KR20120008653U - Draining apparatus for rest water using compressed air - Google Patents

Abstract

The present invention relates to a residual water removal device using compressed air, in particular, a compressed air generator for supplying compressed air to the residual water suction outlet; When the air subjected to a predetermined pressure from the compressed air generator is supplied to the inside through the hose, the remaining water is discharged to the outside by the pressure difference generated while distributing it strongly through the air distribution outlet having several air injection nozzle holes. A residual water suction discharge port for suction discharge; A residual water discharge hose detachably coupled to an upper portion of the residual water suction discharge port and configured to transfer the residual water sucked and discharged through the residual water suction discharge port to an external bottom or a residual water collection container; Residual water collection container for collecting the residual water is passed through the residual water discharge hose; characterized in that configured as.
Therefore, the remaining water can be easily processed, and the remaining water in the block is smoothly formed by forming several residual water guide grooves at predetermined intervals on the bottom of the backing plate of the nut-type fastener that is detachably installed at the bottom of the main body of the remaining water suction outlet. Also, by installing several permanent magnets and fall prevention plates on the nut-type fasteners, it is possible to prevent the residual water inlet and outlet itself from falling down while processing the residual water, thereby greatly improving the work efficiency according to the residual water removal. It can be.

Description

Draining apparatus for rest water using compressed air}

The present invention relates to a device for removing residual water using compressed air, and more particularly, to a big gap rail groove of a large factory, including residual water such as rainwater inside a block that is stored outdoors when a ship is built using compressed air. It is invented so that it is possible to easily treat the water.

Normally, since the ship's block is very large, it is placed in the outdoors, and after rainy weather, a large amount of rainwater is present, which prevents welding or painting.

In this case, conventionally, an electric motor pump or a diaphragm pump driven by compressed air is used to remove the residual water such as rainwater in the block. In the case of the electric motor pump, it is difficult to operate outdoors due to the need for supply of electricity. The two pumps are not only expensive but also large in size and heavy, and are very difficult to move and install, as well as having a narrow place such as a rail groove of a large factory, or in the case of a local part, there is a problem in that residual water cannot be removed using them.

The present invention has been devised to solve such a conventional problem, the water inlet discharge outlet and the water inlet discharge outlet having a plurality of air-distribution nozzle holes and the nut-type fasteners are basically small in size, but the residual water When compressed air is supplied to the suction outlet, compressed air is injected upward through the air injection nozzle holes at the air distribution outlet, and the space pressure between the air distribution outlet having the atmospheric pressure and the nut-type fastener is greatly reduced, and the rail groove is in contact with the rail groove. Residual water in the bottom surface of the block is sucked through the residual water suction hole of the nut-type fastener having an automatic discharge to the outside through a hose connected to the upper opening of the residual water suction outlet to easily process the residual water such as rainwater accumulated in the local area. It is an object of the present invention to provide a residual water removal device using compressed air.

Another object of the present invention is to form a plurality of residual guide grooves on the bottom of the support plate of the nut-type fastener that is detachably installed on the bottom of the main body of the residual water suction outlet through a predetermined interval to the residual water accumulated in the rail groove, etc. through the residual water guide groove It is to provide a residual water removal device using compressed air that can be easily handled by the guided to the side of the residual water suction hole drilled in the center of the nut-type fixture after being guided.

Another object of the present invention is to install several permanent magnets on the nut-type fastener that is detachably installed at the bottom of the main body of the residual water suction outlet, as well as to install the fall prevention plate, if necessary, to process the residual water. It is to provide a debris removal device using compressed air that can prevent the outlet itself from falling down.

The present invention for solving the above problems is a compressed air generator for supplying compressed air of a predetermined pressure to the residual water suction outlet; When the air subjected to a constant pressure from the compressed air generator is supplied to the inside through the air supply hose, the residual water is discharged by the pressure difference generated while distributing it strongly through the air distribution outlet having several air injection nozzle holes. Residual water suction outlet formed in a small shape for suction discharge to the outside; A residual water discharge hose detachably coupled to an upper portion of the residual water suction discharge port and configured to transfer the residual water sucked and discharged through the residual water suction discharge port to an external bottom or a residual water collection container; Residual water collection container for collecting the residual water is passed through the residual water discharge hose; characterized in that configured as.

At this time, the residual water suction outlet is formed of a cylindrical hose connector having a small diameter and a residual water discharge hole at the top and a cylindrical component installation tool having a large diameter connected to the upper and lower sides of the component installation port. A main body having a screw thread formed therein and a compressed air supply port penetrating into the upper portion of the component installation hole; The upper and lower parts of the cylinder have a flange shape, each of which has a configuration in which a plurality of air injection nozzle holes are drilled at a predetermined interval between the upper outer peripheral surface of the cylinder and the inner peripheral surface of the upper ring, and the inner peripheral surface of the component installation port of the main body. When the compressed air is installed at the upper part and the compressed air is supplied from the compressed air generator through the compressed air supply port, it is evenly distributed and discharged to the hose connector through several air injection nozzle holes, and the residual water is sucked by the pressure difference. An air distribution outlet configured to be discharged to the outside through the connector; A residual water suction hole is drilled in the center of the support plate having a diameter larger than the component installation hole diameter of the main body, and a cylindrical male thread is integrally formed on the upper surface of the support plate, and is detachably coupled to the bottom of the component installation hole of the main body. And a nut-type fastener which prevents the dispensing outlet from being separated from the main body, prevents the main body from falling down, and allows the residual water to be sucked into the main body by the pressure difference between the main body and the external pressure generated during operation of the compressed air generator. It features.

In addition, it is characterized in that the remaining number of guide grooves further formed at a predetermined angle on the bottom surface of the support plate of the nut-shaped fixture.

In addition, the bottom of the support plate of the nut-type fastener is characterized in that the additional permanent magnets are installed at a predetermined interval.

And, the outer peripheral surface of the upper end of the main body hose connector, and the outer peripheral surface of the end portion of the compressed air supply port installed to penetrate the component installation port is characterized in that further formed wedge-shaped locking projections to prevent the hose from being separated.

In addition, the upper, lower ring upper and lower surfaces of the air distribution outlet, respectively formed an O-ring installation groove, characterized in that the O-ring further installed.

In addition, between the bottom of the main body and the upper surface of the backing plate of the nut-type fastener is characterized in that the addition of the fall prevention plate detachably.

As described above, according to the residual water removing device using the compressed air of the present invention, the air distribution is provided by supplying compressed air to a small water inlet discharge outlet having a perforated air distribution outlet and a nut-type fastener in which several air injection nozzle holes are perforated. As the compressed air is injected from the outlet through the air injection nozzle holes, the space pressure between the air distribution outlet having the atmospheric pressure and the nut-type fastener is greatly lowered and the residual suction of the nut-type fastener having the state of contact with the bottom surface of the block The remaining water at the bottom of the block is sucked through the ball so that it can be automatically discharged to the outside through a hose connected to the upper opening of the remaining water suction outlet, so that the remaining water can be easily processed, and it is detachably installed at the bottom of the main body of the residual water suction outlet. Several residual guide grooves are defined on the bottom of the support plate of the It is possible to smoothly process the bottom surface of the block by further forming, and also by installing several permanent magnets and fall prevention plates on the nut-type fasteners to prevent the residual water suction outlet itself from falling down while processing the residual water. It is a very useful design, such as can greatly improve the work efficiency according to the residual water removal.

1 is a perspective view of a residual water suction outlet of the present invention device.
Figure 2 is an exploded perspective view of the residual water suction outlet of the present invention device.
Figure 3 is a front cross-sectional view of the residual water suction outlet of the present invention device.
5 is a schematic configuration diagram of an apparatus of the present invention.

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

1 is a perspective view of a residual water suction outlet of the present invention device, Figure 2 is an exploded perspective view of the residual water suction outlet of the present invention device, Figure 3 is a front cross-sectional view of the residual water suction discharge port of the present invention device, Figure 4 shows a schematic configuration diagram of the device of the present invention.

According to the present invention,

A compressed air generator (1) for supplying compressed air of a predetermined pressure to the residual water suction outlet (2);

When the air subjected to a predetermined pressure from the compressed air generator 1 is supplied to the inside through the air supply hose 5, the air is discharged to the outside through the air distribution outlet 22 having several air injection nozzle holes 224. Residual water suction discharge port (2) compactly molded so that the residual water is sucked out to the outside by the pressure difference generated while distributing strongly;

Residual discharge hose (3) that is detachably coupled to the upper portion of the residual water suction outlet (2) to send the residual water suctioned and discharged through the residual water suction outlet (2) to the bottom or the residual water collection container (4) Wow;

Residual water collection container for collecting the residual water is passed through the residual water discharge hose (3); characterized in that consisting of.

At this time, the residual water suction outlet (2),

A cylindrical hose connector 211 having a small diameter and having a residual water discharge hole 211a thereon and a large cylindrical component installation hole 212 are formed in succession up and down vertically, and the component installation hole 212 is formed. The bottom inner surface of the nut-shaped fixture 23 is formed with a screw thread (212a) is screwed, the upper part of the component mounting holes 212, the main body 21 is formed with a compressed air supply port 213 penetrated therein )Wow;

The upper and lower portions of the cylinder 221, the ring 222, 223 has a flange shape, respectively, between the upper outer peripheral surface of the cylinder 221 and the inner circumferential surface of the upper ring 222, several air injection nozzle holes ( 224 has a configuration punctured at predetermined intervals, and is installed above the inner circumferential surface of the component mounting holes 212 of the main body 21 at a predetermined pressure from the compressed air generator 1 through the compressed air supply port 213. When compressed air is supplied, it is evenly distributed and discharged to the hose connector 211 side through several air injection nozzle holes 224 so that the residual water is sucked by the pressure difference and discharged to the outside through the hose connector 211. A dispensing outlet 22;

A residual water suction hole 231a is drilled in the center of the support plate 231 having a diameter larger than the diameter of the component mounting hole 212 of the main body 21, and a cylindrical male screw 232 is integrally formed on the upper surface of the support plate 231. It has a molded configuration and is detachably coupled to the bottom of the component mounting opening 212 of the main body 21 to prevent the air distribution outlet 22 from being separated from the main body 21 and to prevent the main body 21 from falling over. Of course, the nut-shaped fixture 23 to allow the residual water to be sucked into the main body by the pressure difference between the inside and the outside of the main body 21 generated during operation of the compressed air generator (1).

In addition, a plurality of residual guide grooves 231b are further formed at a predetermined angle on the bottom surface of the support plate 231 of the nut-type fastener 23.

In addition, the bottom of the support plate 231 of the nut-type fastener 23 is characterized in that several permanent magnets (231c) are additionally installed at predetermined intervals.

At this time, the residual water guide groove 231b and the permanent magnet 231c are formed and installed alternately at a predetermined angle to each other.

In addition, the outer peripheral surface of the upper end of the hose connector 211 of the main body 21 and the outer peripheral surface of the end portion of the compressed air supply port 213 installed to penetrate the component installation hole 212 is a wedge-shaped locking projection (H) 211b) and 213a are further formed.

In addition, the upper and lower rings 222 and 223 of the upper and lower rings of the air distribution outlet 22 are formed with O-ring installation grooves 222a and 223a, respectively. .

In addition, a fall prevention plate 25 is detachably attached between the bottom face of the main body 21 and the top face of the support plate 231 of the nut-shaped fastener 23.

Referring to the operation and effect of the invention device configured as described above are as follows.

First, the device of the present invention basically consists of a compressed air generator 1, a small residual water suction discharge port 2, a residual water discharge hose 3 and a residual water collection container 4 as main technical components.

At this time, the compressed air generator 1 is a compressed air of a predetermined pressure through the compressed air supply port 213 installed above the component installation port 212 of the residual water suction outlet 2 through the air supply hose (5) It will perform the function of supplying.

In addition, the residual water suction discharge port (2) is basically formed in a small size so that the residual water accumulated in the local portion can be suctioned and discharged to the outside, including a narrow portion such as a rail groove inside the block, and is fixed from the compressed air generator (1). When the compressed air under pressure is supplied to the inside through the air supply hose 5, the main body is generated by distributing it strongly through the air distribution outlet 22 having several air injection nozzle holes 224. By the internal / external pressure difference of (21), it is possible to perform the function of allowing the residual water accumulated in the local part to be sucked out to the outside including the narrow part.

At this time, the residual water suction outlet 2 is composed of the main body 21, the air distribution outlet 22 and the nut-shaped fastener 23, the main body 21 is relatively diameter compared to the component installation port 212 A cylindrical hose connector 211 which is small and has a residual water discharge hole 211 a at the top thereof, and a cylindrical component installation hole 212 having a relatively larger diameter than the hose connector 211 is formed vertically and vertically in succession. At the same time, the bottom surface of the component mounting fixture 212 has a configuration in which a screw thread 212a is formed to allow the nut-type fastener 23 to be detachably screwed, as well as the component mounting fixture 212. The upper part of the has a configuration in which the compressed air supply port 213 penetrated therein is installed so as to connect the compressed air generator 1 through the air supply hose (5).

In addition, the air distribution outlet 22 has a flange shape provided with rings 222 and 223 on the upper and lower portions of the cylinder 221 having a predetermined diameter, respectively, and the upper outer peripheral surface and the upper ring of the cylinder 221 ( Between the inner circumferential surface of the 222 has a configuration in which a plurality of air injection nozzle holes 224 are inclined perforated at a predetermined interval, the upper portion of the component installation opening 212 of the main body 21, that is, hose connector 211 When the compressed air of the predetermined pressure is supplied from the compressed air generator 1 through the compressed air supply port 213 is installed in the lower portion of the hose connector 211 through several air injection nozzle holes 224 By discharging and discharging to the side evenly so that the pressure inside the hose connector 211 of the main body 21 is much lower than the pressure inside the component installation hole 212, water accumulated in the local part including the narrow part is collected in the main body ( 21) The hose is sucked by the upper and lower pressure difference Through the hose connector 211 of the envoy 211 and performs a function for collecting residual water to be discharged toward the container 4 is installed to the bottom or outside of the outside.

At this time, compressed air flows between the outer circumferential surface of the cylinder 221 of the air distribution outlet 22 and the upper and lower surfaces of the upper and lower rings 222 and 223 and the inner circumferential surface of the component installation port 212 of the main body 21. When a cylindrical ring-shaped space portion is formed and compressed air is supplied from the compressed air generator 1 at a predetermined pressure, the number of holes punched in the upper portion of the air distribution outlet 22 while the air is full in the space portion. Since it is strongly dispersed and discharged to the hose connector 211 through the two air injection nozzle holes 224, the pressure in the component installation port 212 of the main body 21 in the atmospheric pressure becomes much higher than the pressure inside the hose connector 211. Residuals accumulated in the local portion, including the portion, is introduced through the residual water suction hole 231a drilled into the nut-type fastener 23, and then sucked up to the upper portion of the lower pressure body 21, that is, the hose connector 211, and the hose connector Et al via 211 The floor or will be discharged toward the residual water collecting container 4 provided outside.

In addition, the nut-shaped fastener 23 is formed with a residual water suction hole 231a in the center of the support plate 231 formed to have a diameter larger than the diameter of the component installation hole 212 of the main body 21, and the support plate 231. The center of the upper surface of the) has a configuration in which the cylindrical male screw 232 is integrally formed, and the male screw 232 is detachably screwed to the thread 212a formed at the bottom of the component mounting hole 212 of the main body 21. Will be.

The nut-type fastener 23 having such a configuration prevents the air distribution outlet 22 from being separated from the inside of the component installation port 212 of the main body 21, and prevents the main body 21 from falling over. In addition, by the pressure difference between the inside and the outside of the main body 21 generated when the compressed air generator 1 operates, a narrow portion, such as a rail groove in the block, has a function of allowing the residual water accumulated in the local portion to be sucked into the main body. Will perform.

In this case, when the support plate 231 of the nut-type fixture 23 is simply formed into a washer shape, the support plate 231 of the nut-type fixture 23 comes into close contact with the upper surface of the block so that the nut-like fixture There is a possibility that no gap is generated between the bottom of the support plate 231 and the top surface of the block so that the residual water does not flow into the residual water guide groove 231b bored in the support plate 231 of the nut-shaped fixture 23. .

Therefore, in the present invention, the bottom surface of the support plate 231 of the nut-shaped fixture 23 is formed by further forming a plurality of residual guide grooves 231b at a predetermined angle on the bottom surface of the support plate 231 of the nut-shaped fixture 23. A gap is formed between the upper surface of the block and the support plate of the nut-type fastener 23 including the narrow part such as the rail groove inside the block when compressed air is supplied to the residual water suction outlet 2. It can be introduced through the residual water guide groove 231b perforated in 231.

In addition, in order to prevent the residual water suction outlet 2 to form the support plate 231 of the nut-shaped fastener 23 falls, it is molded to have a diameter larger than the diameter of the component mounting holes 212 of the main body 21. However, since the degree is limited, in the present invention, the bottom of the support plate 231 of the nut-type fixture 23 has several permanent magnets 231c installed at regular intervals.

As such, when the permanent magnet 231c is additionally installed at the bottom of the support plate 231 of the nut-type fastener 23 at a predetermined interval, the bottom surface of the residual water suction outlet 2 itself is formed of the permanent magnet 231c. Since it maintains the shape attached to the bottom surface of the steel block by magnetic force, even if any impact or force is applied from the outside, the residual water suction outlet 2 itself does not fall or fall during the residual water removal and the work according to the residual water removal Significantly improve performance efficiency.

At this time, the residual water guide groove 231b and the permanent magnet 231c formed and installed on the bottom surface of the support plate 231 of the nut-type fastener 23 may be formed and installed separately, respectively. It is desirable to form and install alternately at a predetermined angle.

In addition, the present invention extends the long plate on both sides of the disk having a ring shape between the bottom surface of the main body 21 and the upper surface of the support plate 231 of the nut-shaped fastener 23 separately or simultaneously with the permanent magnet 231c. By detachably installing the fall prevention plate 25 having a molded shape, even if any impact or force is applied from the outside, the residual water suction discharge port 2 itself can be completely prevented from falling or falling during the residual water removal. Workability and efficiency can be greatly improved by removing residual water.

Meanwhile, the residual water discharge hose 3 is detachably coupled to an upper portion of the hose connector 211 of the residual water suction outlet 2 so that the residual water sucked out and discharged through the residual water suction outlet 2 is externally bottomed or residual water. It performs the function of sending water to the collecting container (4).

At this time, when the upper peripheral surface of the upper end of the hose connector 211 and the outer peripheral surface of the end portion of the compressed air supply port 213 installed to penetrate the component installation port 212 is simply formed in a pipe shape hose that is defective When the pressure of the compressed air is applied due to the low contact frictional force with each other, the respective hoses are formed from the upper outer circumferential surface of the hose connector 211 of the main body 21 or the outer circumferential surface of the end portion of the compressed air supply port 213 of the component fitting 212. Since the hose may be detached, in the present invention, a wedge-shaped locking stone is formed on the outer circumferential surface of the upper end of the hose connector 211 of the main body 21 and the outer circumferential surface of the end portion of the compressed air supply port 213 installed to penetrate the component installation hole 212. Groups 211b and 213a were further formed.

In addition, in the present invention by forming the O-ring installation grooves (222a, 223a) on the upper, lower rings 222, 223, upper and lower surfaces of the air distribution outlet 22, by further installing the O-ring 24 thereon Sealing between the upper and lower rings 222 and 223 of the air distribution outlet 22 and the lower end of the hose connector 211 of the main body 21 and the upper surface of the male screw 232 of the nut-type fixture 23. The space is formed between the outer circumferential surface of the cylinder 221 of the air distribution outlet 22 and the upper and lower surfaces of the upper and lower rings 222 and 223 and the inner circumferential surface of the component installation port 212 of the main body 21. Incoming compressed air can be completely prevented from leaking out through the gaps between the contacts.

In addition, the residual water collection container 4 is a container having a predetermined volume to perform the function of collecting the residual water that is passed through the residual water discharge hose (3).

On the other hand, the compressed air generator 1 and the residual water suction discharge port (2), the residual water discharge hose (3) and the residual water collection container (4) may be carried and transported, respectively, preferably wheels and handles, etc. It can be easily installed anywhere, and can be easily moved to any place so that the residues scattered on the shipyard can be removed more quickly and conveniently. Therefore, the preparation time for the next process can be considerably shortened, improving productivity. You can.

Although the above-described embodiment is described with respect to the most preferred example of the present invention, it is not limited to the above embodiment, and various modifications can be made without departing from the technical spirit of the present invention. It is obvious to him.

1: compressed air generator
2: Residual water suction outlet
21: body 211: hose connector
211a: residual water discharge hole 211b: wedge-type locking projection
212: component mounting holes 212a: thread
213: compressed air supply port 213a: wedge-type locking projection
22: air distribution outlet 221: cylinder
222, 223: ring 222a, 223a: O-ring installation groove
224: nozzle for air injection
23: nut-type fastener 231: support plate
231a: Residual suction hole 231b: Residual induction groove
231c: Permanent magnet 232: Male thread
24: O-ring
25: fall prevention plate
3: hose for drainage
4: Residual water collection container
5: air supply hose

Claims (3)

A compressed air generator for supplying compressed air of a predetermined pressure to the residual water suction outlet;
When the air subjected to a constant pressure from the compressed air generator is supplied to the inside through the air supply hose, the residual water is discharged by the pressure difference generated while distributing it strongly through the air distribution outlet having several air injection nozzle holes. A small residual water suction discharge port for suction discharge to the outside;
A residual water discharge hose detachably coupled to an upper portion of the residual water suction discharge port and configured to transfer the residual water sucked and discharged through the residual water suction discharge port to an external bottom or a residual water collection container;
Residual water removal device using the compressed air, characterized in that consisting of; a residual water collection container for collecting the residual water being sent through the residual water discharge hose.
The method according to claim 1,
The residual water suction outlet,
A cylindrical hose connector having a small diameter and a residual water discharge hole at the top thereof and a cylindrical component installation member having a large diameter are formed in a vertical direction, and are formed in a vertical direction. A main body formed with a compressed air supply port penetrating into the upper portion of the component installation hole;
The upper and lower parts of the cylinder have a flange shape, each of which has a configuration in which a plurality of air injection nozzle holes are drilled at a predetermined interval between the upper outer peripheral surface of the cylinder and the inner peripheral surface of the upper ring, and the inner peripheral surface of the component installation port of the main body. When the compressed air is installed at the upper part and the compressed air is supplied from the compressed air generator through the compressed air supply port, it is evenly distributed and discharged to the hose connector through several air injection nozzle holes, and the residual water is sucked by the pressure difference. An air distribution outlet configured to be discharged to the outside through the connector;
A residual water suction hole is drilled in the center of the support plate having a diameter larger than the component installation hole diameter of the main body, and a cylindrical male thread is integrally formed on the upper surface of the support plate, and is detachably coupled to the bottom of the component installation hole of the main body. And a nut-type fastener which prevents the dispensing outlet from being separated from the main body, prevents the main body from falling down, and allows the residual water to be sucked into the main body by the pressure difference between the main body and the external pressure generated during operation of the compressed air generator. Residual water removal device using the compressed air characterized in that.
The method according to claim 1,
Residual water removing device using the compressed air, characterized in that the fall prevention plate is installed between the bottom of the main body and the upper surface of the backing plate of the nut-shaped fastener.

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