CN206586100U - The automatic farmland irrigating device of mechanical wind energy - Google Patents

Abstract

The utility model discloses a kind of automatic farmland irrigating device of mechanical wind energy, and it includes windmill, waterwheel and storage tank, wherein：Windmill, it is the structure for converting wind energy into kinetic energy；Waterwheel, it is connected with windmill by transmission belt or driving-chain and drives waterwheel rotation fortune water with windmill；Storage tank, it is placed in waterwheel side and connected by diversion component with windmill, forms water drainage channel；The bottom of storage tank opens up delivery port, and button sets a sealing-plug on the water storage mouthful, and the sealing-plug drives sealing-plug in being fluctuated in storage tank by a buoyancy adjustment bar, to realize being turned on and off for delivery port.The utility model drives waterwheel using windmill, and waterwheel coordinates the irrigation purpose for realizing machinist with storage tank, it is the automatic irrigation that farmland is realized using purely mechanic mode to reach wind energy farmland automatic irrigation device, and the popularization in the deficient area of electric power is more conducive to compared with traditional irrigation rig.

Description

The automatic farmland irrigating device of mechanical wind energy

Technical field

The utility model is related to a kind of automatic farmland irrigating device of mechanical wind energy, is divided by International Patent Classification (IPC) IPC Belong to field irrigation technical field.

Background technology

Irrigation rig that at present both at home and abroad can be at regular time and quantity is mostly by Electric control, it is necessary to supply of electric power, it is impossible to meet nothing The crop irrigation demand in supply of electric power area, it is impossible to realize different regions and backwoodsman large scale application.This hair Bright is that one kind utilizes wind energy, the irrigation rig at regular time and quantity realized by purely mechanic mode, can the realization of replacement circuit control mode To the irrigation function at regular time and quantity of crops, the energy is saved, environmental protection can meet the crops of unregulated power supply area certainly Dynamic irrigation demand, reduces labor intensity, improves the regularity irrigated, and with practical, adapts to wide, is easy to safeguard, cost It is low, the features such as service life is long.

Utility model content

In view of the shortcomings of the prior art, design a kind of by wind energy, agriculture at regular time and quantity is realized using purely mechanic mode Field irrigation rig.

To reach above-mentioned purpose, the utility model is achieved through the following technical solutions：

The automatic farmland irrigating device of mechanical wind energy, it includes windmill, waterwheel and storage tank, wherein：

Windmill, it is the structure for converting wind energy into kinetic energy；

Waterwheel, it is connected with windmill by transmission belt or driving-chain and drives waterwheel rotation fortune water with windmill；

Storage tank, it is placed in waterwheel side and connected by diversion component with windmill, forms water drainage channel；

The bottom of storage tank opens up delivery port, and button sets a sealing piston on the water storage mouthful, and the sealing-plug passes through a buoyancy Adjusting rod drives sealing piston in being fluctuated in storage tank, to realize being turned on and off for delivery port.

Further, the diversion component includes water diversion device and aqueduct, and water diversion device is close to waterwheel setting to accept waterwheel The water of transport, and water diversion device sets higher than storage tank, aqueduct two ends connect with water diversion device and storage tank respectively, the aqueduct from What water diversion device was tilted down connects with storage tank, forms flow-guiding structure.

Further, the water storage valve of water-carrying capacity can be controlled by being provided with the aqueduct.

Further, the sealing piston is the piston with the body of rod, and buoyancy adjustment bar is the hollow tube with buoyant spheres Body, the buoyancy adjustment rod set is on the body of rod of sealing piston and it is connected with the body of rod of sealing piston.

Further, the buoyancy adjustment bar is with can ensure that symmetrical two ball float of stress.

Further, the body of rod of the sealing piston opens a screwed hole in its tip position is used for the cooperation with a fixing bolt It is connected, described buoyancy adjustment bar upper position opens a strip grooves, and the body of rod for stating sealing piston is inserted in buoyancy adjustment bar, makes to float Draft control lever can form the bar relative position different with pipe, and pass through fixed spiral shell along the body of rod of sealing piston in axial movement Bolt is adjusted, so as to control the height of ball float.

Further, the storage tank includes the water tank with water space capacity and buckles the top blind flange set with water tank openend, The top blind flange offers the pilot hole for allowing buoyancy adjustment bar displacement to pass through, and the tank inner wall position is provided with fitted seal The leading truck being located above and below the body of rod of piston, the pilot hole and leading truck are formed to be adjusted to the body of rod and buoyancy that limit sealing piston The two ends of pole, so that it is vertically moving to limit its.

Further, by transmission belt or transmission chain gearing between the windmill and waterwheel, according to actual ground condition and wind regime, Can be multi-stage, belt by the transmission belt or driving-chain when windmill and waterwheel are distant or when needing certain gearratio Or chain progress transmission is realized and required at a distance with gearratio, or simultaneously long distance is realized in the transmission of combination gear group by multi-stage, belt or chain Required from gearratio.

Compared with prior art, advantage of the present utility model：

The utility model drives waterwheel using windmill, and waterwheel coordinates the irrigation purpose for realizing machinist with storage tank, reaches It is the automatic irrigation that farmland is realized using purely mechanic mode to wind energy farmland automatic irrigation device, with traditional irrigation rig Compared to the popularization being more conducive in the deficient area of electric power.

Brief description of the drawings

Fig. 1 is the utility model example structure schematic diagram

Fig. 2 is storage tank sectional view in the utility model embodiment（Sealing piston i.e. blocks delivery port schematic diagram）；

Fig. 3 is sealing piston in storage tank in the utility model embodiment by the schematic diagram of buoyancy pull-up；

Fig. 4 be in Fig. 2 A to structural representation；

Fig. 5 is B-B profiles in Fig. 2.

Mark is described as follows in description above accompanying drawing：

Mouth 2-storage tank bearing is irrigated in 1-water outlet

3-ground level containing water source, 4-storage tank

5-diversion, 6-aqueduct of box bracket

7-water storage valve, 8-water diversion device

10-waterwheel of 9-transmission belt or driving-chain

11-windmill, 12-delivery port

13-sealing piston, 14-buoyancy adjustment bar

15-fixing bolt, 16-top blind flange

17-ball float, 18-leading truck.

Embodiment

To make the purpose, technical scheme and advantage of the utility model implementation clearer, below in conjunction with present invention implementation Accompanying drawing in example, the technical scheme in the embodiment of the present invention is further described in more detail.In the accompanying drawings, it is identical from beginning to end Or similar label represents same or similar element or the element with same or like function.Described embodiment is this Invent a part of embodiment, rather than whole embodiments.The embodiments described below with reference to the accompanying drawings are exemplary, purport For explaining the present invention, and it is not considered as limiting the invention.Based on the embodiment in the present invention, the common skill in this area The every other embodiment that art personnel are obtained under the premise of creative work is not made, belongs to the model that the present invention is protected Enclose.

In the description of the technical program, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", "front", "rear", The orientation or position relationship of the instruction such as "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outer " is based on accompanying drawing institutes The orientation or position relationship shown, is for only for ease of the description present invention and simplifies description, rather than indicate or imply signified dress Put or element there must be specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to present invention protection The limitation of scope, the utility model is described in further detail below in conjunction with the accompanying drawings：

Embodiment：Refer to shown in Fig. 1, a kind of mechanical automatic farmland irrigating device of wind energy, it includes windmill 11, waterwheel 10 and storage tank 4.

Refer to shown in Fig. 1, windmill 11 is the structure for converting wind energy into kinetic energy；Waterwheel 10 passes through transmission belt or driving-chain 9 are connected with windmill 11 and drive the rotation fortune water of waterwheel 10 with windmill 11；Storage tank 4 is placed in the side of waterwheel 10 and by diversion component Connected with windmill 11, form water drainage channel；The bottom of storage tank 4 opens up delivery port 12, and button sets a sealing on the water storage mouthful Piston 13, the sealing-plug drives sealing piston 13 to be fluctuated in storage tank 4 by an encouragement adjusting rod 14, to realize water outlet Mouthfuls 12 are turned on and off.

Refer to shown in Fig. 1, foregoing diversion component includes water diversion device 8 and aqueduct 6, water diversion device 8 is set close to waterwheel 10 Water to accept the transport of waterwheel 10, and water diversion device 8 sets higher than storage tank 4, the two ends of aqueduct 6 are respectively with water diversion device 8 and storing up Water tank 4 is connected, and what the aqueduct 6 was tilted down from water diversion device 8 connects with storage tank 4, forms flow-guiding structure.The aqueduct 6 On be provided with and can control the water storage valve 7 of water-carrying capacity.

Refer to shown in Fig. 1 to Fig. 5, aforementioned seal piston 13 is the piston with the body of rod, and encourage adjusting rod 14 to be band There is the hollow tube of buoyant spheres, the encouragement adjusting rod 14 is sheathed on the body of rod of sealing piston 13 and itself and sealing piston 13 The body of rod is connected.It is preferred that：The encouragement adjusting rod 14 is with can ensure that symmetrical two ball float 17 of stress.

Specifically：Refer to shown in Fig. 1 to Fig. 5, the body of rod of the sealing piston 13 opens a screw thread in its tip position Hole is used to be connected with the cooperation of a fixing bolt 15, and the described upper position of encouragement adjusting rod 14 opens a strip grooves, states sealing and lives The body of rod of plug 13 is inserted in encouragement adjusting rod 14, allows the body of rod of the encouragement adjusting rod 14 along sealing piston 13 in axial movement, The bar relative position different with pipe is formed, and is adjusted by fixing bolt 15, so as to control the height of ball float 17.The storage Water tank 4 sets the top blind flange 16 with water tank openend including water tank and button with water space capacity, and the top blind flange 16 is opened up Have on the pilot hole for allowing to encourage the displacement of adjusting rod 14 to pass through, the body of rod of the tank inner wall position provided with fitted seal piston 13 The leading truck 18 being located at down, the pilot hole and leading truck 18 form the body of rod to limiting sealing piston 13 and encourage adjusting rod 14 Two ends so that it is vertically moving to limit its.

Refer to shown in Fig. 1 to Fig. 5, linked between foregoing windmill 11 and waterwheel 10 by transmission belt or driving-chain 9, root The factually ground condition and wind regime on border, can be by described when windmill 11 and waterwheel 10 are distant or when needing certain gearratio Transmission belt or driving-chain 9 are that multi-stage, belt or chain carry out transmission and realize that remote and gearratio is required, or by multi-stage, belt or Simultaneously combination gear group transmission realization is required chain with gearratio at a distance.

Refer to shown in Fig. 1 to Fig. 5, it is tubulose Bilateral Symmetry structure that adjusting rod 14 is encouraged in the structure of this new design, Fixed by the ball float 17 of bilateral and ensure the symmetrical of buoyancy suffered by sealing piston 13, so that rod failure sealing piston 13 and encouragement are adjusted Pole 14 is vertically moving under symmetrical buoyancy and self gravitation effect.

Refer to shown in Fig. 1 to Fig. 5, storage tank 4 in the structure of this new design, provided with guiding in its top blind flange 16 Hole, casing leading truck 18 is provided with its inner wall position, is limited sealing piston 13 by pilot hole and leading truck 18 and is encouraged to adjust The two ends of bar 14, so that it is vertically moving to limit its.

Refer to shown in Fig. 1 to Fig. 5, sealing piston 13 opens a spiral shell in the tip position of the body of rod in the structure of this new design Pit be used for fixing bolt 15 fixation, described encouragement adjusting rod 14, at an upper portion thereof position open a strip grooves, sealing piston 13 The body of rod be inserted in encouragement adjusting rod 14, allow the body of rod of the encouragement adjusting rod 14 along sealing piston 13 in axial movement, formed The bar relative position different with pipe, and be fixed by fixing bolt 15, so as to control the height of ball float 17.

Refer to shown in Fig. 1 to Fig. 5, waterwheel 10 is built up in ground level containing water source 3, windmill 11 is built up on ground level simultaneously Close to waterwheel 10, specific pendulum position and the water sampling point of waterwheel 10 of windmill 11, its apoplexy are set according to local wind regime and water source landforms Car is driven with waterwheel 10 by belt or chain 9.Belt or chain 9 between windmill 11 and waterwheel 10 are driven, according to reality Ground condition and wind regime, when windmill 11 and waterwheel 10 are distant or when needing certain gearratio, can pass through multi-stage, belt or chain Carry out transmission and realize the requirement of remote and gearratio, or by multi-stage, belt or chain and the transmission of combination gear group realize it is remote with Gearratio requirement.

With reference to shown in Fig. 1 to Fig. 5, the structure irrigation function of this new design is realised in that, the bottom position of storage tank 4 is opened There is a delivery port 12 to be fitted with sealing piston 13, when the water surface of the water storage of storage tank 4 is higher than ball float 17, water storage is produced to ball float 17 The surface that raw buoyancy overcoming sealing sealing piston 13 and the gravity and water storage of buoyancy adjustment bar 14 itself are produced to sealing piston Pressure, makes to lift in sealing piston 13, delivery port 12 is opened, and water is irrigated the outflow of mouth 1 by the water outlet being connected with delivery port 12 and carried out Irrigate.When the water emptying of storage tank 4, sealing piston 13 and buoyancy adjustment bar 14 fall under the Action of Gravity Field of itself, close Delivery port 12, is to irrigate to carry out water storage next time.

Refer to shown in Fig. 1, water diversion device 8 is supported by diversion box bracket 5, its position is higher than storage tank and accepts 10 turns of waterwheel Water in the dynamic water raised, water diversion device 8 is flowed under the influence of gravity into storage tank 4 by aqueduct 6, by being filled on aqueduct 6 Control of some water storage valves 7 to flow, to control the water level of storage tank 4 to reach the time of predetermined altitude, realizes the timing work(irrigated Energy.

Refer to shown in Fig. 1 to Fig. 5, sealing piston, buoyancy adjustment bar, fixing bolt 15, top cover are provided with storage tank 4 Plate 16, ball float 17, leading truck 18, the relative position for adjusting buoyancy adjustment bar and sealing piston by elastic fixing bolt 15 are gone forward side by side Row is fixed, to change height of the ball float 17 with respect to delivery port 12, so that control water surface during water storage to raise the water needed for ball float 17, Realize the quantitative function irrigated.

Described above, only using the embodiment of this origination techniques content, any those skilled in the art use this wound Make done modifications and changes, all belong to the scope of the claims of this creation opinion, and be not limited to those disclosed embodiments.

Claims (8)

1. the mechanical automatic farmland irrigating device of wind energy, it is characterised in that：It includes windmill, waterwheel and storage tank, wherein：

Windmill, it is the structure for converting wind energy into kinetic energy；

Waterwheel, it is connected with windmill by transmission belt or driving-chain and drives waterwheel rotation fortune water with windmill；

Storage tank, it is placed in waterwheel side and connected by diversion component with windmill, forms water drainage channel；

The bottom of storage tank opens up delivery port, and button sets a sealing piston on the water storage mouthful, and the sealing-plug passes through a buoyancy adjustment Bar drives sealing piston in being fluctuated in storage tank, to realize being turned on and off for delivery port.

2. the automatic farmland irrigating device of mechanical wind energy according to claim 1, it is characterised in that：The diversion component bag Water diversion device and aqueduct, water of the water diversion device close to waterwheel setting to accept waterwheel transport, and water diversion device is included to set higher than storage tank Put, aqueduct two ends are connected with water diversion device and storage tank respectively, and what the aqueduct was tilted down from water diversion device connects with storage tank, Form flow-guiding structure.

3. the automatic farmland irrigating device of mechanical wind energy according to claim 2, it is characterised in that：Pacify on the aqueduct Equipped with the water storage valve of water-carrying capacity can be controlled.

4. the automatic farmland irrigating device of mechanical wind energy according to claim 1, it is characterised in that：The sealing piston is Piston with the body of rod, and buoyancy adjustment bar is the hollow tube with buoyant spheres, the buoyancy adjustment rod set is lived located at sealing On the body of rod of plug and it is connected with the body of rod of sealing piston.

5. the automatic farmland irrigating device of mechanical wind energy according to claim 4, it is characterised in that：The buoyancy adjustment bar For with can ensure that symmetrical two ball float of stress.

6. the automatic farmland irrigating device of mechanical wind energy according to claim 5, it is characterised in that：The sealing piston The body of rod opens a screwed hole in its tip position to be used to be connected with the cooperation of a fixing bolt, described buoyancy adjustment bar upper position A strip grooves are opened, the body of rod for stating sealing piston is inserted in buoyancy adjustment bar, allow the body of rod of the buoyancy adjustment bar along sealing piston In axial movement, the bar relative position different with pipe is formed, and is adjusted by fixing bolt, so as to control the height of ball float Degree.

7. the automatic farmland irrigating device of mechanical wind energy according to claim 4, it is characterised in that：The storage tank includes Water tank and button with water space capacity set the top blind flange with water tank openend, and the top blind flange offers permission buoyancy adjustment The pilot hole that bar displacement is passed through, the leading truck that the tank inner wall position is located above and below the body of rod provided with fitted seal piston, institute State pilot hole and leading truck is formed to limiting the body of rod of sealing piston and the two ends of buoyancy adjustment bar, so as to limit it along vertical side To motion.

8. the automatic farmland irrigating device of mechanical wind energy according to claim 1, it is characterised in that：The windmill and waterwheel Between by transmission belt or transmission chain gearing, according to actual ground condition and wind regime, when windmill and waterwheel are distant or need one Can be that multi-stage, belt or chain carry out transmission and realize remote and transmission by the transmission belt or driving-chain during fixed gearratio Required at a distance with gearratio than requiring, or by multi-stage, belt or chain and combination gear group transmission realization.