is supplied from the main disk hole 135, the flow path is blocked by the pressure to prevent the high pressure water from flowing back.

In other words, the high pressure water orifice flow passage 400 and the high pressure water discharge flow passage 500 have a parallel structure in which both ends thereof communicate with each other, and the high pressure water orifice flow passage 400 receives high pressure water from the main disk hole 135. The high pressure water discharge passage 500 quickly discharges the high pressure water from the lower pressure chamber 122 to the main disk hole 135 to supply the reduced pressure to the lower pressure chamber 122. When the high pressure water is cut off) by rapidly increasing the reaction speed of the spool 200 is to move the spool 200 downward quickly.

Therefore, the reaction speed of the spool 200 is increased to immediately communicate the low pressure water from the inflow passage 110 to the discharge passage 140, and between the high pressure water spray valve 700 and the injection head 800. It is possible to fill the flow path with low pressure quickly.

As described above, according to the descaling high pressure low pressure water conversion valve according to the present invention, the high pressure water and the low pressure water can be selectively supplied between the spray valve for supplying the high pressure water and the injection head, so that the air at the time of blocking the high pressure water It is possible to prevent the damage of the flow path between the spray valve and the spray head by hammering, which not only reduces maintenance costs but also makes it possible to safely descale the work.

Claims (1)

High pressure low pressure water for descaling connected to the flow path between the spray valve 700 and the spray head 800 of the descaling apparatus and blocking the supply of low pressure water between the spray valve 700 and the spray head 800. In the conversion valve, An inflow passage 110, a main passage 130, and a discharge passage 140 are formed therethrough, and a spool hole 120 is formed through the main passage 130, and an upper portion of the spool hole 120 is formed. A valve body 100 having an upper pressure chamber 121 and a lower pressure chamber 122 formed thereon; A pilot flow path 210 for communicating the inflow flow path 110 and the upper hydraulic chamber 121 in the axial direction is formed therein and a connection flow path for communicating the inflow flow path 110 and the discharge flow path 140 ( 220 is formed, the spool 200 for supplying low pressure water to the main flow path 130 while sliding the spool hole 120; The slide is installed on the main flow path 130 so as to supply low pressure water from the main flow path 130 to the discharge flow path 140 and block the inflow of high pressure water from the discharge flow path 140 to the main flow path 130. Main check disk 300; The lower pressure chamber 122 of the spool hole 120 and the discharge passage 140 communicate with each other and have an orifice 410 to supply high pressure water in the discharge passage 140 to the lower pressure of the spool hole 120. A high pressure water orifice flow passage 400 for pushing up the spool 200 upward by supplying the seal 122; The lower pressure chamber 122 of the spool hole 120 and the discharge passage 140 communicate with each other to convert the high pressure water introduced into the lower pressure chamber 122 of the spool hole 120 into the discharge passage 140. A high pressure water discharge passage 500 for discharging; An auxiliary check disk 600 installed on the high pressure water discharge passage 500 to slide and discharge the high pressure water introduced into the spool hole 120 to the discharge passage 140 and block the reverse flow thereof; High pressure low pressure conversion valve for descaling.