CN217064702U - Adjustable built-in water storage flowerpot - Google Patents

Abstract

The utility model relates to a built-in water storage flowerpot with adjustable, this built-in water storage flowerpot with adjustable includes: the adjustable upper pot body, the water injection unit, the water level monitoring unit, the water lifting bar and the water storage container; basin body setting is in water container's upper end in the regulation formula, and the water injection unit sets up the inside of the basin body on the regulation formula to communicate with water container, water level monitoring unit sets up on the lateral wall of the basin body on the regulation formula, and in water container was arranged in to water level monitoring unit's bottom, the water bar that rises sets up in the inside bottom of the basin body on the regulation formula, and the tip at the both ends of the water bar that rises is arranged in water container. The utility model discloses a built-in water storage flowerpot with adjustable use with each style flowerpot on the market is supporting, lets the flowerpot "look better usefulness" of different bores, co-altitude not, different molding and different characteristics, lets can not grow flowers and manage the vast middle-aged and young crowd of flower and grow flowers more easily.

Description

Adjustable built-in water storage flowerpot

Technical Field

The utility model relates to a transplant horticulture equipment, in particular to an adjustable embeds water storage flowerpot in various flowerpot containers, which is used in flower market and has a unified structure.

Background

Hundreds of millions of flowerpots and flower plants enter the market every year in domestic and foreign markets, and at least billions of flowerpots are used by people in the society; we classify various flowerpots, and only have two types of flowerpots: one is called a nutrition pot, and the other is called a flowerpot. The nutrition pot is used for cultivating flowers and plants in a flower and plant base, and the nutrition cup is thrown away when the flowers and plants are transplanted into the flowerpot; but the nutrition pot has the advantages that: simple use, convenient transportation and low price, and has the defect that the utility model is not suitable for being put and used in the room. The flowerpot has the advantages that: various materials, various sizes, peculiar shape, fashionable style and insufficient beauty, namely that various flowerpots are beautiful and not good to use! Particularly in the modern society with rapid economic development, with the acceleration of urbanization process, the young and middle-aged people are greatly rushed into urban life, far away from nature, the quality of the living air environment is reduced, people need to cultivate flower plants to improve the quality of the air environment of the room, but the young and middle-aged people who do not know flower culture and have no time to maintain increasingly expand year by year, and the percentage is more than 90%; thus, flower renters in cities are rapidly expanded, and 70% of factories, mines, enterprises and public institutions are occupied; however, due to the existing objective reasons of various flowerpots with traditional structures, the household renting and placing large territories are difficult to step into all the time and become 'desertification' zones where flower plants are urgently needed to be attacked; even these professional flower plant renters often encounter practical problems during routine maintenance, such as: the problems that the soil is difficult to find when the pot is changed and the pot is not good enough, the root growth is poor when the transplanting is carried out, the watering is lost, the floor is polluted, the labor and the labor are wasted when the pot is cleaned, the pot soil is dry and difficult to be watered thoroughly, the moisturizing period in high-temperature seasons is short, the root is easily burnt due to improper fertilization, the root is easily rotten due to water accumulation, the survival time of the plant is too short, the pot is dead in flowers and the air ratio is poor are solved; the occurrence of the problems can increase the daily management and maintenance cost of the renting and placing enterprises and reduce the renting and placing profits; the flower renting and renting money which is high and constant also increases the economic burden of customers; these problems are also the road barricade of the family flower grower, consuming the energy of the family flower grower and increasing the economic burden of the family flower grower.

Disclosure of Invention

The utility model discloses a built-in water storage flowerpot with adjustable to solve above-mentioned and arbitrary problem in other potential problems of prior art.

In order to achieve the above purpose, the technical scheme of the utility model is that: an adjustable built-in water storage flowerpot, comprising: the adjustable flowerpot comprises an upper pot body, a water injection unit, a water level monitoring unit, water lifting strips and a water storage container, wherein the upper pot body is adjustable in size according to the shape of the plant flowerpot;

the adjustable upper basin is arranged at the upper end of the water storage container, the water injection unit is arranged inside the adjustable upper basin and communicated with the water storage container, the water level monitoring unit is arranged on the side wall of the adjustable upper basin, the bottom of the water level monitoring unit is arranged in the water storage container, the water lifting strips are arranged at the bottom of the inner portion of the adjustable upper basin, and the end portions of the water lifting strips are arranged in the water storage container.

Further, basin body includes on the regulation formula: the basin comprises a basin edge, a plurality of adjustable basin wall units, a water and soil isolation bottom plate, a telescopic runway, a buckle and a runway self-locking bolt;

wherein the basin edges are respectively arranged at the tops of the plurality of adjustable basin wall units, the bottoms of the plurality of adjustable basin wall units are fixedly connected with the edge of the soil and water isolation bottom plate,

the water and soil isolation bottom plate is provided with a water lifting strip mounting hole at the central position, and a plurality of water leakage holes are formed in the water and soil isolation bottom plate which is positioned on the four sides of the water lifting strip mounting hole;

two ends of the upper part of each telescopic basin wall are respectively provided with a telescopic runway hole, and the side walls of the two ends are respectively provided with a runway self-locking bolt matched with the telescopic runway;

the 2 clasps are respectively arranged below the 2 symmetrical adjustable basin wall units on the basin edge.

Furthermore, each adjustable basin wall unit is provided with a rectangular ventilation strip;

the telescopic runway hole is a long elliptical hole.

Further, the water level monitoring unit comprises a shell, a water level float valve and a water level buoy;

wherein the bottom of the shell is an open end, the upper part of the shell is a transparent cavity,

the water level float valve is arranged at the lower end of the shell, the water level buoy is arranged in the transparent cavity, and the water level float valve is connected with the water level buoy.

Further, the water injection unit comprises a water injection hopper and a water injection channel;

the cross section of the water injection channel is rectangular, a water injection port is arranged at the upper end of the water injection channel, a water outlet is arranged at the bottom of the water injection channel, and the water injection port is larger than the water outlet;

the water injection channel is arranged on the side wall of the adjustable upper pot body, the water injection bucket is arranged on the water injection port, and the water outlet penetrates through the bottom of the adjustable upper pot body.

Further, the adjustable built-in water storage flowerpot further comprises a moisturizing layer, and the moisturizing layer is arranged at the bottom of the adjustable upper flowerpot body.

Further, the moisturizing layer is moisturizing particles.

Further, the adjustable built-in water storage flowerpot also comprises an electronic display unit, the electronic display unit comprises a water level detection sheet, a pot soil detection sheet and a water and soil monitor,

the water level detection piece is arranged in the water storage container, the soil detection piece is arranged on the inner side wall of the adjustable upper basin body, the soil and water monitor is arranged on the edge of the adjustable upper basin body, and the water level detection piece and the soil detection piece are connected with the soil and water monitor.

The pot edge of the utility model adopts thickening design, is hung and sleeved on the mouth surface of the flowerpot, and the caliber of the built-in flowerpot is changed to match with the caliber of the selected flowerpot through the change of extension or shortening of the two sides of the telescopic pot wall along the telescopic runway, and then the self-locking bolt is fixed; the water storage container or the water storage container is changed in an interchangeable way, so that the flowerpot is suitable for tall and short flowerpots with various shapes.

The utility model can adopt two maintenance modes of traditional transplanting type or novel sleeve pot type; the novel sleeve pot is characterized in that the flower plants and the nutrition cup are sleeved into the built-in water storage flowerpot together, the novel sleeve pot is simple and quick, and no new flower soil is needed to be added.

The method adopts a floating type and an electronic type water and soil detection style: the floating type water storage container or the water storage container is displayed according to the change of a water level buoy, and water nutrients can be added into the water adding hopper after water shortage occurs.

The electronic type is that the water storage container or the water storage container is displayed through the water and soil detector, the change of the medium water level and the change of the moisture dryness and humidity in the basin soil, and when the basin soil is dry, a red light on the soil monitor can automatically flash. Reminding people need add moisture, opening touch switch, can add water nutrient in the fill of adding water, can observe the change of water level through the water level pilot lamp, the blue light lights, stops adding water, also can be through touch switch at ordinary times, observes the change of soil and water, and the crowd that is convenient for untimely, the maintenance inexperienced of working uses.

The utility model has the advantages that: by adopting the technical scheme, the adjustable built-in water storage flowerpot has the advantages of simplicity, convenience, quickness, water saving, time saving and worry saving, and has independent, scientific and complete flower plant survival and growth environments; can be matched with flowerpots of different materials, different shapes, different calibers and different heights in the market. Can solve a plurality of problems in the development and application of a plurality of flowerpot industries: the method solves the problems that the flowers are favored to be cultivated but not to be cultivated in the middle and young years and the future in the current society, and the multi-population problem of time conservation does not exist. Secondly, the historical difficult problems that flowerpots made of ceramic, cement, rattan plaited products, glass fiber reinforced plastics, stainless steel and the like are good in appearance, simple in structure and unsuitable for flower cultivation are solved, and thirdly, the bottleneck problems that flower renting and placing are multiple in maintenance and commissioning daily, low in efficiency, short in ornamental life of flower plants, high in renting and placing investment cost and low in profit are solved. Fourthly, the water for daily watering flowers is saved, the loss and pollution of the watering flowers are eliminated, the coverage rate of indoor pot flowers is improved, the air environment quality of a room is improved, and the like, and immeasurable social benefits are achieved.

Description of the drawings:

fig. 1 is a schematic sectional view of an adjustable built-in water storage flowerpot.

Fig. 2 is the structural schematic diagram of the floating water level monitoring unit of the adjustable built-in water storage flowerpot.

Fig. 3 is a schematic structural view of the adjustable pot body with a built-in water storage flowerpot.

Fig. 4 is a schematic structural view of the electronic water level monitoring unit of the adjustable built-in water storage flowerpot.

In the figure:

1. the flowerpot comprises a pot edge, 2 parts of an adjustable upper pot body, 2-1 parts of an adjustable pot wall unit, 3 parts of a telescopic runway hole, 4 parts of a runway self-locking bolt, 5 parts of a handle, 6 parts of a ventilation strip, 7 parts of a water and soil isolation plate, 8 parts of a water storage container, 9 parts of a water lifting strip, 10 parts of a moisture preservation layer, 11 parts of a water adding hopper, 12 parts of a water injection channel, 13 parts of a water level float valve, 14 parts of a water level buoy, 15 parts of a water level detection piece, 16 parts of a soil detection piece, 17 parts of a water and soil detector, 18 parts of a water leakage hole and 19 parts of a water lifting strip mounting hole.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 and 3, the utility model relates to a built-in water storage flowerpot with adjustable, built-in water storage flowerpot with adjustable includes: the flowerpot comprises an adjustable upper pot body unit, a water injection unit, a water level monitoring unit, a water lifting bar and a water storage container, wherein the adjustable upper pot body unit is used for adjusting the size according to the shape of the plant flowerpot;

the adjustable upper basin is arranged at the upper end of the water storage container, the water injection unit is arranged inside the adjustable upper basin and communicated with the water storage container, the water level monitoring unit is arranged on the side wall of the adjustable upper basin, the bottom of the water level monitoring unit is arranged in the water storage container, the water lifting strips are arranged at the bottom of the inner portion of the adjustable upper basin, and the end portions of the water lifting strips are arranged in the water storage container.

The basin body includes on the regulation formula: the basin comprises a basin edge, a plurality of adjustable basin wall units, a water and soil isolation bottom plate, a telescopic runway, a buckle and a runway self-locking bolt;

wherein the basin edges are respectively arranged at the tops of the plurality of adjustable basin wall units, the bottoms of the plurality of adjustable basin wall units are fixedly connected with the edge of the soil and water isolation bottom plate,

the water and soil isolation bottom plate is provided with a water lifting strip mounting hole at the central position, and a plurality of water leakage holes are formed in the water and soil isolation bottom plate which is positioned on the four sides of the water lifting strip mounting hole;

two ends of the upper part of each telescopic basin wall are respectively provided with a telescopic runway hole, and the side walls of the two ends are respectively provided with a runway self-locking bolt matched with the telescopic runway;

the 2 clasps are respectively arranged below the 2 symmetrical adjustable basin wall units on the basin edge.

Each adjustable basin wall unit is provided with a rectangular ventilation strip; the telescopic runway hole is a long elliptical hole.

The water level monitoring unit comprises a shell, a water level float valve and a water level buoy; wherein the bottom of the shell is an open end, the upper part of the shell is a transparent cavity,

the water level float valve is arranged at the lower end of the shell, the water level float is arranged in the transparent cavity, and the water level float valve is connected with the water level float, as shown in figure 2.

The water injection unit comprises a water injection hopper and a water injection channel;

the cross section of the water injection channel is rectangular, a water injection port is arranged at the upper end of the water injection channel, a water outlet is arranged at the bottom of the water injection channel, and the water injection port is larger than the water outlet;

the water injection passage is arranged on the side wall of the adjustable upper pot body, the water injection bucket is arranged on the water injection port, and the water outlet penetrates through the bottom of the adjustable upper pot body.

The adjustable built-in water storage flowerpot further comprises a moisture preservation layer, and the moisture preservation layer is arranged at the bottom in the adjustable upper flowerpot body.

The moisture retention layer is made of moisture retention particles, and the moisture retention particles are made of the same material as the water lifting strips.

The moisture-keeping particles are polyvinyl alcohol collodion spheres.

The adjustable built-in water storage flowerpot also comprises an electronic display unit, the electronic display unit comprises a water level detection piece, a pot soil detection piece and a water and soil monitor,

the water level detection piece is arranged in the water storage container, the soil detection piece is arranged on the inner side wall of the adjustable upper basin body, the soil and water monitor is arranged on the edge of the adjustable upper basin body, and the water level detection piece and the soil detection piece are connected with the soil and water monitor.

The pot edge of the utility model adopts thickening design, is hung and sleeved on the mouth surface of the flowerpot, and the caliber of the built-in flowerpot is changed to match with the caliber of the selected flowerpot through the change of extension or shortening of the two sides of the telescopic pot wall along the telescopic runway, and then the self-locking bolt is fixed; the water storage container or the water storage container is changed in an interchangeable way, so that the flowerpot is suitable for tall and short flowerpots with various shapes.

The utility model can adopt two maintenance modes of traditional transplanting type or novel sleeve pot type; the novel sleeve pot is characterized in that the flower plants and the nutrition cup are sleeved into the built-in water storage flowerpot together, the novel sleeve pot is simple and quick, and no new flower soil is needed to be added.

The method adopts a floating type and an electronic type water and soil detection style: the floating type is to display the water storage container or the water storage container according to the change of the water level buoy, and water nutrients can be added into the water adding hopper after the water shortage occurs.

The electronic type is that the water storage container or the water storage container is displayed through the water and soil detector, the change of the medium water level and the change of the moisture dryness and humidity in the basin soil, and when the basin soil is dry, a red light on the soil monitor can automatically flash. Reminding people need add moisture, opening touch switch, can add water nutrient in the fill of adding water, can observe the change of water level through the water level pilot lamp, the blue light lights, stops adding water, also can be through touch switch at ordinary times, observes the change of soil and water, and the crowd that is convenient for untimely, the maintenance inexperienced of working uses.

When in use:

the flowerpot edge adopts a thickened design, is hung and sleeved on the opening surface of the flowerpot, and the caliber of the built-in flowerpot is changed by extending or shortening along the telescopic runway holes at two sides of the telescopic flowerpot wall and is changed to be matched with the caliber of the selected flowerpot, and then the self-locking bolt is fixed; through the exchange change of the water storage container or the water storage container.

Adopts a floating type: in normal times, water nutrients are added from the water adding hopper 11, the water nutrients flow into the water storage container 8 along the water filling channel 12, and as the water level rises, the water level float valve 13 in the water storage container 8 is connected with the water level float 14 to rise and float, and the water level float 14 rises to the top position, which indicates that the water nutrients in the water storage container 8 are full, and the adding is stopped. The water in the water storage container 8 enters the flowerpot through the water lifting bar, and the water level buoy 14 is seen to descend to the lower position after tens of days, which shows that the water nutrients in the water storage container 8 are completely consumed, and then when the water in the pot soil is dry, the water nutrient addition of the next cycle is carried out, as shown in fig. 1.

Electronic type: the electronic type can also adopt a transplanting type or a set basin type, and the implementation method of the transplanting type or the set basin type is the same as that of the floating type. When water nutrients are added, the touch device monitor 17 needs to be opened, water can be added from the water adding hopper 11, the water nutrients enter the water storage container 8 through the water injection channel 12, the water level detection piece 15 in the water storage container 8 changes along with the increase of the water level and is fed back to the water and soil monitor 17, and the green light above the water level is lighted; when the blue light above the water level is turned on during the continuous addition, the water storage container 8 is full, and the water addition should be stopped. And then, when the soil detection piece 16 connected with the water and soil detector 17 is dry, the red light above the soil of the water and soil detector 17 automatically flashes, and meanwhile, the red light above the water level is also turned on in advance, so that water and nutrients need to be added. People do not need to worry about when water is short and water is added in weekdays, as shown in figure 4.

The utility model discloses thoroughly solved the flowerpot of traditional structure, during flowers plant growth and maintenance, there are various historical difficult problems for a long time, and it is better to let various rich purpose good looking flowerpots of enamel on the market, and it is more simple and convenient to let various people who like growing flower grow flower in society, lets adjustable built-in water storage flowerpot in growing flower, water-saving, save time, more save worry.

The above detailed description of one embodiment of the present invention is only a preferred embodiment of the present invention, and the embodiment of the present invention should not be considered as limiting the scope of the present invention, and all the equivalent changes and improvements made in the technical idea application scope of the present invention should still belong to the scope of the present invention.

Claims (9)

1. The utility model provides a built-in water storage flowerpot with adjustable, its characterized in that, built-in water storage flowerpot with adjustable includes: the adjustable flowerpot comprises an upper pot body, a water injection unit, a water level monitoring unit, water lifting strips and a water storage container, wherein the upper pot body is adjustable in size according to the shape of the plant flowerpot;

the adjustable upper basin body is arranged at the upper end of the water storage basin, the water injection unit is arranged inside the adjustable upper basin body and communicated with the water storage container, the water level monitoring unit is arranged on the side wall of the adjustable upper basin body, the bottom of the water level monitoring unit is arranged in the water storage container, the water lifting strips are arranged at the bottom of the adjustable upper basin body, and the end portions of the water lifting strips are arranged in the water storage container.

2. The adjustable built-in water storage flowerpot according to claim 1, wherein the adjustable upper pot body comprises: the device comprises a basin edge, a plurality of adjustable basin wall units, a water and soil isolation bottom plate, a telescopic runway hole, a buckle and a runway self-locking bolt;

wherein the basin edges are respectively arranged at the tops of the plurality of adjustable basin wall units, the bottoms of the plurality of adjustable basin wall units are fixedly connected with the edge of the soil and water isolation bottom plate,

the water and soil isolation bottom plate is provided with a water lifting strip mounting hole at the central position, and a plurality of water leakage holes are formed in the water and soil isolation bottom plate which is positioned on the four sides of the water lifting strip mounting hole;

telescopic runway holes are respectively formed in two ends of the upper part of each adjustable basin wall unit, and runway self-locking bolts matched with the telescopic runways are arranged on the side walls of the two ends;

the 2 clasps are respectively arranged below the 2 symmetrical adjustable basin wall units on the basin edge.

3. The adjustable built-in water storage flowerpot according to claim 2, wherein each of the plurality of adjustable wall units is provided with a rectangular air permeable strip;

the telescopic runway hole is a long elliptical hole.

4. The adjustable built-in water storage flowerpot according to claim 1, wherein the water level monitoring unit comprises a housing, a water level float valve and a water level float;

wherein the bottom of the shell is an open end, the upper part of the shell is a transparent cavity,

the water level float valve is arranged at the lower end of the shell, the water level float is arranged in the transparent cavity, and the water level float valve is connected with the water level float.

5. The adjustable built-in water storage flowerpot according to claim 1, wherein the water injection unit comprises a water injection bucket and a water injection channel;

the cross section of the water injection channel is rectangular, a water injection port is arranged at the upper end of the water injection channel, a water outlet is arranged at the bottom of the water injection channel, and the water injection port is larger than the water outlet;

the water injection channel is arranged on the side wall of the adjustable upper pot body, the water injection bucket is arranged on the water injection port, and the water outlet penetrates through the bottom of the adjustable upper pot body.

6. The adjustable built-in water storage flowerpot according to claim 1, further comprising a moisturizing layer disposed at the bottom inside the adjustable upper pot body.

7. The adjustable built-in water storage flowerpot according to claim 6, wherein the moisturizing layer is moisturizing particles.

8. The adjustable built-in water storage flowerpot according to claim 1, further comprising an electronic display unit, wherein the electronic display unit comprises a water level detection piece, a soil detection piece and a soil monitor,

the water level detection piece is arranged in the water storage container, the soil detection piece is arranged on the inner side wall of the adjustable upper basin body, the soil and water monitor is arranged on the edge of the adjustable upper basin body, and the water level detection piece and the soil detection piece are connected with the soil and water monitor.

9. The adjustable built-in water storage flowerpot according to claim 7, wherein the moisturizing particles are polyvinyl alcohol collodion spheres.

Images