DE1941993A1 - Method and device for dispensing components - Google Patents

Description

PATENT LAWYERS

dr. ing. H. NEGENDANK · dipl.-ing. H. HAUCK dipl-fhys. W. SCHMITZ

HAMBURG-MUNICH 1941993

ADDRESS FOR SERVICE: HAMBURG 86 · NEUERWALL Al

TEL. 3β 74 38 AND 36 4110

Rudolf Harmstorf ^TEI " ^BGH - ^{NBQEDAI> ATBNT H1HB} ' ^M

Hamburg-Altona Munich 15 · mozartstr. as

TEL. 5380586

SchillerS "street 45 texbgb, νbgedapatent Munich

Hamburg, August 15, 1969

Method and device for flushing in sowing elements

The invention "relates to a method and an apparatus for flushing components, in particular pipes, into the ground, preferably into the bottom of a body of water.

It is known to flush such components with the aid of water jets. Here, a nozzle acted upon by pressurized water is directed towards the ground. The jet, which is brought to an increased speed in the nozzle, loosens the soil, so that the movement of the component through the soil is facilitated. As a component? " In particular, induction units for flushing cables, pipes or hoses come into consideration or site piles. B. exercised a train by means of a ship. Additional forces for moving into the eribodas are also exercised on the local stake, usually with the help of a ramaung or

Although the invention particularly relates to flushing refers to components in a water bed, it can generally also be used to flush components into the Soil and for use in pressurized water jet pumps, also called basic suction devices, can be used. She relates So on tearing open and flushing building elements in the ground above or below water, as well as for conveying soil material

The invention has the task of improving the flushing effect to improve such water jets, both in terms of tearing and piercing the Soil material as well as in terms of washing away or the removal of the soil material loosened by the sludge effect. The object is achieved according to the invention in that the fluid jet consists of a mixture is formed by water and air. Basically can this mixture can also be formed by one common pipeline on the one hand the one under pressure Water and, on the other hand, the pressurized Air can be supplied. A prerequisite for a trouble-free mixture formation of this kind is, however, that both Fluids are fed to the common line under exactly the same pressure · Even with a small pressure difference en ba & eht the danger that the

-S-

pressurized fluid in the line, which is to supply the other fluid, strikes back.

In a preferred embodiment of the invention A jet of water is generated by converting pressure into speed and then sucks in by its jet effect starts up. This air can be taken directly from the atmosphere. However, it may be advisable to take the air first to put their mixture with the water jet under a certain overpressure, which, however, must be less than that Water pressure.

The mixture consisting of water and air is expediently reduced by reducing the flow rate pressurized before it is directed to the ground in the form of a jet. This measure contributes on the one hand helps to improve and equalize the mixture of water and air, but on the other hand increases it this measure the tearing and loosening effect that the fluid jet exerts on the ground.

After doing this, the fluid mixture is taking Once pressure has been applied, it is recommended to use the mixture to accelerate again so that it

Ί941993

- 4 speed hits the ground.

As already discussed above, the invention is used in particular for flushing components into a body of water. It has been shown that such a jet formed from air and water when passing through the water down to the ground suffers significantly less losses than a pure water jet, so that the The jet formed from water and air exerts a greater force than the pure jet with the same amount of energy expenditure Pressurized water jet. But there is also the erosive effect of the air-water jet on the material to be loosened much larger than that of the pure water jet. There is a phenomenon here that is related to the effects can be compared to an eavitation formation. The air bubbles trapped in the water under excess pressure expand after their exit from the nozzle in the immediate vicinity of the soil material to be loosened. The air bubbles pull the loosened soil material upwards with it and thus perform additional transport work. As a result of that the loosened soil material is transported away faster than before, there is now again an increase in the Erosion of the jet.

In an advantageous embodiment of the invention, the

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flowing mixture after its formation a pulsating Exposed to pressure increase and pressure decrease. This pulsating armpit increases on the one hand the on the ground exerted erosion effect and on the other hand generates vibrations of small amplitude in the structural element, which accelerate the work process and thus increase the economic efficiency of the process.

In a preferred gate direction for carrying out the method A jet pump is used to form the mixture, the propulsion nozzle of which can be hit by the pressurized water.

In this case, the centrally arranged propellant nozzle, which is acted upon by pressurized water, is expediently enclosed by an annular space that can be connected to the atmosphere. At least one rope of this annular space is expediently designed as a nozzle with a narrowed cross section in the direction of flow. The air is fed to the water jet in the vicinity of its smallest cross section, where it has the greatest speed, via this nozzle.

In a preferred gate direction for the implementation of the invention, this driving nozzle is followed by a diffuser in which the mixture consisting of water and air passes through

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gradual reduction of its flow velocity can be placed under increased pressure. This diffuser is used at the same time to an improvement in the mixture of air and water. It may be advisable to to connect a special mixing section between the outlet orifice of the propellant nozzle and the start of the diffuser, whose cross-section remains constant.

It is also advisable to connect a nozzle section that narrows in the direction of flow behind the diffuser, In which the pressurized water-IiUft-Gremiseh is brought to an increased speed with a simultaneous reduction in pressure the soil is to be loosened, eroded and transported away.

It may be advisable to ventilate before mixing with the to put pressurized water under pressure, which naturally has to be smaller than the water pressure with to which the propellant nozzle is acted upon. The fact that the air in front of the propellant nozzle is pressurized increases the pressure level at which the entire nozzle unit works.

In a particularly favorable embodiment of the invention

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the nozzle assembly designed according to the invention is removable arranged on a device for flushing cables, pipes or hoses that can be moved vertically through the floor. In another embodiment of the invention, the nozzle unit is attached to a post or in built-in a basic vacuum cleaner.

The nozzle unit used according to the invention to carry out the method is basically a water jet pump, at The decisive factor is not the conveyance of a certain amount of air through the water jet, but the Effect of the jet formed in this way in a water-air mixture on the soil to be loosened.

Further features and details of the invention will now be described on the basis of some exemplary embodiments. It represent:

1 shows a section through a nozzle unit designed according to the invention,

2 shows a section through another embodiment of the nozzle unit ,

3 shows a view of a device designed according to the invention

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Flushing device for flushing cables, pipes or hoses,

4 shows the lower part of a local post designed according to the invention, which at its lower end can be open or closed,

5 shows a section through the front part of a device according to the invention trained Einspülgerätes, this cut in the Mittel-Iiängsacbse one of the Mixing nozzles 20, 21, 22, 28, 29, 32, for example the mixing nozzle 20, which is shown in FIG. 3,

6 shows the installation of the nozzle unit in a basic suction device.

According to Fig. 1, the pressure gauge enters a feed or at 6 Driving nozzle 1, the mouthpiece 9 of which protrudes into the annular space 11 of a mixing nozzle 2. The feed or propellant nozzle 1 is screwed with a fine thread 8 into the antechamber 10 of the mixing nozzle 2, which makes it possible is given to regulate the propellant nozzle 1 for optimal performance, for example on a test stand. the Mixing nozzle 2 is equipped with a conically widening inner

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Room 12 provided, which acts as a diffuser and in its At the end of 15 an outlet nozzle 3 with a thread 17 is screwed in. The one entering the propellant nozzle 1 Water has previously been pressurized by means of a pump 70. The air enters via a line 7 in an annular space 4, which via bores 5 with the nozzle-shaped trained antechamber 10 is in Vaibinding. The air extracted from the atmosphere is compressed by means of a compressor 71 pressured. The air pressure is proportional low and only needs to be so high, for example, that the air in the antechamber 10 is below atmospheric Or an overpressure of some

gen tenths of a kp / cm. The pressure of the pressurized water is much higher and is, for example, 3-7 kp / cm, without these figures containing any restriction should.

The pressurized water entering the propellant nozzle 1 is accelerated due to the shape of the nozzle. Of the at the mouthpiece 9 of the propellant nozzle 1 exiting water jet generates a negative pressure in the annular space, which is caused by the at 7 air introduced into the annular space 4, which is preferably also under positive pressure, via the bores 5 is filled. The conically widening annulus

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- ΙΟΙ 2 of the mixing nozzle represents a diffuser that is on "known way to reduce the velocity of the mixture jet and thus to increase the pressure leads. The resulting changes in speed and pressure lead to an improvement and equalization of the jet consisting of air and water "

After passing the largest diameter 15 of the diffuser 12 of the mixing nozzle 2, the mixture in the nozzle space 16 of an outlet nozzle 3 is accelerated again, as a result of which the pressure of the mixture is reduced. Here, the air bubbles can be drawn out into elongated air threads will. When the mixture emerges from the opening 18 of the outlet nozzle 3, the jet hits after the shortest Time to get down to earth »The energy contained in the water and in the air of the mixed jet is instantaneous free and leads to an intense combination effect Dissolution of the soil material and a faster removal of the already dissolved material.

The embodiment according to Pig. 2 agrees in the material terms that according to Pig..1. Both the diffuser part as well as the outlet nozzle 16 are, however, with rear

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other connected constrictions 13 and extensions 14 provided, so that a pulsating jet results from a mixture of water and air. These lead pulsating rays . on the other hand to an improvement of the erosion effect and On the other hand, they generate vibrations in the dispenser, which also causes the desired movement through the ground is facilitated through it.

In the pig. Fig. 3 is schematically a dispenser for dispensing a cable, a pipe or a hose. The winding device 23 is through the ground 24 with the help pulled a pulling device, not shown, which engages, for example, via a rope 34 at the point 35. The winding device 23 has a cable duct at the rear edge 36 to which the cable or a flexible tube

19 is fed from above. It occurs at 37 at the rear lower
/ End of the dispenser 23 off.

Two from top to bottom through continuous pressurized water channel 38, 45 of the dispenser 23 is the pressurized water 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 are arranged nozzles 25, from which the over the channel

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supplied pressurized water escapes in the form of jets of water that loosen and wash away the soil. Except for the canal 38 further pressurized water channels can be provided in order to subdivide the pressurized water nozzles 25 into different groups to be able to, which are acted upon differently with pressurized water.

The dispenser 23 is also equipped with six mixing nozzles 20, 21, 22, 28, 29, 32, all ^ according to the pig. 1 and 2 are formed 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 is fed through the intermediate floor 27 of the air chamber 33. To the connecting pieces 31 hoses for feeding in compressed air are then connected to the mixing nozzles mentioned. The width of this The dispenser is based roughly on the diameter of the cable or pipe to be laid and is only slightly wider than that diameter.

In Fig. 4 the lower part of a post 55 is shown.

at 56
represents, the left side / a closed, the right side at 57 shows an open pole, at the lower end of which mixing nozzles 40 are installed. The compressed air lines

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are designated with 41, the pressurized water lines with 42 ". These lines are, within the stake 55 on no shown in more detail. Nozzles and lines "form in the event that the pile is not accessible, lost components, d. H. they remain in the stake after this may have been done by additional combing or Shaking was driven into the ground.

The Pig. 5 shows the front part of a flushing device according to Pig. 5 with a mixing nozzle in section. The nozzle unit here essentially agrees with that of Pig. 1, so that the same reference numerals have been used for the same parts. The wedge-shaped front part of the flushing device is denoted by 45 here. In this is a plurality of evenly distributed along its length Cylinder tubes 44 welded in place. The rear end of the propellant nozzle 1 protrudes through the wall 46 of the front part Water supply channel 45 into it. The mixing nozzle 2 is provided here with grooved collars 47, which are made by means of O-rings are sealed with respect to the cylinder tube 44. The ring nut 49 locks the one set on the test data Driving nozzle 1 In its optimal position.

The cylinder tube 44 is just like the wall 46 with the front

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The part 43 is welded at the points 54 »58 and 59. Compressed air is fed via individual feed lines 26 to the space 50 formed in this way. (See also also Fig. 3 with the partition walls 27). She can to enter the annular space 52 via the bores 51 provided in the cylinder tube 44, which in turn comes with the bores 5 of the mixing nozzle 2 is in communication. The delimited channel space 45 is filled with pressurized water, which now enters the propellant nozzle 1 directly from this space.

The nozzle unit is from the front into the cylinder 44 it is used by the Ringamtter 53 in his Position and can therefore, if necessary, proportionate easily exchanged.

In the pig. 6 is a schematic of a basic suction device known per se shown, which instead of conventional pressurized water nozzles with at least three of the above Mixing nozzles ai ^ is armed. Through the suction connector 60 is a mixture of soil and water is sucked in by the vacuum created by the nozzle jets and by the conical Part 61 promoted into the pressure port 62. In the Eeil 61 are three or more Dtisenraantel bodies 64 visible, their bores with! guides and, seat, for the receptacle

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the nozzle units 1 are provided. They are held in their working position by the bend 65. the Sealing on the water and air side is also achieved here by means of O-rings. The manifold 65 is used at the same time Supply of pressurized water, which enters through a hose (not shown) at 66 and into the Divider ring chamber 67 is initiated. Via the pipe 68, the pressurized water is through the manifold 65 the Nozzle unit fed.

The nozzle jacket 64 is provided at its lower end with an annular chamber 69, which is supplied with compressed air via the pipe 63 is applied. By already at 3? Ig. 1 and 2 described holes, this occurs in the mixing chamber and mixes with the entered pressurized water. The one blown into the conical suction space 61 Water-air-mixture has a considerable increase in performance as a result, especially since heavy materials such as ores etc. are caused by the rising air bubbles in the pressure port 62, which can be extended by further pipe sections can be promoted much better.

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Claims (13)

- 16 claims ^ Process for flushing components, in particular Pipes, in the ground, preferably in a body of water, in which a reaction of pressure in Velocity generated fluid jet is directed towards the ground, characterized in, that the fluid jet is formed from a mixture of water and air. 2. The method according to claim 1, characterized in that a water jet is generated by converting pressure into speed and air is created by its jet effect sucks. 3. The method according to claim 1 and / or 2, characterized the
draws that a mixture containing water and air is put under increased pressure by reducing the speed before it is directed in the form of a jet onto the ground. 4. The method according to claim 3 »characterized in that the mixture accelerates again after pressurization is necessary. - 17 1098 11/166 9 5. The method according to claim 3 and / or 4 »characterized in that that the flowing mixture after its formation a pulsating pressure increase and pressure decrease is suspended. 6. Apparatus for carrying out the method according to any one of claims 1-5 »characterized in that for Formation of. Mixing a jet pump is used, whose driving nozzle (1) by the pressurized Water can be acted upon. 7. Apparatus according to claim 6, characterized in that that the centrally arranged, pressurized water iEreibdüse (1) from one with the atmosphere connectable annulus (4) is enclosed. 8. Device according to one of claims 6-7 »characterized in that that the Sreibdüse (1) is followed by a diffuser (12) in which the water and air existing mixture can be placed under increased pressure by gradually reducing its flow rate is. 9. Device according to claim 8, characterized in that - 18 - 109811/1669 that the diffuser (12) is in the direction of flow constricting nozzle section (16) connects. 10. Yorrichtung according to any one of claims 6-9, characterized characterized in that the air can be put under pressure before mixing with the pressurized water is (71). 11. Gate direction according to one of claims 6-10, characterized characterized in that aie is removable on an approximately vertical arranged through the floor movable device (23) for flushing cables, pipes or hoses is (Fig. 5). 12. Gate direction according to one of claims 6-10, characterized characterized in that it is attached to a post (55) (Pig. 4). 13. Gate direction according to one of claims 6-10, characterized characterized in that it is attached to a basic suction cup (60,61, 62). 109811/1869 Jl Blank page