CN202232297U - Flower container for supplying water and nutriment - Google Patents

Abstract

The utility model discloses a flower container for supplying water and nutriment. The flower container comprises a flowerpot, a water receiver, a fixed nutriment box, a nutriment discharging pipe and a detachable culture bottle, wherein the flowerpot is communicated with the water receiver; and the fixed nutriment box or the detachable culture bottle which is communicated with the water receiver is also arranged on the water receiver. The flower container can supply the water and the nutriment for a long time, and the death of potted plants caused by root rot due to excessive water volume is avoided.

Description

The floral organ of automatic water-supply, nutriment

Technical field

The utility model relates to a kind of floral organ, the floral organ of especially a kind of automatic water-supply, nutriment.

Background technology

The employed floral organ of tradition greening; Be exactly a simple flowerpot, a water receiver perhaps be set in the bottom of flowerpot supply water, relatively little for the floral organ scale of construction of single flowerpot structure, water retention capacity is poor; If do not water for a long time; Potted plantly tend to because of lack of water witheredly dead, but water dilutional hyponatremia, the potted plant root and dead of can rotting again; For the floral organ that water receiver is set in the flowerpot bottom; Because the water level of water receiver can not be too high, nor maybe the bottom surface be done very greatly, so its installation of water is very limited; Can only satisfy the water supply of short time, this to supply water, support material through water receiver all be very limited.

The utility model content

The purpose of the utility model provides a kind of satisfy long-time automatic water-supply, the automatic water-supply of supporting material, the floral organ of nutriment.

For realizing above-mentioned purpose, the technical scheme that the utility model adopted is:

The floral organ of a kind of automatic water-supply, nutriment comprises flowerpot, water receiver, fixedly nutriment case, nutriment discharge pipe and removable foster bottle, and flowerpot is connected with water receiver, it is characterized in that: said water receiver is provided with the fixedly nutriment case that communicates with it or removable foster bottle; The bottom of said fixedly nutriment case is provided with flow control switch, and top is provided with charge door, also is provided with lid or stopper or flow control switch on the charge door; The bottle mouth position of said removable nutriment bottle is provided with the bottle cap of double as flow control switch, and bottle cap is upside down in the water receiver or to be upside down in water receiver outer and than the place of water filling port height or level.

The bottom of said flowerpot is provided with the inlet opening, and the inlet opening of said flowerpot can extend outward bailing pipe, and said flowerpot communicates with water receiver through the bailing outlet of inlet opening or bailing pipe; Be provided with cultivation matrix in the said bailing pipe, and with cultivation matrix in the flowerpot be one.

The bottom of said flowerpot is provided with the inlet opening, the inlet opening of the said flowerpot aqueduct that can extend internally out, and the height that said aqueduct extends is higher than the water surface of water receiver, and said flowerpot communicates with water receiver through the inlet opening; Be provided with cultivation matrix in the said aqueduct, and with cultivation matrix in the flowerpot be one.

Said water receiver is located at the flowerpot and the fixing below of nutriment case or removable foster bottle, and said water receiver is provided with pore or tracheae, and said pore or tracheae can be provided with the air-flow gauge tap.

Said fixedly nutriment case is located at the periphery of flowerpot, and with flowerpot and the water receiver that is positioned at fixing nutriment case below be one, fixedly the delivery port of the flow control switch of nutriment case is higher than the inlet opening of flowerpot or is higher than the bailing outlet of the bailing pipe of flowerpot.

The flow control switch of said fixedly nutriment lower box part and the lid of top charge door or stopper or flow control switch are connected; When the lid of opening the top charge door or stopper or flow control switch, the flow control switch of bottom is just closed; When the lid of closing the top charge door or stopper or flow control switch, the flow control switch of bottom is just opened.

Said fixedly nutriment case is provided with observation window or pipe is looked in observation; Saidly be positioned at the fixedly observation of nutriment box top and look pipe and be provided with guide rod, the guide rod that the observation of said fixedly nutriment box top is looked in the pipe is connected with the fixing interior float of nutriment case chamber.

Said fixedly nutriment case is located at a side of flowerpot and water receiver and is positioned at than the water filling port height of water receiver or the place of level, one fixedly the nutriment case can connect one or more water receiver, fixedly the nutriment case communicates with water receiver through the nutriment discharge pipe.

Said water receiver is located at no inlet opening or does not have in the flowerpot of osculum, and this water receiver is provided with water filling port, discharge outlet and pore or hole pipe.

The bottle mouth position of said removable nutriment bottle is provided with the bottle cap of double as flow control switch; Bottle cap is to be made up of enclosing cover and inner cap; Inner cap is connected on the bottleneck, is positioned at the peripheral enclosing cover of inner cap and is upside down in water receiver or is upside down in water receiver outward and than the place of water filling port height or level; When inner cap rotates counterclockwise when blocking, enclosing cover give staggering each other of water hole and inner cap to the water hole, at this moment, current are closed; When inner cap clockwise rotates when blocking, enclosing cover give the then corresponding of water hole and inner cap to the water hole, at this moment, current are switched on.

After the utility model adopts said structure; Through at fixedly nutriment case or removable foster bottled water or liquid nutriment; Self gravity of utilization water (liquid) is power and is resistance with air pressure, and realizes automatic water-supply, supports material and stop to supply water, supporting material automatically according to predefined water level.

Description of drawings

Below in conjunction with accompanying drawing and embodiment the utility model is done further explain:

Fig. 1 is the structure chart of the utility model embodiment one;

Fig. 2 is the structure chart of the utility model embodiment two;

Fig. 3 is the structure chart of the utility model embodiment three;

Fig. 4 is the structure chart of the utility model embodiment four;

Fig. 5 is the structure chart of the utility model embodiment five;

Fig. 6 is the structure chart of the utility model embodiment six;

Fig. 7 is the structure chart of the utility model embodiment seven;

Fig. 8 is the structure chart of the utility model embodiment eight;

Fig. 9 is the structure chart of the utility model embodiment nine;

Figure 10 is the structure chart of the utility model embodiment ten;

Figure 11 is the structure chart of the utility model embodiment 11;

Figure 12 is the structure chart of the utility model embodiment 12;

Figure 13 is the structure chart of the utility model embodiment 13;

Figure 14 is the structure chart of the utility model embodiment 14;

Figure 15 is the structure chart of the utility model embodiment 15;

Figure 16 is the structure chart of the utility model embodiment 16;

Figure 17 is the structure chart of the utility model embodiment 17;

Figure 18 is the structure chart of the utility model embodiment 18;

Figure 19 is the structure chart of the utility model embodiment 19;

Figure 20 is the structure chart of the utility model embodiment 20;

Figure 21 is the structure chart of the utility model embodiment 21;

Figure 22 is the structure chart of the utility model embodiment 22;

Figure 23 is the structure chart of the utility model embodiment 23.

Figure 24 is the structure chart of the utility model embodiment 24.

Figure 25 is the structure chart of the utility model embodiment 25.

Figure 26 is the structure chart of the utility model embodiment 26.

Figure 27 is the structure chart of the utility model embodiment 27.

Figure 28 is the structure chart of the utility model embodiment 28.

Figure 29 is the structure chart of the utility model embodiment 29.

Figure 30 is the structure chart of the utility model embodiment 30.

Figure 31 is the structure chart of the utility model embodiment 31.

Among the figure: 1 flowerpot, 2 water receivers, 3 fixing nutriment casees, 4 removable nutriment bottles, 5 inlet openings, 6 bailing pipes, 7 aqueducts; 8 pores, 9 tracheaes, 10 air-flow gauge taps, 11 flow control switch, 12 charge doors, 13 lids, 14 delivery ports; 15 observation windows, 16 observations are looked pipe, 17 guide rods, 18 floats, 19 water filling ports, 20 discharge outlet; 21 nutriment discharge pipes, 22 bottle cap switches, 23 enclosing covers, 24 inner caps, 25 enclosing covers are given the water hole, and 26 inner caps are given the water hole.

Embodiment

Embodiment one

Shown in Figure 1, the automatic water-supply of the utility model, the floral organ of nutriment comprise flowerpot 1, water receiver 2, and flowerpot 1 is connected with water receiver 2, also is provided with fixedly nutriment case 3 in flowerpot 1 periphery, this fixedly nutriment case 3 be connected with water receiver 2 through delivery port 14.Above-mentioned water receiver 2 is located at the bottom of flowerpot 1.Be provided with inlet opening 5 in the bottom of flowerpot 1, flowerpot 1 is connected through inlet opening 5 with water receiver 2.Also be provided with flow control switch 11 at delivery port 14.Be provided with charge door 12 at the fixing top of nutriment case 3, also be provided with lid 13 at this charge door 12.On water receiver 2, also be provided with pore 8.Said fixing nutriment case 3, flowerpot 1 and water receiver 2 are structure as a whole.

Operation principle: after root system absorbed the water and nutrient of soil (cultivation matrix) lining when plant growing, the humidity of cultivation matrix will reduce; After cultivation matrix humidity reduced, cultivation matrix will draw notes toward 2 li of water receivers, contain water storage divided nutrient; After cultivation matrix drew notes toward 2 li of water receivers, contains water storage and divide nutrient, the water level of water receiver 2 will reduce; When the water level depression of water receiver 2 surpassed the delivery port of the fixing flow control switch 11 of nutriment case 3, air will enter into fixedly nutriment case 3 from delivery port, and fixedly the water of nutriment case 3 or nutriment will be discharged from delivery port 14 automatically; After the water of fixing nutriment case 3 or nutriment were discharged, the water level of water receiver 2 will rise; When 2 li water levels of water receiver rise when exceeding the delivery port 14 of the fixing flow control switch 11 of nutriment case 3, air just can't be from delivery port 14 entering fixedly in the nutriment case 3, thereby has stopped water supply; Go round and begin again, work repeatedly; When needs during toward fixing nutriment case 3 supplementing water or nutriment, flow control switch 11 is closed, open the lid 13 of charge door 12 then, water or nutriment are added got final product, cover lid 13 then, the flow control switch 11 of fetching boiling water at last.

Embodiment two

Shown in Figure 2, the automatic water-supply of the utility model, the floral organ of nutriment comprise flowerpot 1, water receiver 2, and flowerpot 1 is connected with water receiver 2, also is provided with fixedly nutriment case 3 in flowerpot 1 periphery, this fixedly nutriment case 3 be connected with water receiver 2 through delivery port 14.Water receiver 2 is located at the side of flowerpot 1 bottom.Side at flowerpot 1 is provided with inlet opening 5.Also be provided with flow control switch 11 at delivery port 14.Be provided with charge door 12 at the fixing top of nutriment case 3, also be provided with lid 13 at this charge door 12.On fixing nutriment case 3, be provided with to observe and look pipe 16, in fixing nutriment case 3, be provided with the float 18 of band guide rod 17, guide rod 17 stretches into to be looked in the pipe 16, and preferably the length of guide rod 17 is with fixedly nutriment case 3 is consistent.Also be provided with pore 8 at water receiver 2.Said fixing nutriment case 3, flowerpot 1 and water receiver 2 are structure as a whole.

Operation principle: when the water level depression of fixing nutriment case 3, float 18 descends, and drives guide rod 17 and descends, and therefore observes the position of float 18 through looking pipe 16, promptly is the position that the water level depression of nutriment device 3 arrives; When the water level of fixing nutriment case 3 rose, float 18 rose, and drove guide rod 17 and raise, and therefore observed the position of float 18 through looking pipe 16, promptly was the position that the water level of nutriment device 3 is elevated to.Other is said with embodiment one.

Embodiment three

Shown in Figure 3, the automatic water-supply of the utility model, the floral organ of nutriment comprise flowerpot 1, water receiver 2, and flowerpot 1 is connected with water receiver 2, also is provided with fixedly nutriment case 3 in flowerpot 1 periphery, this fixedly nutriment case 3 be connected with water receiver 2 through delivery port 14.Above-mentioned water receiver 2 is located at the bottom of flowerpot 1.Be provided with inlet opening 5 in the bottom of flowerpot 1, flowerpot 1 is connected through inlet opening 5 with water receiver 2, in flowerpot 1, is extended with aqueduct 7 at 5 places, inlet opening.Also be provided with flow control switch 11 at delivery port 14.Be provided with charge door 12 at the fixing top of nutriment case 3, also be provided with lid 13 at this charge door 12.On water receiver 2, also be provided with pore 8.Said fixing nutriment case 3, flowerpot 1 and water receiver 2 are structure as a whole.

Operation principle is said with embodiment one.

Embodiment four

Shown in Figure 4, the automatic water-supply of the utility model, the floral organ of nutriment comprise flowerpot 1, water receiver 2, and flowerpot 1 is connected with water receiver 2, also is provided with fixedly nutriment case 3 in flowerpot 1 periphery, this fixedly nutriment case 3 be connected with water receiver 2 through delivery port 14.Water receiver 2 is located at the side of flowerpot 1 bottom.Side at flowerpot 1 is provided with inlet opening 5.Also be provided with flow control switch 11 at delivery port 14.Be provided with charge door 12 at the fixing top of nutriment case 3, also be provided with lid 13 at this charge door 12, lid 13 connects with flow control switch 11.Fixedly be provided with form 15 on the nutriment case 3, can observing the fixedly water level of nutriment case 3 through this form 15.Also be provided with pore 8 at water receiver 2.Said fixing nutriment case 3, flowerpot 1 and water receiver 2 are structure as a whole.

Operation principle, when the lid of opening on the charge door 12 13, then fixedly 11 of the flow control switch of nutriment case 3 bottoms are closed, and when the lid 13 of closing on the charge door 12, fixedly 11 of the flow control switch of nutriment case 3 bottoms are opened, and other is said with embodiment one.

Embodiment five

Shown in Figure 5, the automatic water-supply of the utility model, the floral organ of nutriment comprise flowerpot 1, water receiver 2, and flowerpot 1 is connected with water receiver 2, also is provided with fixedly nutriment case 3 in flowerpot 1 periphery, this fixedly nutriment case 3 be connected with water receiver 2 through delivery port 14.Above-mentioned water receiver 2 is located at the bottom of flowerpot 1.Be provided with inlet opening 5 in the bottom of flowerpot 1, flowerpot 1 is connected through inlet opening 5 with water receiver 2, outside flowerpot 1, is extended with bailing pipe 6 at 5 places, inlet opening.Also be provided with flow control switch 11 at delivery port 14.Be provided with charge door 12 at the fixing top of nutriment case 3, also be provided with lid 13 at this charge door 12.On water receiver 2, also be provided with tracheae 9.Said fixing nutriment case 3, flowerpot 1 and water receiver 2 are structure as a whole.

Operation principle is said with embodiment one.

Embodiment six

Shown in Figure 6, the automatic water-supply of the utility model, the floral organ of nutriment are fixedly nutriment case 3, flowerpot 1 and water receiver 2 snappings with the difference of embodiment one floral organ.

Operation principle is said with embodiment one.

Embodiment seven

Shown in Figure 7; The automatic water-supply of the utility model, the floral organ of nutriment be fixedly nutriment case 3, flowerpot 1 and water receiver 2 snappings with the difference of embodiment one floral organ, and the shape of flowerpot 1 are horn-like; For the flowerpot 1 of same capacity, its plantation mouth is bigger like this.

Operation principle is said with embodiment one.

Embodiment eight

Shown in Figure 8; The automatic water-supply of the utility model, the floral organ of nutriment; With the difference of embodiment one floral organ be that fixedly nutriment case 3, water receiver 2 are one-body molded, and then with flowerpot 1 snapping, and flowerpot 1 with fixing nutriment case 3 through two buckle snappings.

Operation principle is said with embodiment one.

Embodiment nine

Shown in Figure 9; The automatic water-supply of the utility model, the floral organ of nutriment, with the difference of embodiment one floral organ be that fixedly nutriment case 3, water receiver 2 are one-body molded, and then with flowerpot 1 snapping; And flowerpot 1 with fixing nutriment case 3 through two buckle snappings; And the shape of flowerpot 1 is horn-like, and for the flowerpot 1 of same capacity, its plantation mouth is bigger like this.

Operation principle is said with embodiment one.

Embodiment ten

Shown in Figure 10; The automatic water-supply of the utility model, the floral organ of nutriment; With the difference of embodiment one floral organ be that fixedly nutriment case 3, water receiver 2 are one-body molded; Fixedly separate through the snapping dividing plate between nutriment case 3 and the water receiver 2, fixedly nutriment case 3 is again with flowerpot 1 snapping then, and flowerpot 1 is through two buckle snappings with fixing nutriment case 3.

Operation principle is said with embodiment one.

Embodiment 11

Shown in Figure 11; The automatic water-supply of the utility model, the floral organ of nutriment; With the difference of embodiment one floral organ be that fixedly nutriment case 3, water receiver 2 are one-body molded, fixedly separate through the snapping dividing plate between nutriment case 3 and the water receiver 2, then fixedly nutriment case 3 again with flowerpot 1 snapping.

Embodiment 12

Shown in Figure 12; The automatic water-supply of the utility model, the floral organ of nutriment; With the difference of embodiment one floral organ be the side that water receiver 2 is located at flowerpot 1; Fixedly nutriment case 3, water receiver 2 are one-body molded, fixedly separate through the snapping dividing plate between nutriment case 3 and the water receiver 2, then fixedly nutriment case 3 again with flowerpot 1 snapping.

Embodiment 13

Shown in Figure 13; The automatic water-supply of the utility model, the floral organ of nutriment; With the difference of embodiment one floral organ be the side that the inlet opening 5 of flowerpot 1 is located at flowerpot 1; Fixedly nutriment case 3, water receiver 2 are one-body molded, fixedly separate through the snapping dividing plate between nutriment case 3 and the water receiver 2, then fixedly nutriment case 3 again with flowerpot 1 snapping.

Embodiment 14

Shown in Figure 14; The automatic water-supply of the utility model, the floral organ of nutriment; With the difference of embodiment one floral organ be the side that the inlet opening 5 of flowerpot 1 is located at flowerpot 1; Fixedly nutriment case 3 is one-body molded with flowerpot 1, water receiver 2 respectively at fixedly nutriment case 3, flowerpot 1 snapping together, fixedly the fastener snapping is passed through together in the top of nutriment case 3.

Embodiment 15

Shown in Figure 15, the automatic water-supply of the utility model, the floral organ of nutriment are flowerpot 1, water receiver 2, fixing nutriment case 3 mutual snappings with the difference of embodiment one floral organ, and the inlet opening 5 of flowerpot 1 is located at side.

Embodiment 16

Shown in Figure 16; The automatic water-supply of the utility model, the floral organ of nutriment; With the difference of embodiment one floral organ be that fixedly nutriment case 3 is one-body molded with flowerpot 1, water receiver 2 respectively at fixedly nutriment case 3, flowerpot 1 snapping together, fixedly the fastener snapping is passed through together in the top of nutriment case 3; Outside flowerpot 1, be extended with bailing pipe 6 at 5 places, inlet opening.

Embodiment 17

Shown in Figure 17, the automatic water-supply of the utility model, the floral organ of nutriment, with the difference of embodiment one floral organ be that fixedly nutriment case 3 is one-body molded with flowerpot 1 top, water receiver 2 is one-body molded with the bottom of flowerpot 1, then fixedly nutriment case 3 with water receiver 2 snappings; The inlet opening 5 of flowerpot 1 is located at the side of flowerpot 1.

Embodiment 18

Shown in Figure 180, the automatic water-supply of the utility model, the floral organ of nutriment, with the difference of embodiment one floral organ be that fixedly nutriment case 3 is one-body molded with flowerpot 1 top, water receiver 2 is one-body molded with the bottom of flowerpot 1, then fixedly nutriment case 3 with water receiver 2 snappings.

Embodiment 19

Shown in Figure 19, the automatic water-supply of the utility model, the floral organ of nutriment, with the difference of embodiment one floral organ be that fixedly nutriment case 3 is one-body molded with flowerpot 1, water receiver 2 is with fixing nutriment case 3 snappings; The inlet opening 5 of flowerpot 1 is located at the side of flowerpot 1.

Embodiment 20

Shown in Figure 20, the automatic water-supply of the utility model, the floral organ of nutriment, with the difference of embodiment one floral organ be that fixedly nutriment case 3 is one-body molded with flowerpot 1, water receiver 2 is respectively with fixedly nutriment case 3, flowerpot 1 snapping; The inlet opening 5 of flowerpot 1 is located at the side of flowerpot 1.

Embodiment 21

Shown in Figure 21, the automatic water-supply of the utility model, the floral organ of nutriment, with the difference of embodiment one floral organ be that fixedly nutriment case 3 is one-body molded with flowerpot 1, water receiver 2 is with fixing nutriment case 3 snappings; Outside flowerpot 1, be extended with bailing pipe 6 at 5 places, inlet opening, 9 places are provided with air-flow gauge tap 10 at tracheae.

Embodiment 22

Shown in Figure 22, the automatic water-supply of the utility model, the floral organ of nutriment, with the difference of embodiment one floral organ be that fixedly nutriment case 3 is one-body molded with flowerpot 1 top, water receiver 2 is one-body molded with the bottom of flowerpot 1, then fixedly nutriment case 3 with water receiver 2 snappings; The inlet opening 5 of flowerpot 1 is located at the side of flowerpot 1; Fixedly also be provided with the water level observation with form 15 on the nutriment case 3.

Embodiment 23

Shown in Figure 23; The automatic water-supply of the utility model, the floral organ of nutriment, with the difference of embodiment one floral organ be that fixedly nutriment case 3 is one-body molded with flowerpot 1 top, water receiver 2 is one-body molded with flowerpot 1 bottom; Snapping is together respectively for fixedly nutriment case 3 and water receiver 2 then, the upper and lower of flowerpot 1; Inlet opening 5 is located at the side of flowerpot 1; Lid 13 connects with flow control switch 11.

Operation principle, with the difference of embodiment one be when opening the lid 13 on the charge door 12, then fixedly 11 of the flow control switch of nutriment case 3 bottoms are closed, when the lid 13 of closing on the charge door 12, fixedly 11 of the flow control switch of nutriment case 3 bottoms are opened.

Embodiment 24

Shown in Figure 24; The automatic water-supply of the utility model, the floral organ of nutriment; With the difference of embodiment one floral organ be that water receiver 2 is connected to the fixedly bottom of nutriment case 3, and be located at no inlet opening 5 or do not have the side in the flowerpot 1 of osculum, fixedly also be provided with on the sidewall of nutriment case 3 to observe to look and manage 16.

Embodiment 25

Shown in Figure 25; The automatic water-supply of the utility model, the floral organ of nutriment; With the difference of embodiment one floral organ be that water receiver 2 is connected to the fixedly bottom of nutriment case 3, and be located at no inlet opening 5 or do not have the side in the flowerpot 1 of osculum, fixedly the top of nutriment case 3 is provided with to observe to look and manages 16.Observation is looked pipe 16 and is provided with guide rod 17, and this guide rod 17 connects the fixedly interior float 18 of nutriment case 3 chambers.

Embodiment 26

Shown in Figure 26; The automatic water-supply of the utility model, the floral organ of nutriment; With the difference of embodiment one floral organ be that fixedly nutriment case 3 is one-body molded with the water receiver 2 of below, and establish the outer side of flowerpot 1, the water filling port 19 of water receiver 2 is connected through the inlet opening 5 of nutriment discharge pipe 21 with flowerpot 1.

Embodiment 27

Shown in Figure 27; The automatic water-supply of the utility model, the floral organ of nutriment; With the difference of embodiment one floral organ be that flowerpot 1 is one-body molded with the water receiver 2 of below; Fixedly nutriment case 3 is located at a side of flowerpot 1 and water receiver 2, and fixedly the flow control switch 11 of nutriment case 3 bottoms is connected through the water filling port 19 of nutriment discharge pipe 21 with water receiver 2.

Embodiment 28

Shown in Figure 28; The automatic water-supply of the utility model, the floral organ of nutriment; With the difference of embodiment one floral organ be that water receiver 2 is located at no inlet opening 5 or does not have in the flowerpot 1 of osculum; Fixedly nutriment case 3 is located at outside the flowerpot 1, and fixedly the flow control switch 11 of nutriment case 3 bottoms is connected through the water filling port 19 of nutriment discharge pipe 21 with water receiver 2.

Embodiment 29

Shown in Figure 29; The automatic water-supply of the utility model, the floral organ of nutriment; With the difference of embodiment one floral organ be to be provided with one or more flowerpot 1 in the water receiver 2, said fixedly nutriment case 3 is connected with more than one water receiver 2, and is positioned at the place higher than the water filling port of all water receivers 2 19; One end of said nutriment discharge pipe 21 is connected with the water filling port 19 of all water receivers 2, the other end and fixedly the flow control switch 11 of nutriment case 3 bottoms be connected.

Embodiment 30

Shown in Figure 30; The automatic water-supply of the utility model, the floral organ of nutriment, said floral organ are to be made up of flowerpot 1, water receiver 2 and removable nutriment bottle 4, and said flowerpot 1 is located in the water receiver 2; Flowerpot 1 bottom is provided with the inlet opening 5 that communicates with water receiver 2, and the sidewall of water receiver 2 is provided with water filling port 19.The bottle mouth position of said removable nutriment bottle 4 is provided with the bottle cap 22 of double as flow control switch; Bottle cap 22 is to be made up of enclosing cover 23 and inner cap 24; Inner cap 24 is connected on the bottleneck, is positioned at the peripheral enclosing covers 23 of inner cap 24 and is upside down in water receiver 2 or is upside down in water receiver 2 outward and than the place of water filling port 19 height or level; When inner cap 24 rotates counterclockwise when blocking, stagger each other in the give water hole 25 and the water hole 26 of giving of inner cap of enclosing cover, and at this moment, current are closed; When inner cap 24 clockwise rotates when blocking, enclosing cover give the corresponding of water hole 25 and inner cap to 26 in water hole, at this moment, current are switched on.

Embodiment 31

Shown in Figure 31; The automatic water-supply of the utility model, the floral organ of nutriment, said floral organ are to be made up of flowerpot 1, water receiver 2, nutriment discharge pipe 21 and removable nutriment bottle 4, and the bottle mouth position of said removable nutriment bottle 4 is provided with the bottle cap 22 of double as flow control switch; Bottle cap is to be made up of enclosing cover 23 and inner cap 24; Said water receiver 2 is located at no inlet opening 5 or does not have in the flowerpot 1 of osculum, and the sidewall of water receiver 2 is provided with water filling port 19, also is provided with the discharge outlet 20 that communicates with flowerpot 1; One end of nutriment discharge pipe 21 is connected with water filling port 19, and the other end communicates with the water hole 25 of giving of the enclosing cover of bottle cap.

The above is the preferred implementation of the utility model; Certainly can not limit the interest field of the utility model with this; Should be understood that; For those skilled in the art, the technical scheme of the utility model is made amendment or is equal to replacement, do not break away from the protection domain of the utility model technical scheme.

Claims (10)

1. the floral organ of an automatic water-supply, nutriment; Comprise flowerpot (1), water receiver (2), fixedly nutriment case (3), nutriment discharge pipe (21) and removable foster bottle (4); Flowerpot (1) is connected with water receiver (2), it is characterized in that: said water receiver (2) is provided with fixedly nutriment case (3) or the removable foster bottle (4) that communicates with it; The bottom of said fixedly nutriment case (3) is provided with flow control switch (11), and top is provided with charge door (12), also is provided with lid (13) or stopper or flow control switch on the charge door (12); The bottle mouth position of said removable nutriment bottle (4) is provided with the bottle cap (22) of double as flow control switch, and bottle cap (22) is upside down in the water receiver (2) or to be upside down in water receiver (2) outer and than the place of water filling port (19) height or level.

2. the floral organ of automatic water-supply according to claim 1, nutriment; It is characterized in that: be provided with inlet opening (5) in the bottom of said flowerpot (1); The inlet opening (5) of said flowerpot (1) can extend outward bailing pipe (6), and said flowerpot (1) communicates with water receiver (2) through the bailing outlet of inlet opening (5) or bailing pipe (6); Said bailing pipe is provided with cultivation matrix in (6), and with flowerpot (1) in cultivation matrix be one.

3. the floral organ of automatic water-supply according to claim 1, nutriment; It is characterized in that: be provided with inlet opening (5) in the bottom of said flowerpot (1); The inlet opening (5) of said flowerpot (1) aqueduct (7) that can extend internally out; The height that said aqueduct (7) extends is higher than the water surface of water receiver (2), and said flowerpot (1) communicates with water receiver (2) through inlet opening (5); Said aqueduct is provided with cultivation matrix in (7), and with flowerpot (1) in cultivation matrix be one.

4. the floral organ of automatic water-supply according to claim 1, nutriment; It is characterized in that: said water receiver (2) is located at the flowerpot (1) and the fixing below of nutriment case (3) or removable foster bottle (4); Said water receiver (2) is provided with pore (8) or tracheae (9), and said pore (8) or tracheae (9) can be provided with air-flow gauge tap (10).

5. the floral organ of automatic water-supply according to claim 1, nutriment; It is characterized in that: said fixedly nutriment case (3) is located at the periphery of flowerpot (1); And with flowerpot (1) and the water receiver (2) that is positioned at fixing nutriment case (3) below be one, fixedly the delivery port (14) of the flow control switch (11) of nutriment case (3) is higher than the inlet opening (5) of flowerpot (1) or is higher than the bailing outlet of the bailing pipe (6) of flowerpot (1).

6. the floral organ of automatic water-supply according to claim 1, nutriment; It is characterized in that: the flow control switch (11) of said fixedly nutriment case (3) bottom and the lid (13) of top charge door or stopper or flow control switch are connected; When the lid of opening the top charge door (13) or stopper or flow control switch, the flow control switch of bottom (11) is just closed; When the lid of closing the top charge door (13) or stopper or flow control switch, the flow control switch of bottom (11) is just opened.

7. the floral organ of automatic water-supply according to claim 1, nutriment is characterized in that: said fixedly nutriment case (3) is provided with observation window (15) or observes and look pipe (16); Saidly be positioned at the fixedly observation at nutriment case (3) top and look pipe (16) and be provided with guide rod (17), the guide rod (17) that the observation at said fixedly nutriment case (3) top is looked in the pipe (16) is connected with the fixing interior float (18) of nutriment case (3) chamber.

8. the floral organ of automatic water-supply according to claim 1, nutriment; It is characterized in that: said fixedly nutriment case (3) is located at a side of flowerpot (1) and water receiver (2) and is positioned at than water filling port (19) height of water receiver (2) or the place of level; One fixedly nutriment case (3) can connect one or more water receiver (2), fixedly nutriment case (3) communicates with water receiver (2) through nutriment discharge pipe (21).

9. the floral organ of automatic water-supply according to claim 1, nutriment; It is characterized in that: said water receiver (2) is located at no inlet opening (5) or does not have in the flowerpot (1) of osculum, and this water receiver (2) is provided with water filling port (18), discharge outlet (19) and pore (8) or hole pipe.

10. the floral organ of automatic water-supply according to claim 1, nutriment; It is characterized in that: the bottle mouth position of said removable nutriment bottle (4) is provided with the bottle cap (22) of double as flow control switch; Bottle cap (22) is to be made up of enclosing cover (23) and inner cap (24); Inner cap (24) is connected on the bottleneck, is positioned at the peripheral enclosing cover (23) of inner cap (24) and is upside down in water receiver (2) or is upside down in water receiver (2) outward and than the place of water filling port (19) height or level; When inner cap (24) rotates counterclockwise when blocking, stagger each other in the give water hole (25) and the water hole (26) of giving of inner cap of enclosing cover, and at this moment, current are closed; When inner cap (24) clockwise rotates when blocking, enclosing cover give the then corresponding of water hole (25) and inner cap to water hole (26), at this moment, current are switched on.

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