CN204907400U - Agricultural irrigation equipment - Google Patents

Abstract

The utility model belongs to the technical field of the technique of agricultural irrigation and specifically relates to an agricultural irrigation equipment, including laying the water delivery pipe network on farmland ground, the water delivery pipe network includes horizontally at subaerial inlet tube, horizontal subaerial raceway and vertical putting at subaerial outlet pipe, through T type structure bottom coupling mechanism fixed connection between inlet tube, raceway and the outlet pipe. The utility model discloses a water under high pressure that agricultural irrigation equipment passes through in the outlet pipe drives the impeller rotation in the connecting pipe, it is rotatory to drive whole footstock through the impeller, make the watering scope promote greatly, and activate wireless transmission receiving arrangement simultaneously, give remote terminal with log -on message and flow information real time transport, pass through the high -pressure automatically controlled nozzle of wireless transmission receiving arrangement control through remote terminal, make its function that has unmanned on duty, promote and irrigate the security, all electronic equipment pass through the solar cell panel power supply, promote the continuation of the journey greatly and reduce later stage use cost.

Description

A kind of agricultural irrigation device

Technical field

The utility model relates to the technical field of agricultural irrigation, especially a kind of agricultural irrigation device.

Background technology

Since ancient times, irrigation is one of requisite link in agricultural production, and water is at a distance incorporated in farmland by excavating water channel by people, this mode not only engineering is huge, engineering time is long, and water source position limitation is large, if just cannot diversion in the season of arid; Therefore invented water pump afterwards, the water source of low altitude area can be extracted into farmland by water pump and irrigate by people.But an identical problem all can be there is in above two kinds of modes, when irrigating, people need to monitor irrigating facility in real time, if let alone irrigation to be easy to cause crops to be drowned, therefore operation easier is comparatively large, wastes time and energy, and current some automatic irrigation apparatus structures are on the market complicated, with high costs, later maintenance cost is high, greatly limits it and promotes.

Utility model content

The technical problems to be solved in the utility model is: in order to solve Problems existing in above-mentioned background technology, a kind of agricultural irrigation device of improvement is provided, solving common irrigation rig needs people on duty, operation easier is large, waste time and energy, and full-automatic irrigation device complex structure, with high costs, later maintenance cost is high, greatly limits the problem that it is promoted.

The utility model solves the technical scheme that its technical problem adopts: a kind of agricultural irrigation device, comprise the water transfer pipe network being laid on ground, farmland, described water transfer pipe network comprises horizontal water inlet pipe on the ground, horizontal water-supply-pipe on the ground and longitudinal outlet pipe on the ground, described water inlet pipe, be fixedly connected with by bindiny mechanism bottom T-type structure between water-supply-pipe and outlet pipe, described bottom bindiny mechanism inside is provided with the T-way water valve for controlling bottom bindiny mechanism inner stream flow, described outlet pipe threaded upper ends is fixedly connected with bindiny mechanism, described upper bindiny mechanism internal activity is connected with tube connector, described tube connector upper end is fixedly connected with footstock, described footstock outer arcuate face offers the high-pressure electric control water spout that several are connected with tube connector inside, described footstock upper surface offers fitting recess, described fitting recess inner bottom surface is fixedly connected with the wireless transmission receiving system for sending signal to remote monitoring terminal, described fitting recess inner bottom surface is positioned at the peripheral solar panel be fixedly connected with for powering to wireless transmission receiving system of wireless transmission receiving system, the described nearly lower end of tube connector lateral surface has annular anti-decylization, the corresponding anticreep ring position of described upper bindiny mechanism medial surface offers anticreep groove, described anticreep groove medial surface is connected by side direction roller bearing with between anti-decylization, described anticreep groove bottom offers mounting groove, described mounting groove inside is fixedly connected with the bottom roller bearing for reducing anti-decylization bottom friction power, described tube connector inside is provided with fixed support, described fixed support lateral surface is fixedly connected with tube connector medial surface, the inner corresponding outlet pipe upper end open position of described fixed support is fixedly connected with the impeller for driving tube connector to rotate, the corresponding outlet pipe upper end open position of described fixed support lower surface is fixedly connected with the pressure control switch for controlling to transmit wirelessly receiving system, described fixed support upper end is provided with the signal connection device for Bonding pressure gauge tap output and wireless transmission receiving system control input end, described footstock inner top surface is connected with the flow sensor for detecting footstock inner stream flow, described flow sensor is connected with wireless transmission receiving system input by footstock internal signal connecting line.

Preferably, in order to reduce costs, promote compatibility, described water inlet pipe, water-supply-pipe are identical with the pipe diameter size of outlet pipe.

Preferably, in order to promote remote transmission signal, described wireless transmission receiving system height is identical with fitting recess height.

Preferably, in order to promote safety, described solar cell plate height is identical with fitting recess height.

The beneficial effects of the utility model are, the vane rotary that a kind of agricultural irrigation device of the present utility model is dynamically connected in pipe by the high-pressure hose in outlet pipe, whole footstock is driven to rotate by impeller, pouring scope is promoted greatly, and activate wireless transmission receiving system simultaneously, by log-on message and flow information real-time Transmission to remote terminal, high-pressure electric control nozzle is controlled by wireless transmission receiving system by remote terminal, make it have unattended function, promote and irrigate safety, all electronic equipments are powered by solar panel, greatly promote continuation of the journey and reduce later stage use cost.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated.

Fig. 1 is structural representation of the present utility model.

Fig. 2 is vertical view of the present utility model.

In figure: 1. water inlet pipe, 2. water-supply-pipe, 3. outlet pipe, bindiny mechanism 4., 5. T-way water valve, 6. goes up bindiny mechanism, 7. tube connector, 8. footstock, 9. high-tension electricity empty water spout, 10. fitting recess, 11. wireless transmission receiving systems, 12. anti-decylizations, 13. anticreep grooves, 14. side direction roller bearings, 15. mounting grooves, roller bearing bottom 16., 17. fixed supports, 18. pressure control switch, 19. signal connection devices, 20. flow sensors, 21. solar panels, 22. impellers.

Embodiment

By reference to the accompanying drawings the utility model is described in further detail now.These accompanying drawings are the schematic diagram of simplification, only basic structure of the present utility model are described in a schematic way, and therefore it only shows the formation relevant with the utility model.

A kind of agricultural irrigation device shown in Fig. 1 and Fig. 2, comprise the water transfer pipe network being laid on ground, farmland, water transfer pipe network comprises horizontal water inlet pipe 1 on the ground, horizontal water-supply-pipe 2 on the ground and longitudinal outlet pipe 3 on the ground, water inlet pipe 1, be fixedly connected with by bindiny mechanism bottom T-type structure 4 between water-supply-pipe 2 and outlet pipe 3, bottom bindiny mechanism 4 inside is provided with the T-way water valve 5 for controlling bottom bindiny mechanism 4 inner stream flow, outlet pipe 3 threaded upper ends is fixedly connected with bindiny mechanism 6, upper bindiny mechanism 6 internal activity is connected with tube connector 7, tube connector 7 upper end is fixedly connected with footstock 8, footstock 8 outer arcuate face offers two high-pressure electric control water spouts 9 be connected with tube connector 7 inside, footstock 8 upper surface offers fitting recess 10, fitting recess 10 inner bottom surface is fixedly connected with the wireless transmission receiving system 11 for sending signal to remote monitoring terminal, fitting recess 10 inner bottom surface be positioned at wireless transmission receiving system 11 periphery be fixedly connected with for give wireless transmission receiving system 11 power solar panel 21, the nearly lower end of tube connector 7 lateral surface has annular anti-decylization 12, corresponding anti-decylization 12 position of upper bindiny mechanism 6 medial surface offers anticreep groove 13, be connected by side direction roller bearing 14 between anticreep groove 13 medial surface with anti-decylization 12, anticreep groove 13 bottom surface offers mounting groove 15, mounting groove 15 inside is fixedly connected with the bottom roller bearing 16 for reducing anti-decylization 12 bottom friction power, tube connector 7 inside is provided with fixed support 17, fixed support 17 lateral surface is fixedly connected with tube connector 7 medial surface, the inner corresponding outlet pipe 3 upper end open position of fixed support 17 is fixedly connected with the impeller 22 for driving tube connector to rotate, the corresponding outlet pipe upper end open position of fixed support lower surface is fixedly connected with the pressure control switch 18 for controlling to transmit wirelessly receiving system 11, fixed support 17 upper end is provided with the signal connection device 19 for Bonding pressure gauge tap 18 output and wireless transmission receiving system 11 control input end, footstock 8 inner top surface is connected with the flow sensor 20 for detecting footstock 8 inner stream flow, flow sensor 20 is connected with wireless transmission receiving system 11 input by footstock internal signal connecting line.

Operation principle: T-way water valve 5 is set in bottom bindiny mechanism 4 and mainly can manually controls single irrigation rig, promote safety, when water under high pressure enters outlet pipe 3, then impeller 22 surface is impacted, activation pressure gauge tap 18 while impeller 22 rotation, pressure control switch 18 activates wireless transmission receiving system 11, wireless transmission receiving system 11 sends the signal of enabling signal and flow sensor 20 to remote terminal, remote terminal is monitored the water yield by the data of transmission, if need to close, only need to send shutdown signal, stop irrigating by closing high-pressure electric control nozzle 9, very convenient.

Preferably, in order to reduce costs, promote compatibility, water inlet pipe 3, water-supply-pipe 4 is identical with the pipe diameter size of outlet pipe 5, preferably, in order to promote remote transmission signal, wireless transmission receiving system 11 height is highly identical with fitting recess 10, preferably, in order to promote safety, solar panel 21 height is highly identical with fitting recess 10, the impeller 22 that a kind of agricultural irrigation device of the present utility model is dynamically connected in pipe by the high-pressure hose in outlet pipe rotates, whole footstock 8 is driven to rotate by impeller 22, pouring scope is promoted greatly, and activate wireless transmission receiving system 11 simultaneously, by log-on message and flow information real-time Transmission to remote terminal, high-pressure electric control nozzle 9 is controlled by wireless transmission receiving system 11 by remote terminal, make it have unattended function, promote and irrigate safety, all electronic equipments are powered by solar panel 21, greatly promote continuation of the journey and reduce later stage use cost.

With above-mentioned according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, relevant staff in the scope not departing from this utility model technological thought, can carry out various change and amendment completely.The technical scope of this utility model is not limited to the content on specification, must determine its technical scope according to right.

Claims (4)

1. an agricultural irrigation device, comprise the water transfer pipe network being laid on ground, farmland, it is characterized in that: described water transfer pipe network comprises horizontal water inlet pipe (1) on the ground, horizontal water-supply-pipe (2) on the ground and longitudinal outlet pipe (3) on the ground, described water inlet pipe (1), be fixedly connected with by bindiny mechanism (4) bottom T-type structure between water-supply-pipe (2) and outlet pipe (3), described bottom bindiny mechanism (4) inside is provided with the T-way water valve (5) for controlling bottom bindiny mechanism (4) inner stream flow, described outlet pipe (3) threaded upper ends is fixedly connected with bindiny mechanism (6), described upper bindiny mechanism (6) internal activity is connected with tube connector (7), described tube connector (7) upper end is fixedly connected with footstock (8), described footstock (8) outer arcuate face offers the high-pressure electric control water spout (9) that several are connected with tube connector (7) inside, described footstock (8) upper surface offers fitting recess (10), described fitting recess (10) inner bottom surface is fixedly connected with the wireless transmission receiving system (11) for sending signal to remote monitoring terminal, described fitting recess (10) inner bottom surface is positioned at wireless transmission receiving system (11) periphery and is fixedly connected with for wireless transmission receiving system (11) solar panel (21) of powering, the described nearly lower end of tube connector (7) lateral surface has annular anti-decylization (12), corresponding anti-decylization (12) position of described upper bindiny mechanism (6) medial surface offers anticreep groove (13), described anticreep groove (13) medial surface is connected by side direction roller bearing (14) with between anti-decylization (12), described anticreep groove (13) bottom surface offers mounting groove (15), described mounting groove (15) inside is fixedly connected with the bottom roller bearing (16) for reducing anti-decylization (12) bottom friction power, described tube connector (7) inside is provided with fixed support (17), described fixed support (17) lateral surface is fixedly connected with tube connector (7) medial surface, described fixed support (17) inner corresponding outlet pipe (3) upper end open position is fixedly connected with the impeller (22) for driving tube connector (7) to rotate, corresponding outlet pipe (3) the upper end open position of described fixed support (17) lower surface is fixedly connected with the pressure control switch (18) for controlling to transmit wirelessly receiving system (11), described fixed support (17) upper end is provided with the signal connection device (19) for Bonding pressure gauge tap (18) output and wireless transmission receiving system (11) control input end, described footstock (8) inner top surface is connected with the flow sensor (20) for detecting footstock (8) inner stream flow, described flow sensor (20) is connected with wireless transmission receiving system (11) input by footstock (8) internal signal connecting line.

2. a kind of agricultural irrigation device according to claim 1, is characterized in that: described water inlet pipe (1), water-supply-pipe (2) are identical with the pipe diameter size of outlet pipe (3).

3. a kind of agricultural irrigation device according to claim 1, is characterized in that: described wireless transmission receiving system (11) height is highly identical with fitting recess (10).

4. a kind of agricultural irrigation device according to claim 1, is characterized in that: described solar cell plate height (21) is highly identical with fitting recess (10).