KR20130048370A - Automatic nozzle opening device for bulk tank air supply system - Google Patents

Abstract

PURPOSE: An automatic nozzle opening device of an air injection device for a bulk tank is provided to prevent bulk tank from flowing into a nozzle pipe because the nozzle blocks to stop the air supply. CONSTITUTION: An automatic nozzle opening device of an air injection device for a bulk tank comprises a nozzle cover(30) and a nozzle opening unit. The nozzle cover is covered on the outer side surface of a nozzle pipe(10) in order to slide and comprises an outer nozzle. The nozzle opening unit vertically slides the nozzle cover and comprises an air hole(22), a hanging protrusion(21), a slide groove, and an elastomer(40). When the outer nozzle and a nozzle(11) of the nozzle pipe are integrated, the injected air is sprayed into the bulk tank. When the air injection is stopped, the nozzle cover vertically slides in order to be blocked by being dislocated with the nozzle.

Description

Automatic Nozzle Opening Device for Bulk Tank Air Supply System

The present invention relates to an automatic nozzle opening and closing device of a bulk tank air injector, and more particularly, by adding a cover type structure (nozzle cover) to a nozzle for injecting air, the nozzle is opened only during inflation, and the air pressure The automatic nozzle opening and closing apparatus of the bulk tank air spraying device which blocks the nozzle in this non-injection time and prevents a bulk flow.

In general, for drilling vessels, muds, which are responsible for oil well stabilization, lubrication and cooling during drilling, are produced as a mixture of bulk (barite, bentonite) and water. Bulk feed rate is an important factor for the smooth feeding of the mud, and the air injector is provided with an air supply line to pressurize the bulk tank to create bulk fluidization in the tank. have. These injectors vary in shape and direction of supply, but in common, nozzles are located at the ends of the air injectors to blow air at a high pressure.

1 is a nozzle configuration of an air injection apparatus for supplying air in a conventional bulk tank. As shown in the drawing, a plurality of nozzles 11 are formed on the side of the nozzle pipe 10 through which high pressure air is introduced. The nozzle 11 is configured to be inclined in a direction opposite to each other in consideration of the injection direction of the compressed air. The air spray nozzle configured as described above is injected into the bulk tank through the nozzle 11 when the compressed air is supplied into the nozzle pipe 10.

2 is an explanatory view of a nozzle clogging phenomenon of the conventional air injection device for supplying air in a bulk tank. As shown in the drawing, when the air pressure is supplied, since the flow of air is directed outward through the nozzle 11 from the inside of the nozzle pipe 10, it is not a big problem. However, since the particle size of the bulk 12 is considerably small, there is a problem in that the bulk 12 is introduced back through the nozzle 11 in the state in which the supply of air is stopped and the operation is stopped.

Since the nozzle of the conventional air spraying device does not have a device to prevent the reverse flow of bulk, the phenomenon of clogging the nozzle frequently occurs. If the nozzle is clogged with bulk, the air pressure through the nozzle is not smoothly supplied, and the efficiency of the air injector is reduced, and there is a possibility of damage due to excessive pressure increase in the air supply.

The role of the air injector is to blow high pressure air between the bulk to mix the bulk and air well and to maintain a strong pressure in the tank to move the mixed bulk through the pipe to the surge tank. However, if the nozzle is blocked by bulk or the flow is obstructed, the bulk and air cannot be mixed properly and air pressure injection is not possible, which reduces the overall efficiency of the bulk transport system.

The present invention adds a cover type structure (nozzle cover) to a nozzle for injecting air so that the nozzle is opened only during inflation with air pressure. When the air pressure is not injected, the nozzle cover surrounds the entire nozzle to prevent the inflow of bulk. As the air pressure is injected, the nozzle cover is automatically lowered by the air pressure and the nozzle is opened to inject the air pressure. This effectively prevents the back flow of bulk into the nozzle, maintaining the efficiency of the air jet and significantly reducing the cost of additional maintenance such as nozzle replacement and repair.

The automatic opening and closing nozzle device proposed by the present invention is a device that automatically opens and closes according to the operation of the air supply device to prevent efficiency degradation and equipment damage due to bulk inflow into the nozzle tube, thereby preventing problems of the existing nozzle. To do this, an automatic opening and closing nozzle device is added so that the nozzle opens only when air pressure is supplied to the nozzle end.

 The automatic opening / closing nozzle device is configured by attaching the nozzle cover to the existing nozzle pipe, and the nozzle cover has a separate outer nozzle. When the automatic nozzle device is operated, the inner nozzle and the outer nozzle of the nozzle cover are connected to pneumatic pressure. This is how it is fed.

Automatic nozzle opening and closing device is characterized in that the automatic opening and closing by air pressure. The end of the nozzle pipe has a separate hole for supplying air pressure into the nozzle cover, and when the air pressure is supplied through the hole, the nozzle cover is automatically opened by applying pressure to the nozzle cover.

 When the air supply stops and the air pressure stops, the nozzle cover moves to its original position by restoring force by the spring or elastic body on the top of the nozzle cover, and the inner and outer nozzles are separated to prevent the reverse flow of bulk. Include.

According to the present invention, by adding a nozzle opening and closing device of the air injector in the bulk tank, when the air is supplied, the nozzle is opened to supply air, and when the air supply is stopped, the nozzle is blocked by the nozzle opening and closing the bulk Can be prevented from entering the nozzle pipe. Accordingly, nozzle clogging due to bulk inflow can be prevented to ensure the reliability of the air supply device, and the air can be smoothly supplied, thereby improving the efficiency of bulk and air mixing in the bulk tank, and bulk inflow. It is possible to prevent damage to the air supply, such as nozzle clogging due to, there is an effect that can reduce the nozzle maintenance cost, which had to be cleaned periodically to solve the nozzle clogging.

1 is a nozzle configuration of an air injection device for supplying air in a conventional bulk tank.
Figure 2 is an explanatory view of a nozzle clogging phenomenon of the air injection device for supplying air in a conventional bulk tank.
Figure 3 is a nozzle configuration of the air injection device for supplying air in the bulk tank according to the present invention.
Figure 4 is an explanatory view of the nozzle opening and closing movement of the air injection device for supplying air in the bulk tank according to the present invention.
Figure 5 is a nozzle opening and closing state at the time of supplying air of the air injection device for supplying the air in bulk according to the present invention.

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

3 is a configuration diagram of a nozzle of an air injector for supplying air in a bulk tank according to the present invention. As shown therein,

An air injection apparatus for supplying air into a bulk tank, comprising: a nozzle pipe (10) including a plurality of nozzles (11) bored to the side by receiving compressed air; A nozzle cover 30 formed on an outer surface of the nozzle pipe 10 so as to be slidably coupled up and down and having an outer nozzle 31 perforated laterally corresponding to the nozzle 11;

When air is injected into the nozzle pipe 10, the nozzles of the outer nozzle 31 and the nozzle pipe 10 coincide with each other to inject the injected air into the bulk tank, and when the air injection is stopped, the nozzle cover 30. ) Slides the nozzle cover 30 up and down according to the air injection so that the outer nozzle 31 and the nozzle 11 are shifted from each other so that the nozzle 11 can be blocked by the nozzle cover 30. It characterized in that it comprises a nozzle opening and closing means.

The nozzle opening and closing means,

An air hole 22 formed through the bottom surface of the nozzle pipe 10, and a locking jaw 21 protruding from the upper outer surface of the nozzle pipe 10; A slide groove (32) formed at an upper inner side surface of the nozzle cover (30) to allow the locking jaw (21) to be inserted and slide upward and downward; It is characterized in that it is configured to include an elastic body 40 is installed on the upper engaging jaw 21 in the slide groove 32 to provide a slide restoring force of the nozzle cover 30.

Here, although not shown in the drawing, the nozzle cover 30 is configured to be separated and assembled into at least two, so that the nozzle cover 10 can be combined as a cover on the outer surface without separating. For example, it may be configured to be divided into two vertically and fastened using a clamp or bolt nut on the outer surface.

The slide groove 32 is designed in the vertical length, that is, the slide length in consideration of the elastic restoring force of the elastic body 40 installed between the upper surface of the nozzle cover 30 and the locking projection 21, the nozzle cover 30 The position of the outer nozzle 31 of the outer nozzle 31 and the nozzle pipe 10 of the nozzle pipe 10 when the nozzle cover 30 is lifted upward by the restoring force of the elastic body 40 when air injection is stopped. 11) are formed at positions where they may be displaced and discordant.

Figure 4 is an explanatory view of the nozzle opening and closing movement of the air injection device for supplying the air in the bulk tank according to the present invention, Figure 5 is a nozzle opening and closing state diagram during the air supply of the air injection device for supplying air in bulk according to the present invention. . As shown therein,

When compressed air is injected into the nozzle pipe 10, the compressed air is to be discharged to the outside through the nozzle 11 and the air hole 22 on the bottom surface. At this time, since the nozzle 11 on the side surface is blocked by the nozzle cover 30 and the air is not exhausted, the nozzle cover 30 is pushed down while being exhausted through the air hole 22 on the bottom surface. That is, the air exhausted through the air hole 22 is pushed down the nozzle cover 30 as it is exhausted into the space with the bottom surface of the nozzle cover 30, thereby causing the outer nozzle ( 31 and the nozzle 11 formed in the nozzle pipe 10 coincide with the compressed air is injected into the bulk tank.

As illustrated in FIG. 5, the nozzle 11 of the nozzle pipe 10 and the outer nozzle 31 of the nozzle cover 30 coincide with each other, and the injected air is injected into the bulk tank. When the air injection is stopped afterwards, the nozzle cover 30 is lifted upward by the restoring force of the elastic body 40, for example, the compression spring, installed on the locking jaw 21, and the outer nozzle 31 of the nozzle cover 30 is lifted. ) And the nozzle 11 of the nozzle pipe 10 are shifted from each other to block the nozzle 11 formed in the nozzle pipe 11 from the outside.

Even if bulk flows in such a state, bulk flows only into the outer nozzle 31 of the nozzle cover 30 and does not flow into the nozzle pipe 10. Therefore, since the air is injected and the nozzle 11 of the nozzle pipe 10 and the outer nozzle 31 of the nozzle cover 30 coincide with each other, compressed air is injected to the outside, so that the bulk introduced into the outer nozzle 31 Easily discharged to the outside prevents nozzle clogging.

10: nozzle pipe 11: nozzle
21: engaging jaw 22: air hole
30: nozzle cover 31: outer nozzle
32: slide groove 40: elastic body

Claims (2)

As a nozzle opening and closing device for opening and closing the nozzle of the air injection device for injecting air into the bulk tank through a plurality of nozzles 11 which are injected into the nozzle pipe 10 through the nozzle 11 drilled to the side,
A nozzle cover 30 covering the outer surface of the nozzle pipe 10 so as to be slidably coupled up and down and having an outer nozzle 31 drilled laterally corresponding to the nozzle 11;
When air is injected into the nozzle pipe 10, the nozzles of the outer nozzle 31 and the nozzle pipe 10 coincide with each other to inject the injected air into the bulk tank, and when the air injection is stopped, the nozzle cover 30. ) Slides the nozzle cover 30 up and down according to the air injection so that the outer nozzle 31 and the nozzle 11 are shifted from each other so that the nozzle 11 can be blocked by the nozzle cover 30. Automatic nozzle opening and closing device of the bulk tank air injector comprising a nozzle opening and closing means.
The method of claim 1, wherein the nozzle opening and closing means,
An air hole 22 formed through the bottom surface of the nozzle pipe 10;
A catching jaw 21 protruding toward an upper outer surface of the nozzle pipe 10;
A slide groove (32) formed at an upper inner side surface of the nozzle cover (30) to allow the locking jaw (21) to be inserted and slide upward and downward;
Automatic nozzle opening and closing of the bulk tank air injector, characterized in that it comprises an elastic body 40 which is installed on the locking jaw 21 in the slide groove 32 to provide a slide restoring force of the nozzle cover 30 Device.

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