CN103385124B - Automatic water supplying flowerpot - Google Patents

Abstract

The invention relates to an automatic water supplying flowerpot which automatically supplies water to soil with plants by condensation of moisture in the air. The automatic water supplying flowerpot comprises a condensation mechanism (20) configured in a body (10) and used for perform condensation of water in the air through the Peltier effect, an air supply mechanism (30) configured at a lower part of the condensation mechanism (20) and used for supplying external air to the condensation mechanism (20), and a ceramic component (40) arranged on the condensation mechanism (20) and used for supplying condensate water of the condensation mechanism (20) to soil (50) through the capillarity phenomenon.

Description

Auto-water-supply flowerpot

Technical field

The present invention relates to a kind of auto-water-supply flowerpot, after the moisture in air in addition condensation for having planted the soil automatic water-supply of plant.More particularly, the present invention relies on wind pushing mechanism to flow into body interior by extraneous air, and by being configured in the condensing mechanism of body interior, moisture contained by the process outside air by condensing mechanism is condensed, condensed water relies on the capillarity of ceramic component to rise to earth along ceramic component, even if therefore flowerpot keeper does not supply water in addition also can be earth automatic water-supply.

Background technology

No. 10-2012-0003207th, KR published patent application (on January 10th, 2012 is open) discloses " automatic flower pot watering device ".

Above-mentioned automatic flower pot watering device comprises: water drum, can store water; Supply-water pump, is fed to flowerpot the water be stored in water drum; Power supply device, drives supply-water pump; And automatically control substrate, from the running controlling supply-water pump after above-mentioned power supply device accepts power supply.In order to the supply line by being made up of water pipe and nozzle is supplied to flowerpot the water of water drum, according to the time running supply-water pump automatically controlling substrate sets.

But above-mentioned automatic flower pot watering device needs to take a lot of area because volume is comparatively large, will be also water drum supply water.

Summary of the invention

Therefore, the object of this invention is to provide a kind of auto-water-supply flowerpot, it is by means of the condensing mechanism of wind pushing mechanism by extraneous air inflow body interior and by being configured in body interior, make to be condensed at the process outside air contained humidity by condensing mechanism, condensed water relies on the capillarity of ceramic component to rise to earth along ceramic component, even if therefore flowerpot keeper does not supply water in addition also can be earth automatic water-supply.

Another object of the present invention is to provide a kind of auto-water-supply flowerpot, wherein temperature sensor measurement condensing mechanism internal temperature and give controller Signal transmissions, level sensor measurement to be filled in after the water level of the condensed water in condensing mechanism Signal transmissions to controller, being configured in each wetness sensor on ceramic component for controller provides signal, controller then controls the running of condensing mechanism and wind pushing mechanism whereby, therefore can be not only earth automatic water-supply, the amount of moisture can also be controlled.

Auto-water-supply flowerpot of the present invention can realize above-mentioned purpose, and its a kind of embodiment comprises: condensing mechanism, and this condensing mechanism is configured in body interior and utilizes Peltier effect the condensation in addition of the moisture in air; Wind pushing mechanism, this wind pushing mechanism is configured in the bottom of condensing mechanism and is condensing mechanism supply extraneous air; And ceramic component, this ceramic component to be arranged on condensing mechanism and to utilize capillarity that the condensed water be filled in condensing mechanism is supplied to earth.

And above-mentioned auto-water-supply flowerpot also comprises: controller, this controller is arranged on the lateral surface of body and controls the running of wind pushing mechanism and condensing mechanism; Temperature sensor, this temperature sensor to be arranged on condensing mechanism and to measure the internal temperature of condensing mechanism; Level sensor, this level sensor to be arranged on condensing mechanism and to measure the water level of the condensed water of condensing mechanism institute condensation; And wetness sensor, this wetness sensor to be configured in dispersedly on ceramic component and to detect the moisture diffusion that capillarity causes.

Downside tapered portion and the upside cylindrical portion of above-mentioned body form, inwards annular protrusion is formed with highlightedly in the boundary section of downside tapered portion and upside cylindrical portion, annular protrusion is then mounted with the heat insulation plectane of condensing mechanism, be formed with at the air inflow aperture periphery of the lower end being formed at downside tapered portion the support portion can installing guiding cylinder part, be formed with multiple air vent at the lower end periphery of upside cylindrical portion.

And, the gap allowing air to pass through is formed in the upper end of guiding cylinder part, and at the inside of guiding cylinder part configuration wind pushing mechanism, extraneous air relies on wind pushing mechanism to flow into the inside of guiding cylinder part by air inflow aperture, after have passed second heat sink (heat sink) of condensing mechanism, be supplied to the airport be formed on the heat insulation plectane of condensing mechanism by gap, the air that have passed through condensing mechanism is discharged into outside by the air vent of the lower end periphery being formed at upside cylindrical portion.

Above-mentioned condensing mechanism is provided with Peltier element at the center of heat insulation plectane, the first heat sink is configured with at the upper surface of heat insulation plectane, make the first heat sink rely on Peltier element to play heat-absorbing action by allowing the first heat sink contact with the endothermic section of Peltier element, the second heat sink is configured with at the lower surface of heat insulation plectane, make the second heat sink rely on Peltier element to play exothermic effects by allowing the second heat sink contact with the heating part of Peltier element, the lower plectane portion of water storage cylinder is configured with at the upper surface of heat insulation plectane, centre bore is formed in the central authorities in lower plectane portion, the circumferential surface of centre bore abuts against the lower end of the cylindrical portion of the first heat sink, condensed water is stored in water storage cylinder, condensed water is supplied to the inside of the cylindrical portion of the first heat sink in the lower end passing hole of the cylindrical portion of the first heat sink, outer peripheral edges near heat insulation plectane on heat insulation plectane are formed with multiple airport, at the circumferential upper surface of heat insulation plectane, guiding lid is installed.

Above-mentioned heat insulation plectane is made up of plastic material, and described heat insulation plectane is formed with the installing hole for installing Peltier element in central authorities, and is formed with multiple airport near outer peripheral edges.

Above-mentioned first heat sink is formed with multiple heat absorption pin radially at the outer peripheral face of cylindrical portion, then forms hole in the bottom of the cylindrical portion not forming heat absorption pin, is formed with contact plectane portion in the lower end of cylindrical portion.

Above-mentioned guiding lid is formed as donut shape, and outer cylindrical portion and the inner cylinder portion of described guiding lid are connected to connecting portion.

Above-mentioned ceramic component is shaping by vitrified bond, and the plectane portion of described ceramic component forms in the upper end in post portion, and the lower end in post portion is configured in the lower end of the cylindrical portion of the first heat sink, and plectane portion is configured with earth.

Whereby, even if auto-water-supply flowerpot flowerpot keeper of the present invention does not supply water in addition the earth automatic water-supply for flowerpot after the moisture in air in addition condensation, and can automatically can also control the amount of the moisture being supplied to earth yet.

Accompanying drawing explanation

Fig. 1 is the oblique view of auto-water-supply flowerpot of the present invention.

Fig. 2 is the exploded perspective view of auto-water-supply flowerpot of the present invention.

Fig. 3 is the cutaway view of auto-water-supply flowerpot of the present invention along the line of A-A shown in Fig. 1.

Fig. 4 is the cutaway view of the body of auto-water-supply flowerpot of the present invention.

Fig. 5 is the biopsy cavity marker devices oblique view of the condensing mechanism of auto-water-supply flowerpot of the present invention.

Fig. 6 is the biopsy cavity marker devices oblique view of the first heat sink.

Fig. 7 is the biopsy cavity marker devices oblique view of the second heat sink.

Fig. 8 is the biopsy cavity marker devices oblique view of guiding lid.

Fig. 9 is the oblique view of wind pushing mechanism.

The explanation of Main Reference Numerals

10: body 20: condensing mechanism

30: wind pushing mechanism 40: ceramic component

Embodiment

The preferred embodiment of the present invention is described in detail below in conjunction with accompanying drawing.

Refer to Fig. 1 to Fig. 3, auto-water-supply flowerpot of the present invention comprises: condensing mechanism 20, is configured in body 10 inner and utilize Peltier effect (peltier effect) the in addition condensation of the moisture in air; Wind pushing mechanism 30, is configured in the bottom of condensing mechanism 20 and supplies extraneous air for condensing mechanism 20; And ceramic component 40, to be arranged on condensing mechanism 20 and to utilize capillarity that the condensed water be filled in condensing mechanism 20 is supplied to earth 50.

The auto-water-supply flowerpot of the present invention with said structure relies on wind pushing mechanism 30 to flow into body 10 inside by extraneous air, and by being configured in the condensing mechanism 20 of body 10 inside, be condensed at the process outside air contained humidity through condensing mechanism 20, condensed water is then stored in condensing mechanism 20, condensed water relies on the capillarity of ceramic component 40 to rise to earth 50 along ceramic component 40, even if therefore flowerpot keeper does not supply water in addition also can be earth automatic water-supply.In addition, the air that moisture is wherein condensed at condensing mechanism 20 is then discharged into outside by the air vent 16 of body 10.

And auto-water-supply flowerpot of the present invention also comprises: controller 60, be arranged on the lateral surface of body 10 and control the running (roughly illustrating with square form in figure 3) of wind pushing mechanism 30 and condensing mechanism 20; Temperature sensor 70, to be arranged on condensing mechanism 20 and to measure the internal temperature of condensing mechanism 20; Level sensor 75, to be arranged on condensing mechanism 20 and to measure the water level of the condensed water of condensing mechanism 20 condensations; And wetness sensor 80, to be configured in dispersedly on ceramic component 40 and to detect the moisture diffusion that capillarity causes.

Whereby, temperature sensor 70 measure condensing mechanism 20 internal temperature and Signal transmissions to controller 60, when the internal temperature of condensing mechanism 20 reaches setting value (being generally dew-point temperature), controller 60 orders about condensing mechanism 20 and shuts down, level sensor 75 to be measured after the water level being filled in condensed water in condensing mechanism 20 Signal transmissions to controller 60, therefore when the water level of condensed water reaches setting value, controller 60 orders about condensing mechanism 20 and wind pushing mechanism 30 shuts down, by the signal that the multiple wetness sensor 80 be configured on ceramic component 40 input, controller 60 learns that the distribution of moisture also controls the running of condensing mechanism 20 and wind pushing mechanism 20 accordingly, therefore can be not only earth automatic water-supply, the amount of moisture can also be controlled.

Refer to Fig. 4, downside tapered portion 11 and the upside cylindrical portion 12 of above-mentioned body 10 form, inwards annular protrusion 13 is formed with highlightedly in downside tapered portion 11 and the boundary section of upside cylindrical portion 12, annular protrusion 13 is then mounted with the heat insulation plectane 21 of condensing mechanism 20, be formed with at air inflow aperture 14 periphery being formed at tapered portion 11 lower end, downside the support portion 15 can installing guiding cylinder part 90 (referring to Fig. 3), be formed with multiple air vent 16 at the lower end periphery of upside cylindrical portion 12.

Referring again to Fig. 3, whereby, the gap S1 allowing air to pass through is formed in the upper end of guiding cylinder part 90, and at guiding cylinder part 90 inside configuration wind pushing mechanism 30, it is inner that extraneous air relies on wind pushing mechanism 30 to flow into guiding cylinder part 90 by air inflow aperture 14, after have passed the second heat sink 24 of condensing mechanism 20, be supplied to the airport 21b be formed on the heat insulation plectane 21 of condensing mechanism 20 by gap S1, the air that have passed through condensing mechanism 20 is then discharged into outside by the air vent 16 of the lower end periphery being formed at upside cylindrical portion 12.

Refer to Fig. 2 and Fig. 5, condensing mechanism 20 is provided with Peltier element 22 at the center of heat insulation plectane 21, the first heat sink 23 is configured with at the upper surface of heat insulation plectane 21, make the first heat sink 23 rely on Peltier element 22 to play heat-absorbing action by allowing the first heat sink 23 contact with the endothermic section of Peltier element 22, the second heat sink 24 is configured with at the lower surface of heat insulation plectane 21, make the second heat sink 24 rely on Peltier element 22 to play exothermic effects by allowing the second heat sink 24 contact with the heating part of Peltier element 22, the lower plectane portion 25a of water storage cylinder 25 is configured with at the upper surface of heat insulation plectane 21, porose 25b (referring to Fig. 2) is formed in the central authorities of lower plectane portion 25a, the circumferential surface of hole 25b abuts against the cylindrical portion 23a lower end of the first heat sink 23, condensed water is stored in water storage cylinder 25, the cylindrical portion 23a that condensed water is supplied to the first heat sink 23 at the cylindrical portion 23a lower end passing hole 23b of the first heat sink 23 is inner, outer peripheral edges near heat insulation plectane 21 on heat insulation plectane are formed with multiple airport 21b, at the circumferential upper surface of heat insulation plectane 21, guiding lid 26 is installed.

Refer to Fig. 3 and Fig. 5, whereby, extraneous air is supplied to the airport 21b of heat insulation plectane 21 after heating in relying on wind pushing mechanism 30 by the process of the second heat sink 24.The air that have passed through the airport 21b of heat insulation plectane 21 then rises between guiding lid 26 and water storage cylinder 25, then relies on guiding lid 26 to be guided to the heat release pin 23c of the first heat sink 23.Afterwards, air is cooled and makes moisture contained in air be condensed and be filled in water storage cylinder 25 in the process of the heat release pin 23c by the first heat sink 23, the condensed water of water storage cylinder 25 is supplied to cylindrical portion 23a inside by the hole 23b of the cylindrical portion 23a being formed at the first heat sink 23, then is supplied to the ceramic component 40 being configured in cylindrical portion 23a inside.In addition, it is inner that dry air is supplied to body 10 by the hole 23b of the cylindrical portion 23a being formed at the first heat sink 23 as illustrated in fig. 3, is then discharged into outside by the air vent 16 of body 10.

Referring again to Fig. 2, above-mentioned heat insulation plectane 21 is made up of plastic material, and heat insulation plectane 21 is formed with the installing hole 21a for installing Peltier element 22 in central authorities, is formed with multiple airport 21b near outer peripheral edges.

Above-mentioned Peltier element 22 as is well known heating part engages with endothermic section, when heating part disperses heat after supply power supply, absorbs outside heat by endothermic section.

Refer to Fig. 6, above-mentioned first heat sink 23 is formed with multiple heat absorption pin 23c radially at the outer peripheral face of cylindrical portion 23a, then form hole 23b in the bottom of the cylindrical portion 23a not forming heat absorption pin 23c, be formed with contact plectane portion 23d in the lower end of cylindrical portion 23a.

Refer to Fig. 7, above-mentioned second heat sink 24 is formed with propeller boss (boss) 24b in the central authorities of the upper plectane 24a of the heating part of contact Peltier element, and propeller boss 24b is formed multiple heat release pin 24c.

Refer to Fig. 8, above-mentioned guiding lid 26 is formed as donut shape, outer cylindrical portion 26a and the inner cylinder portion 26b of guiding lid 26 are connected to connecting portion 26c, the lower end of outer cylindrical portion 26a is then arranged on the inner peripheral surface close contact of the circumferential upper surface of heat insulation plectane 21, the cylindrical portion 23 of inner cylinder portion 26b and the first heat sink 23.

Refer to Fig. 9, above-mentioned wind pushing mechanism 30 is breeze fans, rotating shaft (not shown) is rotatably installed in the lower bearing 31 that multiple foot 32 is formed radially, the support portion 15 that the foot 32 of lower bearing 31 is subject to body 10 is supported (referring to Fig. 3), and impeller 33 is mounted on the rotary shaft and rely on rotating shaft and impeller 33 is rotated.

Refer to Fig. 2 and Fig. 3, above-mentioned ceramic component 40 is shaping by vitrified bond, and the plectane portion of ceramic component 40 forms in the upper end in post portion, and the lower end in post portion is configured in the cylindrical portion 23a lower end of the first heat sink 23, and plectane portion is configured with earth.

Claims (8)

1. an auto-water-supply flowerpot, this auto-water-supply flowerpot comprises:

Condensing mechanism (20), this condensing mechanism is configured in the inside of body (10) and utilizes Peltier effect the condensation in addition of the moisture in air; Wind pushing mechanism (30), this wind pushing mechanism is configured in the bottom of described condensing mechanism (20) and is described condensing mechanism (20) supply extraneous air; And ceramic component (40), this ceramic component is arranged on described condensing mechanism (20) and goes up and utilize capillarity that the condensed water be filled in described condensing mechanism (20) is supplied to earth (50),

Downside tapered portion (11) and the upside cylindrical portion (12) of described body (10) form, annular protrusion (13) is inwards formed highlightedly in described downside tapered portion (11) and the boundary section of described upside cylindrical portion (12), described annular protrusion (13) is then mounted with the heat insulation plectane (21) of described condensing mechanism (20), the support portion (15) can installing guiding cylinder part (90) is formed at air inflow aperture (14) periphery being formed at tapered portion (11) lower end, described downside, multiple air vent (16) is formed at the lower end periphery of described upside cylindrical portion (12).

2. auto-water-supply flowerpot according to claim 1, is characterized in that, described auto-water-supply flowerpot also comprises:

Controller (60), this controller is arranged on the lateral surface of described body (10) and controls the running of described wind pushing mechanism (30) and described condensing mechanism (20); Temperature sensor (70), this temperature sensor is arranged on described condensing mechanism (20) and goes up and the internal temperature measuring described condensing mechanism (20); Level sensor (75), this level sensor is arranged on described condensing mechanism (20) and goes up and the water level measuring the condensed water of described condensing mechanism (20) institute condensation; And wetness sensor (80), it is upper and detect the moisture diffusion that capillarity causes that this wetness sensor is configured in described ceramic component (40) dispersedly.

3. auto-water-supply flowerpot according to claim 1, is characterized in that:

The gap (S1) allowing air to pass through is formed in the upper end of described guiding cylinder part (90), and configure described wind pushing mechanism (30) in the inside of described guiding cylinder part (90), it is inner that extraneous air relies on described wind pushing mechanism (30) to flow into described guiding cylinder part (90) by described air inflow aperture (14), after have passed second heat sink (24) of described condensing mechanism (20), the airport (21b) be formed on the described heat insulation plectane (21) of described condensing mechanism (20) is supplied to by described gap (S1), the air that have passed through described condensing mechanism (20) is discharged into outside by the described air vent (16) being formed at the lower end periphery of described upside cylindrical portion (12).

4. auto-water-supply flowerpot according to claim 1, is characterized in that:

Described condensing mechanism (20) is provided with Peltier element (22) at the center of heat insulation plectane (21), the first heat sink (23) is configured with at the upper surface of described heat insulation plectane (21), described first heat sink (23) is made to play heat-absorbing action by means of described Peltier element (22) by allowing described first heat sink (23) contact with the endothermic section of described Peltier element (22), the second heat sink (24) is configured with at the lower surface of described heat insulation plectane (21), described second heat sink (24) is made to play exothermic effects by means of described Peltier element (22) by allowing described second heat sink (24) contact with the heating part of described Peltier element (22), the lower plectane portion (25a) of water storage cylinder (25) is configured with at the upper surface of described heat insulation plectane (21), formed porose (25b) in the central authorities of described lower plectane portion (25a), the circumferential surface in described hole (25b) abuts against the lower end of the cylindrical portion (23a) of described first heat sink (23), condensed water is stored in described water storage cylinder (25), condensed water is supplied to the inside of the described cylindrical portion (23a) of described first heat sink (23) in the lower end passing hole (23b) of the cylindrical portion (23a) of described first heat sink (23), multiple airport (21b) is formed in the upper outer peripheral edges near described heat insulation plectane (21) of described heat insulation plectane (21), at the circumferential upper surface of described heat insulation plectane (21), guiding lid (26) is installed.

5. auto-water-supply flowerpot according to claim 4, is characterized in that:

Described heat insulation plectane (21) is made up of plastic material, described heat insulation plectane (21) is formed with the installing hole (21a) for installing described Peltier element (22) in central authorities, and is formed with multiple described airport (21b) near outer peripheral edges.

6. auto-water-supply flowerpot according to claim 4, is characterized in that:

Described first heat sink (23) is formed with multiple heat absorption pin (23c) radially at the outer peripheral face of described cylindrical portion (23a), then form described hole (23b) in the bottom of the described cylindrical portion (23a) not forming described heat absorption pin (23c), be formed with contact plectane portion (23d) in the lower end of described cylindrical portion (23a).

7. auto-water-supply flowerpot according to claim 4, is characterized in that:

Described guiding lid (26) is formed as donut shape, and outer cylindrical portion (26a) and the inner cylinder portion (26b) of described guiding lid (26) are connected to connecting portion (26c).

8. auto-water-supply flowerpot according to claim 1, is characterized in that:

Described ceramic component (40) is shaping by vitrified bond, and the plectane portion of described ceramic component (40) forms in the upper end in post portion, the lower end in described post portion is configured in the lower end of the cylindrical portion (23a) of the first heat sink (23), and described plectane portion is configured with earth.