CN207937843U - A kind of Ecological Park water-fertilizer integral Internet of Things TT＆C system - Google Patents

Abstract

The utility model discloses a kind of Ecological Park water-fertilizer integral Internet of Things TT＆C systems, include the intelligent irrigation switch board being connected with controlling bus, frequency conversion and unvarying pressure control cabinet, water-fertilizer integral switch board, Fertilizer distributing pail and main line, the crop environment measuring component and crop environmental Kuznets Curves component of corresponding greenhouse.The beginning of main line is connected with immersible pump, is equipped with the booster pump being connected with controlling bus, overvoltage detection pressure gauge, filter and constant pressure detection pressure gauge on main line successively；Fertilizer distributing pail is connected with water-fertilizer integral switch board, and water-fertilizer integral switch board is connected with main line；The outlet water at tail end mouth of main line is connected with field hydraulic pipeline, and field hydraulic pipeline is connected by greenhouse pipeline with the drip irrigation appliance being located in greenhouse, and the solenoid valve on greenhouse pipeline is connected by decoder with controlling bus；The utility model can more comprehensively be detected the crop-planting environment in greenhouse, realize the adjust automatically of greenhouse-environment according to testing result and be precisely controlled.

Description

A kind of Ecological Park water-fertilizer integral Internet of Things TT＆C system

Technical field

The utility model is related to agricultural irrigation facility technology fields, and in particular to a kind of Ecological Park water-fertilizer integral Internet of Things Net TT＆C system.

Background technology

Currently, greenhouse is produced as a kind of new highly efficient and productive, good mode of agriculture, at home It is used widely, also has become a kind of trend of countries in the world agricultural development.But detecting and controlling of irrigating of existing greenhouse System realizes that effect is not fine.

Utility model content

The technical problems to be solved in the utility model is to overcome the deficiencies of the prior art and provide a kind of Ecological Park liquid manure one Body compound networking TT＆C system.

In order to solve the above technical problems, technical solution adopted in the utility model is：

A kind of Ecological Park water-fertilizer integral Internet of Things TT＆C system, including controlling bus, intelligent irrigation switch board, frequency conversion Isobarically Control cabinet, water-fertilizer integral switch board, Fertilizer distributing pail and main line, intelligent irrigation switch board, frequency conversion and unvarying pressure control cabinet, liquid manure The control terminal of integral control cabinet and Fertilizer distributing pail is connected with controlling bus；The beginning water inlet of the main line is connected with Immersible pump is equipped with booster pump, overvoltage detection pressure gauge, filter from beginning water inlet to outlet water at tail end mouth, on main line successively Pressure gauge is detected with constant pressure, and immersible pump, booster pump, overvoltage detection pressure gauge and constant pressure detection pressure gauge are and controlling bus It is connected；The Fertilizer distributing pail is connected by pipeline with water-fertilizer integral switch board, water-fertilizer integral switch board by pipeline with Main line between filter and constant pressure detection pressure gauge is connected；The outlet water at tail end mouth of the main line is connected with field water delivery Pipeline, field hydraulic pipeline are connected with the drip irrigation appliance being located in multiple greenhouses respectively by multiple greenhouse pipelines, Mei Ge great A solenoid valve is respectively provided on canopy pipeline, and each solenoid valve is connected by a decoder with controlling bus respectively；Institute The system of stating further includes corresponding each greenhouse and the crop environment measuring component and crop environmental Kuznets Curves that are connected with controlling bus Component.

Further, the crop environment measuring component includes the sky for being located in greenhouse and being connected respectively with controlling bus Gas temperature sensor, air humidity sensor, soil temperature sensor, soil humidity sensor, CO₂Sensor and illumination sensing Device；The crop environmental Kuznets Curves component includes light compensating lamp, ventilation blower, the heat booster being connected in greenhouse and with controlling bus respectively And CO₂Replensiher and it is located at the rolling motor that greenhouse is outer and is connected with controlling bus.

Further, the drip irrigation appliance includes the drop that greenhouse interior wall bottom is installed in along the length direction level of greenhouse Manifold is filled, and the water inlet of trickle irrigation manifold is connected with the water outlet of greenhouse pipeline；It is movably set on the trickle irrigation manifold Multiple lantern rings are respectively installed with a trickle irrigation branch pipe on each lantern ring, and the beginning of each trickle irrigation branch pipe passes through a hose It is connected with trickle irrigation manifold, the end of each trickle irrigation branch pipe is respectively hinged with a supporting leg.

Further, it is equipped with water inlet and molten fertile pipe interface and fertilising among the side wall of the Fertilizer distributing pail and molten fertile pipeline connects Mouthful, water-fertilizer integral switch board is connect by water inlet and molten fertile pipeline and fertilising and molten fertile piping connection water inlet and molten fertile pipeline respectively Mouth and fertilising and molten fertile pipe interface；The water-fertilizer integral switch board is connected by water inlet and fertilizing pipeline with main line.

Further, the top side wall of the Fertilizer distributing pail is equipped with liquid level sensor, and liquid level sensor and controlling bus It is connected.

It is using advantageous effect caused by above-mentioned technical proposal：

The utility model can more comprehensively be detected the crop-planting environment in greenhouse, realize according to testing result big It the adjust automatically of canopy environment and is precisely controlled.

The utility model can realize the good irrigation effect of greenhouse, pass through the real-time monitoring voltage of intelligent irrigation switch board, electricity Stream, power, frequency and pressure have the function of self-starting immersible pump and self-starting booster pump, have power supply phase shortage, under-voltage protection And the functions such as fault alarm；Filter can self-timing cleans, intellectual monitoring blocks the functions such as cleaning；It is voltage-controlled by variable-frequency constant Cabinet processed can realize constant pressure water supply, and have the function of pipeline overvoltage protection, pipeline undervoltage warning, by water-fertilizer integral switch board and Fertilizer distributing pail can automatic feeding water, automatic stirring and automatic fertilization, Fertilizer distributing pail have it is anti-spilled protection, anhydrous waterproof pump idle running protection etc. Function；Solenoid valve is by decoder technique, and wiring is simple and extension is convenient.

The trickle irrigation branch pipe of drip irrigation appliance very easily can be set up and move on greenhouse ground according to actual irrigation needs It removes, avoids the growth and maintenance that influence greenhouse crops, and can effectively avoid the blocking of trickle irrigation branch pipe.

Description of the drawings

Fig. 1 is the attachment structure schematic diagram of the utility model；

Fig. 2 is the attachment structure schematic diagram of the utility model crop environment measuring component and crop environmental Kuznets Curves component；

Fig. 3 is the structural schematic diagram of the utility model drip irrigation appliance；

Fig. 4 is the side view of the utility model drip irrigation appliance；

In figure：1, trickle irrigation manifold, 2, holder, 3, lantern ring, 4, trickle irrigation branch pipe, 5, snap ring, 6, hose, 7, supporting leg, 8, greenhouse, 11, water-fertilizer integral switch board, 12, Fertilizer distributing pail, 13, intelligent irrigation switch board, 14, filter, 15, immersible pump, 16, supercharging Pump, 17, overvoltage detection pressure gauge, 18, constant pressure detect pressure gauge, 19, solenoid valve, 20, decoder, 21, controlling bus, 22, drop Filling device, 23, main line, 24, field hydraulic pipeline, 25, greenhouse pipeline, 26, crop environment measuring component, 27, make substance environment Control assembly, 28, air temperature sensor, 29, air humidity sensor, 30, soil temperature sensor, 31, soil moisture passes Sensor, 32, CO₂Sensor, 33, optical sensor, 34, light compensating lamp, 35, ventilation blower, 36, heat booster, 37, CO₂Replensiher, 38, Rolling motor.

Specific implementation mode

Utility model will be further described in detail below with reference to the attached drawings and specific embodiments.

As shown in Figure 1, the utility model discloses a kind of Ecological Park water-fertilizer integral Internet of Things TT＆C system, including control Bus 21, intelligent irrigation switch board 13, frequency conversion and unvarying pressure control cabinet 10, water-fertilizer integral switch board 11, Fertilizer distributing pail 12 and supervisor processed Road 23, intelligent irrigation switch board 13, frequency conversion and unvarying pressure control cabinet 10, water-fertilizer integral switch board 11 and Fertilizer distributing pail 12 control terminal It is connected with controlling bus 21；The beginning water inlet of the main line 23 is connected with immersible pump 15, from beginning water inlet to end The mouth of a river is brought out, booster pump 16, overvoltage detection pressure gauge 17, filter 14 and constant pressure is equipped on main line 23 successively and detects pressure gauge 18, and immersible pump 15, booster pump 16, overvoltage detection pressure gauge 17 and constant pressure detection pressure gauge 18 are connected with controlling bus 21 It connects；The Fertilizer distributing pail 12 is connected by pipeline with water-fertilizer integral switch board 11, and water-fertilizer integral switch board 11 passes through pipeline Main line 23 between filter 14 and constant pressure detection pressure gauge 18 is connected；The outlet water at tail end mouth of the main line 23 connects Have a field hydraulic pipeline 24, field hydraulic pipeline 24 by multiple greenhouse pipelines 25 respectively with the trickle irrigation that is located in multiple greenhouses 8 Device 22 is connected, and a solenoid valve 19 is respectively provided on each greenhouse pipeline 25, and each solenoid valve 19 passes through one respectively Decoder 20 is connected with controlling bus 21；It is connected the system also includes each greenhouse 8 of correspondence and with controlling bus 21 Crop environment measuring component 26 and crop environmental Kuznets Curves component 27.

As shown in Fig. 2, the crop environment measuring component 26 of the utility model includes being located in greenhouse 8 and total with control respectively Air temperature sensor 28 that line 21 is connected, air humidity sensor 29, soil temperature sensor 30, soil humidity sensor 31、CO₂Sensor 32 and optical sensor 33；The crop environmental Kuznets Curves component 27 include greenhouse 8 in and control terminal respectively with Light compensating lamp 34, ventilation blower 35, heat booster 36 and the CO that controlling bus 21 is connected₂Replensiher 37 and to be located at greenhouse 7 outer and control The rolling motor 38 that end processed is connected with controlling bus 21.

The utility model can more comprehensively be detected the crop-planting environment in greenhouse, realize according to testing result big It the adjust automatically of canopy environment and is precisely controlled.Air temperature sensor 28 and air humidity sensor 29 are respectively used to detection greenhouse The humidity and temperature of air；Soil temperature sensor 30 and soil humidity sensor 31 are respectively used to the humidity of detection plastic shed soil And temperature；CO₂Sensor 32 is used to detect the CO in greenhouse air₂Concentration, optical sensor 33 are used to detect the illumination in greenhouse The detection data of intensity, each sensor is sent to water-fertilizer integral switch board 11, water-fertilizer integral control by controlling bus 21 Cabinet 11 according to the data of reception, by controlling bus 21 respectively to solenoid valve 19, Fertilizer distributing pail 12, light compensating lamp 34, ventilation blower 35, increase Warm device 36, CO₂Replensiher 37 and rolling motor 38 are controlled, solenoid valve 19 with for connecting drip irrigation appliance 22, Fertilizer distributing pail 12 For providing liquid manure, light compensating lamp 34 is for illuminating greenhouse 8, and ventilation blower 35 to greenhouse 8 for being aerated, heat booster 36 It is heated for carrying out heating to greenhouse 8, CO₂Replensiher 37 is for supplementing CO into greenhouse₂, rolling motor 38 is for for covering With the covering started on greenhouse.

The utility model has by 13 real-time monitoring voltage of intelligent irrigation switch board, electric current, power, frequency and pressure The function of self-starting immersible pump 15 and self-starting booster pump 16 has the function of power phase shortage, under-voltage protection and fault alarm etc.； Filter 14 can self-timing cleans, intellectual monitoring blocks the functions such as cleaning；Constant pressure can be realized by frequency conversion and unvarying pressure control cabinet 10 It supplies water, and has the function of pipeline overvoltage protection, pipeline undervoltage warning, it can be certainly by water-fertilizer integral switch board 11 and Fertilizer distributing pail 12 Dynamic water inlet, automatic stirring and automatic fertilization, Fertilizer distributing pail 12 have the function of anti-spilled protection, the idle running protection of anhydrous waterproof pump etc..Electricity Magnet valve 19 is by 20 technology of decoder, and wiring is simple and extension is convenient.

As Figure 3-Figure 4, the drip irrigation appliance 22 of the utility model includes being installed in along the length direction level of greenhouse 8 The trickle irrigation manifold 1 of 8 interior wall bottom of greenhouse, and the water inlet of trickle irrigation manifold 1 is connected with the water outlet of greenhouse pipeline 25；It is described It is movably set with multiple lantern rings 3 on trickle irrigation manifold 1, a trickle irrigation branch pipe 4, and each trickle irrigation are respectively installed on each lantern ring 3 The beginning of branch pipe 4 is connected by a hose 6 with trickle irrigation manifold 1, and the end of each trickle irrigation branch pipe 4 is respectively hinged with a branch Leg 7.

The trickle irrigation manifold 1 of the utility model is fixed on 8 interior wall bottom of greenhouse by multiple holders 2, and 8 interior wall top of greenhouse is also Equipped with multiple retaining rings 5, retaining ring 5 has outside bayonet, and trickle irrigation branch pipe 4 can be vertically fixed on to the interior wall of greenhouse 8 when not pouring On, supporting leg 7 is folded along the folding of trickle irrigation branch pipe 4.When needs pour in use, again by each trickle irrigation branch pipe 4 from the interior wall of greenhouse 8 It downwardly turns over to the above suitable position in ground, supporting leg 7 is flipped out, the end of trickle irrigation branch pipe 4 is fixedly supported on the ground.Drop The end for filling branch pipe 4 is fixedly provided with the branch pipe interface for extending trickle irrigation length, if the length of trickle irrigation branch pipe 4 not enough covers greenhouse 8 Width, using branch pipe interface connect extend drip irrigation pipe.Therefore, the trickle irrigation branch pipe 4 of the utility model can be according to actual irrigation It needs, very easily sets up and remove on the ground of greenhouse 8, avoid the growth and maintenance that influence greenhouse crops, and energy Enough blockings for effectively avoiding trickle irrigation branch pipe.

Water inlet and molten fertile pipe interface and fertilising and molten fertile pipeline are equipped among the side wall of the Fertilizer distributing pail 12 of the utility model Interface, water-fertilizer integral switch board 11 are managed by water inlet and molten fertile pipeline and fertilising and molten fertile piping connection water inlet and molten fertilizer respectively Road interface and fertilising and molten fertile pipe interface；The water-fertilizer integral switch board 11 passes through water inlet and fertilizing pipeline and main line 23 It is connected.The top side wall of Fertilizer distributing pail 12 is equipped with liquid level sensor, and liquid level sensor is connected with controlling bus 21.

Foregoing description is only used as the enforceable technical solution of the utility model to propose, not as to its technical solution itself Single restrictive condition.

Claims (5)

1. a kind of Ecological Park water-fertilizer integral Internet of Things TT＆C system, it is characterised in that：It is filled including controlling bus (21), intelligence Switch board (13), frequency conversion and unvarying pressure control cabinet (10), water-fertilizer integral switch board (11), Fertilizer distributing pail (12) and main line (23) are irrigate, The control of intelligent irrigation switch board (13), frequency conversion and unvarying pressure control cabinet (10), water-fertilizer integral switch board (11) and Fertilizer distributing pail (12) End processed is connected with controlling bus (21)；The beginning water inlet of the main line (23) is connected with immersible pump (15), from beginning Water inlet is equipped with booster pump (16), overvoltage detection pressure gauge (17), filter to outlet water at tail end mouth successively on main line (23) (14) and constant pressure detects pressure gauge (18), and immersible pump (15), booster pump (16), overvoltage detection pressure gauge (17) and constant pressure inspection Measuring pressure table (18) is connected with controlling bus (21)；The Fertilizer distributing pail (12) passes through pipeline and water-fertilizer integral switch board (11) it is connected, water-fertilizer integral switch board (11) is detected by pipeline and filter (14) and constant pressure between pressure gauge (18) Main line (23) is connected；The outlet water at tail end mouth of the main line (23) is connected with field hydraulic pipeline (24), field water-supply-pipe Road (24) is connected with the drip irrigation appliance (22) being located in multiple greenhouses (8) respectively by multiple greenhouse pipelines (25), Mei Ge great A solenoid valve (19) is respectively provided on canopy pipeline (25), and each solenoid valve (19) passes through a decoder (20) and control respectively Bus (21) processed is connected；The crop being connected the system also includes each greenhouse of correspondence (8) and with controlling bus (21) Environment measuring component (26) and crop environmental Kuznets Curves component (27).

2. water-fertilizer integral Internet of Things TT＆C system in Ecological Park according to claim 1, it is characterised in that：The crop Environment measuring component (26) includes the air temperature sensor for being located in greenhouse (8) and being connected respectively with controlling bus (21) (28), air humidity sensor (29), soil temperature sensor (30), soil humidity sensor (31), CO₂Sensor (32) and Optical sensor (33)；The crop environmental Kuznets Curves component (27) includes being connected in greenhouse (8) and respectively with controlling bus (21) Light compensating lamp (34), ventilation blower (35), heat booster (36) and the CO connect₂Replensiher (37) and be located at greenhouse (8) outside and with control The rolling motor (38) that bus (21) is connected.

3. water-fertilizer integral Internet of Things TT＆C system in Ecological Park according to claim 1, it is characterised in that：The trickle irrigation Device (22) include the trickle irrigation manifold (1) of greenhouse (8) interior wall bottom is installed in along the length direction level of greenhouse (8), and The water inlet of trickle irrigation manifold (1) is connected with the water outlet of greenhouse pipeline (25)；It is movably set on the trickle irrigation manifold (1) more A lantern ring (3) is respectively installed with a trickle irrigation branch pipe (4) on each lantern ring (3), and the beginning of each trickle irrigation branch pipe (4) is logical It crosses a hose (6) with trickle irrigation manifold (1) to be connected, the end of each trickle irrigation branch pipe (4) is respectively hinged with a supporting leg (7).

4. water-fertilizer integral Internet of Things TT＆C system in Ecological Park according to claim 1, it is characterised in that：The fertilising Water inlet and molten fertile pipe interface and fertilising and molten fertile pipe interface, water-fertilizer integral switch board are equipped among the side wall of bucket (12) (11) pass through water inlet and molten fertile pipeline and fertilising and molten fertile piping connection water inlet and molten fertile pipe interface and fertilising and molten fertilizer respectively Pipe interface；The water-fertilizer integral switch board (11) is connected by water inlet and fertilizing pipeline with main line (23).

5. water-fertilizer integral Internet of Things TT＆C system in Ecological Park according to claim 1, it is characterised in that：The fertilising The top side wall of bucket (12) is equipped with liquid level sensor, and liquid level sensor is connected with controlling bus (21).