DE1941993B2 - DEVICE FOR PAINTING IN COMPONENTS - Google Patents

Description

20 quite considerable.

The invention is based on the in the drawing

The invention relates to a device for the illustrated embodiments explained in more detail,

It shows flushing of components, especially pipes

the ground, preferably in a body of water. Fig. I a section through a Dusenaggtegat

with at least one mixing nozzle, in which from a 25 according to the invention,

Propellant nozzle and an annular space inflowing water F i g. 2 is a view of a known Einspülgirräser and inflowing air to be blown into the botes for flushing and cables. Pipes or gullies or basic can be mixed and the interior space, which is connected to the shower units according to the i m the mixing nozzle in the area of the outlet probe is equipped up to durg.

this nozzle;. is narrowed like a. 30 Fig. 3 the lower part of a post that is attached to

It is known that components, in particular one of its lower end, can be open or closed

flushing devices, for flushing cables, pipes, and the with the nozzle units after the ir-

Use hoses or poles. The building is equipped

element are washed in with the help of water jets directed at a Fig. 4 a section through the front part of the water bed. 35 in FIG. 2 dispenser shown.
Air can be added to the water. Fig. 5 shows the installation of the nozzles in the middle, with this admixture of air causing the tear-open and aggregates in a basic suction unit.
Accelerated loosening effect that a water according to FIG. 1 tnt. Ui i «Jus pressurized water in a jet on the bottom of the water. Feed or propellant nozzle, the mouthpiece of which 9 denotes the known mixing nozzles, which protrude into the annular space 11 in the manner of 40 a ^ .. mixing nozzle 2. Jet pumps work and are used here. The propellant nozzle 1 i .-. T with a fine thread 8 into which the high pressure pre-chamber 10 of the mixing nozzle 2 is screwed and water supplied to entrain air, which is given by the possibility is, the driving nozzle 1 mixing nozzle is also supplied at a relatively high to optimum performance, for example on a test pressure. The pressurized water stands at 45 to regulate. The mixing nozzle 2 is given away for a conically widening interior space 12 with relatively low resources and costs. Disposal. Generating highly compressed air is what acts as a diffuser and in the end 15 of which, on the other hand, is associated with much higher costs. Outlet nozzle 3 with a thread 17 is screwed in to flush in the components and move. The water entering the propellant nozzle 1 is to facilitate the induction of the dispenser through the floor. It is also known that the dispenser has been previously pressurized by means of a pump 70. The air enters via a line 7 to be caused to vibrate. For this purpose, an annular space 4 is provided. the antechamber 10, which is designed in the shape of a mechanical pinnacle, is arranged in connection generator via bores 5 with the diioberen end of the device. Since the winding device is in a position. The air taken from the atmosphere has a very large mass, the vibration generator 55 must be appropriately sized by means of a compressor 71 under pressure. It would therefore be set by. The air pressure is, however, a relatively large advantage if the dispenser is set to a low level and, for example, only needs to be vibrated so high in a simpler and more effective manner that the air in the antechamber 10 could be put under conditions. atmospheric pressure or an overpressure. The object of the invention is to have a 60 of a few tenths of a kp / cm ² . The pressure of the flushing device of the above type to create the pressurized water is much higher and is both the mode of action with a simultaneous lowering of, for example, 3 to 7 kp / cm ² , without this number drive costs are increased and the mixing nozzle contain a restriction should,
should be formed so that when the water-air mixture entering the propellant nozzle 1 is ejected, the device experiences vibrations 65 due to the nozzle shape being accelerated. Furthermore, the mixing disc should be cleaned with air. The water jet exerting at the mouthpiece 9 of the propellant nozzle 1, which is preferably at atmospheric pressure, generates in the annular space an at most but one just to overcome the pressure, which is caused by the at 7 in the annular space 4

conducted l.ufl, which is preferably under slight overpressure stands, is filled via the cavity 5. Of the conically widening ringnium i2 of the mixing nozzle represents a diffuser which, in a known manner, leads to a reduction in the velocity of the mixture rallies and thus leads to an increase in pressure, which is an improvement and comparison of the jet consisting of air and water. Scr.vohl the diffuser part 12 as well as the Ausirilis nozzle 16 hind with one behind the other Constrictions 13 and extensions 14 provided.

After passing the largest diameter 15 des Dil'fusors 12 of the mixing nozzle 2, the mixture in the Diisenraimi 16 of a Auslrittsdiisc 3 is accelerated again, whereby the pressure of the mixture is reduced. This can cause the air bubbles to last too long stretched air thread are pulled out. At Austria the mixture from the opening 18 of the outlet nozzle 3 the beam hits the ground after a very short time. Those in the water and in the air of the The energy contained in the cemisehray becomes abrupt here free and through a combination effect leads to an intensive dissolution of the soil material and to a faster removal of the already dissolved material.

The essence of the invention, however, is in the constrictions 13 and extensions 14 of the interior 12 and of the nozzle space 16 can be seen that through this formation I have a pulsating jet jiiis results in a water-air mixture. This pulsating On the one hand, rays lead to an improvement in the erosion effect and, on the other hand, produce Vibrations of the dispenser, which also causes the desired movement through the ground is facilitated through it.

In Fig. 2 is a known winding device is schematically for flushing in a cable, a pipe or a sleeve. The winding device 23 is pulled dur-h the ground 24 with the help of a pulling device, not shown, which for example engages via a rope 34 at the point 35. The dispenser 23 has a at the rear edge Cable duct 36 to which the cable or a flexible pipe ΐ9 is fed from above. It occurs at 37 at the rear lower end of the dispenser 23.

Two pressurized water channels 38, 45, continuous from top to bottom, aes flushing device 23, the pressurized water is supplied via a connection 39 from a pump (not shown). On the sides of the front part of the dishwasher and, under certain circumstances, the lower edge of the dispenser 23 and nozzles 25. from which the pressurized water supplied via the channel 38 emerges in the form of jets of water that loosen and wash away the soil. In addition to the channel 38, further pressurized water channels can be provided in order to be able to subdivide the pressurized water nozzles 25 into different groups, which are subjected to different pressurized water.

The winding device 23 is also equipped with six mixing nozzles 20, 21, 22, 28, 29, 32, all of which are shown in FIG. 1 and to which the pressurized water is supplied via the channel 45. The compressed air is fed to the mixing nozzles through separate lines 26 via the hose connections 31 in the head piece 30 through the intermediate base 27 of the air shaft 33. Hoses for feeding compressed air to the above-mentioned mixing nozzles are then connected to the connecting pieces 31. The width of this lünspiilgeiätes depends on the D'irehmesser of the to be laid. Cable or pipe and is only slightly wider than this diameter.

In Fig. 3 is the lower part of an Orlspahles 35 shown, the left side of which shows a closed pole at 56, the right rope an open pole at 57 :, mixing nozzles 40 are installed at the lower end. The compressed air lines are numbered 41, the pressurized water lines designated by 42. These lines are within the pile 55 on not shown Way up. Nozzles and lines form in the event that the pile is not accessible, lost components, d. H. they remain in the stake after it may have been replaced by additional Ramming or shaking has been driven into the ground.

The F i g. 4 shows the front part of the flushing device according to FIG. 2 with a Misc! ; use according to Fig. I in Cut. The wedge-shaped front part of the flushing device is denoted by 43 here. In this is a plural welded in by cylinder tubes 44 evenly distributed over its length. Through the wall 46 of the According to a prejudice, the rear end of the propellant nozzle 1 protrudes into the water supply channel 45. The Miseh nozzle 2 is provided here with grooved collars 47, which are connected to the cylinder tube 44 by means of O-rings 48 are sealed. The ring nut 49 locks the driving nozzle 1 set on the test stand in its optimal position Position.

The cylinder tube 44 is just like the wall 46 with the front part 43 at the points 54, 58 and 59 welded. Compressed air is supplied to the space 50 formed in this way via individual feed lines 26 out (see also Fig. 2 with the partition walls 27). You can go over into the cylinder barrel 44 provided bores 51 to enter the annular space 52, which in turn with the bores 5 aer mixing nozzle 2 is in communication. The delimited channel space 45 is filled with pressurized water, which is now enters the propellant nozzle 1 directly from this space.

The nozzle assembly is inserted into the cylinder tube 44 from the front; it is tightened by the ring nut 53 held in place and can therefore be replaced relatively easily if necessary.

In FIG. λ is schematically a known per se Basic suction device shown, which instead of conventional pressurized water nozzles with at least three the above-described mixing nozzles is equipped. A soil-water mixture is created through the suction nozzle 60 sucked in by the vacuum created by the nozzle jets and by the conical part 61 funded in the support 62. In the part 6i are three or more nozzle casing bodies 64 welded in, the bores of which are provided with guides and seats to accommodate the nozzle units 1. she are held in their working position by elbow 65. The water- and air-side sealing takes place also here by O-rings. The manifold 65 serves at the same time to supply pressurized water, which is supplied through a hose (not shown) 66 enters and is introduced into the distributor ring chamber 67. The pressurized water is supplied via the pipe 68 fed through the bend 65 to the nozzle assembly.

The nozzle jacket 64 is provided at its lower end with an annular chamber 69 which extends over the Lohr 63 is acted upon with compressed air. Through the holes already described in FIG. 1, thee occurs into the mixing hammer and mixes with the pressurized water. That in the conical Suction chamber 61 blown Wasscr-Lul a considerable increase in performance zi Heavy materials such as ores etc. also degrade air bubbles in the pressure port further pipe sections are lengthened better borrowed.

For this purpose 2 sheets of drawings

2153

Claims (1)

Flow resistance in (the supply lines are Claim: has rapid overpressure. Apparatus for flushing in structural elements This task is solved according to the invention, in particular pipes in the ground, by the fact that the inner diameter of the misuse, w, -zujiswcisL · in a water base, with at least 5 see propulsion nozzle and \ erenguiig a d. ffusnnmiu, · a mixing diisc, in which a propellant nozzle has an expansion and the constriction and I ,,,, - and an annular space inflowing water and saturation in turn expanded several times and χνα-ημι inflowing air to be blown into the ground. ■,, _u ,
or basic are miscible and the interior. This measure causes the water and the mixing diisc in the area of the outlet probe to be mixed up to the air through which the mixture is repeatedly narrowed in a nozzle-like manner, thereby reducing and increasing the flow It verifies that the interior (12) of the mixture produces a strong and rapid pulsating Lhick mixing nozzle (2) between the driving nozzle (9) and the increase and decrease, which gives the narrowing (16) a diffuser-like expansion (U) the clearing beam has grained vibrations and the constriction (16) and enlargement expresses amplitudes which in turn expand and accelerate the arbeilpro / .el., Hcrung (V) several times. It has also been shown that they are narrow. pulsating jet penetrates the soil to be loosened much deeper and more directed. The wni- The harmfulness of the flushing process increases «! Aniit