CN109220739B - Hose water supply microporous spray head - Google Patents

Abstract

The invention discloses a hose water supply micropore spray head which mainly comprises a transparent round box shell with a water supply hose, wherein a round hole is formed in the center of a top circle, a micropore atomization sheet is installed in the round hole, and the transparent round box shell is filled with water and is fully attached to the micropore atomization sheet. In order to discharge air entering during operation, the periphery of the top surface of the round box shell is arched upwards in a circle, a water inlet pipe and an exhaust nozzle are arranged at the top of the round box shell (the exhaust nozzle plug comprises a ventilating sponge which is expanded by soaking water), so that the entering air is concentrated in the arched top in the circle, the problem that the micropore atomization sheet is separated from the air entering water is solved, and the round box shell is made of transparent plastic so as to clearly see the air leakage condition. The principle can also be changed and popularized to be a structure that a plurality of micropore atomization sheets are arranged on the inclined side.

Description

Hose water supply microporous spray head

Technical Field

The invention relates to the field of indoor germination and seedling growing planting equipment, in particular to a hose water supply microporous spray head.

Background

The prior civil medical movable humidifying spraying device is mostly realized by ultrasonic atomization, and the huge water supply structure of which the water storage tank is fixed with the spraying head limits the further popularization and application of the ultrasonic atomizing humidifying principle to the aspects of simplification and flexibility, and particularly has the inconvenience of atomizing and humidifying the germinated seedlings in various boxes/boxes.

Disclosure of Invention

Aiming at the defects, the invention designs a hose water supply micropore atomizing spray head aiming at a micropore atomizing sheet which appears recently.

The technical scheme adopted by the invention for solving the technical problem is as follows: a hose water supply micropore spray head mainly comprises a transparent round box shell with a water supply hose, wherein a round hole is formed in the center of a top surface circle of the round box shell, a round fixing seat for mounting a micropore atomization sheet is arranged on the inner side of the position of the round hole formed in the center of the top surface circle and faces downwards, the round fixing seat is provided with a circular cover with an air guide groove, and the circular cover is mounted in a tight fit or threaded screwing structure and used for clamping a silica gel sealing ring of the micropore atomization sheet; the round box shell is filled with water, the water is fully attached to the back of the microporous atomizing sheet, in order to solve the problem that air is not attached to the round box shell, a circle of the periphery of the top surface is arched upwards, so that leaked air is concentrated in the arched top cavity, the top cavity is used as an exhaust space, a water inlet pipe connector and an exhaust nozzle are plugged at the arched top of the circle, the water inlet pipe connector is connected with a water inlet hose, the round box shell is lowered during exhaust, the water naturally flows from high to low to fill the round box shell, namely the air at the top is exhausted, and the exhaust nozzle is plugged quickly; the circular box shell is made of transparent plastic so as to clearly see the exhaust condition; the middle micropore atomization sheet is positioned in a concave low place and accumulates water at the arched top of the circle, and an overflow water or electric wire groove opening is radially arranged on the arched circle; a circle of the side surface of the round box shell is provided with a round box shell joint which is divided into an upper half and a lower half and is tightly matched or screwed with threads, so that the round box shell joint is convenient to disassemble and maintain, and a rubber ring can be embedded into the round box shell joint to enhance the sealing property; for some microporous atomizing sheets which always have little air leakage after long-time work, a water-absorbing cotton column can be added, the water-absorbing cotton column is propped under the microporous atomizing sheet, and the microporous atomizing sheet can still work even if the water surface in the round box shell falls below the microporous atomizing sheet;

for some microporous atomizing sheets with frequent air leakage, the characteristics are added: the structure of the exhaust nozzle plug is that the pipe hole of the exhaust nozzle plug is filled with aeration sponge or artificial fiber which can expand when soaked in water, and the position of the water storage bottle tank which is higher than the microporous atomizing spray head is increased, so that water flows to the lower part, namely the water flowing in through the water inlet hose fills the round box shell, the ventilated exhaust nozzle plug positioned at the top naturally exhausts the air above the round box shell firstly, and then the sponge in the pipe hole of the exhaust nozzle plug expands when meeting water to block the exhaust nozzle plug, thereby preventing the water supply from flowing out continuously; the atomizing spray head with the ventilating watertight type exhaust nozzle plug has a more compact structure of the round box shell: the periphery of the original top surface is arched upwards in a circle, and is reduced to be arched upwards at one position of the periphery of the dome surface, a water inlet pipe connector and an exhaust nozzle plug are arranged on the top surface, the top surface can be vertical, inclined and horizontal, and the circumference of the lower part is reduced to be slightly larger than the micropore atomization sheet; a water-absorbing cotton column can be added, and the water-absorbing cotton column is propped under the micropore atomization sheet.

The invention also aims to provide a hose water supply micropore spray head which mainly comprises a transparent conical top-shaped round box shell with a water supply hose, wherein at least four round holes with equal distances are formed on the conical top inclined plane of the round box shell, a round fixing seat for mounting a micropore atomization sheet is arranged on the inner side of the round hole, and the round fixing seat is used for fixing the micropore atomization sheet in a manner that a circle cover is tightly matched with and clamped or a silica gel sealing ring with a screwed micropore atomization sheet is screwed; the round box shell is filled with water, the conical top part on the round box shell is divided into an exhaust space, all the microporous atomizing sheets are entirely below the water surface, and the water inlet pipe connector and the exhaust nozzle plug are arranged at the central position of the conical top; the cone-top-shaped round box shell is made of transparent plastic; a circle of the side surface of the bottom of the conical-top-shaped round box shell is provided with a tight fit or screwed joint opening with threads which is divided into an upper half and a lower half, and a thin rubber ring can be embedded into the joint opening to enhance the sealing property;

for some microporous atomizing sheets with frequent air leakage, the exhaust nozzle plug is changed into a ventilating and water-tight type; and requires that the water storage bottle tank for supplying water be placed at a position higher than the microporous atomizing head.

Furthermore, except for a plurality of microporous atomizing sheets which leak air frequently, a needle tube water injection joint is added at the joint of the water inlet hose and the water inlet pipe connector, the water inlet hose and the needle tube water injection joint are sleeved together and are not separated, and the needle tube water injection joint is inserted into the water inlet pipe connector to be sealed at ordinary times, so that the placing position of the microporous atomizing head is higher and lower than that of the water storage bottle; when exhausting, the position of the spray head is lowered, the water injection joint of the needle tube is pulled out, but the needle tube part still extends into the water inlet pipe connecting port, the water flowing out of the needle tube extends into the round box shell through the water inlet pipe connecting port, meanwhile, the air on the round box shell is gradually exhausted from the water inlet pipe connecting port, and the exhaust nozzle plug is eliminated; the water inlet pipe connector can be directly installed, obliquely installed and transversely installed.

Furthermore, the method also comprises the step of arranging a plurality of micropore atomization sheets at the highest position of one circle on the upper part of the circumferential cylindrical surface, wherein the distances among the micropore atomization sheets are equal, and the top of the micropore atomization sheet can be kept in a conical shape or a spherical shape or a flattened top.

Further, the number of the microporous atomization sheets is preferably 4.

The invention has the beneficial effects that: because of adopting the hose to supply water (huge water storage bottle jar has realized the separation with the atomising head), the humidification atomising head has small and exquisite flatness, does not receive distance, space restriction, is convenient for be used in the seedling field that sprouts in the box very much. Especially, practical interesting indoor potted bean sprout seedlings, sweet potato leaves, malan heads and the like have the problems that the dead leaves are necrosed due to unknown reasons and need to continuously sprout and replenish seedlings because of inexperience, but the conventional sprouting method at the temperature of more than 35 ℃ in summer is rotten and smelly and needs to be changed into a more advanced timed ventilation humidification sprouting technology, and the hose water supply microporous atomizing spray head can be conveniently and conveniently realized by various large snack boxes, packing boxes and packing boxes according to the conditions.

Drawings

FIG. 1 is a block diagram of a hose-fed microporous spray head;

FIG. 2 is a block diagram of a compact spray head with vented non-vented exhaust plugs;

FIG. 3 is a schematic diagram of a hose-fed microporous atomizer head with four microporous atomizing sheets mounted on the inclined sides;

in the figure, 1, a micropore atomization sheet, 2, a silica gel sealing ring, 3, a circular fixing seat, 4, a circular box shell, 5, a circular box shell joint, 6, a water inlet pipe connector, 7, an exhaust nozzle plug, 8, an overflow or wiring groove opening, 9, a water absorption cotton column, 10, a water inlet hose, 11 and a water storage bottle tank.

Detailed Description

The micropore atomization sheet (after some apertures are stained with water) is airtight, and accordingly, the ultrasonic atomizing head with the water supplied by the hose is designed, the ultrasonic atomizing head mainly comprises a transparent round box shell with a water supply hose, the micropore atomization sheet is arranged in a round hole formed in the center of a top circle, and the key problem to be solved is that the water in the round box shell is required to be fully attached to the back of the micropore atomization sheet.

The operation of the microporous atomization sheet requires that the back surface of the sheet be in sufficient contact with the water surface, but not be entirely submerged in the water. The common method is to keep the water surface which is continuously descending in contact with the back of the microporous atomizing sheet by a water-absorbing cotton stick. The disadvantage of this method is that the large water supply structure of the water storage tank and the spray head fixed together limits the flexible application of the atomization and humidification. This design is passed through the hose connection and is supplied water, makes water storage tank and atomising head realize separating to the small and exquisite flat atomising head of design structure makes the seedling of sprouting in various case/boxes adopt the spraying humidification very suitable.

The design is composed of a transparent round box shell with a water supply hose (see figure 1), a round hole is formed in the center of a top surface circle of a round box shell 4, a round fixing seat 3 for mounting a micropore atomization sheet 1 is arranged on the inner side of the position of the round hole formed in the center of the top surface circle, a round ring cover (similar to a bottle cap, wherein a big hole is formed in the center of the round surface of the round box shell, and a gas guide groove is formed in the round hole 3; the round box shell 4 is filled with water, the water is fully attached to the back of the micropore atomization sheet 1, in order to solve the problem that air (micropores from the micropore atomization sheet) enters and is not attached to the micropore atomization sheet, a circle of the periphery of the top surface is arched upwards, the leaked air is concentrated in an arched top cavity, the top cavity is used as an exhaust space, and the water inlet pipe connector 6 and the exhaust nozzle plug 7 are arranged at the arched top (directly opposite to the exhaust space). The water inlet pipe connecting port 6 is connected with a water inlet hose 10 (so called hose water supply), and the position of the round box shell is lowered during exhaust, so that water naturally flows to the lower position to fill the round box shell, namely the air at the top is exhausted, and the exhaust nozzle plug 7 is plugged rapidly. The circular box shell 4 is made of transparent plastic so as to clearly see the exhaust condition. The middle micropore atomization sheet 1 is formed at the top of the ring of arch and is in a concave low position to accumulate water, and a water overflow or wiring groove opening 8 is radially arranged on the ring of arch. For aesthetic reasons, two notches may be symmetrically provided, one for draining water obliquely downwards to the outside, and one for routing the electric wire of the microporous atomizing sheet upwards to the vicinity of the water inlet pipe connection port 6 (so that two thin electric wires can be tied together with the water inlet hose 10. in fact, neither notch can be obliquely downwards to the outside, otherwise the upper ring of arched exhaust space would be divided into two non-communicating air chambers). One circle (the lower position of the middle part) of the side surface (the circumference) of the round box shell 4 is provided with a round box shell joint opening 5 which is divided into an upper half and a lower half and is tightly matched or screwed with threads, so that the round box shell joint opening 5 is convenient to disassemble and maintain, and a rubber ring can be embedded in the round box shell joint opening 5 to enhance the sealing property. For some microporous atomizing sheets which always have little air leakage after long-time work (the microporous atomizing sheets have various varieties and different pore diameters, and some air leakage easily occurs on the back surface during work), the water-absorbing cotton columns 9 can be added, and the water-absorbing cotton columns 9 are propped below the microporous atomizing sheets, so that the microporous atomizing sheets can still work even if the water surface in the round box shell falls below the microporous atomizing sheets (due to air leakage). And the water absorption cotton column 9 is added, and the circular cover of the circular fixed seat 3 does not need to be provided with an air guide groove.

For some microporous atomizing sheets with frequent air leakage, a more updated technical scheme is adopted: the air-permeable water-tight type exhaust nozzle has the structure that air-permeable sponge or artificial fiber which can expand when soaked in water is plugged into the pipe hole of the exhaust nozzle 7, the position of a water storage bottle tank 11 which is higher than a microporous spray head is increased, water flows to the lower position, namely the water flowing in through a water inlet hose 10 is filled in a round box shell, the air-permeable exhaust nozzle 7 at the top naturally discharges the air above the air, and then (the water can flow out of the sponge in the exhaust nozzle) the sponge in the pipe hole of the exhaust nozzle 7 expands when meeting the water to block the exhaust nozzle 7, so that the water is prevented from continuously flowing out.

The cartridge housing 4 of the spray head with the venting water-tight plug 7 also has a more compact structure (see fig. 3): the periphery of the original top surface is arched upwards in a circle, and is reduced to be arched upwards at one position of the periphery of the dome surface, a water inlet pipe connector 6 and an exhaust nozzle plug 7 are arranged on the top surface, the top surface can be vertical, inclined and horizontal, and the circumference of the lower part is reduced to be slightly larger than the micropore atomization sheet 1; the water absorption cotton column 9 can also be added, and the water absorption cotton column 9 is propped under the micropore atomization sheet, so that the working exhaust has larger allowance.

Note that, for some microporous atomizing sheets which leak air frequently, the ventilating and water-tight type exhaust nozzle plug 7 is adopted, the position of the water storage bottle tank which is higher than the microporous atomizing head is required, and actually, the exhaust nozzle plug 7 is continuously and dynamically deflated, so that a large exhaust space is not required to be prepared, and a compact structure is designed. However, the key to this structure is the reliable quality of the vented watertight type exhaust plug 7, which is difficult. For a common air-tight micropore atomizing sheet, the exhaust nozzle plug 7 is plugged too much (even no exhaust nozzle plug is arranged at all) at ordinary times, so that a circle of upward arched exhaust space on the periphery of the top surface as large as possible is required to collect accidental air (exhausted at a certain time), and the atomizing head is a (flat) round box shell with the diameter far larger than that of the micropore atomizing sheet (otherwise, the space is too small, and even if a water absorption cotton column is added, the exhaust space is expanded to the whole round box shell, the water is cut off and the water does not work for a long time). The flat round box shell is more stable to put, and the flat round box shell is a sealing structure and has the convenience that the placing position of the micropore spray head is higher and lower than that of the water storage bottle.

For the spraying that requires to disperse to all around (note, micropore atomizing piece is different with the piezoelectric ceramic ultrasonic atomization piece that has ever existed, micropore atomizing piece has the spraying effect, so called "micropore atomising head"), can realize with the spraying of a plurality of to the side, consequently still include the structure of a plurality of micropore atomizing pieces of side dress to one side, be called the atomising head of a plurality of micropore atomizing pieces of oblique side dress, specifically as follows:

constitute by a transparent conical top form circle box casing 4 of taking water supply hose (see fig. 3), it has four impartial round holes of distance to open at least on the conical top inclined plane of circle box casing 4, and round hole position inboard is equipped with circular fixing base 3 of installation micropore atomizing piece 1, and the mounting means of the fixed micropore atomizing piece of circular fixing base 3 is that a circle lid cooperates tight clamp or take the screw to screw the silica gel sealing washer 2 of micropore atomizing piece. The round box shell 4 is filled with water, the conical top part on the round box shell is divided into an exhaust space, all the microporous atomizing sheets 1 are entirely below the water surface, and the water inlet pipe connector 6 and the exhaust nozzle plug 7 are both arranged at the central position of the conical top (the actual top part is an attractive spherical surface). The cone-top-shaped round box shell 4 is made of transparent plastic; a circle of the side surface (circumference) at the bottom of the conical-top-shaped round box shell is provided with a tight fit or screwed joint opening 5 which is divided into an upper half and a lower half, and a thin rubber ring can be embedded into the joint opening 5 to enhance the sealing property.

For individual application, a plurality of micropore atomization sheets 1 can be arranged at the highest position of one circle on the upper part of the circumferential cylindrical surface, the distances among the micropore atomization sheets are equal, and the top can be kept in a conical shape, a spherical shape or a flattened shape.

For some microporous atomizing sheets with frequent air leakage, the exhaust nozzle plug 7 is changed into a ventilating and water-tight type; and requires the water storage bottle tank 11 for water supply to be placed at a higher position than the micro-porous atomizing head. The working mechanism and requirement of this part are the same as those of the above spray head with a micropore atomization plate on the top, and detailed description is not repeated.

Except adopting the structure of ventilating the water-tight type exhaust nozzle stopper, no matter be the atomising head of a micropore atomization piece of top dress, or the atomising head of a plurality of micropore atomization pieces of oblique side dress, for further simplifying the structure, exhaust nozzle stopper 7 can cancel, nevertheless will make corresponding change as follows: the joint of the water inlet hose 10 and the water inlet pipe connecting port 6 is additionally provided with a needle tube water injection joint (similar to an injection needle or a basketball inflation needle tube), the water inlet hose 10 and the needle tube water injection joint are sleeved together and are not separated, and the needle tube water injection joint is inserted into the water inlet pipe connecting port 6 to be inserted and sealed at ordinary times, so that the arrangement position of the microporous atomizing head is higher and lower than that of the water storage bottle 11. When exhausting, the spray head is lowered to pull out the water injection joint of the needle tube, but the needle tube part still extends into the water inlet pipe connecting port 6, the water flowing out from the needle tube extends into the round box shell through the water inlet pipe connecting port 6, and simultaneously the air on the round box shell is exhausted from the water inlet pipe connecting port 6. The water inlet pipe connecting port 6 can be directly installed, obliquely installed and transversely installed.

One end of the water inlet hose 10 extends into the bottom of a water storage bottle tank 11 for supplying water, water is required to be contained in the water storage bottle tank, the upper part of the water storage bottle tank is slightly ventilated, and the other end of the water inlet hose 10 (which has no special requirement and can be long but does not need to be folded flat) is connected with a water inlet pipe connector 6 at the top of the micropore spraying head. Before work, the exhaust nozzle plug is pulled out, the position of the atomizing spray head is lowered, water is input into the microporous atomizing spray head from the water inlet hose, the shell is seen to be transparent until the microporous atomizing spray head is filled, and the exhaust nozzle is plugged tightly. Then one end of the water inlet hose (with full water) is put into the water storage bottle (with water) to be finished, and the machine can be started to work. Except for adopting the structure of the ventilating and water-tight type exhaust nozzle plug (the requirement that the water storage bottle tank is always placed higher than the spray head), no matter the placing position of the micropore spray head is higher or lower than the water storage bottle tank, water can not be cut off (siphon principle).

Claims (5)

1. A hose water supply micropore spray head is characterized by mainly comprising a transparent round box shell with a water supply hose, wherein a round hole is formed in the center of the top surface circle of the round box shell (4), a round fixing seat (3) for mounting a micropore atomization sheet (1) is arranged on the inner side of the position of the round hole formed in the center of the top surface circle and faces downwards, a circular cover with an air guide groove is arranged on the round fixing seat (3), and the circular cover is in a tight fit or threaded screwing structure and used for clamping a silica gel sealing ring (2) of the micropore atomization sheet (1); the round box shell (4) is filled with water, the water is fully attached to the back of the micropore atomization sheet (1), in order to solve the problem that air is not attached tightly when entering, a circle of the periphery of the top surface is arched upwards, so that leaked air is concentrated in the arched top cavity, the top cavity is used as an exhaust space, the water inlet pipe connector (6) and the exhaust nozzle plug (7) are arranged at the arched top of the circle, the water inlet pipe connector (6) is connected with the water inlet hose (10), the round box shell is lowered during exhaust, so that the water naturally flows to the low position, the round box shell is filled with the water, namely the air at the top is exhausted, and the exhaust nozzle plug (7) is plugged quickly; the round box shell (4) is made of transparent plastic so as to clearly see the exhaust condition; the middle micropore atomization sheet (1) is positioned in a concave low position and accumulates water at the arched top of the circle, and an overflow or wiring groove opening (8) is radially arranged on the arched circle; a circle of the side surface of the round box shell (4) is provided with a round box shell joint opening (5) which is divided into an upper half and a lower half and is tightly matched or screwed with threads, so that the round box shell joint opening is convenient to disassemble and maintain, and a rubber ring is embedded into the round box shell joint opening (5) to enhance the sealing property; for some microporous atomizing sheets which always leak air after working for a long time, a water-absorbing cotton column (9) is added, and the water-absorbing cotton column (9) is propped under the microporous atomizing sheets, so that the microporous atomizing sheets can still work even if the water surface in the round box shell falls below the microporous atomizing sheets;

for some microporous atomizing sheets with frequent air leakage, the characteristics are added: the plug of the exhaust nozzle plug (7) is not a common rubber plug, and is changed into a ventilating watertight exhaust nozzle plug (7) without manual pulling, the structure is that ventilating sponge or artificial fiber which can expand when soaked in water is plugged into the pipe hole of the exhaust nozzle plug (7), and the position of the water storage bottle tank (11) which is required to be placed higher than the microporous atomizing spray head is increased, so that water flows to the lower part, namely the water flowing in through the water inlet hose (10) is filled in the round box shell, the ventilating exhaust nozzle plug (7) positioned at the top naturally discharges the air above, then the sponge in the pipe hole of the exhaust nozzle plug (7) expands when meeting water to plug the exhaust nozzle plug (7), and the water supply is prevented from continuously flowing out; the atomizing spray head with the ventilating and water-tight type exhaust nozzle plug (7) is characterized in that the round box shell (4) has a more compact structure: the periphery of the original top surface is arched upwards in a circle, the periphery is reduced to be arched upwards at one position of the periphery of a dome surface, a water inlet pipe connector (6) and an exhaust nozzle plug (7) are arranged on the top surface, the top surface can be vertical, inclined and horizontal, and the circumference of the lower part is reduced to be slightly larger than the micropore atomization sheet (1); and a water absorption cotton column (9) is added, and the water absorption cotton column (9) is propped against the lower surface of the micropore atomization sheet.

2. A hose water supply micropore spray head is characterized by mainly comprising a transparent conical top-shaped round box shell (4) with a water supply hose, wherein at least four round holes with equal distances are formed on the conical top inclined plane of the round box shell (4), a round fixing seat (3) for mounting a micropore atomization sheet (1) is arranged on the inner side of the round hole, and the round fixing seat (3) is used for fixing the micropore atomization sheet in a manner that a circle is covered and tightly matched with a silica gel sealing ring (2) for clamping or screwing the micropore atomization sheet with threads; the round box shell (4) is filled with water, the conical top part on the round box shell is divided into an exhaust space, all the microporous atomizing sheets (1) are entirely below the water surface, and the water inlet pipe connector (6) and the exhaust nozzle plug (7) are arranged at the central position of the conical top; the cone-top-shaped round box shell (4) is made of transparent plastic; a tight fit or screwed joint opening (5) with threads is formed in one circle on the side face of the bottom of the conical-top-shaped round box shell, the tight fit or screwed joint opening is divided into an upper half and a lower half, and a thin rubber ring is embedded into the joint opening (5) to enhance the sealing property;

for some microporous atomizing sheets which leak air frequently, the exhaust nozzle plug (7) is changed into a ventilating and water-tight type; and requires that the water storage bottle tank (11) for supplying water be placed at a position higher than the microporous atomizing head.

3. The hose water supply microporous atomizing spray head according to claim 1 or 2, characterized in that, except for some microporous atomizing sheets which are frequently leaked, a needle tube water injection joint is added at the joint of the water inlet hose (10) and the water inlet pipe connecting port (6), the water inlet hose (10) and the needle tube water injection joint are sleeved together and are not separated, and the needle tube water injection joint is inserted into the water inlet pipe connecting port (6) to be inserted and sealed in normal times; when exhausting, the position of the spray head is lowered, the water injection joint of the needle tube is pulled out, but the needle tube part still extends into the water inlet pipe connecting port (6), the water flowing out of the needle tube extends into the round box shell through the water inlet pipe connecting port (6), meanwhile, the air on the round box shell is gradually exhausted from the water inlet pipe connecting port (6), and the exhaust nozzle plug (7) is eliminated; the water inlet pipe connecting port (6) can be directly installed, obliquely installed and transversely installed.

4. The microporous atomizing spray head for supplying water to a hose according to claim 2, further comprising a plurality of microporous atomizing plates (1) installed at the highest position of one circle on the upper portion of the cylindrical surface of the circumference, wherein the distance between the plurality of microporous atomizing plates is uniform, and the top of the microporous atomizing plates can be kept in a conical shape, a spherical shape or a flattened top.

5. A hose-fed atomizing spray head according to claim 4, characterized in that the number of said atomizing microperforations (1) is preferably 4.

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