KR100492861B1 - Machine for producing water by collecting dew - Google Patents

Abstract

The present invention relates to a water supply apparatus through accumulation of dew, comprising a condensation cloth having a dendritic condensation bone as a whole, and a condensation portion in which a tube filled with a phase change material is inserted into the condensation bone; A filtering unit installed at a center lower portion of the condensation cloth of the condensation unit and having a filter for filtering condensation falling from the condensation cloth; And a storage unit installed at the bottom of the filtering unit and storing condensation filtered through the filtering unit. As a result, dew can be accumulated and a sufficient amount of water can be supplied even with a simple configuration.

Description

Machine for producing water by collecting dew {Machine for producing water by collecting dew}

The present invention relates to a water supply device through the accumulation of dew, and more particularly, to a water supply device through the accumulation of dew to supply a sufficient amount of water by accumulating dew with a simple configuration.

Arid regions, such as deserts, where the day and night temperatures are severe, do not have enough rain, so people and animals and plants are absolutely deficient in water. Conventional water supply methods in these areas include using seawater as freshwater or developing groundwater.

However, according to these conventional methods, in case of a remote area from the sea, it is necessary to provide a remote water supply device separately, and it is necessary to spend a lot of money and time to obtain water, such as digging deeply for groundwater development. there was.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems as described above, and an object of the present invention is to provide a water supply device through the accumulation of dew to supply a sufficient amount of water by accumulating dew with a simple device.

The object is, according to the present invention, the condensation condensation bone is provided with a condensation cloth made entirely of fusiform, condensation portion is inserted into the tube filled with the phase change material in the condensation bone; A filtering unit installed at a center lower portion of the condensation cloth of the condensation unit and having a filter for filtering condensation falling from the condensation cloth; It is achieved by the water supply apparatus through the accumulation of dew, characterized in that it comprises a storage unit is installed at the bottom of the filtering unit and the condensation filtered through the filtering unit is stored.

On the other hand, the above object, according to the present invention, a plurality of pipes and the condensation portion made of fusiform; A filtering unit installed at a lower end of the main pipe of the condensation unit and having a filter for filtering condensation flowing through the outer periphery of the main pipe; It is also achieved by the water supply apparatus through the accumulation of dew characterized in that it comprises a storage unit is installed at the bottom of the filtering unit is stored away from the filtered condensation from the filtering unit.

On the other hand, according to the present invention, there is provided with a dish-shaped dish container, a closed cooling hole is formed on the outer surface of the dish container, the condensation portion is filled with a phase change material in the cooling hole; A filtering part installed at a lower end of the condensation part and filtering condensation falling from the dish container of the condensation part; It is also achieved by the water supply apparatus through the accumulation of dew characterized in that it comprises a storage unit installed at the bottom of the filtering unit for storing the condensation filtered from the filtering unit.

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

First embodiment

1 is a side view of the water supply apparatus through the accumulation of dew according to the first embodiment of the present invention, Figure 2 is a perspective view of the condensation unit used in the water supply apparatus through the accumulation of dew according to the first embodiment of the present invention.

1 and 2, the water supply device through the accumulation of dew according to the first embodiment of the present invention, the condensation portion 112 composed of a cloth or polyethylene film of about 5 to 10m in diameter, and condensation The filter 112 is configured to filter the condensation condensation at the bottom of the unit 112 and the storage unit 116 stores the filtered condensation.

The condensation part 112 is provided with the condensation cloth 118 with a hole formed in the center, and the condensation bone 120 is formed to the outer periphery of the condensation cloth 118 about a hole. Condensation bone 120 is formed in several coarsely at regular intervals throughout the condensation cloth (118) to become a fusiform overall.

The dew condensation bone 120 is formed by naturally grabbing the condensation cloth 118 from the outside and then sewing. By forming the self-defrosting bone 122 in a zigzag on the left and right sides of each condensation bone 120, the relationship between the dew condensation bone 120 and the self-defrosting bone 122 forms a dendritic shape.

Condensation bone 120 and self-determination bone 122 is made by sewing the condensed cloth 118 overlap, in this process by inserting a tube (not shown) filled with a phase change material in the overlapping portion is sewn. The tube uses a flexible material, otherwise it forms a corrugated tube to ensure structural flexibility.

The reason for securing the tube flexible material or structural flexibility as described above is to facilitate folding and unfolding when the condensed fabric 118 is installed or reinstalled.

The phase change material filled in the tube is a material that absorbs the surrounding heat while phase changing from solid to liquid, and releases heat around the phase while changing from liquid to solid. In other words, if the temperature around the condensation stream 118 rises above the dew point by sunrise, the dew vaporizes and can no longer condense the dew. The phase change material absorbs the surrounding heat as it phases from solid to liquid. By cooling the temperature around the condensed stream 118 below the dew point temperature it can delay the time for the dew to evaporate.

The phase change material is manufactured for various uses according to the manufacturing method.If the amount of dew is about 9.7g at 1㎥, the phase change material is used at 10 ℃ and the amount of dew is 17.3g at 1㎥. In the case of using a phase change material that changes phase at 20 ℃, if the amount of dew is 30.4g in 1㎥ is used to change the phase change material at 30 ℃.

The reason why the phase change material is changed depending on the amount of dew saturated in 1 m 3 is because the temperature at which dew is best formed varies depending on the amount of saturated dew. Here, the temperature of the phase change material changed according to the amount of saturated dew is an experimental value. Therefore, the tube should be filled with phase change material that is most suitable for the amount of saturated dew in the area where the water supply device through dew accumulation is installed.

The dew condensation bone 120 and the dew condensation goal 122 become an induction furnace that allows condensation to flow quickly when dew condensation occurs, and as a result, the condensation regeneration time of the condensation stream 118 is quickly moved. It shortens the function.

The holding hole 126 is formed on the outer circumference of the condensation cloth 118, it is preferable to form in the portion matching the extension line of the condensation bone (120).

The filter housing 128 of the filtering unit 114 is installed at the lower end of the condensation cloth 118 of the condensing unit 112. A filter 130 for removing condensation impurities is installed at an upper portion of the filter housing 128, and a geolite or ganban stone 132 is installed at a lower end of the filter 130 to absorb the filtered condensation so as to absorb the zeolite or ganban stone ( When falling to the lower end of the 132, the element beneficial to health contained in the geolite or elvan 132 is dissolved and added.

The storage unit 116 is installed at the lower end of the filtering unit 114, the storage tank 134 is stored integrally connected to the filter housing 128, the condensation is stored through the geolite or ganban rock 132, One side of the storage tank 134 is provided with a water supply device 136 capable of supplying the stored water to operate the valve (not shown) installed in the water supply device 136 as needed to supply water.

A pedestal 138 is installed on the outside of the storage tank 134, and the top of the pedestal 138 coincides with or slightly higher than the top of the filter housing 128 so that the condensation cloth 118 is placed on the filter housing 128. When placed, the condensed cloth 118 can be stably installed by simultaneously hanging with the top of the pedestal 138.

The condensation cloth 118 is not structurally rigid in itself, so that it is struck when placed on the pedestal 138. Therefore, by holding the support stand 140 in the support hole 126 formed on the outer periphery of the condensation cloth 118 to lift the outer periphery of the condensation cloth 118 so that the inner angle of the condensation cloth 118 is 130 ° ~ 140 ° Condensation condensation on the condensation cloth 118 allows for a rapid flow down.

If the inner angle of the condensation cloth 118 is narrower, condensation may flow more quickly, but if the dew condensation is reduced, the condensation condensation may not be good. Regeneration time is delayed.

The upper end of each support stand 140 is fixed to one side of the ground by hooking the wire 142 so that the condensed cloth 118 can maintain a constant internal angle and tension even in the wind or other physical external environment.

In the process of accumulating dew by the water supply apparatus through the accumulation of dew according to the first embodiment of the present invention, dew is condensed on the condensation spring 118 to form condensation along the self-defrosting bone 122 and the condensation bone 120. Condensation flows to the center of (118).

Condensation gathered at the center of the condensation cloth 118 falls into a hole formed in the center of the condensation cloth 118 and reaches the filter 130 of the filter housing 128. The condensation is removed by the filter 130 to remove impurities. Moisture is absorbed by the geolite or ganban rock 132 is installed at the bottom of the 130 is dropped to the lower end and finally collected in the storage tank 134.

Second embodiment

Hereinafter, a second embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a perspective view of a water supply apparatus through the accumulation of dew in the second embodiment of the present invention, Figure 4 is a cross-sectional view of the storage portion of the second embodiment of the present invention, Figure 5 is a pipe used in the second embodiment of the present invention The figure which shows.

3 to 5, the water supply apparatus through the accumulation of dew in accordance with the second embodiment of the present invention is connected to the pipe 218 to one main pipe 222, the condensation portion formed in the overall fusiform ( 212, a filtering unit 214 for filtering the condensation condensation, and a storage unit 216 for collecting the filtered condensation in one place.

The condensation part 212 forms a dendritic shape by connecting a plurality of pipes 218 to one subpipe 220, respectively. The subpipe 220 formed in the dendritic form is coupled to one main pipe 222.

That is, the sub-pipe 220 in the dendritic form is coupled to one main pipe 222 to be fusiform overall.

Pipe 218 is continuously formed at a predetermined interval with one side pipe 218, the pipe 218 and the sub-pipe 220 inclined more than a predetermined angle with the main pipe 222, the outer periphery of the pipe 218 Do not let the condensation that flowed along the ground by gravity. The main pipe 222 is installed in the same direction as gravity during installation.

Pipes 218 made of a dendritic form are formed as close as possible, so as not to interfere with each other.

The hollow part of the pipe 218 is provided with a diaphragm (not shown) at regular intervals during manufacture, and maintains the closed space between the diaphragm and the diaphragm in a vacuum state, and fills the vacuum part with a phase change material. Here, the phase change material is a material that absorbs ambient heat while changing phase from a solid to a liquid by using latent heat of ambient as the temperature changes, and releases heat and cools while changing a phase from a liquid to a solid.

Dew in the mist is evaporated due to the temperature of the atmosphere by the heat of the sun with the sunrise, and absorbs the surrounding heat while melting the phase change material solidified in the pipe of the present invention.

That is, since the heat absorbs the surrounding heat until all of the solidified phase change materials are dissolved, the temperature of the pipe is kept lower than the dew point temperature until all the phase change materials are dissolved. Therefore, moisture in the air will condense on the pipe continuously without evaporation even if the temperature increases to some extent. In other words, it serves to extend the time that moisture in the air condenses on the pipe 218.

Since all the pipes 218, the subpipes 220, and the main pipes 222 forming the dendrite are the same in shape but different in cross section, only the pipe 218 will be described. As shown in FIG. 3, a plurality of condensation grooves 224 are formed along the circumference of the pipe 218, and the condensation grooves 224 extend from the top to the bottom in the longitudinal direction of the pipe 218. .

The condensation groove 224 formed in the pipe 218 increases the area where dew is condensed, that is, the surface area of the pipe 218 and also induces the flow of condensation to shorten the regeneration time of the condensation.

At the bottom of the condensation unit 212, a filtering unit 214 is installed to collect the flowing condensation in one place and remove impurities.

That is, a cylindrical filter housing 226 is installed at the lower end of the main pipe 222. The filter 228 is installed inside the filter housing 226, and the elvan rock 230 is installed in several layers at the lower end of the filter 228.

As shown in FIG. 4, the main pipe 222 is fixed to the inner wall of the filter housing 226 by a fixed pipe 232.

Condensation flowing through the outer circumference of the main pipe 222 is removed impurities through the filter 228, the condensation through the filter 228 is absorbed by the ganban stone 230 and falls to the bottom of the ganban stone 230, when falling Elements beneficial to health contained in the elvan rock 230 are dissolved and added. The filter 228 can be exchanged at any time, and the rock stone 230 can also be replaced at any time.

Condensation passing through the filtering unit 214 is stored away from the storage tank 234 of the storage unit 216. On one side of the storage tank 234, a water supply device 234 capable of supplying water in the storage tank 234 is provided, and the water in the storage tank 234 is operated by operating a valve of the water supply device 234. Can water.

Third embodiment

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

Figure 6 is a perspective view of a third embodiment of the present invention, Figure 7 is a view showing the inner surface of the dish container of the third embodiment of the present invention, Figure 8a is a cooling hole in the dish container of the third embodiment of the present invention 8 is a plan sectional view showing a cooling groove applied to the dish container of the third embodiment of the present invention.

As shown in Figure 6 to 8b, the water supply apparatus through the accumulation of dew according to the third embodiment of the present invention, the condensation portion 312 in the form of dish container 318, and the lower end of the condensation portion 312 It consists of a filtering unit 314 formed in the storage unit 316 is installed on the lower end of the filtering unit.

The condensation part 312 has a hole formed in the center of the dish container 318 and the dish container 318 which the upper part was opened, and the condensation tube 320 which the inner wall of this hole extends outward is formed.

As illustrated in FIG. 8A, the dish container 318 has a plurality of cooling holes 322 formed at regular intervals toward the center of the dish container 318, and the cooling holes 322 are sealed in a vacuum state. The phase change material is filled in the sealed cooling hole 322.

As described above, the phase change material absorbs the surrounding heat while phase shifting from a solid state to a liquid state and releases heat while phase shifting from a liquid to a solid. In other words. Even when the dish vessel 318 is heated by the solar heat at sunrise, the phase change material filled in the cooling hole 322 absorbs heat until all phase changes into a liquid state, so that the surface of the dish vessel 318 is below the dew point temperature. Extend a certain time.

As shown in FIG. 7, the inner surface of the dish container 318 has a condensation groove 324 formed from the top to the condensation tube 320, and the condensation groove 324 is a surface of the dish container 318. Form a plurality at regular intervals throughout.

The condensation groove 324 is formed uniformly in the direction of the center of the dish container 318, in the form of "∧" on the surface of the dish container 318 between the condensation groove 324 and the condensation groove 324 as a negative. The groove 326 is formed.

When the dew condensation groove 324 is attached to the surface of the dish container 318 when the condensation is condensed by a certain amount or more, the condensation groove 324 flows as quickly as possible by gravity to reduce the regeneration time of the dew condensation groove ( 부 and the condensation groove 326 of the "∧" shape formed between the condensation groove 324 also serves to shorten the dew regeneration time by flowing as soon as dew condensation.

Cooling holes 322 are formed on the outer surface of the dish container 318. The cooling holes 322 are removed to form cooling grooves 328 that can function the same as the cooling holes 322.

As shown in FIG. 8B, the cooling grooves 328 form guides 330 on both sides so that the cooling grooves 328 can be inserted into and removed from the desk drawer.

Since one side of the cooling groove 328 is open and cannot be vacuumed and cannot fill the phase change material, the cooling groove 328 inserts the tube 332 filled with the phase change material into the cooling groove 328, and the tube ( 332 may be inserted into and removed from the cooling groove 328 as necessary. Since the outer surface of the dish container 318 is curved, it cannot be inserted into the cooling groove unless the tube is flexible.

A filtering unit 314 is installed at a lower end of the condensation unit 312, and a filtering housing 334 is installed at a lower end of the condensation tube 320 of the condensing unit 312.

The upper portion of the filtering housing 334 is formed in a circular shape, as the dish container 318 is reduced, and the upper end forms a locking step (not shown) protruding upward.

A dish container 318 is placed on the upper end of the filtering housing 334, and a catching groove (not shown) is formed in the lower portion of the dish container 318 with the same size as that of the upper end of the filtering housing 334. Install in engagement with this locking step.

A storage tank 336 of the storage unit 316 is installed at the lower end of the filtering housing 334, and a water supply device 338 capable of supplying water stored at one side of the storage tank 336 is installed.

The locking groove is formed to be inclined 5 to 7 degrees with respect to the central axis of the dish container 318 so that the dish container 318 always maintains this state when installed on the filtering housing 334. That is, the sunrise direction side of the dish container 318 is installed 5-7 degrees high.

Giving the inclination of the dish vessel 318 in this way delays the time that solar heat reaches the inner surface of the dish vessel 318 and can delay the inside thereof to a state below the dew point temperature for a predetermined time.

As described above, according to the present invention, water can be easily obtained by accumulating dew by using a simple device filled with a phase change material in a dry area without rain, such as a desert.

1 is a side view of a water supply device through the accumulation of dew according to the first embodiment of the present invention

Figure 2 is a perspective view of the condensation portion used in the water supply apparatus through the accumulation of dew according to the first embodiment of the present invention

3 is a perspective view of a water supply device through the accumulation of dew according to a second embodiment of the present invention

Figure 4 is a cross-sectional view of the phase change material is filled in the water supply apparatus through the accumulation of dew according to a second embodiment of the present invention

5 is a perspective view of a pipe of a second embodiment of the present invention;

6 is a perspective view of a water supply device through the accumulation of dew according to a third embodiment of the present invention

7 is a view showing the inner surface of the dish container of the third embodiment of the present invention.

Figure 8a is a cross-sectional plan view of the cooling hole is applied to the dish container of the third embodiment of the present invention

Figure 8b is a cross-sectional view of the cooling groove is applied to the dish container of the third embodiment of the present invention

<Explanation of symbols for the main parts of the drawings>

112: condensation unit 114: filtering unit

116: storage unit 118: condensed spring

120: condensation goal 122: self-determination goal

124 tube 126 holding hole

128: filter housing 130: filter

132: Elvan rock 134: storage tank

136: water supply device 138: pedestal

140: props 142: wire

212: condensation unit 214: filtering unit

216: storage 218: pipe

220: subpipe 222: main pipe

224: condensation groove 226: filter housing

228: Filter 230: Elvan

232: fixed pipe 234: storage tank

236: water supply device

312: condensation unit 314: filtering unit

316: storage unit 318: dish container

320: condensation pipe 322: cooling hole

324: Condensation groove 326: Condensation groove

328: cooling groove 330: guide

332 tube 334 filtering housing

336: storage tank 338: water supply

Claims (14)

delete A condensation cloth having a dendritic condensation bone as a whole having a spindle shape, and a condensation portion having a tube filled with a phase change material in the condensation bone; A filtering unit installed at a center lower portion of the condensation cloth of the condensation unit and having a filter for filtering condensation falling from the condensation cloth; A storage unit installed at the bottom of the filtering unit and storing condensation filtered through the filtering unit; The outer periphery of the condensed fabric is formed with a support hole at regular intervals, and each support hole is provided with a support stand, and the wire is connected to one end of the support stand and fixed to one side of the ground to maintain the installation state of the condensed cloth. Water supply device through the accumulation of dew, characterized in that. delete A condensation cloth having a dendritic condensation bone as a whole having a spindle shape, and a condensation portion having a tube filled with a phase change material in the condensation bone; A filtering unit installed at a center lower portion of the condensation cloth of the condensation unit and having a filter for filtering condensation falling from the condensation cloth; A storage unit installed at the bottom of the filtering unit and storing condensation filtered through the filtering unit; A pedestal is installed on the outside of the storage unit, and an upper end of the pedestal coincides with or slightly higher than the upper end of the filter housing so that the condensation cloth is placed on the upper end of the filter housing and the upper end of the pedestal. Water supply device through the accumulation of dew. A condensation cloth having a dendritic condensation bone as a whole having a spindle shape, and a condensation portion having a tube filled with a phase change material in the condensation bone; A filtering unit installed at a center lower portion of the condensation cloth of the condensation unit and having a filter for filtering condensation falling from the condensation cloth; A storage unit installed at the bottom of the filtering unit and storing condensation filtered through the filtering unit; The filter housing is the filter is installed at the upper portion, the water supply device through the accumulation of dew, characterized in that the georite or ganban stone is installed at the lower end of the filter. A condensation cloth having a dendritic condensation bone as a whole having a spindle shape, and a condensation portion having a tube filled with a phase change material in the condensation bone; A filtering unit installed at a center lower portion of the condensation cloth of the condensation unit and having a filter for filtering condensation falling from the condensation cloth; A storage unit installed at the bottom of the filtering unit and storing condensation filtered through the filtering unit; Water supply device through the accumulation of dew, characterized in that the water supply device for supplying the stored water is installed on one side of the storage tank of the storage unit. delete A condensation part in which a plurality of pipes are fusiform; A filtering unit installed at a lower end of the main pipe of the condensation unit and having a filter for filtering condensation flowing through the outer periphery of the main pipe; A storage unit installed at a lower end of the filtering unit to store condensation filtered out from the filtering unit; The hollow part of the pipe is provided with a diaphragm at a predetermined interval, and the diaphragm and the diaphragm are maintained in a vacuum state, and the hollow part in the vacuum state is filled with water, wherein the phase change material is filled. Device. delete A condensation part in which a plurality of pipes are fusiform; A filtering unit installed at a lower end of the main pipe of the condensation unit and having a filter for filtering condensation flowing through the outer periphery of the main pipe; A storage unit installed at a lower end of the filtering unit to store condensation filtered out from the filtering unit; One side of the storage tank of the storage unit is a water supply device through the accumulation of dew, characterized in that the water supply device for supplying the stored water is installed. delete A dish container having a dish shape, a closed cooling hole is formed at an outer surface of the dish container, and a condensation part filled with a phase change material in the cooling hole; A filtering part installed at a lower end of the condensation part and filtering condensation falling from the dish container of the condensation part; A storage unit installed at the bottom of the filtering unit to store the condensation filtered from the filtering unit; Water supply apparatus through the accumulation of dew, characterized in that a plurality of condensation grooves are formed at a predetermined interval on the inner surface of the dish container of the condensation unit. delete A dish container having a dish shape, a closed cooling hole is formed at an outer surface of the dish container, and a condensation part filled with a phase change material in the cooling hole; A filtering part installed at a lower end of the condensation part and filtering condensation falling from the dish container of the condensation part; A storage unit installed at the bottom of the filtering unit to store the condensation filtered from the filtering unit; Water supply device through the accumulation of dew, characterized in that the water supply device for supplying the stored water is installed on one side of the storage unit.