NO831013L - NOZZLE FOR APPLICATION INSTEAD OF FLOATING MEDIA SUCH AS CONCRETE OR SIMILAR - Google Patents

Description

When feeding slow-flowing media, especially concrete-forming mixture, which usually contains a slurry in water of cement, sand or gravel as well as coarser stone particles such as macadam and the like, it is desirable to prevent external media from coming into contact with the fed , slow-flowing medium. For example, when pouring concrete under water, dilution of the concrete water would occur if water from outside was given the opportunity to come into contact with the concrete-forming mass brought down through the feed pipe. The yet; Christmas-hardened concrete would then become muddled and lose at least a significant part of its binding capacity. Similar disadvantages would occur when feeding other slow moving media through pipes.

i It is therefore important that in the feeding device, especially in its nozzle located at the end, one has access to a nozzle equipped with a valve in order to place the slow-flying

igniting medium in place, with which nozzle you can isolate the slow-flowing medium from the surrounding medium, e.g.

jj véId pouring concrete under water to isolate the concrete-forming mass from the surrounding water.

Valves for similar purposes are already known, which in the past have not been combined with nozzles and rather

has not been calculated for slow-flowing media. These ven-t! iiler has contained a compressible hose, which is exposed

for external pressure so that it at least partially prevents a sounding movement through the hose. Such valves have e.g. has been used for imitating the function of the heart in so-called gland-lung machines. A valve of this known type comes in

ti'1 application in the nozzle according to the present invention.

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Other valves with compressible hose are e.g. known from Norwegian patent 85,694, German publication 2,260,814 and French patent 1,091,642, but none of these known valve constructions are for one reason or another suitable for use in a nozzle of the type indicated in the present invention.

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With these known devices, the hose is of necessity soft, because otherwise it would not be able to be compressed to prevent the flow of the medium. If such valves were to be further used for controlling the flow of a; slow-flowing medium such as concrete-forming mass through an application nozzle, one would lose the opportunity to control the outlet of the slow-flowing medium to an unnecessary extent, particularly when e.g. concrete pouring under water to direct |the|n concrete-forming mass to the special place where one ; 'want it supplied.

The present invention thus relates to a nozzle for the placement in place of slow-flowing media, especially concrete-forming material. The mouthpiece contains a contract-j! SJIon valve with an elastic material as valve regulating organ.

'According to the invention, the nozzle contains two longitudinally running, approximately equally rough tubes and a hose of elastically deformable material which unites them, arranged so that the hose can be compressed to close the nozzle. An outer tube is sealingly connected to the two first-mentioned tubes by means of at the height of these running conical parts, so that a space is formed between, on the one hand, the part of the hose that lies between the two first-mentioned tubes, and on the on the other side the outer tube, and this space is in connection with a source of pressure medium for the hose's compression.

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Further details of the invention will appear hereinafter

end description of an embodiment of the invention with reference to the attached drawing. It is understood, however, that the invention is not limited to the embodiment shown, but that many different modifications can be imagined within the scope of the invention.

On' the drawing shows fig. 1 a longitudinal section through the valve-equipped nozzle according to the invention in the valve's open position, in which the slow-flowing medium can move past the valve to the outlet end of the nozzle before being placed in place. Fig. 2 shows the same device as fig. 1 with the valve in the closed state. Fig. 3 shows a modification of the device according to fig. 1 and 's2 tmaned d vsoem ntvielnen to a åpeer n vtiislt stai ndpå , hfvigil. ke1n .so is the same to-

The mouthpiece contains two stiff or at least main sa-I !l^Oi^SeHhtik-' ; rigid, coaxially running pipes 10 and 11. They are connected to each other by means of a compressible hose 12 acting as a valve. The hose 12 can be fixed vulcanized at the lower end of the pipe 10 or the upper end of the pipe 11, but often it is more appropriate to connect the pipes and the hose to each other by threading the hose over the pipe ends, and a lashing, a hose clamp or the like

13, 14 are arranged.

The two pipes 10 and 11 are firmly united to each other by the arrangement of an outer pipe 15, as above at 16 and below at 17; is conically tapered, so that the inner conical opening is adapted to the outer diameter of the pipe 10 or 11. The conical narrowing 16 thus connects the outer tube 15 to the upper inner tube 10, to which it is attached by means of a sealing joint 18, preferably a welding joint, and in

in a similar way, the lower conical constriction 17 is attached partly to the lower mouth of the lower, inner tube 11, and partly also to the mouth of the outer tube 15. The conical part 17 can preferably be made in one piece with the inner tube 11 and by welding united with the outer tube 15. The welding joint is thus present at 19. With this arrangement, it is particularly easy to assemble the entire assembly of nozzle and valve together.

At the same time, it occurs between, on the one hand, the two inner tubes 10 and 11 and the hose 12 and, on the other hand, the outer tube

15. a ring-shaped space, which seals outwards. At a place at the upper end of the valve, which in concrete casting normally be-'

(is located above the water surface, a pipe 30 is arranged in connection with the aforementioned annular space for the purpose that through the pipe 30 when the valve is closed it should be possible to supply pressurized medium, e.g. compressed air, and when the valve is opened it should be possible relieve this pressure medium to the surrounding atmosphere or to another suitable location.

i —■ i The slow-flowing media, e.g. concrete-forming mass, which in 'I tr' is transported through the nozzle and its valve, contains;'' pfte solid objects, e.g. macadam, large grains of gravel etc., and when these pass through the hose it causes it to deform and be damaged. It is therefore of great importance for the fault-free functioning of the device that the hose is kept; immediately when the valve is open. For this purpose, it is distributed. jet: number of support strips 20 around the inside of the outer tube 15. These consist of an axially extending part 20' in close connection to the outside of the hose 12 and with a length that is at least almost equal to the length of the hose 12, as well as braces j21 or 22 at the upper resp. lower end, which is attached to the inside of the outer tube 15, e.g. at weld joints 23,

'24.

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As previously mentioned, the nozzle with its valve is shown in fig. 1 'in the open position of the flow-through valve. As the device is shown in fig. 2, pressure medium has been supplied through line 30, e.g. compressed air, so that the hose 12 has been pressed together, and the valve is now closed. You can there-

In 1 after maneuvering the nozzle and the organs to which it is connected, while keeping the valve closed, and after the nozzle together with its valve is adapted so that the slow-flowing medium passing through the nozzle, e.g. not yet hardened concrete-forming mass, is added to the correct

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place for the casting, the pressure medium of the valve is relieved to the surroundings. Because of. pressure from the slow-flowing mass, the hose will then return to the state shown in fig.

1, possibly supported by the hose's own tendency to regain its original shape, and the medium can freely flow cream through the nozzle and be placed in the intended location.

In order to prevent water seeping in at the lower end of the outer tube 15, i.e. at the welding joint 19, it is appropriate that this rests against the location, e.g. already previously added concrete-forming mass which has at least partially been subjected to hardening. In order not to damage the weld joint,

this can preferably be made of cemented carbide.

The conical extension 17 contributes to the nozzle better 'sipping the passing material. If, due to the circumstances of the use of the nozzle, this property should not be appreciated, then the device can be made as shown in fig. 3, turning the conical part j 17 (as shown at 17', or in other words, giving it a

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taper direction which is opposite to that according to fig. 1 and 2. The

in the latter device also means that the valve can be placed anywhere in a pipeline, which forms part of the nozzle, and which extends between an incoming pipe 10' and an outgoing pipe 11'.

In the drawing, only two support strips 20-21-22 are shown,

although it is obvious to the person skilled in the art that a larger number of such support lists can be used.

Another possibility is to use a continuous pipe with

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stiore breakthrough points, so that pressure variations have free leeway between on the one hand the outer tube 15 and on the other hand the two tubes 10 and 11 as well as the hose 12 that unites

these.

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The hose 12 should be of a deformable, preferably elastic material, which is not chemically affected by the material passing through the nozzle and its valve. If this material consists of not yet hardened concrete-forming mass

in the form of a mixture of solid material in water, the hose can

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preferably made of rubber.

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Claims (1)

li Nozzle for placing in place slow-flowing media, in particular concrete-forming material, which nozzle contains a contraction valve with an elastic material in it as a valve regulating agent, characterized in that the nozzle contains two longitudinally continuous, approximately equally coarse tubes (10, 11) and a hose (12) of elastically deformable material which connects these,! arranged so that the hose (12) can be compressed to close the valve, and that an outer tube (15) is sealingly connected to the two first-mentioned tubes (10, 11), so that a space is formed between, on the one hand, the part of the hose (12) which lies between the two first-mentioned pipes (10, 11) and on the other side I .the outer pipe (15), which space is in connection with a jerl pressure medium source for the hose's compression. 21 Nozzle according to claim 1, characterized in that support strips (20, 21, 22) are arranged on the inside of the outer tube (15) in close connection to the outer circumference of the hose (12).]3. Mouthpiece according to claim 2, characterized in that the support strips consist of a central part (20'), which extends along the outside of the hose (12) at least approximately along the entire length of the hose (12), and stiffeners (21, 22) at each end of this middle part in connection with the inner side of the outer tube (15). 4J Mouthpiece according to one or some of the preceding claims; characterized in that the hose (12) is attached to the two inner pipes (10, 11) by lashing, hose clamps or the like (13, 14). 5. Mouthpiece according to one of the preceding claims, characterized in that the hose (12) is attached to the two inner tubes (10, 11) by vulcanization. 16. Nozzle according to one of the preceding claims, k a -l ' characterized in that the mechanical connection (17) between the outer tube (15) and the lower inner tube (11) with its extended part is directed downwards to facilitate the slipping between the nozzle and the transported slow-flowing medium. 7. Mouthpiece according to claim 6, characterized in that the conical connection between the outer tube (15) and the lower inner tube (11) at the connection to the outer tube (15) is provided with hard metal protection (19). ; i 8, Mouthpiece according to one of claims 1-5, characterized in that the conical connections between respective inner tubes (10, 11), on the one hand, and the outer . pipes, on the other hand, are directed with their large ends against each other, so that the nozzle can be placed between two pipes in (10<1>, 11') which carry the slow-flowing medium. , in