KR20200042152A - Natural circulation humidification pollen by osmotic pressure - Google Patents

Abstract

The present invention relates to a natural circulation-type humidification flowerpot using osmotic pressure. The natural circulation-type humidification flowerpot comprises: an upper body (100) in which a spatial part (110) into which soil or orchid stones can be inserted is formed, and a moisture column (120) protruding upward from an inner bottom part is formed and has a discharge hole (121) formed at the outside thereof to supply moisture moving from a lower body (200) to the soil or orchid stones; and the lower body (200). Through smooth air and moisture circulation, the growth of plants can be maximized.

Description

Natural circulation humidification pollen by osmotic pressure}

The present invention relates to a natural circulation type humidifying pollen by osmotic pressure, and more specifically, the upper and lower bodies are combined with each other to form one pollen, and the air introduced from the outside together with the moisture formed by the water contained therein. Technology for natural circulation type humidifying potted plants by osmotic pressure that can be provided as soil or egg, and above all, allows air supplied to the outside to be moved only to the soil or egg, so that moisture movement and air movement can be smoothly performed. to be.

In general, pots are used to plant plants such as flowers and trees. These pots are the veranda of the house. You can place it in the living room, room, or indoor space of a building, create an indoor garden, or take care of the emotional richness while planting plants, or breathe the clean air from plants such as trees and flowers.

Potted plants supply water from top to bottom in a so-called 'upstream water supply' method, in which water is sprayed onto plants or an appropriate amount of water is poured directly onto soil. When a large amount of water is given to such a potted plant at a time, it can exceed the amount accommodated by a plant or soil, and the excess water flows under the potted plant and then escapes.

One of the conventional pots for solving this is a double flower pot, which uses technologies for supplying water through a bottom irrigation method. According to this, there is an advantage that water does not overflow, but the water storage period of the pot is short due to the low moisture storage function.

In order to keep plants healthy and long-lived, it is necessary to keep the roots healthy while providing temperature and humidity with moderate sunlight. For this, it is good to supply the proper moisture and air to the roots. On the other hand, from the manager's point of growing plants, once water is given, moisture needs to be continuously maintained and managed easily.

First, look at the conventional techniques,

Registration No. 10-1638289 (Special) The same applicant as the applicant of the present invention filed, the first body in which the inner space where the plant is planted is formed, and some extend to the inner space side of the first body, and the rest Is exposed to the lower portion of the first body, the transport member for raising the water absorbed from the lower side to the inner space side of the first body and protruding or recessed from the bottom of the inner space is extended and a plurality of through holes are formed, Water that is raised by the transfer member is disposed between the transfer member extending to the inner space side and the soil or the impregnated stone contained in the inner space so that the transfer member does not contact the soil or the stone, the water raised by the transfer member passes through the hole. The partition member to be supplied in the form of water vapor to the soil or the egg yolk and the first body can be placed on top, and the transfer member is It includes a second body capable of storing water for the sagging, the second body, the top of the container body is opened, the upper portion of the container body to cover the upper portion of the container while storing the water inside the ceiling plate is placed , A mounting portion formed on the inner bottom of the second body and holding the conveying member upright and having a hole through which water stored in the second body is supplied to the conveying member and

An automatic moisture-regulating plant activation system including a guide wall formed around the insertion hole formed in the ceiling plate so that the transfer member passes through and guides the transfer member supported by the mounting portion to maintain a standing state. It is a technology for pots that are as versatile as possible.

The above-described technology has a disadvantage that it is difficult to manufacture, and the lower part of the egg yolk introduced therein is freshly submerged in water, so that intensive moisture may be generated in the lower part. Not only is the structure very complicated as it is supplied, but it also has a disadvantage that it is difficult to provide natural moisture.

Therefore, the object of the present invention, the upper body and the lower body are configured to be mutually coupled, but inside the upper body, the moisture column and the moisture supplied from the lower body are configured so as to be supplied to the planting side, and the lower body. On the outside of the body, a plurality of air inlet holes through which external wind can be introduced are perforated, and a plurality of anti-lost members are formed on the upper circumference of the lower body so as to prevent the loss of air entering the air inlet hole. Constituting, forming the inclined portion to induce the air introduced into the air inlet hole between the lower body of the lower body to induce movement in the upper direction, that is, the upper body side, the air into the interior of the upper and lower body Is drawn, is moved to the upper body by the inclined portion, and forms moisture by the water freshened therein, so that the air and moisture By moving to the pillars and being able to be ejected into soil or boulders, the air and moisture are naturally circulated so that it is convenient to manage the eggs and can effectively supply even the parts with relatively little moisture. This is a technical task with the emphasis on providing a natural circulation type humidifying potted plant by osmotic pressure that allows the manager to maintain water properly by supplying water to all parts of the soil or egg once the water is supplied to the manager once. .

As a technical idea for achieving the above object, a space portion 110 in which soil or egg stone can be inserted is formed, and protrudes upward to the inner bottom portion, but a discharge hole 121 is formed outside to form a lower body ( An upper body 100 in which a moisture column 120 for supplying moisture moving from 200) to the soil or egg is constructed; It is configured integrally or coupled to the lower portion of the upper body 100, there is provided a fresh water space 211 for fresh water inside, is connected to the fresh water space 211 outside the air is introduced to meet the water An air inlet hole 213 for forming moisture is formed, the lower body 200 is formed on the upper outer side to prevent the air introduced from the air inlet hole 213 from being lost to prevent the loss member 221; It is characterized by consisting of.

In the upper body 100, an insertion groove 130 in which the upper portion of the lower body 200 can be inserted from the bottom to the upper direction is formed, the insertion groove 130 is formed outside the insertion groove 130 is formed It is characterized in that the air inlet hole 140 is formed at the bottom of the planting portion or the auxiliary storage portion extending.

The inner upper portion of the upper body 100 is characterized in that the separation preventing jaw 150 is formed to prevent the separation of soil or egg yolk inserted into the space portion (110).

The moisture column 120, a moisture moving groove 122 in which the moisture is moved upward from the lower center portion, and a discharge hole 121 for discharging the moisture moved to the moisture moving groove 122 to the outside upper side And, through the upper and lower edges of the lower portion of the through hole 125 for discharging the air and moisture moving from the lower body 200 to the upper portion, and is configured in the moisture moving groove 122, the lower portion is the It is located in the fresh water space 211 of the lower body 200, the upper portion is discharged to the outside of the moisture column 120, it is characterized in that the core material 127 is configured to contact the soil or egg.

The moisture column 120 is configured to be selectively fitted with the upper body 100, the bottom portion of the upper body 100 is formed with a fitting hole 160 that is formed inclined inward from the top outside, the moisture column The lower outer side of the (120) is formed to correspond to the fitting hole 160, it is characterized in that the fitting is configured in the fitting hole 160.

It is a technical feature that the vertical height of the moisture column 120 is formed to be more than 1/2 of the vertical height of the upper body 100.

The lower body 200 is composed of the first and second lower bodies 210 and 220, and the first lower body 210 is spaced apart at regular intervals along the outer circumference and is formed to extend with the fresh water space 211. A plurality of air inlet holes 213 through which air is introduced is formed, and the first lower body 220 extends from the upper portion of the first lower body 210 and is coupled to the lower inner side of the upper body 100. It has a gradually smaller diameter toward the upper direction so as to be formed, an inclined portion 223 for guiding moisture and inflowing air to the upper direction is formed, and is configured to be coupled to the lower inner side of the upper body 100, and the outer circumference. Accordingly, it is a technical feature that the loss preventing member 221 is formed to prevent the loss of the air flowing in at a predetermined interval.

The upper edge of the upper body 100 is characterized in that the fixing groove 170 for fixing the planting material is formed.

The outer side of the upper body 100 is characterized in that the moisture check unit 180 is configured to check the moisture on the space portion 110.

According to the natural circulating humidifying potted plant by osmotic pressure according to the present invention, while maintaining the original purpose of the potted plant, it is composed of a simple structure to provide convenience of manufacture, and above all, the air drawn in from outside is provided inside. It can be moved in the direction of the fresh water and the top of the soil or the stone, respectively, and the air and moisture and water are continuously supplied to the soil or the stone, thereby extending the water supply cycle due to automatic moisture control by the upper osmotic pressure. It is possible that the air and moisture and water supply portions are not even concentrated on only one part, and are evenly supplied to the soil or the egg, so that smooth air, moisture and water circulation is possible, as well as air introduced outside. It is a useful invention that can maximize the growth of plants by preventing the direction and loss.

1 is a perspective view showing a preferred embodiment of the present invention
2 is an exploded view showing a preferred embodiment of the present invention
3 is a front view showing a preferred embodiment of the present invention
Figure 4 is a front sectional view showing a preferred embodiment of the present invention
5 is an exploded view showing a preferred embodiment of the present invention
6 is a front sectional view showing a preferred embodiment of the upper body of the present invention
7 is a front sectional view showing a preferred embodiment of the moisture column of the present invention
8 is a front sectional view showing a preferred embodiment of the lower body of the present invention
9 is an operation state diagram showing a preferred embodiment of the present invention
10 is a front sectional view showing another embodiment of the present invention
11 is a front view showing another embodiment of the present invention

In the present invention, the upper and lower bodies are combined with each other to form a single pot, but the air introduced from the outside can be provided as soil or a rock with moisture formed by water contained therein, and above all, supplied to the outside. It provides a natural circulating humidifying potted plant by osmotic pressure that allows the air to move only to the soil or the egg, so that the movement of moisture and air movement can be smoothly performed.

Hereinafter, a preferred configuration and operation of the present invention for achieving the above object with reference to the accompanying drawings will be described with reference to FIGS. 1 to 11 as follows.

First of all, before explaining the present invention with reference to FIGS. 1 to 5, a space portion 110 in which soil or egg stone can be inserted is formed, and protrudes upward to the inner bottom portion. The discharge hole 121 is formed in the upper body 100 is composed of a moisture column 120 for supplying the air and moisture moving from the lower body 200 to the soil or boulders; It is integrally or coupled to the lower portion of the upper body 100, but is provided with a fresh water space 211 in which water is fresh, and is connected to the fresh water space 211 outside to allow external air to flow in and meet water. An air inlet hole 213 for forming moisture is formed, the lower body 200 is formed on the upper outer side to prevent the air introduced from the air inlet hole 213 from being lost to prevent the loss member 221; It consists of.

The upper body 100, as shown in Figs. 1 to 6, takes the form of an open top, and a space 110 is formed so that soil or boulders and plants are planted therein, and the inner bottom part. In the moisture body 120 is configured to supply moisture and air moving from the lower body 200 to the soil, ore and plants.

On the other hand, as shown in Figures 2, 5, 6, the lower groove of the upper body 100, the insertion groove 130 so that the outside of the second lower body 220 of the lower body 200 in the upper direction can be inserted ) Is formed, and the insertion groove 130 and the air inlet hole 140 extending outside the upper body 100 are formed.

In the case of the insertion groove 130, the upper and lower bodies 100 and 200 are configured to be substantially inserted into the outside of the second lower body 220, and the air inlet hole 140 is provided. In this case, the outside air serves as a passage through which the inside of the upper body 100 can be introduced.

Here, as shown in Figure 4, the air inlet hole 140 is formed at a lower position than the bottom of the upper body 100, that is, the lower end of the moisture column 120, so that the air introduced from the outside is soil or boulders And it is not directly delivered to the plant, it is configured to be transmitted through the moisture column (120).

At this time, in the case of the air inlet hole 140, it can be formed in a variety of shapes such as straight lines, curves, circles, semicircles, letters, and various patterns. In the present invention, it is shown that a plurality of spaces are spaced apart at regular intervals in the diagonal direction. Did.

On the other hand, although the air inlet hole 140 is described and illustrated as being formed outside the upper body 100 in which the insertion groove 130 is formed, an upper body in which the insertion groove 130 is not formed (if necessary) 100) may be configured to directly supply air to the soil or the egg stone side planted in the space portion 110 on the outside, and is not limited as an embodiment of the present invention.

In addition, as illustrated in FIG. 10, a release preventing jaw 150 is formed on an inner upper portion of the upper body 100 to prevent separation of soil or asbestos inserted into the space portion 110, when using a potted plant. , It is possible to prevent the separation of the soil or egg from the shaking and impact, and serves to collect moisture into the roots and leaves. At this time, in the case of the detachment preventing jaw 150, it may be formed in a te shape along the circumference inside the upper body 100, and may be formed in a plurality of projection shapes spaced apart at regular intervals.

On the other hand, as shown in Figure 4, the moisture column 120 is formed in a funnel shape, so that the upper and lower height is formed to be more than 1/2 of the upper and lower height of the upper body 100, moving moisture and air It is configured so that it can be uniformly fed into the soil or egg.

Here, the moisture column 120, as shown in Figures 2, 4, 5, 7, the moisture moving groove 122 in which the moisture is moved upward from the lower central portion, and the moisture moving groove 122 on the outer upper portion Consists of a discharge hole 121 for discharging the moisture moved to the side, and a through hole 125 for discharging moisture moving from the lower body 200 to the upper portion through the upper and lower portions at the lower edge, It is configured in the moisture moving groove 122, the lower portion is located in the fresh water space 211 of the lower body 200 and the upper portion is discharged to the outside of the moisture column 120 soil (direct connection) or rock (indirect connection) ) Is in contact with the core material 127 is configured.

That is, eggs and succulents are used for moisture (indirect connection), and other plants are used for biting (direct connection).

The moisture moving groove 122 substantially serves as a passage through which moisture moving from the lower body 200 and outside air move respectively or simultaneously, and the discharge hole 121 of the moisture column 120 It is formed on the outside, but is formed in a plurality to extend with the moisture moving groove 122, and is configured to be supplied with moisture and air moving from the lower body 200 to soil or boulders and plants.

Here, in the case of the discharge hole 121, it is formed in a form spaced apart at regular intervals along the circumference of the outer central portion of the moisture column 120 as shown in FIG. A large number is formed, so that moisture and air can be uniformly supplied to soil, ore and plant materials.

The structure of the moisture column 120 of the present invention can solve the inconvenience of users by continuously supplying moisture once the water supply cycle, which has been the most troublesome in the past, is short, and continuously increasing the water supply cycle.

In addition, although not shown, the shape of the discharge hole 121 is different from the size of the direction in which moisture and air are moved through the moisture transfer hole 122 and discharged from the direction of the discharge hole 121. It can be, and the direction of the discharge hole 121 can be formed in a horizontal, upper direction or a diagonal direction of the lower direction.

The through-hole 125 is formed to penetrate upward from the bottom of the moisture column 120, so that moisture and air moving from the lower body 200 and air supplied from the outside of the upper body 100 While being moved through the moisture transfer hole 122, it can be moved through the through hole 125, so that moisture and air are supplied to the soil or the ore planted side of the upper body 100. .

At this time, the through-hole 125 may be formed along the circumference of the bottom portion of the moisture column 120, extending or spaced apart a plurality of shapes, in the present invention is shown to be formed of a plurality of spaced apart at regular intervals .

In addition, as shown in FIG. 4, in the case of the through hole 125, as the stress limit point, when water is first supplied to the space portion 110 of the upper body 100, the upper body 100 The height between the inside and the discharge hole 121 formed in the outer central portion of the moisture column 120 naturally fills with water, and when the water dries out gradually and almost no water is lost, it is supplied from the lower body 200 Air and moisture are supplied to the soil or egg.

In other words, when the moisture column 120 is supplied with water for the first time, water is accumulated between the bottom portions of the upper body 100 in the discharge holes 121 formed in the outer central portion of the moisture column 120. In one case, air and moisture are not moved to the through hole 125, and moisture and air are discharged through the discharge hole 121 and the core material 127 through the moisture transfer hole 122 of the moisture column 120. It is to be supplied to the soil or the stone, and when the standing water disappears, air and moisture are supplied to the soil or the stone, which is close to the bottom of the upper body 100 through the through hole 125.

On the other hand, the core material 127 is substantially disposed on the moisture transfer hole 122 as shown in Figure 4 or 7, the lower end is located in the fresh water space 211 of the lower body 200, the upper end A through the upper portion of the moisture transfer hole 122, it is possible to supply moisture and water by directly or indirectly contacting soil or eggplant planted on the space portion 110 of the upper body 100.

In addition, as shown in Figure 5, the moisture column 120 is configured to be selectively fitted with the upper body 100, The bottom portion of the upper body 100 is formed with a fitting hole 160 that is inclined in an inward direction from the upper outside, and the lower outer side of the moisture column 120 is formed to correspond to the fitting hole 160, It may be configured to be fitted to the fitting hole 160.

At this time, one or a plurality of protrusions are formed on the inclined portion of the fitting hole 160 to secure the moisture column 120, and grooves corresponding to the protrusions are formed on the outer lower portion of the moisture column 120. By doing so, the moisture column 120 may be configured to forcibly fit, and one or more slide holes may be formed outside the fitting hole 160, that is, at the bottom of the upper body 100, and the moisture column ( A slide portion corresponding to the slide hole may be formed on the outside of 120) to be coupled through sliding coupling.

In addition, as shown in Figure 1 or 4, the upper edge of the upper body 100 is formed with a fixing groove 170 for fixing the planting material, it is possible to stably fix the planting, shown in Figure 11 As described above, on the outside of the upper body 100, a moisture check unit 180 is configured to check moisture on the space 110, so that a user can check the moisture condition of the pot 10 through the moisture check unit 180. After confirming, the water supply can be selectively determined, thereby providing convenience.

Meanwhile, as illustrated in FIGS. 1, 2, 3, 4, 5, and 8, the lower body 200 is composed of first and second lower bodies 210 and 220, and the first lower body 210 is Spaced apart at regular intervals along the outer circumference and formed to extend with the fresh water space 211, a plurality of air inlet holes 213 through which air is introduced are formed, and the second lower body 220 is the first lower body ( 210) has a small diameter gradually increasing toward the upper direction so as to be coupled to the lower inner side of the upper body 100, the inclined portion 223 is formed to induce moisture and inflow air in the upper direction It is configured to be coupled to the lower inner side of the upper body 100, and is spaced apart at regular intervals along the outer circumference to form a loss preventing member 221 for preventing the loss of inflowing air.

As shown in FIG. 8, the first lower body 210 has a fresh water space 211 through which water can be fresh, and an air inlet hole 213 connected to the fresh water space 211 on the outside. This is formed, the air introduced through the air inlet hole 213 meets the water to form moisture, so that the moisture and air can be moved to the moisture transfer hole 122 of the moisture column 120.

At this time, the air inlet hole 213 may be formed in one or a plurality of outside of the first lower body 210, the direction may be formed in any one of a straight line, a curved line, a diagonal line, the shape is , It can be formed in a variety of shapes such as polygons, circles, and semicircles.

The second lower body 220 is formed extending from the upper portion of the first lower body 210, as shown in Figure 2 or 8, the hole penetrated through the central portion of the freshwater space 211 It is connected to, and is configured to be inserted into the insertion groove 130 of the upper body 100 as a whole.

Here, on the outer circumference of the second lower body 220, a plurality of loss preventing members 221 are formed to be spaced apart at regular intervals to prevent the loss of air supplied from the outside, and between the loss preventing members 221 An inclined portion 223 inclined from the outside to the inner direction is formed, and is configured to move the air on the inclined portion 223 and move in the direction of the moisture column 120.

At this time, as shown in Figure 4, when the second lower body 220 is inserted into the insertion groove 130 of the upper body 100, the loss preventing member 221 and the inclined portion 223 is the upper body The air inlet hole 140 of the (100) is to be located on the same line in the horizontal direction, the air drawn from the air inlet hole 140 rides the inclined portion 223 and moves to the moisture column 120 side , Inlet air is moved only toward the moisture column 120 while riding the inclined portion 223, and a loss preventing member 221 is formed to limit movement in other directions.

In addition, the loss preventing member 221 while the air introduced from the air inlet hole 140 limits movement in other directions, the lower body 200 is inserted into the insertion hole 130 of the upper body 100 , The upper end of the upper body 100 is in contact with the lower end of the bottom portion to perform a fixed role at the same time, the outside of the loss preventing member 211 is formed close to the outside of the insertion hole 130, the loss of air It is possible to minimize the.

In addition, in the present invention, the upper body 100 and the lower body 200 as a whole can be configured to be integrally formed or mutually coupled and separated.

According to the natural circulating humidifying potted plant by osmotic pressure according to the present invention, while maintaining the original purpose of the potted plant, it is composed of a simple structure to provide convenience of manufacture, and above all, the air drawn in from outside is provided inside. It can be moved in the direction of the fresh water and the top of the soil or the stone, respectively, so that air, moisture, and water are continuously supplied directly or indirectly to the soil or the stone, thereby supplying water due to automatic moisture control by the upper osmotic pressure. It is possible to extend the cycle, and the air and moisture and water supply portions are not concentrated in only one portion, but are evenly supplied to the soil or the boulder, so that smooth air and moisture and water circulation is possible, as well as being drawn out. Useful invention to maximize plant growth by preventing air from being lost in other directions and Will.

10: flower pot
100: upper body 110: space 120: moisture column 121: discharge hole
122: moisture transfer hole 125: through hole 127: core material
130: Insertion groove 140: Air inlet hole 150: Departure prevention jaw 160: Insertion hole
170: fixing groove 180: moisture check
200: lower body
210: first lower body 211: fresh water space 213: air inlet hole
220: second lower body 221: loss prevention member 223: inclined portion

Claims (9)

A space portion 110 into which soil or a stone can be inserted is formed, and the discharge hole 121 is formed on the inner bottom portion to protrude upward, and the moisture moving from the lower body 200 is transferred to the soil or The upper body 100 is composed of a moisture column 120 for supplying to the egg;
It is configured integrally or coupled to the lower portion of the upper body 100, there is provided a fresh water space 211 for fresh water inside, is connected to the fresh water space 211 outside the air is introduced to meet the water The air inlet hole 213 for forming moisture is formed, the lower body 200 is formed on the upper outer side to prevent the air introduced from the air inlet hole 213 from being lost to prevent the loss member 221; It characterized in that it consists of a natural circulation type humidifying pollen by osmotic pressure.
According to claim 1,
In the upper body 100,
An insertion groove 130 through which an upper portion of the lower body 200 can be inserted is formed from the bottom to the upper direction, and the insertion groove 130 and the air inlet hole 140 extending outside the insertion groove 130 are formed. ) Is formed, natural circulation humidifying pollen by osmotic pressure.
The method according to claim 1 or 2,
A natural circulation type humidifying potted plant by osmotic pressure, characterized in that a release preventing jaw 150 is formed on the inner upper part of the upper body 100 to prevent the separation of soil or egg from being inserted into the space part 110.
According to claim 1,
The moisture column 120,
Moisture moving groove (122) to move moisture and water from the lower center to the upper direction,
And the discharge hole 121 for discharging the moisture moved to the moisture moving groove 122 on the outside upper side,
A through-hole 125 for discharging air and moisture from the lower body 200 through the upper and lower portions to the lower edge portion, and
It is configured in the moisture moving groove 122, the lower portion is located in the fresh water space 211 of the lower body 200 and the upper portion is discharged to the outside of the moisture column 120 is in contact with soil or boiled water or moisture Natural circulating humidification pollen by osmotic pressure, characterized in that the core material 127 is provided.
According to claim 1,
The moisture column 120 is configured to be selectively fitted with the upper body 100,
The bottom portion of the upper body 100 is formed with a fitting hole 160 that is inclined in an inward direction from the upper outside,
The lower outer side of the moisture column 120 is formed to correspond to the fitting hole 160, the natural circulation type humidification potted by osmotic pressure, characterized in that it is configured to fit in the fitting hole 160.
According to claim 1,
The vertical and vertical height of the moisture column 120 is formed by more than 1/2 of the vertical height of the upper body 100, a natural circulation type humidifying pollen by osmotic pressure.
According to claim 1,
The lower body 200 is composed of the first and second lower body (210, 220),
The first lower body 210 is spaced apart at regular intervals along the outer circumference and is formed to extend with the fresh water space 211 to form a plurality of air inflow holes 213 through which air flows,
The second lower body 220 extends from the upper portion of the first lower body 210 and gradually has a smaller diameter toward the upper direction so as to be coupled to the lower inner side of the upper body 100, moisture and inflow An inclined portion 223 for guiding the air to be formed in the upper direction is formed, coupled to the lower inner side of the upper body 100, and is spaced apart at regular intervals along the outer circumference to prevent loss of inflowing air. The natural circulation type humidification pollen by osmotic pressure, characterized in that the member 221 is formed.
According to claim 1,
A natural circulation type humidifying potted plant by osmotic pressure, characterized in that a fixing groove (170) for fixing a plant is formed on the upper edge of the upper body (100).
According to claim 1,
A natural circulation type humidifying pollen by osmotic pressure, characterized in that on the outside of the upper body (100), a moisture checker (180) for checking moisture on the space (110) is constructed.

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