CN203608615U - Stored water circled flowerpot - Google Patents

Abstract

The utility model discloses a stored water circled flowerpot. The flowerpot comprises a flowerpot body and a baffle, wherein a holding port is formed in the top of the flowerpot body, and a water storage tank is arranged at the bottom of the flowerpot body; the baffle and the flowerpot body are combined above the water storage tank, a plurality of filter holes and at least one siphon column are formed in the baffle, and the at least one siphon column penetrates through the baffle and is provided with a siphon part and a protruding part; the siphon part is accommodated in the water storage tank, a plurality of suction holes are formed in the siphon part, the protruding part protrudes out the baffle and extends toward the holding port, and an opening is formed in the top surface of the protruding part. Moisture in the oil can be automatically adjusted and the moisture and the water in the water storage tank can be circulated when plants are planted.

Description

Retaining circulation flowerpot

Technical field

The utility model relates to the flowerpot that a kind of planting plants is used, and in order to be used as the container of planting plants, refers to especially a kind of retaining circulation flowerpot with siphon post.

Background technology

Please refer to Fig. 1, for existing figure (one), this figure is the schematic diagram of traditional flowerpot 2, tradition flowerpot 2 is made up of a flowerpot body 20 and an accommodating disc 21, this type of flowerpot is the most common flowerpot, the bottom of this flowerpot body 20 offers multiple discharge outlet 201, and flowerpot body is placed on accommodating disc 21, user utilizes this type of flowerpot in the time of planting plants, after watering, in flowerpot, unnecessary water can flow out on accommodating disc 201 through multiple discharge outlet 201 of bottom, therefore, if the water of watering flowers is excessive, likely allow the water in flowerpot body 20 overflow outside accommodating disc 201, earth in flowerpot body 20 is easily rushed out because of excessive discharge outlet 201, make water residual on accommodating disc 201 also easily multiply mosquito bacterium, again, water flowers or go out a period of time when user forgets, plant in flowerpot body 20 is also easily withered dead because of lack of water.

Please refer to Fig. 2, for existing figure (two), this figure is the automatic feeding water flower-pot 3 of improvement from traditional flowerpot 2, such flowerpot has a flowerpot body 30 and an aqua storage tank 31, the bottom of flowerpot body 30 has a water suction post 301, and the post 301 that will absorb water inserts in aqua storage tank 31, earth in flowerpot body 30 can utilize physical principle that the water in aqua storage tank 31 is absorbed up, but this type of automatic feeding water flower-pot 3 because of water-taking efficiency bad, make the water distribution in earth incomplete, if and run into the season frequently of raining, likely cause the water content in soil too high, cause plant root to rot.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of and can reaches self water feeding and automatically regulate the flowerpot of the moisture in soil, and in order to address the above problem, the utility model provides a kind of retaining circulation flowerpot, there is a flowerpot body and a dividing plate, the top of this flowerpot body offers a socket, and the bottom of this flowerpot body has an aqua storage tank; This dividing plate combines in the top of this aqua storage tank with this flowerpot body, on this dividing plate, offer multiple treatment holes and at least one siphon post, this at least one siphon post runs through this dividing plate, and this at least one siphon post is a hollow cylinder, this at least one siphon post has a siphon portion and a protuberance, this siphon portion is placed in this aqua storage tank, and offer multiple suction holes in this siphon portion, this protuberance protrudes this dividing plate, and this protuberance extends towards this socket, and the end face of this protuberance offers an opening.

Technical way of the present utility model is that a dividing plate with multiple treatment holes is set above aqua storage tank, and this at least one siphon post runs through this dividing plate, the protuberance of this siphon post extends towards this socket, the siphon portion of this at least one siphon post inserts except tank, because protuberance and the water surface have differed a segment distance, can make the soil inner filling water in flowerpot divide, and through drainage mouth, water filtration unnecessary in soil be flow back to aqua storage tank.

Less important technological means of the present utility model is to offer at least one flow-guiding mouth in the position that is no more than this opening in the side of flowerpot body, unnecessary water in earth can be discharged from flow-guiding mouth, and can also will utilize multiple water pipes that multiple flow-guiding mouths of the present utility model are contacted mutually, can allow the accommodating moisture of multiple the utility model keep circulation, and see through the filtration system of particular design, filter out clean water by soil, do not pollute the environment and grow mosquito.

The utility model is compared with existing traditional flowerpot, existing traditional flowerpot cannot self water feeding, water flowers or go out a period of time if user forgets, the intrinsic plant of flowerpot is also easily withered dead because of lack of water, and residual water is also easily multiplied mosquito bacterium on accommodating disc, and the utility model makes too much water can see through the drainage filter of making a slip of the tongue to flow back to aqua storage tank, through the filtration of soil, make the water of discharging totally and not can affect environment.

The utility model is compared with existing automatic feeding water flower-pot, although existing automatic feeding water flower-pot can self water feeding, but water-taking efficiency is too high, make the water distribution in soil incomplete, water content in soil is too high, can cause plant root to rot, the utility model is because having drainage mouth, and protuberance extends towards this socket, water in aqua storage tank is through protuberance, see through again after soil filters and flow back to aqua storage tank, water content in soil is regulated automatically, the water surface in protuberance and aqua storage tank has differed the distance of seven to 18 centimeters, can make the soil inside in flowerpot be full of suitable moisture, can see through again water pipe is in series multiple flow-guiding mouths of the present utility model, can allow the utilization ratio of water improve, therefore, the cycle of watering can be increased to seven to 14, according to regulating in floristics and season.

Accompanying drawing explanation

Fig. 1 is existing figure (one);

Fig. 2 is existing figure (two);

Fig. 3 is exploded view of the present utility model;

Fig. 4 is profile of the present utility model (one);

Fig. 5 is profile of the present utility model (two);

Fig. 6 is action diagram of the present utility model;

Fig. 7 is enforcement figure of the present utility model.

Wherein, description of reference numerals is as follows:

1 retaining circulation flowerpot

10 flowerpot bodies

101 sockets

1011 platforms

102 aqua storage tanks

1021 exchanging water holes

1022 gear plugs

103 flow-guiding mouths

11 dividing plates

110 treatment holes

111 siphon posts

112 siphon portions

1121 suction holes

113 protuberances

1131 openings

100 water pipes

2 traditional flowerpots

20 flowerpot bodies

21 accommodating discs

201 discharge outlet

3 automatic feeding water flower-pots

30 flowerpot bodies

301 water suction posts

31 aqua storage tanks

Embodiment

For making those of ordinary skill in the art understand the purpose of this utility model, feature and effect, hereby by following specific embodiment, and coordinate appended graphicly, the utility model is illustrated in detail as rear:

Please refer to Fig. 3 of the present utility model, for exploded view of the present utility model, it is a kind of retaining circulation flowerpot 1 that this figure discloses the utility model, this retaining circulation flowerpot 1 has a flowerpot body 10 and a dividing plate 11, the top of this flowerpot body 10 offers a socket 101, and the bottom of this flowerpot body 10 has an aqua storage tank 102, this dividing plate 11 combines in the top of this aqua storage tank 102 with this flowerpot body 10, on this dividing plate 11, offer multiple treatment holes 110 and at least one siphon post 111, this at least one siphon post 111 runs through this dividing plate 11, and this at least one siphon post 111 is a hollow cylinder, this at least one siphon post 111 has a siphon portion 112 and a protuberance 113, this siphon portion 112 is placed in this aqua storage tank 102, and in this siphon portion 112, offer multiple suction holes 1121, this protuberance 113 protrudes this dividing plate 11, and this protuberance 113 extends towards this socket 101, the end face of this protuberance 113 offers an opening 1131.

As shown in Figure 3, after this dividing plate 11 combines with this flowerpot body 10, can insert soil, and by opening 1131, siphon post 111 is filled up to soil, so, in the time that aqua storage tank 102 is full of water, the moisture of soil can be drawn by the multiple suction holes 1121 in siphon portion 112, and on this dividing plate 11, offer multiple treatment holes 110, in the time that user waters, too much moisture can enter aqua storage tank 102 through multiple treatment holes 110, and siphon post 111 is while drawing too much moisture, also can see through multiple treatment holes 110 and enter aqua storage tank 102, reach water circulation, totally do not pollute the environment and multiply mosquito through the water filtering, and the design of enclosed aqua storage tank 102 also can prevent that mosquito from laying eggs, it can be strip hole that this figure also discloses multiple suction hole 1121 of the present utility model, and multiple suction holes 1121 are extended towards the bottom surface of this siphon post 111, can improve water suction and water circulation efficiency.

Please refer to Fig. 4, for profile of the present utility model (one), the side that this figure discloses flowerpot body 10 can offer at least one flow-guiding mouth 103 in the position that is no more than opening 1131, multiple suction holes 1121 can be strip hole, and multiple suction holes 1121 are extended towards the bottom surface of this siphon post 111, can improve water suction and water circulation efficiency, again, this flowerpot body 10 forms a stair-stepping platform 1011 in these socket 101 inner side surfaces, the periphery of this dividing plate 11 can fasten with this platform 1011, and this at least one flow-guiding mouth 103 can be opened on this platform 1011.

This figure also clearly discloses the flow process of water circulation, moisture in aqua storage tank can be drawn by the multiple suction holes 1121 in siphon portion 112, and arrive the center of soil through protuberance 113, improve the water yield in soil, do not have the bad incomplete shortcoming that makes the water distribution in earth of existing automatic feeding water flower-pot 3 water-taking efficiencies, and infiltration downwards again behind the center of moisture arrival soil, and through multiple treatment holes 110, moisture flow back to aqua storage tank 102 or discharge through this at least one flow-guiding mouth 103.

Wherein, best embodiment is the apical margin of this protuberance 113 and apart seven to 18 centimeters of the waters surface of this aqua storage tank 102, protuberance 113 is too high, easily cause water-taking efficiency not good, the too low water-taking efficiency that easily causes of protuberance 112 is very good, existing automatic feeding water flower-pot 3 because of water suction post 301 do not there is protuberance, therefore easily cause soil moisture content too high because water-taking efficiency is too high, moisture in the adjusting soil that easily causes plant root to rot so that cannot be suitable, and preferred forms of the present utility model is that the apical margin of this protuberance 113 and the water surface of this aqua storage tank 102 are at a distance of seven to 18 centimeters, and can automatically regulate the moisture in soil, too much moisture can discharge or see through the plurality for the treatment of hole 110 through this at least one flow-guiding mouth 103 moisture is flow back to aqua storage tank 102.

Please refer to Fig. 5, for profile of the present utility model (two), the edge of this aqua storage tank 102 also can offer at least one exchanging water hole 1021, and at least one gear plug 1022 is located on this exchanging water hole 1021, user can be according to the height of the kind of plant or Season select aqua storage tank 102 interior water levels, and at least one gear plug 1022 is pulled out, too much moisture will be flowed out by this corresponding exchanging water hole 1021, reach the function of the height of the joint aqua storage tank 102 interior water levels of recruiting, otherwise, if by this exchanging water hole 1021 in conjunction with corresponding gear plug 1022, water level can exceed this exchanging water hole 1021, if all gear plugs 1022 all combine with corresponding exchanging water hole 1021, too much water can be discharged by this at least one flow-guiding mouth 103.

Please refer to Fig. 6, is action diagram of the present utility model, and this figure discloses user while changing water, gear plug 1022 corresponding lowermost aqua storage tank 102 exchanging water hole 1021 can be pulled out, and therefore the water of aqua storage tank 102 inside can see through exchanging water hole 1021 and discharge.

Please refer to Fig. 7, for enforcement figure of the present utility model, the flow-guiding mouth 103 of multiple retaining circulation flowerpots 1 can see through water pipe 100 and is socketed and is connected, so, water in multiple retaining circulation flowerpots 1 can regulate automatically, and the water content of one of them retaining circulation flowerpot 1 is too much, can see through flow-guiding mouth 103 and be expelled to another or another two retaining circulation flowerpots 1, improve the utilization ratio of water, reach and conserve water and the function of adjusting moisture in soil automatically.

Claims (6)

1. a retaining circulation flowerpot, is characterized in that:

This retaining circulation flowerpot has a flowerpot body and a dividing plate, and the top of this flowerpot body offers a socket, and the bottom of this flowerpot body has an aqua storage tank; This dividing plate combines in the top of this aqua storage tank with this flowerpot body, on this dividing plate, offer multiple treatment holes and at least one siphon post, this at least one siphon post runs through this dividing plate, and this at least one siphon post is a hollow cylinder, this at least one siphon post has a siphon portion and a protuberance, this siphon portion is placed in this aqua storage tank, and offer multiple suction holes in this siphon portion, this protuberance protrudes this dividing plate, and this protuberance extends towards this socket, and the end face of this protuberance offers an opening.

2. retaining circulation flowerpot as claimed in claim 1, is characterized in that, the side of this flowerpot body offers at least one flow-guiding mouth in the position that is no more than this opening.

3. retaining circulation flowerpot as claimed in claim 2, is characterized in that, the flow-guiding mouth of the plurality of retaining circulation flowerpot can see through a water pipe socket and be connected.

4. retaining circulation flowerpot as claimed in claim 1, is characterized in that, the edge of this aqua storage tank offers at least one exchanging water hole, and at least one gear plug is located on this exchanging water hole.

5. retaining circulation flowerpot as claimed in claim 1, is characterized in that, the plurality of suction hole is strip hole.

6. retaining circulation flowerpot as claimed in claim 5, is characterized in that, the plurality of suction hole is extended towards the bottom surface of this siphon post.

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