CN209861877U - Watering device cultivated in a pot - Google Patents

Abstract

The utility model relates to a device that waters cultivated in a pot. The water storage tank is fixed on the support frame; each water seeping device comprises a water storage device and an insertion pipe, a plurality of water seeping holes distributed around the circumference are formed in the circumferential wall of the insertion pipe, two water inlet connecting pipes are formed in the side wall of the water storage device, and the water seeping devices are sequentially connected through the water inlet connecting pipes and the communicating pipes to form an annular distribution structure; the bottom of the water storage tank is provided with a water outlet pipe orifice, the middle part of one of the communicating pipes is provided with a water inlet pipe orifice, and the water outlet pipe orifice is communicated with the water inlet pipe orifice through a hose. The utility model supplies water to each water seeping device through the water storage tank, and the water of the water seeping device gradually and slowly seeps into the soil of the potted plant through the water seepage holes, thereby improving the watering effect; aiming at potted plants with different sizes, the watering requirements of potted plants with different sizes can be met only by correspondingly increasing or reducing the number of the water seeping devices and the communicating pipes.

Description

Watering device cultivated in a pot

Technical Field

The utility model belongs to the technical field of the device technique of watering and specifically relates to a device waters cultivated in a pot.

Background

The potted plant has important functions of regulating the ambient air of people and beautifying the living space. The root system of potted plants deeply entering the soil in the pot needs to absorb the water in the soil to supplement nutrition, and people often forget to regularly water the soil in the pot due to various reasons such as heavy things, movement and the like, so that the potted plant watering device can be transported.

The ordinary device of watering cultivated in a pot generally is miniature watering ware, directly sets up in cultivated in a pot, and it mainly has following defect: the water is not well watered, the watering is not uniform, the potted plant can not completely absorb the watered water, and the nutrient substance on the soil surface can be lost, the surface soil can be plated, and the respiration of the root of the potted plant can not be facilitated; the watering device is not adjustable, and watering devices with corresponding sizes are required to be arranged for potted plants with different sizes; the opening and closing control is inconvenient and the remote control is not convenient.

Therefore, there is a need for improvements to existing potted plant watering devices to maximize the performance of the watering device and meet the actual demands of the actual application process.

SUMMERY OF THE UTILITY MODEL

To the not enough of above-mentioned prior art existence, the utility model aims to provide a device of watering cultivated in a pot.

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

a watering device for potted plants comprises a water storage tank, a support frame, a plurality of communicating pipes and a plurality of water seeping devices, wherein the water storage tank is fixed on the support frame and is erected beside the potted plants through the support frame; each water seepage device comprises a water storage device and an insertion pipe which is arranged at the bottom of the water storage device and is formed into a whole with the water storage device, a water storage cavity is arranged in the water storage device, the bottom of the insertion pipe is closed, the top of the insertion pipe is communicated with the water storage cavity, a plurality of water seepage holes distributed circumferentially are formed in the peripheral wall of the insertion pipe, two water inlet connecting pipes used for enabling the water storage cavity to be communicated with the outside are formed in the side wall of the water storage device, and the water seepage devices are sequentially connected through the water inlet connecting pipes and the communicating pipes to form an annular distribution structure;

the bottom of the water storage tank is provided with a water outlet pipe orifice, the middle part of one of the communicating pipes is provided with a water inlet pipe orifice, and the water outlet pipe orifice is communicated with the water inlet pipe orifice through a hose.

Preferably, the top of the water reservoir is formed with a petal-like decoration.

Preferably, the bottom of the cannula is of a tapered configuration.

Preferably, the bottom of the water storage tank is provided with a water outlet pipeline, a water outlet channel is arranged in the water outlet pipeline, the top of the water outlet channel is communicated with the inside of the water storage tank, the top of the water outlet channel is provided with a filter screen, the water outlet pipe orifices are arranged at the bottom of the water outlet pipeline, and the water outlet pipe orifices are provided with a plurality of water outlet pipes.

Preferably, it further comprises a ball valve, a drive shaft and a drive motor; the spherical valve is arranged in the water outlet pipeline and distributed between the filter screen and the water outlet pipe orifice, a valve hole which penetrates through the spherical center of the spherical valve and is distributed is formed in the spherical valve, the outer diameter of the spherical valve is larger than the inner diameter of the water outlet channel, the spherical center of the spherical valve is distributed on the axis of the water outlet channel, and the aperture of the valve hole is the same as the inner diameter of the water outlet channel; the driving shaft penetrates through the peripheral wall of the water outlet pipeline and is fixedly connected with the spherical valve, and the outer end of the driving shaft is fixed on an output shaft of the driving motor; the driving motor is fixed at the bottom of the water storage tank.

Preferably, a sealing ring is sleeved on the driving shaft and positioned inside the peripheral wall of the water outlet pipeline.

Preferably, a first limiting protrusion and a second limiting protrusion which are symmetrically distributed are arranged on the peripheral wall of the driving shaft and outside the outline of the water outlet pipe, a first trigger switch and a second trigger switch which are distributed around the driving shaft are arranged on the peripheral wall of the water outlet pipe, the first trigger switch and the second trigger switch are distributed around the peripheral side of the driving shaft at 90 degrees, and the first trigger switch and the second trigger switch are respectively used for controlling the driving motor to be turned on and turned off.

Preferably, the water outlet pipeline comprises a fixed pipe which is arranged at the bottom of the water storage tank and is integrally formed with the water storage tank and a joint pipe which is adjusted at the bottom of the fixed pipe in a threaded manner, the water outlet channel is distributed on the central axis of the fixed pipe, the lower end part of the water outlet channel extends outwards around the water outlet channel and is provided with a valve cavity for placing a ball valve, the lower end of the valve cavity is provided with a valve seat, the top surface of the valve seat is provided with a spherical surface matched with the ball valve, the center outlet of the valve seat is provided with a through hole matched and communicated with the water outlet channel along the central axis, and a sealing gasket is clamped between the valve seat and; the joint pipe center downwardly extends and is provided with a water outlet shaft cavity which is communicated with the through hole in an alignment mode, and the water outlet pipe opening is arranged at the bottom of the joint pipe and is communicated with the water outlet shaft cavity.

Preferably, the solar water heater further comprises a flexible solar panel and an energy storage battery, wherein the flexible solar panel is arranged on the outer peripheral wall of the water storage tank and is electrically connected with the energy storage battery, and the driving motor is electrically connected with the energy storage battery.

Preferably, the water storage tank is further integrated with a driving controller, humidity sensors extending into soil of the potted plant and a wireless communication module electrically connected with the driving controller, the driving controller is electrically connected with the humidity sensors through signal lines, and the driving motor and the energy storage battery are respectively electrically connected with the driving controller.

Due to the adoption of the scheme, the utility model discloses a support frame supports the storage water tank and fixes near potted plant, the water in the storage water tank flows to communicating pipe through the hose from the outlet pipe mouth, and flow to each calorifier in proper order through communicating pipe, temporary storage is in the water receiver, the intubate is when using in the soil of will inserting, water in the water receiver then gradually slowly infiltrates in the soil of potted plant through the infiltration hole that distributes on the intubate perisporium, the effect of watering inside the soil layer has been realized, compare with directly watering on the soil layer surface, the effect of watering obviously increases, the phenomenon that can not lead to the loss of the nutritive material on soil surface and the superficial soil slateing to take place yet; simultaneously, the water seeping devices are connected with each other in sequence through the water inlet connecting pipes and the communicating pipes to form an annular distribution structure, so that the plurality of water seeping devices are uniformly distributed around the plants in the potted plant, and the watering requirements of the potted plants with different sizes can be met only by correspondingly increasing or reducing the number of the water seeping devices and the communicating pipes aiming at the potted plants with different sizes.

Based on this, its simple structure is compact, through the cooperation of storage water tank, infiltration ware and communicating pipe, has improved the effect of watering to potted plant greatly, and convenient to use has very strong use value and market spreading value simultaneously.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

fig. 2 is an exploded schematic view of the water seepage device and the communicating pipe according to the embodiment of the present invention;

fig. 3 is a schematic structural view of the water seeping device according to the embodiment of the invention;

fig. 4 is a sectional view of a part of the structure of an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of region A in FIG. 4;

FIG. 6 is an enlarged schematic view of region B in FIG. 5;

fig. 7 is a state diagram (one) when the driving shaft and the ball valve of the embodiment of the present invention are rotated;

fig. 8 is a state diagram (ii) of the drive shaft and the ball valve according to the embodiment of the present invention when they are rotated;

fig. 9 is a state diagram (iii) of the drive shaft and the ball valve according to the embodiment of the present invention when they are rotated;

fig. 10 is a control schematic block diagram of an embodiment of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 10, a potting watering device provided in the embodiment of the present invention includes a water storage tank 10, a support frame 20, a plurality of communicating pipes 30, and a plurality of water seeping devices 40, wherein the water storage tank 10 is fixed on the support frame 20 and is erected beside a potted plant through the support frame 20); each water seepage device 40 comprises a water storage device 41 and an insertion pipe 42 which is arranged at the bottom of the water storage device 41 and is integrally formed with the water storage device 41, a water storage cavity (not shown in the figure) is arranged in the water storage device 41, the bottom of the insertion pipe 42 is closed, the top of the insertion pipe 42 is communicated with the water storage cavity, a plurality of water seepage holes 421 distributed circumferentially are formed in the peripheral wall of the insertion pipe 42, two water inlet connecting pipes 411 used for communicating the water storage cavity with the outside are formed in the side wall of the water storage device 41, and the water seepage devices 40 are sequentially connected through the water inlet connecting pipes 411 and; the bottom of the water storage tank 10 is provided with a water outlet pipe 101, the middle of one of the communicating pipes 30 is provided with a water inlet pipe 31, and the water outlet pipe 101 is communicated with the water inlet pipe 31 through a hose (not shown in the figure).

Based on the structure, when the watering device is used, the water storage tank 10 can be supported and fixed near the potted plant by the support frame 20, water in the water storage tank 10 flows from the water outlet pipe opening 101 to the communicating pipe 30 through the hose, and flows to each water seeping device 40 in turn through the communicating pipe 30 and is temporarily stored in the water storage device 41, the inserting pipe 42 is inserted into the soil when in use, the water in the water storage device 41 gradually and slowly seeps into the soil of the potted plant through the seeping holes 421 distributed on the peripheral wall of the inserting pipe 42, the watering effect inside the soil layer is realized, compared with direct watering on the surface of the soil layer, the watering effect is obviously improved, the phenomena of loss of nutrient substances on the surface of the soil and hardening of the surface soil can not be caused, the water seepage speed can be adjusted by changing and controlling the aperture of the water seepage holes 421, so that the corresponding watering speed and the corresponding watering amount can be adjusted according to different plants and soil; meanwhile, the water seeping devices 40 are sequentially connected with the water seeping devices 40 through the water inlet connecting pipes 411 and the communicating pipes 30 to form an annular distribution structure, so that the plurality of water seeping devices 40 are uniformly distributed around the plants in the pot plant, and the watering requirements of the pot plants with different sizes can be met only by correspondingly increasing or reducing the number of the water seeping devices 40 and the number of the communicating pipes 30 aiming at the pot plants with different sizes. Based on this, its simple structure is compact, through the cooperation of storage water tank 10, infiltration ware 40 and communicating pipe 30, has improved the effect of watering to potted plant greatly, and convenient to use has very strong use value and market spreading value simultaneously.

In order to make the water seeping device 40 appear harmonious and natural when inserted into the soil of the potted plant, the top of the water reservoir 41 of the present embodiment is formed with a petal-like decoration 412. The shape, structure and color of the decoration 412 can be designed to be various to adapt to different potted plants, so that the water seeping device 40 can complement the potted plants when surrounding the potted plants, and the ornamental value of the plants can be improved by the water seeping device 40.

To facilitate insertion of the weeper 40 into the potting soil, the bottom of the spigot 42 of this embodiment is tapered.

In order to facilitate the water in the water storage tank 10 to flow to the plurality of water seeping devices 40 simultaneously, the water storage tank 10 of this embodiment is provided with a water outlet pipe at the bottom, a water outlet channel a is provided in the water outlet pipe, the top of the water outlet channel a is communicated with the inside of the water storage tank 10, a filter screen 102 is provided at the top of the water outlet channel a, a plurality of water outlet nozzles 101 are provided at the bottom of the water outlet pipe, and the number. The water in the water storage tank 10 passes through the filter screen 102 and then the water outlet pipe opening 101 can supply water to a plurality of water seeping devices 40 which are distributed annularly, so that one water storage tank 10 can simultaneously water a plurality of potted plants, and the watering range and efficiency of the watering device are increased.

In order to control the opening and closing of the watering function of the water storage tank 10, the water storage tank further comprises a ball valve 103, a driving shaft 104 and a driving motor 105; the ball valve 103 is arranged in the water outlet pipeline and is distributed between the filter screen 102 and the water outlet pipe orifice 101, a valve hole b which penetrates through the ball center of the ball valve 103 and is distributed is formed in the ball valve 103, the outer diameter of the ball valve 103 is larger than the inner diameter of the water outlet channel a, the ball center of the ball valve 103 is distributed on the axis of the water outlet channel a, and the aperture of the valve hole b is the same as the inner diameter of the water outlet channel a; the driving shaft 104 penetrates through the peripheral wall of the water outlet pipeline and is fixedly connected with the ball valve 103, and the outer end of the driving shaft 104 is fixed on the output shaft of the driving motor 105; the driving motor 105 is fixed to the bottom of the water storage tank 10. Therefore, the driving shaft 104 drives the ball valve 103 to rotate in the water outlet pipeline by controlling the rotation of the driving motor 105, when the valve hole b is coaxial with the water outlet channel a, the water outlet channel a can be opened, and the water storage tank 10 starts to supply water (it should be noted that, the support frame 20 is mainly used for making the water outlet pipe mouth 101 higher than the water seeping device 40 except for supporting and fixing the water storage tank 10, so that the water in the water storage tank 10 can naturally flow to the water seeping device 40 without extra power to supply water to the water seeping device 40); when the valve hole b is vertically distributed with the water outlet channel a, the water outlet channel a can be closed, the water storage tank 10 stops supplying water, and the opening and closing of the watering function of the water storage tank 10 are realized.

To improve the sealing performance of the outlet tank, a sealing ring 106 is sleeved on the driving shaft 104 and located inside the peripheral wall of the outlet pipe.

In order to facilitate automatic control of the on/off of the driving motor 105, as shown in fig. 6-9, a first limiting protrusion 107 and a second limiting protrusion 108 are symmetrically disposed on the peripheral wall of the driving shaft 104 and located outside the contour of the water outlet pipe, a first trigger switch 109 and a second trigger switch 110 are disposed on the peripheral wall of the water outlet pipe and distributed around the driving shaft 104, the first trigger switch 109 and the second trigger switch 110 are distributed around the driving shaft 104 at 90 degrees, and the first trigger switch 109 and the second trigger switch 110 are respectively used for controlling the on/off of the driving motor 105. In the process that the driving motor 105 controls the driving shaft 104 to rotate, the first limiting bulge 107 and the second limiting bulge 108 can be in contact with the first trigger switch 109 or the second trigger switch 110 in turn, when the first limiting bulge 107 (or the second limiting bulge 108) is in contact with the first trigger switch 109, the valve hole b is just coaxial with the water outlet channel a, and the water outlet channel a is opened; when the driving shaft 104 rotates 90 degrees, the first limit protrusion 107 (or the second limit protrusion 108) will touch and press the second trigger switch 110, the valve hole b is just perpendicular to the water outlet channel a, and the water outlet channel a is closed. Based on this, when the driving motor 105 is turned on each time, the driving motor can be automatically turned off by rotating 90 degrees, and the water outlet channel a can realize the alternate presentation of the turning-on and turning-off functions, so that the work of the driving motor 105 can be conveniently controlled.

In order to optimize the structure of the device, as a preferred scheme, the outlet pipe of this embodiment includes a fixed pipe 11 disposed at the bottom of the water storage tank 10 and integrally formed with the water storage tank 10, and a joint pipe 12 screwed at the bottom of the fixed pipe 11, a water outlet passage a is distributed on the central axis of the fixed pipe 11, a valve cavity for placing the ball valve 103 is formed by extending the lower end of the water outlet passage a outwards around the water outlet passage a, a valve seat 111 is disposed at the lower end of the valve cavity, a ball surface matched with the ball valve 103 is disposed on the top surface of the valve seat 111, a through hole matched and communicated with the water outlet passage a is formed in the center of the valve seat 111 along the central axis, and a sealing washer 112 is sandwiched between the valve; the center of the joint pipe 12 extends downwards to form a water outlet shaft cavity c which is communicated with the through hole in an alignment way, and the water outlet pipe nozzle 101 is arranged at the bottom of the joint pipe 12 and is communicated with the water outlet shaft cavity c. Therefore, the ball valve 103 can be installed and limited in the valve cavity through the valve seat 111, and the rotation movement of the ball valve 103 is convenient; the sealing between the fixed pipe 11 and the joint pipe 12 is achieved by a sealing gasket 112.

Further, it of this embodiment still includes flexible solar cell panel 113 and energy storage battery, and flexible solar cell panel 113 sets up on the periphery wall of storage water tank 10, and flexible solar cell panel is connected with the energy storage battery electricity, and driving motor 105 is connected with the energy storage battery electricity. The energy storage battery may be charged by the flexible solar panel 113 to facilitate powering the drive motor 105 while conserving energy.

In order to realize remote control and remote watering function, the water storage tank 10 of the embodiment is further integrated with a driving controller, humidity sensors extending into soil in a potted plant and a wireless communication module electrically connected with the driving controller, the driving controller is electrically connected with the humidity sensors through a signal line 114, and the driving motor 105 and the energy storage battery are respectively electrically connected with the driving controller. After the humidity sensor senses the humidity in the soil, the driving motor 105 can be automatically turned on and off through a program, and automatic watering is realized; meanwhile, humidity information can be transmitted to a remote user through the wireless communication module, so that the user can conveniently and remotely control watering of the potted plant; as preferred scheme, can set up the camera on support frame 20 or the storage water tank 10 to the growth situation of potted plant is looked over in the long-range of being convenient for, and the remote control of being convenient for waters to potted plant.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same way in the protection scope of the present invention.

Claims (10)

1. The utility model provides a device that waters cultivated in a pot which characterized in that: the water storage tank is fixed on the support frame and is erected beside the potted plant through the support frame; each water seepage device comprises a water storage device and an insertion pipe which is arranged at the bottom of the water storage device and is formed into a whole with the water storage device, a water storage cavity is arranged in the water storage device, the bottom of the insertion pipe is closed, the top of the insertion pipe is communicated with the water storage cavity, a plurality of water seepage holes distributed circumferentially are formed in the peripheral wall of the insertion pipe, two water inlet connecting pipes used for enabling the water storage cavity to be communicated with the outside are formed in the side wall of the water storage device, and the water seepage devices are sequentially connected through the water inlet connecting pipes and the communicating pipes to form an annular distribution structure;

the bottom of the water storage tank is provided with a water outlet pipe orifice, the middle part of one of the communicating pipes is provided with a water inlet pipe orifice, and the water outlet pipe orifice is communicated with the water inlet pipe orifice through a hose.

2. A pot watering apparatus according to claim 1, wherein: the top of the water storage device is formed with a petal-like decorative piece.

3. A pot watering apparatus according to claim 1, wherein: the bottom of the cannula is of a conical structure.

4. A pot watering apparatus according to claim 1, wherein: the water storage tank is characterized in that a water outlet pipeline is arranged at the bottom of the water storage tank, a water outlet channel with the top communicated with the inside of the water storage tank is arranged in the water outlet pipeline, a filter screen is arranged at the top of the water outlet channel, and a plurality of water outlet pipes are arranged at the bottom of the water outlet pipeline.

5. A pot watering apparatus according to claim 4, wherein: it also includes a ball valve, a drive shaft and a drive motor; the spherical valve is arranged in the water outlet pipeline and distributed between the filter screen and the water outlet pipe orifice, a valve hole which penetrates through the spherical center of the spherical valve and is distributed is formed in the spherical valve, the outer diameter of the spherical valve is larger than the inner diameter of the water outlet channel, the spherical center of the spherical valve is distributed on the axis of the water outlet channel, and the aperture of the valve hole is the same as the inner diameter of the water outlet channel; the driving shaft penetrates through the peripheral wall of the water outlet pipeline and is fixedly connected with the spherical valve, and the outer end of the driving shaft is fixed on an output shaft of the driving motor; the driving motor is fixed at the bottom of the water storage tank.

6. A pot watering apparatus according to claim 5, wherein: and a sealing ring is sleeved on the driving shaft and positioned in the peripheral wall of the water outlet pipeline.

7. A pot watering apparatus according to claim 5, wherein: the driving shaft is arranged on the periphery wall of the driving shaft, a first limiting bulge and a second limiting bulge are symmetrically arranged on the outer side of the outline of the water outlet pipe, a first trigger switch and a second trigger switch are arranged on the periphery wall of the water outlet pipe and distributed around the driving shaft, the first trigger switch and the second trigger switch are distributed around the periphery of the driving shaft by 90 degrees, and the first trigger switch and the second trigger switch are respectively used for controlling the driving motor to be turned on and turned off.

8. A pot watering apparatus according to claim 5, wherein: the water outlet pipeline comprises a fixed pipe which is arranged at the bottom of the water storage tank and is integrally formed with the water storage tank and a joint pipe which is adjusted at the bottom of the fixed pipe in a threaded manner, the water outlet channel is distributed on the central axis of the fixed pipe, the lower end part of the water outlet channel extends outwards around the water outlet channel and is provided with a valve cavity for placing a ball valve, the lower end of the valve cavity is provided with a valve seat, the top surface of the valve seat is provided with a ball surface matched with the ball valve, the center outlet of the valve seat is provided with a through hole matched and communicated with the water outlet channel along the central axis, and a sealing gasket is clamped between the valve seat; the joint pipe center downwardly extends and is provided with a water outlet shaft cavity which is communicated with the through hole in an alignment mode, and the water outlet pipe opening is arranged at the bottom of the joint pipe and is communicated with the water outlet shaft cavity.

9. A pot watering apparatus according to claim 5, wherein: it still includes flexible solar cell panel and energy storage battery, flexible solar cell panel sets up on the periphery wall of storage water tank, flexible solar cell panel is connected with the energy storage battery electricity, driving motor is connected with the energy storage battery electricity.

10. A pot watering apparatus according to claim 9, wherein: the water storage tank is further integrated with a driving controller, humidity sensors extending into soil in the potted plants and a wireless communication module electrically connected with the driving controller, the driving controller is electrically connected with the humidity sensors through signal lines, and the driving motor and the energy storage battery are respectively electrically connected with the driving controller.