CN102668951A - Automatic water irrigation device - Google Patents

Abstract

The invention relates to an automatic water irrigation device which comprises a storage device for storing water with reserved quantity and a set of water irrigation components. Each water irrigation component is provided with a dropper component. The dropper component is provided with a drip irrigation pipe extending from the water storage device and a drip irrigation end selectively embedded in a specific region of a pot room, wherein the water irrigation components are applied to guiding water to the specific region of the pot room from the water storage device and being continuously dripped at the drip irrigation end of the water irrigation components, so that humidity of soil is kept and controlled.

Description

Automatic water irrigation rig

Technical field

The present invention relates to a kind of plant irrigating device; Relate in particular to a kind of automatic water irrigation rig that is used for container for plants, wherein this automatic water irrigation rig is suitable for uniting use to continue the specific region in water and/or nutrition liquid irrigation to the container for plants with any container for plants.

Background technology

Much human is liked indoor plantation plant to improve ambiance.Some in addition rent or buy house plant and be placed on office or workplace so that a better view to be provided help to ease off the pressure, strengthen employee's working attitude, improve the work productive rate and improve air quality because there are some researches show plant.In other words, when some plants were provided, the workpeople will be happy more.On the other hand, plant must be watered on time.

At growth and the maintenance phase of small-sized plant or house plant, must to plant roots water or nutrient solution be provided with suitable quantity.All possibly kill this plant to too much or very few the watering of plant, wherein through the root system of plant, water will be transported to plant cell from the nutrition of soil as main conveying medium.Yet,, reduce oxygen supply to plant thereby will oppress the air that comes from plant when plant being supplied water when too much.Especially, there is not simple method should how long water once to house plant in order to the guiding owner.The water that some plants need relatively large amount to be being used for growth, and some plants need relatively in a small amount water to be used for growth.Dissimilar soil also is considered to a factor that is used to keep the humidity of plant growing.

Concerning some, the religion irrigating plant is trifling affairs, to such an extent as to they possibly always forget.In case plant hydropenia, they just tend to heavy ground irrigating plant.As before should, excessive all may kill this plant to the plant insufficient water with watering.If especially this plant is to rent when coming from the plant service supplier there, the plant service supplier must send this plant of veteran's routine maintenance, as to plant watering with for plant enough nutrient solutions being provided.In other words, this veteran must have the abundant knowledge that can understand each plant species and know the water that much amounts in time are provided for plant.Otherwise, the plant service supplier will spend higher time cost and take care of the sick plant of returning from the lessee there.

Correspondingly, irrigating plant device is provided with often to plant watering.For example, a kind of irrigating plant device, it comprises the spherical and the extended type insertion tube that extends from this spherical that are used for water storage, wherein this insertion tube is inserted in the soil and is delivered to plant roots with the water that will come from spherical.Yet this irrigating plant device has multiple weak point.

Because insertion tube must be inserted among the soil so that water is transported in the soil, the root of the plant in the soil maybe be during insertion by accidental damage.In case anhydrous in the spherical, then must this irrigating plant device be removed again water is filled it up with and this insertion tube is inserted among the soil once more from container for plants.Will the root of plant be caused serious injury among repeatedly insertion tube being inserted into soil.In other words, even enough moisture is provided, this plant also will can't be killed to the plant cell transportation through root system because of nutrition.

The another one weak point of this irrigating plant device is that this irrigating plant device only can provide moisture to the specific region around the insertion tube.In other words, after this insertion tube is inserted among the soil, near the soil this insertion tube will be moist.Therefore, only just will be to this plant transportation nutrition at the root of this plant of wet area.Other root of this plant will be dead.Therefore, irrigating plant device even can not moisture be provided for the All Ranges in the container for plants.

In addition, soil will continue to absorb the moisture from the irrigating plant device.In other words, the amount to the water of the pouring of plant will not be the water content that depends on soil.In case antecedent soil moisture, this soil will fast Absorption moisture.That is to say that when soil is when wetting, water will still be continued to be delivered to this soil.Therefore, the irrigating plant device can't accurately control the wetness of soil and will cause to plant to execute water excessive.

Summary of the invention

Advantage of the present invention is that it provides a kind of automatic water irrigation rig, and it is suitable for uniting use to continue the specific region in water and/or nutrition liquid irrigation to this container for plants with other any container for plants.

Another advantage of the present invention is to provide a kind of automatic water irrigation rig, and wherein water continues to infiltrate to prevent the excessive pouring to this plant to this soil according to the moist degree of soil.

Another advantage of the present invention is that it provides a kind of automatic water irrigation rig that has, and it is directed automatically plant being watered with the suitable water yield.In other words, the present invention will provide the water of a suitable amount for different plants or different soil.Therefore, the water that needs relatively large amount when plant is when being used to grow, and the present invention will transport the more water of volume from trend soil.When plant needs relatively in a small amount water when being used to grow, the present invention will be from the more a spot of water of trend soil transportation.

Another advantage of the present invention is that it provides a kind of automatic water irrigation rig, and it can accurately control and keep the humidity of soil.In other words, the present invention can integrate with dissimilar soil and use to be kept for the humidity of plant.

Another advantage of the present invention provides a kind of automatic water irrigation rig, its optionally direct water make water can be provided for the All Ranges soil of this container for plants thus to the zones of different of soil.

Another advantage of the present invention is that it provides a kind of automatic water irrigation rig, and it can not damage the root of any part, the especially plant of plant during watering.

Another advantage of the present invention is that it provides a kind of automatic water irrigation rig, and it can make the user easily water filled it up with and need not move any parts of container for plants or need any special irrigation implement.

Another advantage of the present invention provides a kind of automatic water irrigation rig, and original structure or style that it need not change plant make various types of plants all can plant in container for plants of the present invention thus.

Another advantage of the present invention is that it provides a kind of automatic water irrigation rig, and wherein the present invention need not adopt and any costliness can realize above-mentioned purpose with structure complicacy.Therefore, the present invention successfully provides a kind of cost-effective solution can be plant the water and the watering time that prolongs this plant of suitable amount to be provided.

Other advantage of the present invention and characteristics are able to demonstrate fully through following detailed description and can be achieved through the means specially pointed out in the accompanying claims and the device of combination.

According to the present invention; Aforementioned purpose and other purposes are achieved through a kind of automatic water irrigation rig that is used for container for plants with advantage, and this automatic water irrigation rig comprises that water storage device and one group of water irrigation component that is used to store the water of predetermined quantity flows to this container for plants routinely water is guided.

Each this water irrigation component has the water that a water leading end that extends from this water storage device and being selected property be buried in the specific region of this potted plant chamber and irrigates end; Wherein this water irrigation component is suitable for guiding and make this water to continue at this water of this water irrigation component irrigate end infiltrating irrigation from this water storage device to this specific region of this potted plant chamber from this water in water, thereby keeps and control the humidity of this soil.

Corresponding to others of the present invention; The present invention includes an automatic water irrigation rig to be used for two or more container for plants, wherein this automatic water irrigation rig comprise a water that is used to store predetermined quantity water storage device and one group respectively with the water irrigation component of each container for plants of water pilot flow direction.

Through to subsequently the description and the understanding of accompanying drawing, further aim of the present invention and advantage will be able to demonstrate fully.

Of the present invention these with other purpose, characteristics and advantage, through following detailed description, accompanying drawing and claim are able to demonstrate fully.

Description of drawings

Fig. 1 is the stereogram according to the automatic water irrigation rig of preferred embodiment of the present invention.

Fig. 2 is the profile according to the automatic filtration irrigation device that is used for container for plants of the above-mentioned preferred embodiment of the present invention.

It is alternative according to being equal to of the automatic filtration irrigation device that is used for two or more container for plants of the above-mentioned preferred embodiment of the present invention that shown in Figure 3 is.

It is alternative according to being equal to of the automatic water filtration irrigation device that is used for container for plants of the above-mentioned preferred embodiment of the present invention that shown in Figure 4 is.

Shown in Fig. 5 A is the automatic irrigation device that is used for container for plants according to the present invention's second preferred embodiment.

Fig. 5 B is the upward view according to the automatic irrigation device that is used for container for plants of the present invention's second preferred embodiment.

Shown in Figure 6 is the front view according to the automatic irrigation device that is used for container for plants of the present invention's the 3rd preferred embodiment.

Embodiment

Fig. 1 of adjoint and Fig. 2, according to the automatic water irrigation rig that is used for one or more container for plants of preferred embodiment of the present invention be able to illustrate, wherein this container for plants is a traditional flowerpot, flowers or other plant can be planted in it.Especially, the root of plant can be formed in this container for plants through soil.

This vessel 10 has a plantation chamber 11 to be used to hold root and an edge 12 of soil and plant, and this edge 12 forms the open top of a plantation chamber 11 to allow plant growing.Correspondingly, the velamen soil conservation of plant is in the plantation chamber 11 of vessel 10.

This automatic water irrigation rig comprises the water storage device 20 and the one group of water irrigation component 30 that are used to store the water of predetermined quantity.Each water irrigation component 30 all has water that a water leading end 301 that extends from water storage device 20 and a selectivity be buried in the specific region of plantation chamber 11 and irrigates and hold 302.

Correspondingly, water irrigation component 30 is suitable for guiding and routinely make water to infiltrate the water irrigation end 302 to water irrigation component 30 specific region of the water pilot flow direction plantation chamber 11 that comes from water storage device 20, thereby keeps and control the humidity of soil.In other words, the water of this water irrigation component 30 irrigate end 302 be positioned in plantation chamber 11 zones of different so that water infiltrate to this, thereby even can the water of the All Ranges of plantation chamber 11 be offered the root of plant.

As shown in Figure 1; This water storage device 20 comprises a water pocket 21; Be preferably C-shape, its position height is higher than the residing position height of soil top upper surface in the plantation chamber 11, makes that thus the water in the water storage device 20 is directed flowing to water irrigation component 30 under the pressure effect of water.

It should be noted that this water pocket 21 has the profile that the user wants, like C-shape, D-shape, O-shape and other analogous shape, preferred C-shape.Further, this water pocket 21 comprises one group of water pocket unit, and wherein the water pocket unit of this water pocket unit group is connected and forms this water pocket 21 together.This water pocket 21 comprises that each water pocket unit of water pocket unit group also can be respectively an independence and the little water pocket that separates separately; Be respectively equipped with one or more water irrigation components 30 on each water pocket unit this moment, so that the water pilot flow direction in each water pocket unit of this water pocket 21 is planted the soil in the chamber 11.

This water pocket 21 has a water inlet 211, and it is applicable to that with this water pocket 21 topped up with water wherein the water leading end 301 of this water irrigation component 30 extends from the inwall of this water pocket 21 at intervals.Therefore, when water pocket 21 is set at the top end surface of soil, this water irrigation component 30 will be hidden in this water pocket 21.

This water pocket 21, it is set at the top end surface of soil, is not moving any parts of this container for plants and under the situation of the special instrument that waters, water is being joined this water storage device to make things convenient for the user.The user can use water bottle that water is joined this water pocket 21.It should be noted that nutrient solution also can join in this water pocket 21, make this nutrient solution to be transported among the soil thus through this water irrigation component 30.

This water storage device 20 comprises that further the delivery port 212 of one group of inwall that is formed at water pocket 21 at interval is to move the water to flow into the water leading end 301 of the water irrigation component 30 that links to each other with this water pocket 21.Especially, the water leading end 301 of this water irrigation component 30 is removably coupled with this delivery port 212 mutually.In other words, this water irrigation component 30 not only is hidden in the plantation chamber 11 and by vessel 10 protections, it uses also being selected property adjustment of number.When a bigger plantation chamber 10 or plant were needed the water of relatively large quantity, the water irrigation component 30 of more number was used to couple mutually with this water pocket 21 with having more.It should be noted that untapped delivery port 212 can be closed the generation of leaking with any water that stops this water pocket 21.Preferably, sealing ring by around the neighboring of the water leading end 301 that is arranged on water irrigation component 30 with the water leading end 301 of water irrigation component 30 coupling mutually with delivery port 212 hermetically with removably, thereby the generation that anti-sealing leaks.

Alternatively, this water pocket 21 is processed by having flexible soft material, and when in this water pocket 21 when anhydrous, this water pocket 21 is in folded state, and do not have that little air can only be arranged in the water pocket 21 this moment; When 211 pairs of these water pockets 21 of water inlet through water pocket 21 added water, this water pocket 21 was strutted by the water that adds gradually, and when in this water pocket 21 during topped up with water, this water pocket 21 is in open mode.

Alternatively; This water pocket 21 is processed by rigid material; The tip position that is somebody's turn to do the water pocket of being processed by rigid material 21 is provided with a bigger water inlet 211, when adding water through 211 pairs of these water pockets 21 of this water inlet, makes water inlet 211 cross sections of the cross section of the current that in this water pocket 21, add entry less than this water pocket 21; Make that thus the air in this water pocket 21 also is discharged from through this water inlet 211 when in this water pocket 21, adding water through this water inlet 211.Preferably; The water inlet 211 of this water pocket 21 is provided with a water pocket lid; This water pocket covers and is provided with an import and an outlet, and wherein this import is applicable in this water pocket 21 and adds water, and this outlet is applicable to is discharging the air in this water pocket 21 when this water pocket adds water gradually.More preferably; The exit that the import department of this water pocket lid is provided with a water inlet pipe that communicates with this water pocket 21 and this water pocket lid is provided with a blast pipe that communicates with this water pocket 21; Wherein this water inlet pipe is applicable in this water pocket 21 and adds water, and this blast pipe is applicable to is discharging the air in this water pocket 21 when this water pocket adds water gradually.As depicted in figs. 1 and 2, each water irrigation component 30 includes a pliable and tough water pipe 31 and a water drip emitters 32 that extends to the specific region of plantation chamber 11 from pliable and tough water pipe 31 of extending from water storage device 20.

Correspondingly, pliable and tough water pipe 31 is processed by water-stop materials such as plastics or rubber and is had predefined flexibility so that an any shape of wanting of these pliable and tough water pipe 31 flexible one-tenth.The water leading end 301 of this water irrigation component 30 is formed on an end of pliable and tough water pipe 31, makes a corresponding end of this pliable and tough water pipe 31 operationally be coupled in its water out 212 mutually with water storage device 20 thus.In addition, the length of this pliable and tough water pipe 31 be can select with substituted, thereby water infiltrating irrigation 32 is positioned at the desired locations of plantation chamber 11.

This water infiltrating irrigation 32 ones and pliable and tough water pipe 31 end-to-end being coupled in mutually together, wherein pliable and tough water pipe 31 are arranged to be turned to adjustably selectively water infiltrating irrigation 32 is positioned at the specific location area of plantation chamber 11.In other words, this water infiltrating irrigation 32 can optionally be buried in the plantation chamber 11 and be gone so that water is seeped in the soil.In addition, water infiltrating irrigation 32 removably couples with pliable and tough water pipe 31 mutually, make thus to take place that water is revealed or when breaking when one among them, the user replaceable with change that water infiltrating irrigation 32 or the pliable and tough water pipe 31 that the water leakage takes place.

As depicted in figs. 1 and 2, each water infiltrating irrigation 32 is processed by water penetration material such as pottery and is formed with an elongate structure.Water infiltrating irrigation 32 has one group of water infiltrating irrigation hole 321 with according to the water content in the soil, and water is infiltrated in the plantation chamber 11 continuously.In addition, water infiltrating irrigation 32 has a tubular structure, and this tubular structure has an openend and a closing end, and a water channel 322 extends between this openend and closing end.Water infiltrating irrigation 32 will absorb the water of moisture in this water infiltrating irrigation 32 and reach capacity.

Correspondingly, the openend of water infiltrating irrigation 32 is coupled in together with pliable and tough water pipe 31 mutually, makes water be directed flowing into the water channel 32 of water infiltrating irrigation 322 and ooze hole 321 through water thus and penetrates in the soil and go.The closing end of this water infiltrating irrigation 32 is formed with a tapering point so that in the soil that water infiltrating irrigation 32 can be inserted in the container body 10.

Especially, when the water content of water infiltrating irrigation 32 was lower than the water content of soil, water infiltrating irrigation 32 was set up so that water oozes hole 322 continuation through this water infiltrates among the soil.When the water content of water infiltrating irrigation 32 was higher than the water content of soil, water infiltrating irrigation 32 was configured to stop to make water to infiltrate among the soil.It should be noted that water content in the soil depends on that what of moisture plant carry.Therefore, when plant needs more water when being used to grow, the water content in the soil will descend fast.On the other hand, water infiltrating irrigation 32 will make water ooze out to keep the water content in the soil.

Therefore, water infiltrating irrigation 32 will keep the water content between water infiltrating irrigation 32 and the soil balance with accurate control with keep soil moisture.It should be noted that when the water content in the soil is lower than the water content of water infiltrating irrigation 32 water will be under the effect of hydraulic pressure infiltrates soil from water infiltrating irrigation 32.In case reach its water balance, for example the water content of the water content in the soil and water infiltrating irrigation 32 is identical, and water will stop to infiltrate to soil.Therefore, water infiltrating irrigation 32 can be integrated with dissimilar soil and use.In addition, make the water of suitable amount be provided for plant, thereby it is excessive to prevent plant is supplied water according to the water content in the soil.

This water irrigation component 30 comprises that further a water induction element 33 that is contained in the pliable and tough water pipe 31 flows to water infiltrating irrigation 32 with guiding water from water storage device 20.Correspondingly, water induction element 33 is processed by water penetration material such as cotton thread and is formed with an elongate structure.Therefore, from the water of water storage device 20 through guiding flow through via water induction element 33 pliable and tough water pipe 31 with flow to water infiltrating irrigation 32.

The automatic water irrigation rig of the present invention further comprises one group of air breather pipe 40 that operationally couples mutually with water irrigation component 30.As above be somebody's turn to do, be conducted through water irrigation component 30 under the hydraulic pressure effect of the water within it of the water in the water storage device 20.When air got in the water irrigation component 30, flowing of water will get clogged.Air breather pipe 40 is configured to the air in the water irrigation component 30 is removed.

As depicted in figs. 1 and 2, each air breather pipe 40 is processed by the material with pliability and water-stop property, and like plastics or rubber, it is suitable for being buried in any specific region of plantation chamber 11.This air breather pipe 40 couples to be directed flowing into the water infiltrating irrigation at water 32 o'clock with pliable and tough water pipe 31 respectively mutually, discharges the air in the pliable and tough water pipe 31.

Each air breather pipe 40 has one and is coupled in mutually near the lower end 41 of the appropriate location of water infiltrating irrigation 32 and one with pliable and tough water pipe 31 and extends upward to the upper end 42 of the top end surface of soil.Preferably, the lower end 41 of this air breather pipe 40 extends upward from pliable and tough water pipe 31.Therefore, when water from pliable and tough water pipe 31 when water infiltrating irrigation 32 is flowed, the air in the pliable and tough water pipe 31 also is pushed to water infiltrating irrigation 32.Air will be discharged to air breather pipe 40 from pliable and tough water pipe 31 before getting into water infiltrating irrigation 32.Preferably, to be connected the distance apart from water infiltrating irrigation 32 of pliable and tough water pipe 31 be that 0.5cm sentences guarantee that air disengaged before getting into water infiltrating irrigation 32 among pliable and tough water pipe 31 in the lower end 41 of air breather pipe 40.

The upper end 422 of each air breather pipe 40 extends upward to the top of the soil top end surface position of plantation chamber 11.Preferably, the upper end 42 of air breather pipe 40 is maintained at the inner side of top one side of the top 12 of container body 10.Therefore, do not have the obstruction factor, in air breather pipe 40, disengage thereby block air like the understanding outer upper end 42 that is stuck in this air breather pipe 40 of the soil particle in water in the water storage device 20 or the plantation chamber 11.Preferably, in case the air in the pliable and tough water pipe 31 is released out through each air breather pipe 40, the upper end 42 of air breather pipe 40 should be closed, as being closed by stopper.When water storage device 20 was sky, air possibly get into pliable and tough water pipe 31 once more.The upper end 42 of air breather pipe 40 will be opened so that air can discharge in pliable and tough water pipe 31 once more.

In order to use the present invention, the user can be in a conventional manner at first with plant planting in vessel, in this way, at first soil is put plantation chamber 11 bottom positions into.Simultaneously, the water infiltrating irrigation of a water irrigation component 30 32 can be placed in the bottom position of this soil.When continuing in plantation chamber 11, to add soil, the water infiltrating irrigation of water irrigation component 30 32 can optionally be placed on the zones of different of plantation chamber 11 and the differing heights position of soil.Therefore; After being placed on the height of the top end surface present position that is higher than this soil at topped up with water and/or nutrient solution in water storage device 20 with this water storage device 20; Water irrigation component 30 is the zones of different of selectivity direct water to soil, makes water even can evenly be offered the soil of the All Ranges position in this container for plants thus.

Correspondingly, because the water infiltrating irrigation of this water irrigation component 30 32 is positioned at the zones of different of plantation chamber 11 in advance, the user need not move this water irrigation component 30 and can irrigate plant, thereby makes the root of this plant can not come to harm.Especially this water infiltrating irrigation 32 can be inserted among the soil, makes that thus when plant is planted vessel 10 after, water irrigation component 30 can be positioned in the zones of different position of planting chamber 11.

As shown in Figure 3, a kind of modified of this automatic water irrigation rig is able to illustrate, and it is planted in the plant in the plural container for plants respectively in order to irrigate.As shown in Figure 3, this automatic water irrigation rig further comprises a pliable and tough water guiding piece 50, and wherein this water guiding piece 50 extends with guiding from each water irrigation component 30 of the current direction in the water storage device 20 to water irrigation component 30 from water storage device 20.Especially, this water guiding piece 50 is tube-like pieces, and it forms an openend and a closing end.The one end operability ground of the opening of this water guiding piece 50 is connected with the delivery port 212 of water storage device 20.An end that is closed of this water guiding piece 50 spills in water guiding piece 50 when preferably being directed flowing to each water irrigation component 30 by a plug closes with prevention water.Correspondingly, this water storage device 20 forms a tank to supply water to each container for plants through water irrigation component 30.The delivery port 212 of this water storage device 20 is arranged at the bottom of this water storage device 20.It should be noted that water storage device 20 preferably is positioned in away from the position of this container for plants and is that 1.5m can flow to each water irrigation component 30 to guarantee water under the effect of hydraulic pressure apart from ground level.Correspondingly, the water leading end 301 of this water irrigation component 30 extends the water pilot flow direction water irrigation component 30 guiding from water storage device 20 through water guiding piece 50 at intervals from the closing end of water guiding piece 50 and the position between the openend.Preferably, this water guiding piece 50 has one group of aquaporin 51, and it is arranged between closing end and the openend of this water guiding piece 50 removably with hermetically to couple mutually with the water leading end 301 of this water irrigation component 30 at intervals.Especially, this pliable and tough water pipe 31 removably couples with the aquaporin 51 of this water guiding piece 50 mutually.Therefore, this water guiding piece 50 between water storage device 20 to container for plants, formed a bridge with the water pilot flow direction its direction that will guide.

This water guiding piece 50 further comprises at least one moisture stream joint 52, and it has two or more water irrigation components 30 and removably couples mutually with an aquaporin 51.Correspondingly, moisture stream joint 52 has a moisture that couples mutually with this aquaporin 51 and flows to the mouth of a river and two or more moisture outflow mouth of a river 212 that couples mutually with corresponding two or more water irrigation components respectively.Especially, this pliable and tough water pipe 31 moisture of removably being coupled in this moisture stream joint 52 flows out the mouth of a river 212 and links to each other with the aquaporin 51 of this water guiding piece 50 with the earthing that links to each other.In other words; When requiring two or more water irrigation components 30 to be used for the plant in the container for plants irrigated, this moisture stream joint 52 can be used as an adapter and be inserted in the plantation chamber 11 to allow two or more water irrigation components 30.For the water that prolongs this automatic water irrigation rig covers, can supply distance to prolong water with end-to-end each other being coupled in together of two or more water guiding pieces 50.Correspondingly; Opening one end of first water guiding piece 50 can with these water storage device 20 operability be coupled in, and the closing end of first water guiding piece 50 couples with opening one end of second water guiding piece 50 with operability ground through removing to be opened behind the stopper mutually.Therefore, the water from water storage device 20 is directed flowing to irrigate via 30 pairs of plants that are arranged in each container for plants of water irrigation component along the first and second water guiding pieces.This automatic water irrigation rig comprises that further an air guide 60 is discharged from through this air breather pipe 40 with the air that guiding discharges from water irrigation component 30.Especially, this air guide 60 is a tubulose, and it forms an openend and a closing end.The openend of this guiding piece 50 extends this container for plants so that air is released into surrounding environment.When air was released from the openend of this air guide 60, the closing end of this air guide 60 preferably was closed to stop air to get into air guide 60 through an air lock.Correspondingly, the low side 41 of each air breather pipe 40 and each pliable and tough water pipe 31 are coupled in the appropriate location near water infiltrating irrigation 32 mutually.The upper end 42 of this air breather pipe 40 is coupled in the openend of air guide 60 and the position between the closing end at intervals and removably, makes that thus the air in the pliable and tough water pipe 31 is collected through this air guide 60.It should be noted that from the air of each air breather pipe 40 through air guide 60 concentrated and certainly the openend of this air guide 60 be released.In addition, when being released from the air of each water irrigation component 30 openend through this air guide 60, another air lock is coupled to the openend of this air guide 60.Therefore, the two ends of this air guide 60 will be closed to stop any air to reflux in it.Therefore, two or more water guiding pieces 50 can end-to-endly be coupled in together and supply distance to prolong water, and two or more air guide 60 can end-to-endly be coupled in together to prolong the air release distance.Correspondingly, the openend of first air guide 60 can be exposed in the surrounding environment and the closing end of first air guide 60 is opened through the air lock that removes its present position and couples mutually with second air guide 60 with operability ground.Therefore, will flow to first and second air guide 60 from the air of water irrigation component 30 and be discharged from through air breather pipe 40.

Further; Can a plurality of aforesaid automatic water irrigation components that are used for container for plants be combined and form the automatic irrigation system that to irrigate a plurality of container for plants simultaneously; Wherein this automatic irrigation system comprises one group of water storage device 20, one group of water irrigation component 30, one group of air breather pipe 40 and air guide 60; Wherein each container for plants is distinguished corresponding water storage device 20, at least one water irrigation component 30 and at least one air breather pipe 40; Wherein be located at water storage device 20 with an end of the pliable and tough water pipe 31 of corresponding each water irrigation component 30 of this container for plants and it extends to the plantation chamber 11 of this container for plants from this water storage device 20, its other end and water infiltrating irrigation 32 couples mutually and this water infiltrating irrigation 32 is buried in the soil of specific region of container for plants; With corresponding each the air breather pipe 40 of this container for plants as aforementioned pliable and tough water pipe 31 of being located at water irrigation component 30 respectively, wherein appropriate location and this air breather pipe 40 be located on the pliable and tough water pipe 31 near the water infiltrating irrigation of water irrigation component 30 32 of an end of this air breather pipe 40 extends upward to air guide 60 from pliable and tough water pipe 31.

It should be noted that; The top of this water storage device 20 is provided with this blast pipe of a water storage device 20 in a water inlet pipe and blast pipe and two the adjacent water storage devices 20 and this water inlet pipe of another water storage device 20 is connected; Wherein this water inlet pipe of this storage device 20 nearest apart from external water source of this automatic irrigation system is suitable for this water storage device 20 that the water pilot flow direction of external water source is nearest apart from external water source; The water inlet pipe of this blast pipe of the water storage device 20 that this is nearest apart from external water source and another adjacent this water storage device 20 is connected; Thereby make when the user adds water to this automatic irrigation system; The water of external water source is from the water inlet pipe inflow of this water storage device 20 and after it is by topped up with water; Water will flow out and flow into and this its adjacent water storage device from the blast pipe of this water storage device, and in the same manner, other water storage device 20 is also by topped up with water.The water storage device 20 nearest apart from external water source of preferred this automatic irrigation system is suitable for the water pilot flow direction of external water source is somebody's turn to do the water storage device 20 nearest apart from external water source; The water inlet pipe of water pocket lid that wherein can be located at the water pocket 21 of water storage device 20 certainly like the water at said external water source flows into the water pocket 21 of this water storage device 20; The blast pipe of being located at this water pocket lid is suitable for the air in the water pocket 21 is discharged and the water inlet pipe of the water pocket 21 of the blast pipe of this water pocket 21 and next water storage device 20 is connected; When the user adds water to this automatic irrigation system; The water of external water source flows into this water pocket 21 from the water inlet pipe of the water pocket 21 of water storage device 20; Air in the water pocket 21 are discharged in adding the water process gradually, and when in this water pocket during by topped up with water, water will flow out in the water pocket 21 of this water storage device 20 and flow in the water pocket 21 of next water storage device 20; With same procedure, the water of other water storage device 20 of this automatic irrigation system is also filled it up with.

Alternatively; As shown in Figure 4; This automatic irrigation system comprises a water guiding piece 50; One group of water irrigation component 30, one group of air breather pipe 40 and air guide 60; Wherein this water guiding piece 50 is suitable for each container for plants of water pilot flow direction of external water source and has water storage effect; Each container for plants corresponding respectively at least one water irrigation component 30 and its corresponding at least one air breather pipe 40, wherein the pliable and tough water pipe 31 of each water irrigation component 30 is located at this water guiding piece 50 and is suitable for the plantation chamber 11 with the water pilot flow direction container for plants in the water guiding piece 50, and its water infiltrating irrigation 32 is suitable in the soil from the specific region of the plantation chamber 11 of water infiltrating irrigation to this container for plants of pliable and tough water pipe 31; At least be provided with an air breather pipe and each air breather pipe 40 as the aforementioned pliable and tough water pipe 31 of being located at water irrigation component 30 respectively on the pliable and tough water pipe 31 of each water irrigation component 30, wherein appropriate location and this air breather pipe 40 be located on the pliable and tough water pipe 31 near the water infiltrating irrigation of water irrigation component 30 32 of an end of this air breather pipe 40 extends upward to air guide 60 from pliable and tough water pipe 31.

Alternatively; This water irrigation component 30 is processed by water permeability vegetable fiber; As processing by cotton thread; The one of which end be located at water storage device 20 water pocket 21 delivery port 212 positions and communicate with this delivery port 212, to be used for the soil in the plantation chamber 11 of the water pilot flow direction container for plants of this water pocket 21.Further, an end of the water pocket of being located at water storage device 20 21 of this water irrigation component 30 is provided with a water flow controller to regulate the specific discharge of the water of this water irrigation component 30 of flowing through as required.

Further, soil in 32 pairs plantation chambers 11 of the water infiltrating irrigation of water through this water irrigation component 30 and the irrigation of plant are a kind of slow release irrigations.It should be noted that traditional irrigation to container for plants such as flowerpots be to use irrigation implement such as water sprinkler etc. directly water to be joined in the soil of container for plants or through aqueduct with water directly guiding flow into the soil of container for plants; And the automatic water irrigation rig of the present invention is divided into two parts; Wherein water storage device 20 is used to store the infiltrating irrigation water; Water irrigation component 30 is used for the soil in the water pilot flow direction container for plants; The water infiltrating irrigation of water irrigation component 30 32 is processed by the water permeable material, thereby water can slowly be oozed out from the water infiltrating irrigation of water irrigation component 30 32.Therefore; The automatic water irrigation rig of the present invention provides a slow release to irrigate to container for plants such as flowerpots; Compare with traditional pouring mode, under the situation of the water that uses equivalent, when using automatic water irrigation rig of the present invention the plant in the container for plants such as flowerpot; Its irrigation time is significantly prolonged, thereby soil moisture in the container for plants such as flowerpot is maintained and prevents that the soil moisture in this container for plants is too high.

Preferably, the flowerpot bottom of uniting use with the automatic water irrigation rig of the present invention preferably has discharge outlet, and when the water in the flowerpot was excessive, discharge outlet can be discharged excessive water.

Shown in Fig. 5 A and Fig. 5 B of adjoint, according to the automatic water irrigation rig that is used for container for plants of the present invention's second preferred embodiment be able to illustrate, wherein this container for plants is a traditional flowerpot, flowers or other plant can be planted in it.Especially, the root of plant can be formed in this container for plants through soil.

This vessel 10A has a plantation chamber 11A to be used to hold root and an edge 12A of soil and plant, and this edge 12A forms the open top of a plantation chamber 11A to allow plant growing.Correspondingly, the velamen soil conservation of plant is in the 11A of the plantation chamber of vessel 10A.

This automatic water irrigation rig comprises a water storage device 20A who is used to store the water of predetermined quantity; Wherein this water storage device 20A comprises a water pocket 21A; Be preferably C-shape; Its position height is higher than the residing position height of soil top upper surface in the plantation chamber 11A; The bottom of the water pocket 21A of said water storage device 20A is provided with one group of water spaced apart and oozes hole 210A, make thus water in the water pocket 21A of water storage device 20A under the pressure effect of water from this water ooze among the 210A of hole to the soil direction of the plantation chamber of this vessel 10A 11A ooze out and dropwise continuously drip irrigation to the soil of the plantation chamber 11A of this vessel 10A.

It should be noted that this water pocket 21A has the profile that the user wants, like C-shape, D-shape, O-shape and other analogous shape, preferred C-shape.Further, this water pocket 21A comprises one group of water pocket unit, and wherein the water pocket unit of this water pocket unit group is connected respectively and forms this water pocket 21A together.This water pocket 21A comprises that each water pocket unit of water pocket unit group also can be respectively an independence and the little water pocket that separates separately; Be respectively equipped with one or more water on the bottom of each water pocket unit at this moment and ooze hole 210A, so that the water droplet in each water pocket unit of this water pocket 21A is irritated to the soil of planting in the 11A of chamber.

Should be understood that; This water pocket 21A preferably be set at this vessel 10A plantation chamber 11A soil directly over; To make things convenient for the user not moving any parts of this container for plants and under the situation of the special instrument that waters, making the water automatic dripping irrigation to the soil of planting in the 11A of chamber.

This water pocket 21A further has a water inlet 220A, and it is applicable to the topped up with water with this water pocket 21A.The user can use water bottle that water is joined this water pocket 21A.It should be noted that nutrient solution also can join among this water pocket 21A, make this nutrient solution to be transported among the soil thus through this automatic water irrigation rig.

Alternatively, this water pocket 21A processes by having flexible soft material, and when among this water pocket 21A when anhydrous, this water pocket 21A is in folded state, and do not have that little air can only be arranged among the water pocket 21A this moment; When the water inlet 220A through water pocket 21A added water to this water pocket 21A, this water pocket 21A was strutted by the water that adds gradually, and when among this water pocket 21A during topped up with water, this water pocket 21A is in open mode.

Alternatively; This water pocket 21A also can be processed by rigid material; The upper position that is somebody's turn to do the water pocket 21A that is processed by rigid material is provided with a bigger water inlet 220A, when through this water inlet 220A this water pocket 21A being added water, makes the water inlet 220A cross section of the cross section of the current that in this water pocket 21A, add entry less than this water pocket 21A; Make that thus the air among this water pocket 21A also is discharged from through this water inlet 220A when in this water pocket 21A, adding water through this water inlet 220A.Preferably; The water inlet 220A position of this water pocket 21A is provided with a water pocket lid; This water pocket covers and is provided with an import and an outlet, and wherein this import is applicable in this water pocket 21A and adds water, and this outlet is applicable to is discharging the air among this water pocket 21A when this water pocket adds water gradually.More preferably; The exit that the import department of this water pocket lid is provided with a water inlet pipe that communicates with this water pocket 21A and this water pocket lid is provided with a blast pipe that communicates with this water pocket 21A; Wherein this water inlet pipe is applicable in this water pocket 21A and adds water, and this blast pipe is applicable to is discharging the air among this water pocket 21A when this water pocket adds water gradually.

The bottom of this water pocket 21A further is provided with one group and oozes the corresponding water flow controller of hole 210A to regulate the specific discharge that water from the bottom of this water pocket 21A oozes the water that hole 210A oozes out as required with the water of the bottom of this water pocket 21A respectively.

It should be noted that the diameter that this water oozes hole 210A is 0.01mm～30mm, preferred 0.1mm～1mm.

Adjoint shown in Figure 6, according to the automatic water irrigation rig that is used for one or more container for plants of the present invention's the 3rd preferred embodiment be able to illustrate, wherein this container for plants is a traditional flowerpot, flowers or other plant can be planted in it.Especially, the root of plant can be formed in this container for plants through soil.

This vessel 10B has a plantation chamber 11B to be used to hold root and an edge 12B of soil and plant, and this edge 12B forms the open top of a plantation chamber 11B to allow plant growing.Correspondingly, the velamen soil conservation of plant is in the 11B of the plantation chamber of vessel 10B.

This automatic water irrigation rig comprises the water storage device 20B and the one group of water irrigation component 30B that are used to store the water of predetermined quantity.Each water irrigation component 30B all has a water that is buried in the soil of specific region of plantation chamber 11B from water leading end 301B that water storage device 20B extends and selectivity and irrigates end 302B.

Correspondingly; Water irrigation component 30B is suitable for the water pilot flow direction that comes from water storage device 20B is planted the specific region guiding of chamber 11B and routinely made water infiltrate the soil on every side of irrigating end 302B to the water of water irrigation component 30B, thereby keeps and control the humidity of this soil.In other words, the water of this water irrigation component 30B irrigate end 302B be positioned in plantation chamber 11B zones of different so that water infiltrate to this, thereby even can water be offered the root of plant of the All Ranges of plantation chamber 11B.

This water storage device 20B comprises a water pocket 21B; Be preferably C-shape; Its position height is higher than the residing position height of soil top upper surface in the plantation chamber 11B, makes that thus the water in the water storage device 20B is directed flowing to water irrigation component 30B under the pressure effect of water.

It should be noted that this water pocket 21B has the profile that the user wants, like C-shape, D-shape, O-shape and other analogous shape, preferred C-shape.Further, this water pocket 21B comprises one group of water pocket unit, and wherein the water pocket unit of this water pocket unit group is connected and forms this water pocket 21B together.This water pocket 21B comprises that each water pocket unit of water pocket unit group also can be respectively an independence and the little water pocket that separates separately; Be respectively equipped with one or more water irrigation component 30Bs on each water pocket unit this moment, so that the water pilot flow direction in each water pocket unit of this water pocket 21B is planted the soil in the 11B of chamber.

This water pocket 21B has a water inlet 220B, and it is applicable to the topped up with water with this water pocket 21B, and wherein the water leading end 301B of this water irrigation component 30B extends to the direction of plantation chamber 11B from the inwall of this water pocket 21B at intervals.Therefore, when water pocket 21B is set at the top end surface of soil, the end of this water leading end 301B of this water irrigation component 30B will be hidden among this water pocket 21B.

This water pocket 21B, it is set at the top end surface of soil, is not moving any parts of this container for plants and under the situation of the special instrument that waters, water is being joined this water storage device to make things convenient for the user.The user can use water bottle that water is joined this water pocket 21B.It should be noted that nutrient solution also can join among this water pocket 21B, make this nutrient solution to be transported among the soil thus through this water irrigation component 30B.

This water storage device 20B comprises that further the delivery port 210B of one group of water pocket wall that is formed at water pocket 21B at interval is to move the water to flow into the water leading end 301B of the water irrigation component 30B that links to each other with this water pocket 21B.Especially, the water leading end 301B of this water irrigation component 30B removably is coupled to this delivery port 210B position of this water pocket 21B respectively with earthing mutually.In other words, this water irrigation component 30B not only is hidden in the plantation chamber 11B and by vessel 10B protection, it uses also being selected property adjustment of number.When a bigger plantation chamber 10 or plant were needed the water of relatively large quantity, the water irrigation component 30B of more number was used to couple mutually with this water pocket 21B with having more.It should be noted that untapped delivery port 210B can be closed the generation of leaking with any water that stops this water pocket 21B.Preferably, sealing ring by around the neighboring of the water leading end 301B that is arranged on water irrigation component 30B with the water leading end 301B of water irrigation component 30B coupling mutually with delivery port 210B hermetically with removably, thereby the generation that anti-sealing leaks.

Alternatively, this water pocket 21B processes by having flexible soft material, and when among this water pocket 21B when anhydrous, this water pocket 21B is in folded state, and do not have that little air can only be arranged among the water pocket 21B this moment; When the water inlet 220B through water pocket 21B added water to this water pocket 21B, this water pocket 21B was strutted by the water that adds gradually, and when among this water pocket 21B during topped up with water, this water pocket 21B is in open mode.

Alternatively; This water pocket 21B also can be processed by rigid material; The tip position that is somebody's turn to do the water pocket 21B that is processed by rigid material is provided with a bigger water inlet 220B, when through this water inlet 220B this water pocket 21B being added water, makes the water inlet 220B cross section of the cross section of the current that in this water pocket 21B, add entry less than this water pocket 21B; Make that thus the air among this water pocket 21B also is discharged from through this water inlet 220B when in this water pocket 21B, adding water through this water inlet 220B.Preferably; This water pocket 21B is provided with one and is used to cover the water pocket lid at this water inlet 220B; This water pocket covers and is provided with an import and an outlet, and wherein this import is applicable in this water pocket 21B and adds water, and this outlet is applicable to is discharging the air among this water pocket 21B when this water pocket adds water gradually.More preferably; The exit that the import department of this water pocket lid is provided with a water inlet pipe that communicates with this water pocket 21B and this water pocket lid is provided with a blast pipe that communicates with this water pocket 21B; Wherein this water inlet pipe is applicable in this water pocket 21B and adds water, and this blast pipe is applicable to is discharging the air among this water pocket 21B when this water pocket adds water gradually.

It should be noted that; This water irrigation component 30B is a hollow water pipe shape structure; This water is irrigated the endcapped of end 302B and is provided with one group of water at this water irrigation end 302B and oozes hole 300B; Wherein this group water oozes hole 300B and is distributed in this water at intervals and irrigates end 302B irrigates end 302B with directed flow to this water water and ooze the hole from this water and ooze out into this water and irrigate the soil around the end 302B, thereby keeps and control the humidity of this soil.

Further; The upper end of the water leading end 301B of the water pocket 21B that is located at water storage device 20B of this water irrigation component 30B is provided with the water that a water flow controller irrigates end 302B with the specific discharge of the water of regulating this water irrigation component 30B that flows through as required and water from this water and oozes the unit seepage discharge of oozing out among the 300B of hole, to keep and to control the humidity that this water is irrigated end 302B soil on every side.

It should be noted that the diameter that this water oozes hole 210A is 0.01mm～30mm, preferred 0.1mm～1mm.

Those skilled in the art can understand that shown in the accompanying drawing and the embodiment of the invention described above only are to example of the present invention rather than restriction.

Can see that thus the object of the invention can fully effectively be accomplished.This embodiment that is used to explain function of the present invention and structural principle is proved absolutely and is described, and the present invention does not receive the restriction based on the change on these embodiment principle bases.Therefore, the present invention includes all modifications that is encompassed within Rights attached thereto claim claimed range and the spirit.

Claims (20)

1. a water automatic irrigation device is used for container for plants, it is characterized in that comprising:

One water storage device; It is applicable to the water that stores predetermined quantity; Wherein said water storage device comprises a water pocket; And the bottom of said water pocket is provided with one group of water and oozes the hole, and the water in the said water pocket of said water storage device is suitable for oozing the indoor soil of plantation that oozes out in the hole with drip irrigation to said container for plants from said water.

2. according to the water automatic irrigation device described in the claim 1; The position height that it is characterized in that the said water pocket place of said water storage device is higher than the indoor residing position height of soil top upper surface of said plantation, makes said water in the said water pocket of said water storage device can be under action of gravity ooze the indoor said soil of said plantation of drip irrigation to said container for plants in the hole from said water thus.

3. according to the water automatic irrigation device described in the claim 1, it is characterized in that said water pocket comprises one group of water pocket unit, the water pocket unit of wherein said water pocket unit group is connected respectively forms said water pocket together.

4. according to the water automatic irrigation device described in the claim 1; It is characterized in that said water pocket be set at the indoor soil of the said plantation of said container for plants directly over; To make things convenient for the user not moving any parts of said container for plants and under the situation of the special instrument that waters, making the indoor soil of the said plantation of water automatic dripping irrigation.

5. according to the water automatic irrigation device described in the claim 3; It is characterized in that said water pocket be set at the indoor soil of the said plantation of said container for plants directly over; To make things convenient for the user not moving any parts of said container for plants and under the situation of the special instrument that waters, making the indoor soil of the said plantation of water automatic dripping irrigation.

6. according to the water automatic irrigation device described in the claim 1, it is characterized in that process and the top of said water pocket is provided with a water inlet by flexible soft material by having for said water pocket, when in the said water pocket when anhydrous, said water pocket is in folded state; When the water inlet through said water pocket added water to said water pocket, said water pocket was strutted by the water that adds gradually.

7. according to the water automatic irrigation device described in the claim 5, it is characterized in that process and the top of said water pocket is provided with a water inlet by flexible soft material by having for said water pocket, when in the said water pocket when anhydrous, said water pocket is in folded state; When the water inlet through said water pocket added water to said water pocket, said water pocket was strutted by the water that adds gradually.

8. according to the water automatic irrigation device described in the claim 1; It is characterized in that said water pocket is processed by rigid material and said water pocket upper position is provided with a water inlet; The position of said water inlet is provided with a water pocket lid; Said water pocket covers and is provided with an import and an outlet, and wherein said import is applicable in said water pocket and adds water that said outlet is applicable to is discharging the air in the said water pocket gradually when said water pocket adds water.

9. according to the water automatic irrigation device described in the claim 5; It is characterized in that said water pocket is processed by rigid material and said water pocket upper position is provided with a water inlet; The position of said water inlet is provided with a water pocket lid; Said water pocket covers and is provided with an import and an outlet, and wherein said import is applicable in said water pocket and adds water that said outlet is applicable to is discharging the air in the said water pocket gradually when said water pocket adds water.

10. according to the water automatic irrigation device described in the claim 1, the bottom that it is characterized in that said water pocket is provided with one group and oozes the corresponding water flow controller in hole to regulate the unit seepage discharge of oozing the water that oozes out in the hole from the said water of said water pocket as required with the said water of said water pocket respectively.

11. according to the water automatic irrigation device described in the claim 5, the bottom that it is characterized in that said water pocket is provided with one group and oozes the corresponding water flow controller in hole to regulate the unit seepage discharge of oozing the water that oozes out in the hole from the said water of said water pocket as required with the said water of said water pocket respectively.

12. according to the water automatic irrigation device described in the claim 7, the bottom that it is characterized in that said water pocket is provided with one group and oozes the corresponding water flow controller in hole to regulate the unit seepage discharge of oozing the water that oozes out in the hole from the said water of said water pocket as required with the said water of said water pocket respectively.

13. according to the water automatic irrigation device described in the claim 9, the bottom that it is characterized in that said water pocket is provided with one group and oozes the corresponding water flow controller in hole to regulate the unit seepage discharge of oozing the water that oozes out in the hole from the said water of said water pocket as required with the said water of said water pocket respectively.

14. a water automatic irrigation device is used for container for plants, it is characterized in that comprising:

A water storage device that is used to store the water of predetermined quantity; With

One group of water irrigation component; Each said water irrigation component has a water that is buried in the soil of specific region of plantation chamber of said container for plants from water leading end that the water storage device extends and selectivity and irrigates end; Wherein said water leading end is suitable for the said water in the said water storage device is guided outflow in said water irrigation component, and said water is irrigated end and is suitable for the said soil with said water irrigation to the specific region of the said plantation chamber of said container for plants of said water leading end guiding outflow.

15. according to the water automatic irrigation device described in the claim 14; It is characterized in that said water irrigation component is a hollow water pipe shape structure; The said water of said water irrigation component is irrigated the endcapped of end and is provided with one group of water at said water irrigation end and oozes the hole; Wherein said water ooze the hole at intervals be evenly distributed in said water and irrigate end irrigates end to said water with directed flow water and ooze the hole from said water and ooze out into said water and irrigate the soil around the end 3, thereby keep and control the humidity of said soil.

16. according to the water automatic irrigation device described in the claim 14; It is characterized in that said water storage device comprises a water pocket being used to store the water of said predetermined quantity, the said water leading end that said water pocket is provided with one group of water out and said water irrigation component removably is coupled to the said delivery port position of said water pocket respectively.

17. according to the water automatic irrigation device described in the claim 15; It is characterized in that said water storage device comprises a water pocket being used to store the water of said predetermined quantity, the said water leading end that said water pocket is provided with one group of water out and said water irrigation component removably is coupled to the said delivery port position of said water pocket respectively with earthing mutually.

18. according to the water automatic irrigation device described in the claim 15; The upper end that it is characterized in that the said water leading end of said water irrigation component is provided with the water that a water flow controller irrigates end with the specific discharge of the water of regulating the said water irrigation component of flowing through as required and water from said water and oozes the unit seepage discharge of oozing out in the hole, to keep and to control the humidity that said water is irrigated end said soil on every side.

19. according to the water automatic irrigation device described in the claim 17; The upper end that it is characterized in that the said water leading end of said water irrigation component is provided with the water that a water flow controller irrigates end with the specific discharge of the water of regulating the said water irrigation component of flowing through as required and water from said water and oozes the unit seepage discharge of oozing out in the hole, to keep and to control the humidity that said water is irrigated end said soil on every side.

20. according to the water automatic irrigation device described in the claim 19; It is characterized in that said water pocket processed by rigid material; And the tip position of said water pocket is provided with a water inlet; Wherein said water pocket is provided with one and is used to cover cover at the water pocket lid of said water inlet and said water pocket and is provided with an import and an outlet, and wherein said import is applicable in said water pocket and adds water that said outlet is applicable to is discharging the air in the said water pocket gradually when said water pocket adds water.

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