CN211909817U - Ground gas type built-in basin support - Google Patents

Abstract

The utility model discloses a built-in basin of ground gas formula holds in palm, hold in the palm including built-in basin, built-in basin holds in the palm the outside bottom and is equipped with ventilative passageway, and ventilative passageway is the array, built-in basin holds in the palm inside bottom fixedly connected with pillar, and built-in basin holds in the palm outside bottom and has seted up the support tube hole, built-in basin holds in the palm inside can be dismantled and be connected with the soil and water division board, soil and water division board top can be dismantled and be connected with the baffle that rises, built-in basin holds in the palm the outer wall and is equipped with flexible keel frame and. The utility model has the advantages of reasonable design, cover basin formula and transplanting formula and the special hutch of flowerpot, can a set of multi-purpose, the soil and water isolation is ventilative, does benefit to root development, automatically regulated humidity, daily maintenance is simple and convenient, water-saving save time save worry, thoroughly solved traditional basin simple structure maintenance that appears in the maintenance loaded down with trivial details, the basin soil hardens the moisturizing phase weak point, the root of hindering is transplanted to the fertilization burn root, muddy water exposes the clearance trouble, the influence is ventilative to breed the mosquito, the maintenance degree of difficulty is big, it is with high costs to breed flowers.

Description

Ground gas type built-in basin support

Technical Field

The utility model relates to an utensil technical field is used in flowers and plants planting, in particular to built-in basin of ground gas formula holds in palm.

Background

The flower plants are utilized to improve and promote the air quality in the modern building environment, so that the flower plants become healthy articles for taking care of physical and mental health and improving the working efficiency of contemporary people, and the consciousness and habit of growing flowers throughout the country are formed; from ancient times to present times, particularly in the current times of rapid technological change, the flowerpot raising devices on the market can be changed from materials to shapes.

However, the structure of the flowerpot is still in the original state, and not only can the visual angle enjoyment of people be increased and enriched although the flowerpot is continuously updated on the material, appearance and shape of the flowerpot by a flowerpot enterprise; without being able to change: the flowerpot is easy to water, difficult to water thoroughly, the pot support is easy to receive water, difficult to clean, the green plants are easy to select, the plants are difficult to grow, the flower growers can not grow flowers, the plants are not maintained for a long time, and the like; the difficult problem of managing and protecting the flower pot is not coordinated with the development of the science and technology era, and people who can grow flowers also commonly! People only choose a way of using a pot support to collect water in order to solve the problems of watering loss and troublesome cleaning caused by floor pollution; but water flowing into the pot support blocks the air holes at the bottom of the pot, so that the ventilation and development of the plant root system are influenced, the cleaning is difficult after each watering, and mosquitoes are easy to breed in the midsummer; in addition, due to the existence of multiple contradictions of 'no-flower-growing and no-time flower-growing' of modern people, numerous flower-growing people buy flower plants to be killed, and then buy the flower plants after being killed, and the steps are repeated; the result is the ending of 'buying up but not raising up but giving up' of the flower plants; therefore, the flowerpot with the traditional structure becomes a road barricade for cultivating flowers for the whole population. Therefore, the built-in basin support of the terrestrial gas type is provided.

SUMMERY OF THE UTILITY MODEL

A primary object of the utility model is to provide a built-in basin of ground gas formula holds in palm has and can improve the floriculture container inner structure, overturns the new helper of growing flower theory, and the emergence of the novel built-in basin of reality that the management and protection worries about "is the call of epoch, is the urgent demand that promotes the whole people and grows flowers, can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a built-in basin of ground gas formula holds in palm, holds in the palm including built-in basin, built-in basin holds in the palm the outside bottom and is equipped with ventilative passageway, and ventilative passageway is the array, built-in basin holds in the palm inside bottom fixedly connected with pillar, and built-in basin holds in the palm outside bottom and has seted up the support tube hole, built-in basin holds in the palm inside can be dismantled and is connected with the soil and water division board, soil and water division board top can be dismantled and be connected with the baffle that rises water, built-in basin holds in the palm the outer wall and is equipped with flexible keel frame and hinge type blade.

Furthermore, the side wall of the built-in basin support is provided with a water seepage hole which is positioned above the water and soil isolation plate.

Furthermore, the telescopic keel frame and the hinge type blades are arranged in a plurality of groups, the surface of the telescopic keel frame is provided with water level holes, the water level holes are arranged in the plurality of groups, and the side wall of the built-in basin support is provided with a drain hole.

Furthermore, the support tube hole is detachably inserted with a plurality of support columns.

Furthermore, the surface of the water and soil isolation plate is provided with water lifting strip holes, water lifting strips are detachably connected in the water lifting strip holes, and the bottom ends of the water lifting strips are communicated with water and nutrients.

Further, the supporting pipe hole is located below the support column, and the water and soil isolation plate is located at the top end of the support column.

Furthermore, moisture and nutrients are arranged inside the built-in basin support and are located below the water and soil isolation plate.

Furthermore, the built-in basin support also comprises a hole tapering device used for punching the inner sleeve basin and a clamping piece used for fixing the water lifting strip in the through hole at the bottom of the inner sleeve basin.

Further, the clamping piece comprises a V-shaped upper end part, a cylindrical middle part and a disc-shaped bottom part; the V-shaped upper end part is inversely fixed at one end of the middle part of the cylinder, and the disc-shaped bottom part is fixed at the other end of the middle part of the cylinder.

Furthermore, the lower end of the water lifting clapboard is provided with a limiting ring for preventing the water lifting clapboard from moving to generate displacement.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model has the advantages of reasonable design, cover basin formula and special hutch of transplanting formula and flowerpot can a set of multipurpose, and the soil and water isolation is ventilative, does benefit to root system development, automatically regulated humidity, and daily maintenance is simple and convenient, and water-saving saves time and saves worry. Thoroughly solved traditional basin and appeared in the maintenance: simple structure maintenance is loaded down with trivial details, and the basin soil hardens the moisturizing period short, and the fertilization burns the root and transplants the injured root, and muddy water exposes the clearance trouble, influences ventilative breeding mosquito, and the maintenance degree of difficulty is big, and it is with high costs to grow flowers. Can meet various requirements of different flower growing people and people who can not grow flowers, and has practical value.

Drawings

Fig. 1 is a schematic view of the overall structure of a terrestrial gas type built-in basin support of the present invention.

Fig. 2 is a schematic view of the connection structure of the basin-covering type low basin and the built-in basin holder of the utility model.

Fig. 3 is a schematic view of the connection structure of the transplanting type high foot basin and the built-in basin support of the utility model.

Fig. 4 is a schematic structural view of the hole-boring device and the fastener of the earth-gas type built-in basin holder of the present invention.

In the figure: 1. a water level line hole; 2. a telescopic keel frame; 3. a hinged leaf; 4. a pillar; 5. supporting the tube hole; 6. a support pillar; 7. a ventilation channel; 8. water and nutrient; 9. water lifting strips; 10. a water and soil isolation plate; 11. a water-lifting clapboard; 12. a water seepage hole; 13. water lifting strip holes; 14. a drain hole; 15. a countersinker; 16. a fastener; 17. a basin support is arranged inside.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1-4, a built-in basin of ground gas formula holds in palm, including built-in basin holds in palm 17, built-in basin holds in palm 17 outside is close to the bottom and is equipped with air permeable passage 7, and air permeable passage 7 is the array, the inside bottom fixedly connected with pillar 4 of built-in basin hold in palm 17, and the outside bottom of built-in basin hold in palm 17 has seted up support tube hole 5, built-in basin holds in palm 17 inside can be dismantled and is connected with soil and water division board 10, soil and water division board 10 top can be dismantled and be connected with water lift baffle 11, built-in basin holds in palm 17 outer wall and is equipped with flexible keel frame 2 and hinge type blade 3 respectively, water level hole 1 has been seted up on flexible keel frame 2 surface, built-in basin holds in the palm.

In the embodiment, as shown in fig. 1, 2, 3 and 4, the structure is reasonable in design, the pot sleeving type, the transplanting type and the special water replenishing device for the flowerpot can be multipurpose, water and soil are isolated and ventilated, root development is facilitated, humidity is automatically adjusted, daily maintenance is simple and convenient, and water, time and trouble are saved. Thoroughly solved traditional basin and appeared in the maintenance: simple structure maintenance is loaded down with trivial details, and the basin soil hardens the moisturizing period short, and the fertilization burns the root and transplants the injured root, and muddy water exposes the clearance trouble, influences ventilative breeding mosquito, and the maintenance degree of difficulty is big, and it is with high costs to grow flowers. Can meet various requirements of different flower growing people and people who can not grow flowers, and has practical value.

Wherein, the side wall of the built-in basin support 17 is provided with water seepage holes 12, and the water seepage holes 12 are positioned above the water and soil isolation plate 10.

As shown in FIG. 1, the water level height is conveniently controlled.

The telescopic keel frame 2 and the hinge type blades 3 are respectively in a plurality of groups, the surface of the telescopic keel frame 2 is provided with water level hole 1, the water level hole 1 is in a plurality of groups, and the side wall of the built-in basin support 17 is provided with a drain hole 14.

In the embodiment, as shown in fig. 1, the adjustable flower-plant cultivation container is convenient to adjust, and can be matched with various flower-plant cultivation containers made of different materials, different sizes, different shapes and different heights in the market.

Support columns 6 are detachably inserted into the support tube holes 5, and the number of the support columns 6 is multiple.

In this embodiment, as shown in fig. 1, the supporting column is conveniently inserted into the supporting tube hole, so as to perform a good supporting function.

The water and soil isolation plate 10 is provided with water lifting strip holes 13 on the surface, water lifting strips 9 are detachably connected in the water lifting strip holes 13, and the bottom ends of the water lifting strips 9 are communicated with the water nutrients 8.

In this embodiment, as shown in fig. 1, the liquid level of the water can be conveniently controlled.

Wherein, the supporting pipe holes 5 are positioned below the support columns 4, and the water and soil isolation plate 10 is positioned at the top ends of the support columns 4.

In this embodiment, as shown in fig. 1, the support columns are used for providing supporting force for the soil and water isolation plate.

Wherein, the built-in basin support 17 is internally provided with water and nutrient 8, and the water and nutrient 8 is positioned below the water and soil isolation plate 10.

The built-in basin support further comprises a hole tapering device used for punching or puncturing a water level line hole in the inner sleeve basin and a clamping piece used for fixing the water lifting strip in the through hole in the bottom of the inner sleeve basin.

Further, the clamping piece comprises a V-shaped upper end part, a cylindrical middle part and a disc-shaped bottom part; the V-shaped upper end part is inversely fixed at one end of the middle part of the cylinder, and the disc-shaped bottom part is fixed at the other end of the middle part of the cylinder.

Furthermore, the lower end of the water lifting clapboard is provided with a limiting ring for preventing the water lifting clapboard from moving to generate displacement.

In this embodiment, as shown in fig. 1, it is convenient to supply energy required for growth to the plant.

When the flowerpot is in work, according to the used flower drain hole, the water level line holes 1 of different drain holes 14 marked on the telescopic keel frame 2 of the built-in pot support 17 are punctured by the taper hole device 15, and the built-in pot support 17 is placed into the plant pot. A basin sleeving mode: the water and soil isolation plate 10 is placed into the built-in pot support 17, one or a plurality of holes are punched in the bottom of the flower plant nutrition pot by the aid of the hole awl device 15, one section of the water lifting strip 9 is wrapped by the clamping piece 16 and inserted into soil in the holes, the nutrition pot and the plant are sleeved on the water and soil isolation plate 10, the other section of the water lifting strip 9 at the bottom of the nutrition pot extends into the water and nutrient 8 in the built-in pot support 17, and then ceramsite, flower soil or other fillers are filled around the plant nutrition pot. Transplanting: the water lifting partition plate 11 is placed on the water and soil isolation plate 10, the water lifting strips 9 are placed in the water lifting partition plate 11, and finally the plants are transplanted in the traditional mode. If a deeper high footbath is selected, the support columns 6 need to be inserted into the plurality of support tube holes 5 at the bottom of the built-in basin support 17, and the support columns are matched according to corresponding lengths. The special water replenishing device for the flowerpot: the water-lifting strips 9 are arranged in the water-lifting partition plates 11 and are placed in the holes at the bottom in the plant cultivation container, the lower ends of the water-lifting strips 9 extend out of the holes, the stored water overflowing to the pot support outside the pot bottom can be diffused into the soil of the cultivation container again, and the pot soil moisturizing period is prolonged.

A basin sleeving mode: firstly, a short pot: the water and soil isolation plate 10 is placed in the built-in pot support 17, the water level line hole 1 is selected according to the water drain hole 14, the water level line hole is punctured by the countersinker 15, and the plant pot is placed in the plant pot. And puncturing the bottom of the plant nutrition pot by using a hole awl 15, wrapping the rising water strip 9 by using a clamping piece 16, filling the rising water strip into the plant nutrition pot culture medium, sleeving the plant nutrition pot and the flower plant on a water and soil isolation plate 10 in a plant pot together, and filling the lower end of the rising water strip 9 into the moisture and nutrient 8 of the built-in pot supporting layer by using ceramsite or culture medium. II, high foot basin: the high basin needs to be inserted into three support columns 6 with proper height at the bottom of the built-in basin support 17, and then the high basin is installed in the same way as the low basin.

Transplanting: firstly, a short pot: the water and soil isolation plate 10 is placed in the built-in pot support 17, the water level line hole 1 is selected according to the water drain hole 14, the water level line hole is punctured by the countersinker 15, and the plant pot is placed in the plant pot. The water lifting partition plate 11 is provided with the water lifting strips 9 and is placed in the middle of the water and soil partition plate 10, 3-5 centimeters of bran or culture medium is paved on the water and soil partition plate 10 and the water lifting partition plate 11, the flower plants are placed, and the culture medium is filled around the flowers and plants. II, high foot basin: the high basin needs to be inserted into three support columns 6 with proper height at the bottom of the built-in basin support 17, and then the high basin is installed in the same way as the low basin.

The special water replenishing device for the flowerpot: the water-lifting strips 9 are arranged in the water-lifting partition plate 11 and are placed on the holes at the bottom in the plant container, the lower ends of the water-lifting strips 9 extend out of the air-permeable channel 7 at the bottom of the plant pot, and the water and nutrient 8 in the common pot support or the trapezoidal pot support outside the bottom of the plant pot can be transferred into the culture medium in the pot.

It should be noted that the utility model relates to a built-in basin of ground gas formula holds in palm, including water level hole 1, flexible keel frame 2, hinge type blade 3, pillar 4, support tube hole 5, support column 6, ventilation channel 7, moisture nutrient 8, water-lifting strip 9, soil and water division board 10, water-lifting baffle 11, infiltration hole 12, water-lifting strip hole 13, wash port 14, awl hole ware 15, fastener 16 and built-in basin hold in palm 17, the part is general standard component or the part that technical staff in this field knows, and its structure and principle all can learn through the technical manual or learn through conventional experimental method for this technical staff.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a built-in basin of ground gas formula holds in palm, includes built-in basin and holds in palm (17), its characterized in that: built-in basin holds in the palm (17) outside and is close to the bottom and be equipped with ventilative passageway (7), and ventilative passageway (7) are the array, built-in basin holds in the palm (17) inside bottom fixedly connected with pillar (4), and built-in basin holds in the palm (17) outside bottom and has seted up support tube hole (5), built-in basin holds in the palm (17) inside can be dismantled and is connected with soil and water division board (10), soil and water division board (10) central point puts and is equipped with to dismantle and is connected with and rises water baffle (11), built-in basin holds in the palm (17) outer wall and is equipped with flexible keel frame (2) and hinge type blade (3) respectively, water level hole (1) have been seted up on flexible.

2. The built-in basin support of a kind of ground gas type of claim 1, characterized by that: and the side wall of the built-in basin support (17) is provided with water seepage holes (12), and the water seepage holes (12) are positioned above the water and soil isolation plate (10).

3. The built-in basin support of a kind of ground gas type of claim 1, characterized by that: the telescopic keel frame (2) and the hinge type blades (3) are respectively in a plurality of groups, the surface of the telescopic keel frame (2) is provided with water level line holes (1), the water level line holes (1) are in a plurality of groups, and the side wall of the built-in basin support (17) is provided with a drain hole (14).

4. The built-in basin support of a kind of ground gas type of claim 1, characterized by that: the supporting tube holes (5) are detachably inserted with supporting columns (6) and the supporting columns (6) are multiple.

5. The built-in basin support of a kind of ground gas type of claim 1, characterized by that: water lifting strip holes (13) are formed in the surface of the water and soil isolation plate (10), water lifting strips (9) are detachably connected inside the water lifting strip holes (13), and the bottom ends of the water lifting strips (9) are communicated with water and nutrients (8).

6. The built-in basin support of a kind of ground gas type of claim 1, characterized by that: the supporting pipe holes (5) are located below the support columns (4), and the water and soil isolation plates (10) are located at the top ends of the support columns (4).

7. The built-in basin support of a kind of ground gas type of claim 1, characterized by that: and the water nutrient (8) is arranged in the built-in basin support (17), and the water nutrient (8) is positioned below the water and soil isolation plate (10).

8. The built-in basin support of a kind of ground gas type of claim 1, characterized by that: the built-in basin support (17) further comprises a hole tapering device used for punching the inner sleeve basin and a clamping piece (16) used for fixing the water lifting strip (9) in a through hole at the bottom of the inner sleeve basin.

9. The built-in basin support of claim 8, characterized in that: the clamping piece comprises a V-shaped upper end part, a cylindrical middle part and a disc-shaped bottom part; the V-shaped upper end part is inversely fixed at one end of the middle part of the cylinder, and the disc-shaped bottom part is fixed at the other end of the middle part of the cylinder.

10. The built-in basin support of a kind of ground gas type of claim 1, characterized by that: the lower end of the water lifting clapboard is provided with a limiting ring for preventing the water lifting clapboard from moving to generate displacement.

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