CN114600668A - High-strength split type flowerpot - Google Patents

Abstract

The application relates to a high-strength split type flowerpot which comprises a top pot and a bottom pot for placing the top pot, wherein the bottom of the top pot is sunken to form a central groove and peripheral grooves positioned at the periphery of a plurality of central grooves; a plurality of thimbles are fixed at the bottom of the bottom basin, and a plurality of air holes for the thimbles to penetrate through are formed in the bottom of the peripheral groove; the peripheral grooves are arranged at intervals, and a gap for accommodating the thimble is reserved between every two adjacent peripheral grooves. The top end face of the ejector pin is a hemispherical cambered surface, and the hemispherical cambered surface protrudes towards the direction far away from the bottom basin. The air holes are arranged along the circumferential direction of the center of the bottom of the peripheral groove, and the ejector pins and the air holes are arranged correspondingly to the ejector pins and the air holes, so that soil is convenient to ventilate and permeate water, and the growth of plants is convenient; the central tank is convenient to supply water to the peripheral tanks by arranging the connecting pipe and the liquid absorption column; through setting up liquid reserve tank, floater, connecting rod and compressing tightly the ball, make the central groove in water convenient.

Description

High-strength split type flowerpot

Technical Field

The application relates to the field of flowerpots, in particular to a high-strength split type flowerpot.

Background

The cultivation of flower plant mainly has liquid to cultivate and the soil for flowers cultivates two kinds, because conventional flowerpot mode is single, so these two kinds of cultivation methods need adopt the flowerpot of two kinds of different grade types to cultivate.

The invention patent with the publication number of CN103416253B discloses a split type multi-purpose multi-cavity flowerpot, which comprises a flowerpot main body and a bottom pot, wherein the center of the bottom of the flowerpot main body is downwards sunken to form a central groove, the bottom of the flowerpot main body is downwards sunken to form a plurality of mutually independent peripheral grooves, the peripheral grooves surround the periphery of the central groove, through holes are formed in the bottoms of the central groove and the peripheral grooves, and the central groove and the peripheral grooves in the bottom of the flowerpot main body are inserted into the pot body of the bottom pot.

In view of the above-mentioned related art, the inventor believes that when the usage time is long, soil in the peripheral groove is easy to agglomerate, resulting in poor soil permeability and affecting the planting of plants.

Disclosure of Invention

Influence the problem that plant was planted after in order to improve the earth caking, this application provides a split type flowerpot of high strength.

The application provides a pair of split type flowerpot of high strength adopts following technical scheme:

a high-strength split flowerpot comprises a top pot and a bottom pot for placing the top pot, wherein the pot bottom of the top pot is sunken to form a central groove and peripheral grooves positioned at the periphery of the central grooves; a plurality of thimbles are fixed at the bottom of the bottom basin, and a plurality of air holes for the thimbles to penetrate through are formed in the bottom of the peripheral groove; the peripheral grooves are arranged at intervals, and a gap for accommodating the thimble is reserved between every two adjacent peripheral grooves.

Through adopting above-mentioned technical scheme, the central groove is used for planting the vegetation of liquid in-growth, places earth in the peripheral inslot for plant the plant. When the flowerpot is used at ordinary times, the top pot is placed on the bottom pot, the central groove and the peripheral grooves are positioned in the inner cavity of the bottom pot, and the ejector pin is positioned between the adjacent peripheral grooves; the ventilation holes realize ventilation;

when the soil caking, the accessible thimble is pegged graft in the venthole, wears out a plurality of bleeder vents with the clod, makes things convenient for in the soil of soaking of oxygen and moisture, makes things convenient for the growth of plant. When the peripheral grooves are watered more, the air holes can also permeate water, and water can be caught by the bottom pot.

Optionally, the top end surface of the thimble is a hemispherical cambered surface, and the hemispherical cambered surface protrudes towards the direction away from the bottom basin.

Through adopting above-mentioned technical scheme, the area of thimble top butt earth reduces, and butt intensity is big, makes things convenient for the thimble to pierce through earth, and the terminal surface of hemisphere cambered surface, makes the plant difficult be pierced through, is difficult for hurting the root of plant.

Optionally, the air holes are arranged along the circumferential direction of the center of the bottom of the peripheral groove, and the ejector pins are arranged corresponding to the air holes.

Through adopting above-mentioned technical scheme, be difficult for stinging the plant that is located all ring edge groove central point during the thimble loosens the soil to be difficult for injuring the plant.

Optionally, a first positioning groove and a second positioning groove are formed in the edge of the top opening of the bottom basin, and positioning blocks are arranged on the circumferential side wall of the top basin; when the positioning block is positioned in the first positioning groove, the thimble penetrates through the air hole; when the positioning block is positioned in the second positioning groove, the ejector pin is positioned in a gap between the adjacent peripheral grooves.

By adopting the technical scheme, the thimble is positioned in the air vent or between the adjacent peripheral grooves, two states can be switched conveniently by arranging the first positioning groove and the second positioning groove, and the thimble can enter the air vent conveniently when the positioning block is positioned right above the positioning groove.

Optionally, the first positioning groove and the second positioning groove are provided with ventilation grooves communicated with the inner cavity of the bottom basin.

Through adopting above-mentioned technical scheme, when the locating piece was in the second constant head tank, thereby first constant head tank accessible ventilative groove and end basin inner chamber intercommunication make end basin first constant head tank department can communicate with the atmosphere to make things convenient for ventilative department to breathe freely, make things convenient for the growth of plant.

Optionally, the central groove and the plurality of peripheral grooves are communicated through a connecting pipe, and a liquid absorbing column is placed in the connecting pipe.

Through adopting above-mentioned technical scheme, through setting up connecting pipe and imbibition post for hydroenergy in the central groove supplies water for the earth in the all edge groove.

Optionally, the connecting pipe is arranged obliquely upwards in a direction away from the central groove.

Through adopting above-mentioned technical scheme, set up the connecting pipe slope, make the connecting pipe and the hookup location in central groove meet the end, when the water of central inslot is less, the imbibition post still can supply water to the earth in all peripheral grooves, and is higher than the hookup location of connecting pipe and central groove when the water level, and is less than the hookup location height of connecting pipe and all peripheral grooves, and water is difficult for a large amount of to peripheral inslot inflow, can only supply water through imbibition post case all peripheral inslots.

Optionally, the liquid filling device further comprises a liquid filling assembly, wherein the liquid filling assembly comprises a liquid storage tank, a liquid filling pipe and a control assembly for controlling the liquid filling pipe and the liquid storage tank to be communicated and blocked; the liquid storage tank is arranged on the side wall of the top basin, and the bottom of the liquid storage tank is communicated with the central groove through a liquid feeding pipe.

Through adopting above-mentioned technical scheme, be used for placing water or nutrient solution in the liquid reserve tank, through setting up liquid reserve tank and control assembly, when central inslot water level is lower, accessible control assembly makes liquid flow direction central inslot in the liquid outlet box, makes the central inslot continuously keep more stable water yield, through setting up the liquid reserve tank, the liquid outlet box is sealed with water or nutrient solution and is preserved for water or the difficult evaporation of nutrient solution.

Optionally, the control assembly comprises a connecting rod, a floating ball and a compression ball, the connecting rod is connected with the floating ball and the compression ball, the connecting rod is hinged to the side wall of the liquid storage tank close to the top basin, the compression ball is located in the liquid storage tank, and the compression ball abuts against the connecting port of the liquid feeding pipe and the liquid storage tank; the floating ball is positioned in the central groove.

Through adopting above-mentioned technical scheme, keep away from or the mouth of pipe of butt liquid feeding pipe through setting up floater and connecting rod control compression ball to whether control liquid feeding pipe communicates with the liquid reserve tank, make the centre inslot water level reduce the back, realize automatic to the inslot liquid feeding of centre, need not the manual work and carry out the liquid feeding.

Optionally, an elastic ring used for being abutted against the compression ball is arranged at a connecting port of the liquid feeding pipe and the liquid storage tank.

By adopting the technical scheme, the elastic ring has certain elasticity, so that when the pressing ball is abutted against the elastic ring, a better sealing effect is achieved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the thimble and the air hole are arranged, so that soil is convenient to ventilate and permeate water, and the growth of plants is convenient;

2. the central tank is convenient to supply water to the peripheral tanks by arranging the connecting pipe and the liquid absorption column;

3. through setting up liquid reserve tank, floater, connecting rod and compressing tightly the ball, make the central groove in water convenient.

Drawings

Fig. 1 is an overall schematic view of a split type flowerpot according to an embodiment of the present application.

Fig. 2 is a schematic view of the structure inside the bottom pot and inside the top pot.

Fig. 3 is a cross-sectional view taken along line a-a of fig. 1.

Fig. 4 is a cross-sectional view taken along line B-B of fig. 1.

Fig. 5 is an enlarged view at C of fig. 4.

Fig. 6 is an enlarged view at D of fig. 4.

Description of reference numerals: 1. a bottom basin; 11. a thimble; 12. a first positioning groove; 13. a second positioning groove; 14. a ventilation groove; 2. carrying out basin jacking; 21. a central slot; 22. a peripheral groove; 221. air holes are formed; 23. positioning blocks; 3. a connecting pipe; 31. a liquid suction column; 4. a liquid adding assembly; 41. a liquid storage tank; 42. a liquid feeding pipe; 43. a control component; 431. a connecting rod; 432. a floating ball; 433. pressing the ball; 5. a top cover; 6. grooving; 7. hinging a shaft; 8. sealing the sheet; 9. an elastic ring.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses split type flowerpot of high strength. Referring to fig. 1, the split type flowerpot of high strength includes end basin 1 and top basin 2 of placing on end basin 1, and top basin 2 bottom undercut forms central groove 21 and sets up four all ring edge grooves 22 in central groove 21 circumference, and peripheral groove 22 evenly sets up along central groove 21's circumference, and leaves the clearance between two adjacent all ring edge grooves 22. The bottom basin 1 and the top basin 2 are made of glass fiber reinforced plastic materials and have high strength.

Referring to fig. 2, a plurality of thimbles 11 are fixed at the bottom of the bottom basin 1, and the thimbles 11 are located on the projection of the bottom of the peripheral groove 22 on the bottom of the bottom basin 1. Six ejector pins 11 are provided in one peripheral groove 22. The thimble 11 is vertically upward, a plurality of air holes 221 for the thimble 11 to pass through are arranged at the bottom of the peripheral groove 22, and the air holes 221 correspond to the thimbles 11 one by one. The airing holes 221 are uniformly spaced around the center of the bottom of the peripheral groove 22. When the top basin 2 is assembled on the bottom basin 1, the top end of the thimble 11 is lower than the bottom of the top basin 2.

Referring to fig. 2, the outer diameter of the thimble 11 is 3-5mm, the inner diameter of the air hole 221 is larger than the outer diameter of the thimble 11 by 1mm, the top end surface of the thimble 11 is a hemispherical cambered surface, and the hemispherical cambered surface protrudes in a direction away from the basin bottom of the basin 1.

Referring to fig. 2, the peripheral edge of the top opening of the bottom basin 1 is provided with eight positioning grooves at even intervals, and the positioning grooves penetrate through the inner wall of the bottom basin 1. Four of which are first positioning grooves 12. The other four are second positioning grooves 13, and the first positioning grooves 12 and the second positioning grooves 13 are arranged in a staggered mode.

Referring to fig. 1 and 2, four positioning blocks 23 are uniformly fixed on the circumferential side wall of the top basin 2 at intervals, and the positioning blocks 23 are matched with the positioning grooves. When the four positioning blocks 23 are all positioned in the first positioning groove 12, the thimble 11 is inserted into the air hole 221; when the four positioning blocks 23 are located in the second positioning grooves 13, the thimble 11 is located in the gap between the adjacent peripheral grooves 22. The positioning block 23 is used for erecting the top pot 2 on the bottom pot 1, and the bottom positions of the peripheral groove 22 and the central groove 21 are higher than the pot bottom of the bottom pot 1.

Referring to fig. 2 and 3, the bottoms of the first positioning groove 12 and the second positioning groove 13 are provided with a ventilation groove 14, and the ventilation groove 14 is communicated with the inner cavity of the bottom basin 1. When the positioning block 23 is positioned in the first positioning groove 12, the ventilation groove 14 at the second positioning groove 13 is communicated with the atmosphere and the bottom basin 1; when the positioning block 23 is located in the second positioning groove 13, the ventilation groove 14 at the first positioning groove 12 communicates with the atmosphere and the inner cavity of the bottom basin 1, so that the ventilation holes 221 can ventilate conveniently.

Referring to fig. 3, the central groove 21 and the plurality of peripheral grooves 22 are communicated by arranging the connecting pipe 3, the liquid absorbing column 31 is placed in the connecting pipe 3, the liquid absorbing column 31 is made of water absorbing material, and the cotton sliver is adopted as the liquid absorbing column 31 in the scheme. The connecting pipe 3 is inclined upward in a direction away from the bottom of the central groove 21. The bottom end of the connecting pipe 3 is connected with the middle part of the central groove 21, and the top end of the connecting pipe 3 is connected with the top part of the peripheral groove 22.

Referring to fig. 4, the high-strength split flowerpot further comprises a liquid adding assembly 4 for adding liquid into the central groove 21, the liquid adding assembly 4 comprises a liquid storage tank 41 fixed on the outer side wall of the top pot 2, the liquid storage tank 41 is in a semicircular ring shape, and the inner annular wall of the semicircular ring is fixed with the outer wall of the top pot 2. The liquid storage tank 41 top has seted up the filling opening, and threaded connection has the top cap 5 that is used for closing the filling opening on the filling opening.

Referring to fig. 4, the charging assembly 4 further comprises a charging pipe 42 and a control assembly 43 for controlling the communication resistance of the charging pipe 42 with the reservoir 41. The outer side wall of the bottom of the liquid storage tank 41 is connected with a liquid feeding pipe 42, the other end of the liquid feeding pipe 42 is connected with the outer wall of the top of the central groove 21, and the liquid storage tank 41 is communicated with the central groove 21 through the liquid feeding pipe 42.

Referring to fig. 4, the control assembly 43 includes a connecting rod 431, a floating ball 432, and a pressing ball 433. The floating ball 432 and the pressing ball 433 are fixed to ends of the connecting rod 431, which are away from each other in the length direction. The float 432 is located in the central groove 21, and the height of the float 432 changes with the change of the liquid level in the central groove 21. The pressing ball 433 is located in the liquid storage tank 41, and the pressing ball 433 is used for abutting against the connecting position of the charging pipe 42 and the liquid storage tank 41 to block the inner cavities of the charging pipe 42 and the liquid storage tank 41.

Referring to fig. 4 and 5, a slot 6 is formed in the side wall of the liquid storage tank 41 close to the top basin 2, and the connecting rod 431 is rotatably connected to the side wall of the liquid storage tank 41 through a hinge shaft 7. Articulated shaft 7 is fixed with connecting rod 431, and the length direction of articulated shaft 7 is the horizontal direction, is fixed with gasket 8 on the upper and lower cell wall of fluting 6, and gasket 8 butt articulated shaft 7's lateral wall. The sealing sheet 8 is made of rubber, so that the groove 6 is not easy to leak water.

Referring to fig. 6, an elastic ring 9 is fixed at the connection port between the filling pipe 42 and the liquid storage tank 41, the elastic ring 9 is used for abutting against the pressing ball 433, the elastic ring 9 is made of rubber, so that the elastic ring has good sealing performance against the pressing ball 433, and the connection port between the filling pipe 42 and the liquid storage tank 41 is not prone to water leakage.

Referring to fig. 4, the floating ball 432 is positioned at a height at the middle of the connection pipe 3 such that the water level in the central groove 21 is not higher than the top end of the connection pipe 3. Prevent a large amount of water or nutrient solution from entering the peripheral groove 22 and then leaking out of the air holes 221, so that the water or nutrient solution is not easy to waste.

In another embodiment, the control assembly 43 may be a control valve that is connected to the filler tube 42.

The implementation principle of the split type flowerpot of this application embodiment of high strength does: when the water-saving type soil-removing device is used, water or nutrient solution is placed in the central groove 21, and soil is placed in the peripheral groove 22. The liquid in the central groove 21 is supplied to the peripheral groove 22 through the liquid absorption column 31, so that soil in the peripheral groove 22 is kept moist, and the growth of plants is facilitated. When the liquid in the central groove 21 is lowered, the floating ball 432 is lowered, and the pressing ball 433 is raised, so that the liquid feeding pipe 42 communicates the liquid storage tank 41 with the central groove 21, and the water and the nutrient solution in the liquid storage tank 41 enter the central groove 21; after the float 432 rises, the pressing ball 433 descends, and the pressing ball 433 abuts against the connecting port between the liquid storage tank 41 and the liquid feeding pipe 42, so that the liquid in the liquid storage tank 41 does not enter the central groove 21 any more.

After the earth in peripheral groove 22 caked, when the gas permeability was relatively poor, the user separated top basin 2 and end basin 1 to aim at the top of second constant head tank 13 with locating piece 23, will push up the vertical push down of basin 2 and place on end basin 1, thimble 11 inserts in bleeder vent 221 this moment, and can run through the soil layer, form ventilation channel, later, place locating piece 23 in second constant head tank 13, make thimble 11 be located the clearance between peripheral groove 22. The air holes 221 are communicated with the air permeable channel, so that the soil is conveniently permeable; the growth of the plants is facilitated.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a split type flowerpot of high strength which characterized in that: the pot comprises a top pot (2) and a bottom pot (1) for placing the top pot (2), wherein the bottom of the top pot (2) is sunken to form a central groove (21) and peripheral grooves (22) positioned at the periphery of the central grooves (21); a plurality of thimbles (11) are fixed on the bottom of the bottom basin (1), and a plurality of air holes (221) for the thimbles (11) to pass through are formed in the bottom of the peripheral groove (22); the peripheral grooves (22) are arranged at intervals, and gaps for accommodating the thimbles (11) are reserved between the adjacent peripheral grooves (22).

2. The split type flowerpot of high strength of claim 1, its characterized in that: the top end face of the ejector pin (11) is a hemispherical cambered surface, and the hemispherical cambered surface protrudes towards the direction far away from the bottom basin (1).

3. The split type flowerpot of high strength of claim 1, its characterized in that: the air holes (221) are arranged along the circumferential direction of the center of the bottom of the peripheral groove (22), and the ejector pins (11) are arranged corresponding to the air holes (221).

4. The split type flowerpot of high strength of claim 1, its characterized in that: a first positioning groove (12) and a second positioning groove (13) are formed in the edge of the top opening of the bottom basin (1), and positioning blocks (23) are arranged on the circumferential side wall of the top basin (2); when the positioning block (23) is positioned in the first positioning groove (12), the thimble (11) penetrates through the air hole (221); when the positioning block (23) is positioned in the second positioning groove (13), the ejector pin (11) is positioned in a gap between the adjacent peripheral grooves (22).

5. The split type flowerpot of high strength of claim 4, its characterized in that: and the first positioning groove (12) and the second positioning groove (13) are provided with ventilating grooves (14) communicated with the inner cavity of the bottom basin (1).

6. The split type flowerpot of high strength of claim 1, its characterized in that: the central groove (21) is communicated with the plurality of peripheral grooves (22) through a connecting pipe (3), and a liquid absorbing column (31) is placed in the connecting pipe (3).

7. The split type flowerpot of high strength of claim 6, its characterized in that: the connecting pipe (3) is arranged in an upward inclined mode along the direction far away from the central groove (21).

8. The split type flowerpot of high strength of claim 1, its characterized in that: the liquid adding device comprises a liquid storage tank (41), a liquid adding pipe (42) and a control assembly (43) for controlling the resistance of the liquid storage tank (41) and the liquid adding pipe (42); the liquid storage tank (41) is arranged on the side wall of the top basin (2), and the bottom of the liquid storage tank (41) is communicated with the central groove (21) through a liquid feeding pipe (42).

9. The split type flowerpot of high strength of claim 8, its characterized in that: the control assembly (43) comprises a connecting rod (431), a floating ball (432) and a compression ball (433), the connecting rod (431) is connected with the floating ball (432) and the compression ball (433), the connecting rod (431) is hinged to the side wall, close to the top basin (221), of the liquid storage tank (41), the compression ball (433) is located in the liquid storage tank (41), and the compression ball (433) abuts against the connecting port of the liquid filling pipe (42) and the liquid storage tank (41); the floating ball (432) is positioned in the central groove (21).

10. The split type flowerpot of high strength of claim 9, its characterized in that: an elastic ring (9) used for being abutted against the pressing ball (433) is arranged at the connecting port of the liquid adding pipe (42) and the liquid storage tank (41).

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