KR102409285B1 - Self-closing multiple water Reservoir - Google Patents

Abstract

The present invention includes a water collecting housing 100 extending long in the vertical direction and having a first storage space 151 communicating with the first upper opening surface 111 and the first lower opening surface 121; a first upper door 131 for opening and closing the first upper opening surface 111 of the water intake housing 100; a first lower door 141 for opening and closing the first lower opening surface 121 of the water intake housing 100; A first starting device 200 for automatically closing the first upper door 131 and the first lower door 141 according to water pressure is provided.
According to the present invention, since the first starting device is operated according to the water pressure to automatically close the first upper door and the first lower door, there is an advantage in that the water is collected automatically without a special operation by the operator.

Description

Self-closing multiple water reservoir

[0001] The present invention relates to an automatic sealing multiple water dispenser automatically operated by water pressure.

In general, automatic sample collectors are used to investigate pollution levels, bacteria, organisms, etc. in lakes and seas.

In order to know the water quality, a certain amount of contaminated seawater or freshwater is collected and the degree of contamination is measured through various experiments.

Sampling is the initial stage for measuring the level of contamination, and the experimenter or worker directly goes to the area at the desired time to collect the sample and collects the sample to measure the level of contamination.

For such water collection, conventionally, a manual water dispenser that closes the automatic water dispenser lid by dropping a messenger from an observation vessel or a semi-automatic water dispenser that sends a water collection signal through a controller on a ship connected to the automatic water dispenser has been used.

Republic of Korea Patent Registration No. 10-0566541 Republic of Korea Patent Registration No. 10-0672966 Republic of Korea Patent Publication No. 10-2019-0107942

The present invention has been devised to solve the problems of the prior art, and an object of the present invention is to provide an automatic sealing multiple water dispenser that is automatically operated by water pressure at different heights.

The present invention includes a water collecting housing 100 extending long in the vertical direction and having a first storage space 151 communicating with the first upper opening surface 111 and the first lower opening surface 121; a first upper door 131 for opening and closing the first upper opening surface 111 of the water intake housing 100; a first lower door 141 for opening and closing the first lower opening surface 121 of the water intake housing 100; A first starting device 200 for automatically closing the first upper door 131 and the first lower door 141 according to water pressure is provided.

a second storage space 152 that communicates with the second upper opening surface and the second lower opening surface and extends long in the vertical direction; a second upper door 1131 for opening and closing the second upper opening surface; a second lower door 1141 for opening and closing the second lower opening surface; A second starting device 200 for automatically closing the second upper door 1131 and the second lower door 1141 according to the water pressure; may further include.

The first starting device 200 further includes a hydraulic pressure response module 300 whose volume is contracted or expanded according to water pressure, and the first upper door 131 according to the contraction or expansion of the hydraulic pressure response module 300 . and the second lower door 141 may be opened and closed.

The first starting device 200 includes a starting housing 210 assembled to the outer circumferential surface 103 of the water intake housing 100; a main elastic member 220 disposed inside the starting housing 210; a lever 230 for compressing the main elastic member 220 in the starting housing 210; a hydraulic pressure response module 300 disposed on the lever 230 and contracted or expanded by hydraulic pressure to form a mutual engagement with the starting housing 210; The lever 230, the first upper door 131 and the first lower door 141 are connected, and when the lever 230 is pulled while compressing the main elastic member 220, the first upper door ( 131) and the first lower door 141 open and supported, and the first outer door 131 and the first lower door 141 are loosely released when the lever 230 is returned to the original position. wire 261; a first upper elastic member 271 connecting the first upper door 131 and the first storage space 151; and a first lower elastic member 281 connecting the first lower door 141 and the first storage space 151 to each other.

It may further include an assembly housing 160 disposed on the outer circumferential surface 103 of the water collection housing 100 and being detachably slide-assembled with the start-up housing 210 .

First, according to the present invention, since the first starting device is operated according to the water pressure to automatically close the first upper door and the first lower door, there is an advantage of automatically performing water collection without a special operation by the operator.

Second, in the present invention, since the plurality of starting devices are sequentially operated according to the water pressure, there is an advantage in that it is possible to shorten the working time for water collection and minimize the labor force of the worker.

Third, the present invention has the advantage of realizing a physical operation without the need for a control operation through an electric signal because the locking and unlocking of the latch is controlled through the hydraulic chamber whose volume is increased or decreased according to the water pressure.

1 is a perspective view of an automatic sealing multiple water dispenser according to a first embodiment of the present invention.
FIG. 2 is a front sectional view of FIG. 1 , and FIG. 3 is an exemplary operation view of FIG. 2 .
Figure 4 is a perspective view of the starting device shown in Figure 1;
FIG. 5 is a plan sectional view of FIG. 4 .
FIG. 6 is an exemplary operation view of FIG. 5 .
FIG. 7 is a partially enlarged view of FIG. 6 .

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement them. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the present specification, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless otherwise stated.

1 is a perspective view of an automatic sealing multiple water dispenser according to a first embodiment of the present invention, FIG. 2 is a front sectional view of FIG. 1 , FIG. 3 is an exemplary operation view of FIG. 2, and FIG. It is a perspective view of the starting device, FIG. 5 is a plan sectional view of FIG. 4 , FIG. 6 is an operational view of FIG. 5 , and FIG. 7 is a partially enlarged view of FIG. 6 .

The automatic closing multiple water collection device according to this embodiment includes a plurality of storage spaces, and automatically closes each storage space by the water pressure of the water depth.

The self-closing multiple water dispenser according to this embodiment has a water collecting housing that extends long in the vertical direction and has a first storage space 151 in communication with the first upper opening surface 111 and the first lower opening surface 121 . (100), the first upper door 131 for opening and closing the first upper opening surface 111 of the water intake housing 100, and the first lower opening surface 121 of the water intake housing 100 to open and close It includes a first lower door 141 and a first starting device 200 that automatically closes the first upper door 131 and the first lower door 141 according to water pressure.

In this embodiment, the water collection housing 100 is formed in a cylindrical shape. Unlike this embodiment, the water collecting housing 100 may be formed in a different shape.

The water collecting housing 100 has an upper surface 101 formed with the first upper opening surface 111 , a lower surface 102 formed with the first lower opening surface 121 , and the upper surface 101 and the lower surface 102 . ) includes an outer circumferential surface 103 connecting them.

The first storage space 151 is elongated in the vertical direction. In this embodiment, the first storage space 151 is arranged in a vertical direction. A flat cross-section of the first storage space 151 may be formed in a circular shape.

The first upper door 131 may open and close the first upper opening surface 111 .

The first upper door 131 is rotatably assembled to the upper surface 101 , rotated upward to open the first upper opening surface 111 , and rotated downward to the first upper opening surface 111 . ) is closed.

The first lower door 141 may open and close the first lower opening surface 121 .

The first lower door 141 is rotatably assembled on the bottom surface 102 , rotated downward to open the first lower opening surface 121 , and rotated upward to open the first lower opening surface 121 . ) is closed.

That is, in order to open and close the first storage space 151, the first upper door 131 and the first lower door 141 must be rotated in opposite directions to each other, and in this embodiment, the first starting device 200 ) may simultaneously rotate the first upper door 131 and the first lower door 141 in opposite directions.

The first starting device 200 includes a starting housing 210 assembled on the outer circumferential surface 103 of the water intake housing 100, and a main elastic member 220 disposed inside the starting housing 210, A lever 230 for compressing the main elastic member 220 in the starting housing 210, is disposed on the lever 230, is contracted or expanded by water pressure to prevent mutual engagement with the starting housing 210 Connecting the hydraulic pressure response module 300 to form the lever 230, the first upper door 131 and the first lower door 141, the lever 230 compresses the main elastic member 220 When pulled, the first upper door 131 and the first lower door 141 are opened and supported, and when the lever 230 is returned to the original position, the first upper door 131 and the first lower door A first outer wire 261 for loosening the 141, a first upper elastic member 271 connecting the first upper door 131 and the first storage space 151, and the first lower door and a first lower elastic member 281 connecting the 141 and the first storage space 151 .

The prefabricated automatic water dispenser according to this embodiment may further include an assembling housing 160 disposed on the outer circumferential surface 103 of the water collecting housing 100 and detachably assembled with the starting housing 210 .

Since the first starting device 200 is detachably configured, there is an advantage of easy repair and replacement.

The assembly housing 160 is disposed in a horizontal direction, and may be assembled or separated from the starting housing 210 in a horizontal direction.

The assembly housing 160 is arranged in the horizontal direction and the assembly slot 162 of the starting housing 210 is assembled, and the starting housing 210 is in the vertical direction rather than the longitudinal direction of the assembly slot 162 . The first guide locking part 163 and the second guide locking part 164 to prevent separation from It includes a stopper 165 .

The assembly slot 162 is concavely formed from the front side to the rear side of the assembly housing 160 , and extends long in the longitudinal direction of the assembly housing 160 .

A slot inlet 162a is formed on one side of the assembly slot 162, and the stopper 165 is disposed on the opposite side of the slot inlet 162a.

The first guide stopper 163 is disposed on the upper side of the assembly slot 162, and supports the starting housing 210 to move upward.

The second guide stopper 164 is disposed below the assembly slot 162, and supports the starting housing 210 to move downward.

The first guide locking part 163 and the second guide locking part 164 extend long in the longitudinal direction of the assembly slot 162 and are disposed parallel to each other.

The stopper 165 is disposed on the exit side of the assembly slot 162 and blocks the movement of the starting housing 210 to align the position of the lever 230 .

Specifically, the position of the starting housing 210 is limited through the stopper 165, and when the lever 230 is pulled through this, the lever 230 holds the first outer wire 261 in a taut state. can be formed.

When the lever 230 is not positioned at the correct position, the first outer wire 261 may be formed in a loose state.

The starting housing 210, the housing space 211 into which the elastic member 220 and the lever 230 are inserted, is formed long in the direction of the assembly slot 162, and is inserted into the assembly slot 162 A housing guide 212, a first guide locking groove 213 disposed on the upper side of the housing guide 212, extending long in the longitudinal direction, into which the first guide locking part 163 is inserted, and the housing; A lever disposed below the guide 212 and extending in the longitudinal direction, a second guide locking groove 214 into which the second guide locking part 164 is inserted, and a lever through which the lever 230 is moved. slot 215 .

The housing guide 212 may be moved by being inserted into the assembly slot 162 , and may form a mutual engagement with the stopper 165 .

The first guide locking groove 213 and the second guide locking groove 214 are arranged in the vertical direction and are disposed to face each other in the horizontal direction (H).

The housing space 211 of the starting housing 210 is formed in a cylindrical shape.

The elastic member 220 and the lever 230 may be moved along the housing space 211 .

In this embodiment, one side and the other side of the housing space 211 are opened, respectively. So, the first opening surface 211a is formed on one side of the starting housing 210, and the second opening surface 211b is formed on the other side.

The first opening surface 211a is formed on one side wall 210a of the starting housing 210, and the second opening surface 211b is formed on the other side wall 210b.

By communicating the housing space 211 with the outside through the first opening surface 211a and the second opening surface 211b, resistance when the lever 230 is operated can be minimized, and through this, the first upper door 131 ) and the closing time of the first lower door 141 can be minimized.

The lever slot 215 is opened radially outward from the outer circumferential surface 103 , and is formed to extend long in the longitudinal direction of the starting housing 210 .

The lever 230 is disposed inside the housing space 211 and includes a lever supporter 232 for supporting the elastic member 220, one end coupled to the lever supporter 232, and the other end coupled to the second end. A lever shaft 234 that can protrude out of the starting housing 210 through the opening surface 211b, and a lever protrusion 236 coupled to the lever supporter 232 and protruding to the outside through the lever slot 215 ) and a lever ring 238 rotatably assembled to the lever protrusion 236 and to which the first outer wire 261 is bound.

The lever supporter 232 may be moved along the housing space 211 .

The lever supporter 232 may be a circular plate.

One end 221 of the elastic member 220 is supported on one side of the lever supporter 232 .

In this embodiment, the elastic member 220 may be a coil spring. Unlike this embodiment, other types of elastic members may be used. The other end 222 of the elastic member 220 is supported on the other side wall 210b of the starting housing 210 .

One end of the lever shaft 234 is coupled to the lever supporter 232 . The lever shaft 234 may be disposed at the center of the circle of the lever supporter 232 .

The lever shaft 234 is positioned to be inserted into the center of the elastic member 220 .

The lever protrusion part 236 passes through the lever slot 215 in the housing space 211 and protrudes to the outside.

The lever protrusion 236 may be moved along the lever slot 215 .

The lever ring 238 is rotatably assembled to the lever protrusion 236 .

The lever ring 238 is coupled to the first outer wire 261 , and may be rotated according to the tension applied to the first outer wire 261 .

The first outer wire 261 includes a first upper outer wire 261a connecting the lever ring 238 and the first upper door 131 , the lever ring 238 and the first lower door 141 . It includes a first lower outer wire (261b) for connecting.

The first upper outer wire 261a and the first lower outer wire 261b may be made of a rigid material having low elasticity.

The first upper outer wire 261a may firmly support the first upper door 131 , and the first lower outer wire 261b may firmly support the first how door 141 .

When the lever 230 is in close contact with the other side wall 210b, the first upper outer wire 261a is pulled taut and the first upper door 131 is pulled to close the first upper opening surface 111. The first lower outer wire 261b is pulled taut and the first lower door 141 is pulled to open the first lower opening surface 121 .

Conversely, when the lever 230 is moved to one side wall 210a, the first upper outer wire 261a is loosened and the first upper elastic member 271 pulls the first upper door 131 The first upper opening surface 111 is closed.

At the same time, when the lever 230 is moved to one side wall 210a, the first lower outer wire 261b is loosened and the first lower elastic member 281 pulls the first lower door 141 The first lower opening surface 121 is closed.

The first upper elastic member 271 and the first lower elastic member 281 are made of a material having elasticity.

When the first upper door 121 is opened, the first upper elastic member 271 is elongated, and when the first lower door 131 is opened, the first lower elastic member 281 is elongated.

The first starting device 200 according to this embodiment locks the lever supporter 232 when the lever 230 is in close contact with the other side wall 210b to temporarily fix the position of the lever supporter 232 . And, a water pressure response module 300 for releasing the temporary fixation of the lever supporter 232 according to the water pressure is further disposed.

The hydraulic pressure response module 300 is rotatably assembled to the lever supporter 232, and forms a latch 310 mutually engaging with the latch latch groove 218 of the starter housing 210, and the lever shaft. It is disposed at 234 and includes a hydraulic chamber 320 whose volume is increased or decreased according to water pressure, and a clasp wire 330 connecting the hydraulic chamber 320 and the clasp 310 .

The starting housing 210 further includes a latching groove 218 protruding outward from the housing space 211 .

A latch receiving portion 217 that further protrudes outwardly from the outer surface 216 of the starting housing 210 may be formed for the latch stopping groove 218 , and the latch receiving portion 217 is caught in the latch receiving portion 217 . A groove 218 is formed.

The clasp 310 may have a “L” shape.

A clasp pin 311 is disposed at one end of the clasp 310 , and is rotatably assembled to the lever supporter 232 through the clasp pin 311 .

A first fixing part 312 to which the clasp wire 330 is bound is disposed at the other end of the clasp 310 . The first fixing part 312 protrudes toward the other side wall 210b.

When the clasp 310 and the clasp groove 218 are engaged with each other, the first fixing part 312 may be inserted into the clasp groove 218 to be positioned.

The clasp pin 311 may be moved along the inner surface 210c of the starting housing 210 .

The hydraulic chamber 320 may be reduced in volume according to the hydraulic pressure.

A hydraulic fluid may be filled in the hydraulic chamber 320 , and the specific gravity of the hydraulic fluid may be lower than that of water.

The hydraulic fluid may be air.

One end of the clasp wire 330 may be bound to the first fixing part 312 , and the other end may be bound to the hydraulic chamber 320 .

When the volume of the hydraulic chamber 320 is reduced at a deep water depth, the clasp wire 330 pulls the clasp 310, and thus the clasp 310 may be released.

When the latch 310 is released, the elastic member 220 pushes the lever supporter 232 and the lever ring 238 toward one side wall 210a to loosen the first outer wire 261. have.

The hydraulic chamber 320 may be in the form of a bellows, and may expand or contract in the direction of the clasp 310 . The hydraulic chamber 320 may have a cylindrical shape.

One end of the hydraulic chamber 320 is fixed to the lever shaft 234, and the clasp wire 330 is bound to the other end.

Since the hydraulic chamber 320 is a stretchable material, it may be torn by the tension of the clasp wire 330 .

To prevent this, a second fixing part 322 is disposed at the other end of the hydraulic chamber 320 to which the other end of the clasp wire 330 is coupled.

The second fixing part 322 may be made of a solid metal or synthetic resin material. The second fixing part 322 may have a disk shape.

And in order to prevent the hydraulic chamber 320 from being deformed by the tension of the clasp wire 330, a chamber housing 340 surrounding the outer circumferential surface of the hydraulic chamber 320 may be further disposed.

The chamber housing 340 is disposed coupled to the lever shaft 234 .

The hydraulic chamber 320 is disposed inside the chamber housing 340 , and is opened toward the latch 310 .

The second fixing part 322 may be disposed inside the chamber housing 340 , and the second fixing part 322 may be moved along the chamber housing 340 .

A fixing part stopper 342 may be further disposed to prevent the second fixing part 322 from being separated from the chamber housing 340 .

In this embodiment, the first starting device 200 is a mechanism that utilizes the elastic force of the main elastic member 220 by releasing the interlocking of the latch 310 through the hydraulic pressure response module 300 .

Unlike this embodiment, a water pressure response module whose volume is contracted or expanded according to water pressure is directly connected to the first outer wire, and the first upper door 131 and the second lower door ( 141) may be configured to open and close.

In this case, a water pressure response module whose volume is contracted or expanded according to water pressure is placed inside the storage space, and the first upper door 131 and the second lower door 141 are pulled through a wire to close the storage space. can

The self-closing multiple water dispenser may include a plurality of storage spaces, and a plurality of starting devices for opening and closing each storage space may be disposed.

In this embodiment, five storage spaces are provided, and when they are divided, the first storage space 151 , the second storage space 152 , the third storage space 153 , the fourth storage space 154 , and the fifth storage space It is referred to as a storage space 155 .

In addition, five starting devices are provided to open and close each storage space, and when they are divided, the first starting device 200, the second starting device 1200, the third starting device 2200, and the fourth starting device (not shown) time) and the fifth starting device 4200, and each starting device may be operated at different depths.

When it is necessary to separate each configuration and wires of the first starting device 200, the second starting device 1200, the third starting device 2200, the fourth starting device and the fifth starting device, They are distinguished by adding prefixes such as "first", "second", etc.

The second starting device 1200 is connected to the second upper door 1131 and the second lower part through the second outer wire 1261, the second upper elastic member (not shown) and the second lower elastic member (not shown). The door 1141 may be opened and closed at the same time.

The third starting device 2200 is connected to the third upper door 2131 and the second lower part through the third outer wire 2261, the third upper elastic member (not shown) and the third lower elastic member (not shown). The door 2141 may be opened and closed at the same time.

The fourth starting device is connected to the fourth upper door 3131 and the fourth lower door (not shown) through a fourth outer wire (not shown), a fourth upper elastic member (not shown) and a fourth lower elastic member (not shown). not shown) can be opened and closed at the same time.

The fifth starting device 4200 is connected to the fifth upper door 4131 and the fifth through a fifth outer wire (not shown), a fifth upper elastic member (not shown) and a fifth lower elastic member (not shown). The lower door (not shown) can be opened and closed at the same time.

Specifically, the second starting device 1200 includes a second starting housing 1210 assembled on the outer peripheral surface 103 of the water intake housing 100 , and a second starting housing 210 disposed inside the second starting housing 210 . A main elastic member, a second lever 1230 for compressing the second main elastic member in the second starting housing 1210, is disposed on the second lever 1230, is contracted or expanded by water pressure The second starting housing 1210 and the hydraulic pressure response module forming a mutual engagement, the second lever 1230, the second upper door 1131 and the first lower door 1141 are connected, and the second lever When 1230 is pulled while compressing the second main elastic member, the second upper door 1131 and the second lower door 1141 are opened and supported, and the second lever 1230 is returned to its original position. A second outer wire 1261 for loosening the second upper door 1131 and the second lower door 1141, and a second connecting the second upper door 1131 and the second storage space 152 It includes an upper elastic member and a second lower elastic member connecting the second lower door 1141 and the second storage space 152 .

In order to operate the first starting device 200, the second starting device 1200, the third starting device 2200, the fourth starting device (not shown) and the fifth starting device (not shown) at different positions, It is possible to adjust the pressure and length inside the hydraulic chamber 320 of each starting device.

For example, 1 atmospheric pressure is formed in the hydraulic chamber 320 of the first starting device 200, 3 atmospheric pressure is formed in the hydraulic chamber of the second starting device 1200, and the third starting device 2200 When 5 atm is formed in the hydraulic chamber, as the water collection housing 100 descends, the reduced volume in each hydraulic chamber may be formed differently, and through this, the latches of each starting device can be sequentially unlocked at a specific water depth. have.

In the detailed description of the present invention, although specific embodiments have been described, various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments and should be defined by the claims described below as well as the claims and equivalents.

100: water intake housing 111: first upper opening surface
121: first lower opening surface 131: first upper door
141: first lower door 151: first storage space
160: assembly housing 200: first starting device
210: starting housing 220: main elastic member
230: lever 261: first outer wire
271: first upper elastic member 281: first lower elastic member

Claims (5)

delete delete delete a water collection housing 100 extending long in the vertical direction and having a first storage space 151 communicating with the first upper opening surface 111 and the first lower opening surface 121;
a first upper door 131 for opening and closing the first upper opening surface 111 of the water intake housing 100;
a first lower door 141 for opening and closing the first lower opening surface 121 of the water intake housing 100;
a first starting device 200 for automatically closing the first upper door 131 and the first lower door 141 according to water pressure;
a second storage space 152 that communicates with the second upper opening surface and the second lower opening surface and extends long in the vertical direction;
a second upper door 1131 for opening and closing the second upper opening surface;
a second lower door 1141 for opening and closing the second lower opening surface;
and a second starting device 200 that automatically closes the second upper door 1131 and the second lower door 1141 according to water pressure.
The first starting device 200,
a start-up housing 210 assembled to the outer circumferential surface 103 of the water collection housing 100;
a main elastic member 220 disposed inside the starting housing 210;
a lever 230 for compressing the main elastic member 220 in the starting housing 210;
a hydraulic pressure response module 300 disposed on the lever 230 and contracted or expanded by hydraulic pressure to form a mutual engagement with the starting housing 210;
The lever 230, the first upper door 131 and the first lower door 141 are connected, and when the lever 230 is pulled while compressing the main elastic member 220, the first upper door ( 131) and the first lower door 141 open and supported, and the first outer door 131 and the first lower door 141 are loosely released when the lever 230 is returned to the original position. wire 261;
a first upper elastic member 271 connecting the first upper door 131 and the first storage space 151;
and a first lower elastic member (281) connecting the first lower door (141) and the first storage space (151).
5. The method according to claim 4,
The automatic sealing multiple water dispenser further comprising an assembly housing 160 disposed on the outer circumferential surface 103 of the water collecting housing 100 and detachably slide-assembled with the starting housing 210 .

Images