Utility model content
The purpose of this utility model is to provide a kind of flower stand comprising automatic irrigation system, to solve the above problems.
The utility model is achieved in that a kind of flower stand, comprises the support of irrigation system and supporting flowerpot,
Described support comprises the base of placing flowerpot, described irrigation system comprise water inlet pipe and at least one water irrigation pipe, described water inlet pipe respectively with water source and described pouring cross current, described in water irrigation pipe and have multiple delivery port, described water inlet pipe is provided with magnetic valve,
Described irrigation system also comprises solenoid valve controller and detects the humidity sensor of flowerpot soil moisture, and described humidity sensor is connected with described solenoid valve controller, and described solenoid valve controller is connected with described magnetic valve.
Further, described irrigation system also comprises:
Wireless communication module and memory module, described wireless communication module, described memory module are connected with described solenoid valve controller respectively.
Achieve the remote monitoring to plant and the Long-distance Control to irrigation system, user can control irrigation system by the mode sending wireless signal and water the plant on flower stand, makes the maintenance of plant convenient.
Further, described irrigation system also comprises the camera of making a video recording to the situation of plant in described flowerpot, and described camera is connected with described solenoid valve controller.The image information that camera photographs can be preserved and be sent to user terminal, and user can by the concrete condition of camera Real Time Observation plant.
Further, described flower stand comprises multiple pouring unit, water described in each unit comprise a described base and one water irrigation pipe.Pouring unit number can be set according to the size in space or personal like, more reasonably make use of space.
Further, described water inlet pipe and described connectivity part of watering irrigation pipe are provided with water valve.Each root waters the corresponding water valve of irrigation pipe, and each water valve can control separately each root and water irrigation pipe, makes flower stand more convenient in use.
Further, described base comprises the standing groove of catch basin and placing flowerpot, and the opening of described catch basin is connected to the bottom of described standing groove, and the width of described catch basin is less than the width of described standing groove.When flowerpot is placed in standing groove, the bottom of flowerpot seals catch basin, makes the water of catch basin be not easy to multiply mosquito; The water watered in flowerpot can flow into catch basin more, and the water of catch basin can moisten again the soil of flowerpot conversely by evaporation.
Further, described support also comprises column, connect the cross bar of column and 2 parallel support bars, described support bar is connected with described cross bar, distance between described 2 parallel support bars is equal with the width of described catch basin, described base just in time can be placed on described support bar, and described catch basin stretches out downwards between described 2 parallel support bars.Reasonably utilize the shape and structure of base, while ensure that flower holder structure is stable, further save the space that flower stand takies.
Further, described flower stand also comprises mozzle and water butt, and described mozzle one end is communicated with described catch basin, and the other end is communicated with described water butt.In order to prevent moisture content bottom flowerpot from too much causing root system of plant to rot, during the hypervolia of catch basin savings, in the water butt that the water of catch basin flows to by mozzle.
Further, described flower stand also comprises water pump and water tank, and described water pump connects described water butt and described water tank respectively, and described water tank is communicated with described water inlet pipe.The water of water butt enters water tank under the effect of water pump, achieves recycling water, saving water resource.
The utility model compared with prior art, adds automatic irrigation system in flower stand, and obtain the humidity information of soil by being placed on humidity sensor in flowerpot, when the humidity of soil is reduced to the value pre-set, irrigation system waters automatically.Meanwhile, user also can by sending the mode Long-distance Control irrigation system automatic watering of wireless signal.When user carelessness or when going out, plant still can obtain maintenance.
Embodiment
For making the object of the utility model embodiment, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.
Consult Fig. 1-4, the flower stand that the utility model first embodiment provides, comprise the support of irrigation system and supporting flowerpot 101,
Support comprises the base 102 of placing flowerpot 101, irrigation system comprise water inlet pipe 103 and at least one water irrigation pipe 104, water inlet pipe 103 respectively with water source with water irrigation pipe 104 and be communicated with, water irrigation pipe and have multiple delivery port 105, water inlet pipe 103 is provided with magnetic valve 106.
Irrigation system also comprises solenoid valve controller 107 and detects the humidity sensor 108 of flowerpot soil moisture, and humidity sensor 108 is connected with solenoid valve controller 107, and solenoid valve controller 107 is connected with described magnetic valve 106.
In the present embodiment, the water source that water inlet pipe 103 connects is water supply pipe.
The flower stand that the present embodiment provides comprises automatic irrigation system, and obtain the humidity information of soil by being placed on humidity sensor 108 in flowerpot 101, when the humidity of soil is reduced to the value pre-set, irrigation system waters automatically.When user carelessness or when going out, plant still can obtain maintenance.
In order to more Appropriate application space, flower stand comprises multiple pouring unit, each pouring unit comprise a base 102 and one water irrigation pipe 104, user can arrange pouring unit number according to the size in space or personal like.
In order to make flower stand more convenient in use, water inlet pipe 103 is provided with water valve 109 with the connectivity part of watering irrigation pipe 104.Each root waters the corresponding water valve 109 of irrigation pipe 104, and each water valve 109 can control separately each root and water irrigation pipe 104.
Base 102 comprises the standing groove 202 of catch basin 201 and placing flowerpot 101, and the opening of catch basin 201 is connected to the bottom of standing groove 202, and the width of catch basin 201 is less than the width of standing groove 202.When flowerpot 101 is placed in standing groove 202, the bottom of flowerpot 101 seals catch basin 201, makes the water of catch basin 201 be not easy to multiply mosquito; The water watered in flowerpot 101 can flow into catch basin 201 more, and the water of catch basin 201 is by evaporating the soil that can moisten again conversely in flowerpot 101.
In order to further save the space that flower stand takies, described support also comprises column 110, connect the cross bar 111 of column and 2 parallel support bars 112, described support bar 112 is connected with described cross bar 111, distance between described 2 parallel support bars 112 is equal with the width of described catch basin 201, described base 102 just in time can be placed on described 2 parallel support bars 112, and described catch basin 201 stretches out downwards between 2 parallel support bars 112.The reasonable in design shape and structure utilizing base 102 like this, and while ensure that flower holder structure is stable, saved space.
In order to prevent moisture content bottom flowerpot 101 from too much causing root system of plant to rot, flower stand also comprises mozzle 113 and water butt 114, and described mozzle 113 one end is communicated with described catch basin 201, and the other end is communicated with described water butt 114.Catch basin 201 put aside hypervolia time, in the water butt 114 that the water of catch basin 201 flows to by mozzle 113.
During enforcement, flowerpot 101 is positioned in the standing groove 202 of base 102, and base is placed on 2 parallel support bars 112, and humidity sensor 108 is placed in the soil of flowerpot 101.Humidity sensor 108 collects the soil humidity information of flowerpot 101, is sent to solenoid valve controller 107.When humidity be reduced to the needs pre-set carry out the humidity value watered time, magnetic valve 106 is opened under the control of solenoid valve controller 107, and water is entered by water inlet pipe 103 and waters irrigation pipe 104, sprays from delivery port 105, starts to water plant.
Now can be controlled each pouring unit by water inlet pipe 103 and the water valve 109 watering irrigation pipe 104 connection position; Also can close by needing water valve 109 corresponding to the pouring unit that water to open, by water valve 109 corresponding to the pouring unit not needing to water in advance.
In flowerpot 101, the humidity of soil increases gradually along with the carrying out of pouring, when humidity be increased to the needs pre-set stop the humidity value watering time, magnetic valve 106 cuts out under the control of solenoid valve controller 107.Moisture unnecessary in soil under gravity, flows into catch basin 201, when the hypervolia that catch basin 201 is put aside, in the water butt 114 that the water of catch basin 201 is flow to by mozzle 113.
Consult Fig. 5-6, the flower stand that the utility model second embodiment provides, comprise the support of irrigation system and supporting flowerpot,
Support comprises the base 102 of placing flowerpot 101, irrigation system comprise water inlet pipe 103 and at least one water irrigation pipe 104, water inlet pipe 103 respectively with water source with water irrigation pipe 104 and be communicated with, water irrigation pipe and have multiple delivery port 105, water inlet pipe 103 is provided with magnetic valve 106.
Irrigation system also comprises solenoid valve controller 107 and detects the humidity sensor 108 of flowerpot soil moisture, and humidity sensor 108 is connected with solenoid valve controller 107, and solenoid valve controller 107 is connected with described magnetic valve 106.
In order to realize the remote monitoring to plant situation and the Long-distance Control to irrigation system, irrigation system also comprises: wireless communication module 301, for sending information that humidity sensor 108 collects to user terminal, and receive the control instruction to magnetic valve 106 that user terminal sends; Memory module 302, for the information that storage humidity inductor 108 collects; Wireless communication module 301, memory module 302 are all connected with solenoid valve controller 107.Wireless communication module 301, memory module 302 and solenoid valve controller 107 are arranged in irrigation control device 300, and irrigation control device 300 is connected with magnetic valve 106.Irrigation system can be controlled by the mode sending wireless signal with user to water the plant on flower stand, make the maintenance of plant convenient.
In order to further understand plant situation, irrigation system also comprises the camera 115 of making a video recording to the situation of plant in described flowerpot 101, and described camera 115 is connected with described solenoid valve controller 107.The picture that camera 115 catches is preserved by memory module 302, and is sent to user terminal by wireless communication module 301, and user can by the concrete condition of camera Real Time Observation plant.
Solenoid valve controller 107 comprises fpga chip or dsp chip in the present embodiment, achieves the Based Intelligent Control to irrigation system.
In order to more Appropriate application space, flower stand comprises multiple pouring unit, each pouring unit comprise a base 102 and one water irrigation pipe 104, user can arrange pouring unit number according to the size in space or personal like.
In order to make flower stand more convenient in use, water inlet pipe 103 is provided with water valve 109 with the connectivity part of watering irrigation pipe 104.Each root waters the corresponding water valve 109 of irrigation pipe 104, and each water valve 109 can control separately each root and water irrigation pipe 104.
Base 102 comprises the standing groove 202 of catch basin 201 and placing flowerpot 101, and the opening of catch basin 201 is connected to the bottom of standing groove 202, and the width of catch basin 201 is less than the width of standing groove 202.When flowerpot 101 is placed in standing groove 202, the bottom of flowerpot 101 seals catch basin 201, makes the water of catch basin 201 be not easy to multiply mosquito; The water watered in flowerpot 101 can flow into catch basin 201 more, and the water of catch basin 201 is by evaporating the soil that can moisten again conversely in flowerpot 101.
In order to prevent moisture content bottom flowerpot 101 from too much causing root system of plant to rot, flower stand also comprises mozzle 113 and water butt 114, and described mozzle 113 one end is communicated with described catch basin 201, and the other end is communicated with described water butt 114.Catch basin 201 put aside hypervolia time, in the water butt 114 that the water of catch basin 201 flows to by mozzle 113.
In order to saving water resource, flower stand also comprises water pump 116 and water tank 117, and water pump 116 connects water butt 114 and water tank 117 respectively, and in the present embodiment, water tank 117 is communicated with water inlet pipe 103 as water source.The water of water butt 114 enters water tank 117 under the effect of water pump 116, achieves recycling water.
The utility model compared with prior art, adds automatic irrigation system in flower stand, and obtain the humidity information of soil by being placed on humidity sensor in flowerpot, when the humidity of soil is reduced to the value pre-set, irrigation system waters automatically.Meanwhile, user also can by sending the mode Long-distance Control irrigation system automatic watering of wireless signal.When user carelessness or when going out, plant still can obtain maintenance.
During enforcement, flower stand is directly fixed on wall, and flowerpot 101 is positioned in the standing groove 202 of base 102, and humidity sensor 108 is positioned in the soil of flowerpot 101, and camera 115 is arranged on the top of flowerpot 101.
Humidity sensor 108 collects the soil humidity information of flowerpot 101, and is sent to solenoid valve controller 107; Camera 115 takes the situation of plant in flowerpot, and the image information that transmission photographs is to solenoid valve controller 107.In the soil humidity information that solenoid valve controller 107 receives and flowerpot, the image information of plant is preserved by memory module 302, and is sent to user terminal by wireless communication module 301.
Solenoid valve controller 107 by the soil humidity information received simultaneously when humidity be reduced to the needs pre-set carry out the humidity value watered time, magnetic valve 106 is opened under the control of solenoid valve controller 107, water in water tank 117 is entered by water inlet pipe 103 and waters irrigation pipe 104, spray from delivery port 105, start to water plant.
User can check the image information of plant in soil humidity information and flowerpot by moving intelligent terminal, humidity be not reduced to the needs pre-set carry out the humidity value watered time, user also can send control information, and Controlling solenoid valve controller 107 is opened magnetic valve 106 and watered.
Can be controlled each pouring unit by water inlet pipe 103 and the water valve 109 watering irrigation pipe 104 connectivity part after starting pouring; Also can close by needing water valve 109 corresponding to the pouring unit that water to open, by water valve 109 corresponding to the pouring unit not needing to water in advance.
In flowerpot 101, the humidity of soil increases gradually along with the carrying out of pouring, when humidity be increased to the needs pre-set stop the humidity value watering time, magnetic valve 106 cuts out under the control of solenoid valve controller 107.Moisture unnecessary in soil under gravity, flows into catch basin 201, when the hypervolia that catch basin 201 is put aside, in the water butt 114 that the water of catch basin 201 is flow to by mozzle 113.
In water butt 114, water enters water tank 117 under the effect at water pump 116, achieves recycling water, saving water resource.
As another one embodiment of the present utility model, solenoid valve controller 107 comprises signaling conversion circuit, signal judging circuit and control circuit.
As another one embodiment of the present utility model, magnetic valve 106 keeps normally open under the control of solenoid valve controller 107, and user manually controls water valve 109, waters to plant in the flowerpot 101 of difference pouring unit.
The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.