CN111236358A - Hydraulic supercharging equipment for river channel automatic driving - Google Patents

Abstract

The invention discloses a hydraulic supercharging device automatically driven by a river channel, which structurally comprises a water contact net ring, a conversion inner making cylinder, a fixed clamping plate, a lifting frame, a bearing pipe and a hydraulic inner pipe, wherein the water contact net ring is slidably connected to the left side of the conversion inner making cylinder, the hydraulic inner pipe is in threaded connection with the right side of the conversion inner making cylinder, the fixed clamping plate is in threaded connection with the connection position of the conversion inner making cylinder and the hydraulic inner pipe, the flow force of water flow impacts a central stress pad, electric energy generated through a piezoelectric effect is transmitted to a transmission pile and a transmission line through a radiation net wire, a tightening ring and a stirring pad are driven to act, an inner hinged arm is stirred inwards, an expansion piece is pushed out by the inner hinged arm, the expansion piece pushes out a liquid pushing frame in a hydraulic cavity, strong extrusion force is generated on the water flow to be sprayed out, the effect of pressurizing is generated on the water flow, and the water flow can be covered to a farther position through assistance, the irrigation effect of the farmland is guaranteed.

Description

Hydraulic supercharging equipment for river channel automatic driving

Technical Field

The invention relates to hydraulic equipment, in particular to hydraulic pressurizing equipment for automatic driving of a river channel.

Background

Hydraulic drive adopts the working method of different medium liquid transmission kinetic energy, and its life-span of using is longer to installation and dismantlement convenience comparatively do not need to lay the circuit in electrical equipment, all can use on a lot of mechanical equipment, on some agricultural irrigation equipment, often can often launch some hydraulic equipment and irrigate as the power supply, and have the farmland that approaches in the river course, often can adopt the rivers in river course to irrigate the farmland.

Based on the above description, the inventor finds that the existing hydraulic supercharging device for river channel automatic driving mainly has the following defects, such as:

the prior art irrigates the farmland at the rivers that utilize the river course to through the mode of automatic conveying, do not pressurize rivers, make the rivers in leading-in farmland easily not have the impulsive force, be difficult to spray farmland far away, the scope of coverage is less, but at the comparatively complicated of farmland position environment, is difficult to lay the circuit line, makes the use value to river course water diminish.

Disclosure of Invention

In order to solve the technical problems, the invention provides hydraulic pressurizing equipment for automatically driving a river channel, which aims to solve the problems that in the prior art, the farmland is irrigated by using water flow of the river channel, the water flow is not pressurized in an automatic conveying mode, the water flow guided into the farmland is easy to have no impulsive force and is difficult to spray to the farther farmland, the coverage range is small, the environment at the farmland position is complex, a circuit line is difficult to arrange, and the use value of the river channel water is reduced.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a river course automatic drive's hydraulic pressure supercharging equipment, its structure includes that water touches and makes a section of thick bamboo in net circle, the conversion, solid cardboard, lift frame, adapter tube, hydraulic pressure inner tube, water touches the left side of a section of thick bamboo of net circle sliding connection in the conversion, hydraulic pressure inner tube threaded connection makes the right side of a section of thick bamboo in the conversion, solid cardboard threaded connection makes the junction of a section of thick bamboo and hydraulic pressure inner tube in the conversion, the adapter tube passes through the buckle lock on the right side of hydraulic pressure inner tube, lift the frame through the surface of rivet locking at the adapter tube.

According to one implementation mode, the conversion internal cylinder consists of an internal expanding rod, a gathering arm rod, a ripple energy storage frame, an energy storage pushing and ejecting device, a liquid pushing frame and a hydraulic cavity, wherein the ripple energy storage frame is movably connected to the right side of the water contact net ring, the gathering arm rod is slidably connected to the inner side of the ripple energy storage frame, the internal expanding rod is vertically attached to the left side of the gathering arm rod, the hydraulic cavity is electrically welded to the right side of the ripple energy storage frame, the energy storage pushing and ejecting device is tightly buckled to the right side of the ripple energy storage frame through a buckle and is movably connected to the left side of the inside of the hydraulic cavity, and the liquid pushing frame is slidably connected to the inner side of the hydraulic cavity.

According to one embodiment, the scraping arm rod comprises a friction head, an upper friction heat rod, a pressed ring, a radiation net wire and a lower friction heat rod, wherein the friction head is provided with more than two friction heads and welded on the outer surfaces of the upper friction heat rod and the lower friction heat rod, the upper friction heat rod is inserted above the pressed ring, the lower friction heat rod is vertically screwed below the pressed ring, and the radiation net wire is electrically connected inside the pressed ring.

According to one can implement mode, the pressurized ring circle comprises pressurized disk, interior electric structure, central atress pad, partial shipment piece, pressurized disk is fixed in the centre of last friction hot rod and lower friction hot rod, central atress pad swing joint is at the inside center of pressurized disk, partial shipment piece is equipped with four and glue and connects in the inboard that receives the pressurized disk, interior electric structure is equipped with four and welds in four directions of central atress pad.

According to one embodiment, the sub-assembly sheet comprises two sub-assemblies, two transmission piles, three collector heads and a connecting pipe, wherein the connecting pipe is electrically connected between every two sub-assemblies, the transmission piles are hinged to the right sides of the sub-assemblies, the transmission lines are connected inside the transmission piles in an adhesive mode, and the collector heads are electrically connected between the three transmission piles.

According to one embodiment, the water touch screen ring is composed of a wave block, a wave strip, a retraction disc and a rubbing pushing disc, the rubbing pushing disc is connected to the right side of the retraction disc through a nail, the retraction disc is movably buckled to the left side of the conversion inner cylinder, the wave strip is hinged to the left side of the retraction disc, and the wave block is connected with the wave strip through glue.

According to one implementation mode, the ripple energy storage frame is composed of a side attaching frame, an adhesion block and a clamping groove, the side attaching frame is perpendicularly connected to the left side of the hydraulic cavity through a nail, the clamping groove is provided with more than two and is welded to the inner side of the side attaching frame in an electric welding mode, and the adhesion block is connected to the inner side of the clamping groove in an adhesive mode.

According to one implementation mode, the energy storage pushing device is composed of an inner hinged arm, a stirring pad, a tightening ring and an expansion piece, the tightening ring is mechanically connected to the left end inside the hydraulic cavity, the stirring pad is movably connected to the upper end and the lower end of the tightening ring, the inner hinged arm is hinged to the outer side of the stirring pad, and the expansion piece is buckled on the right side of the inner hinged arm through a buckle.

The hydraulic supercharging equipment for automatically driving the river channel, disclosed by the invention, is reasonable in design and strong in functionality, and has the following beneficial effects:

according to the invention, the flow force of water flow impacts the central stress pad through the arranged accumulating arm rod, the corrugated energy storage frame and the energy storage ejection device, electric energy generated through a piezoelectric effect is transmitted to the transmission pile and the transmission wire through the radiation network wire, the tightening ring and the stirring pad are driven to act, the inner hinged arm is enabled to stir inwards, the inner hinged arm is enabled to push out the expansion sheet, the expansion sheet is enabled to push out the liquid pushing frame, the liquid pushing frame in the hydraulic cavity is enabled to be pushed out, strong extrusion force is generated on the water flow to be ejected, the effect of pressurizing is generated on the water flow, the water flow can be covered to a farther position by assistance, and the irrigation effect of a farmland is ensured.

According to the invention, through the arranged water touch net ring and the scattered fluctuation strips and fluctuation blocks, the impact of water flow impact can be completely converted into swing power, and the power of the water flow can be completely absorbed by a diffusion type method and converted into driving force, so that the conversion force of the water flow is improved, and a stamping process can be completed in a short time.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of a hydraulic pressurizing device for river channel automatic driving according to the invention.

Fig. 2 is a schematic structural diagram of the interior of a conversion inner cylinder of the hydraulic pressurizing equipment automatically driven by the river channel.

Fig. 3 is a left-view structural schematic diagram of a scraping arm rod of the hydraulic pressurizing device for automatically driving the river channel.

Fig. 4 is a schematic structural diagram of the inside of a pressure ring of the hydraulic pressurizing device for automatic driving of the river channel.

Fig. 5 is a structural schematic diagram of a split sheet of the hydraulic supercharging device automatically driven by the river channel of the invention viewed from the right.

Fig. 6 is a detailed structural schematic diagram of a hydraulic supercharging equipment ripple energy storage rack automatically driven by a river channel.

Fig. 7 is a detailed structural schematic diagram of an energy storage and ejection device of hydraulic pressure boosting equipment for automatic driving of a river channel.

Fig. 8 is a schematic structural diagram of the water-contact net ring of the hydraulic supercharging device automatically driven by the river channel.

Description of reference numerals: the device comprises a water contact net ring 0, a conversion inner making barrel 1, a clamping fixing plate 2, a lifting frame 3, a carrying pipe 4, a hydraulic inner pipe 5, an inner expanding rod s1, a collecting arm rod s2, a corrugated energy storage frame s3, an energy storage ejection device s4, a liquid pushing frame s5, a hydraulic cavity s6, a friction head s20, an upper friction heat rod s21, a pressed ring s22, a radiation net wire s23, a lower friction heat rod s24, a pressed disc 220, an inner electric structure 221, a central stressed pad 222, a split charging sheet 223, a distribution disc 210, a transmission pile 211, a transmission wire 212, a current collecting head 213, a string 214, a fluctuation block s10, a fluctuation strip s11, a retraction disc s12, a pushing expansion disc s13, a side sticking frame s30, an adhesion block s31, a clamping groove s32, an inner hinge arm s40, a stirring connection pad s41, a clamping ring s42 and a 43.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example 1 is as follows:

as shown in the attached drawings 1 to 7, the invention provides a hydraulic pressurizing device for river channel automatic driving, which structurally comprises a water contact net ring 0, a conversion inner making barrel 1, a clamping plate 2, a lifting frame 3, a receiving pipe 4 and a hydraulic inner pipe 5, wherein the water contact net ring 0 is slidably connected to the left side of the conversion inner making barrel 1, the hydraulic inner pipe 5 is in threaded connection with the right side of the conversion inner making barrel 1, the clamping plate 2 is in threaded connection with the connection position of the conversion inner making barrel 1 and the hydraulic inner pipe 5, the receiving pipe 4 is buckled on the right side of the hydraulic inner pipe 5 through a buckle, the lifting frame 3 is locked on the outer surface of the receiving pipe 4 through a rivet, the conversion inner making barrel 1 is composed of an inner expanding rod s1, a collecting arm s2, a corrugated energy storage frame s3, an energy storage pushing device s4, a liquid pushing frame s5 and a hydraulic cavity s6, the corrugated energy storage frame s3 is movably connected to the right side of the water contact net ring 0, and the corrugated arm s2 is slidably connected to the inner side of the energy storage frame 3, the inner expanding rod s1 is vertically attached to the left side of the scraping arm s2, the hydraulic cavity s6 is electrically welded to the right side of the corrugated energy storage frame s3, the energy storage ejection device s4 is fastened to the right side of the corrugated energy storage frame s3 through buckles and is movably connected to the left side inside the hydraulic cavity s6, the liquid pushing frame s5 is connected to the inner side of the hydraulic cavity s6 in a sliding manner, the scraping arm s2 is composed of a friction head s20, an upper friction heat rod s21, a pressure ring s22, a radiation net wire s23 and a lower friction heat rod s24, the friction head s20 is provided with more than two friction heads and is welded to the outer surfaces of the upper friction heat rod s21 and the lower friction heat rod s24, the upper friction heat rod s21 is inserted and embedded above the pressure ring s 6867, the lower friction heat rod s24 is vertically screwed below the pressure ring s22, the radiation net wire s22 is electrically connected to the pressure ring s22 and generates electric energy when the friction head 22 and generates heat energy and is rubbed with the friction head 22, the conversion rate of electric energy is improved, the pressed ring s22 is composed of a pressed disc 220, an inner electric structure 221, a central stressed pad 222 and split charging pieces 223, the pressed disc 220 is fixed between an upper friction hot rod s21 and a lower friction hot rod s24, the central stressed pad 222 is movably connected to the center inside the pressed disc 220, the split charging pieces 223 are provided with four pieces and are connected to the inner side of the pressed disc 220 in an adhesive mode, the inner electric structure 221 is provided with four pieces and is welded to the four directions of the central stressed pad 222, the split charging pieces 223 are arranged in the four directions of the central stressed pad 222, the hammering force capable of hammering can be guaranteed to be completely converted, partial loss of force in the transmission process is prevented, the split charging pieces 223 are composed of distribution discs 210, transmission piles 211, transmission lines 212, current collecting heads 213 and string connecting tubes 214, the string connecting tubes 214 are provided with two pieces and are electrically connected to the middle of every two distribution discs 210, the transmission pile 211 is provided with three transmission piles and hinged on the right side of the distributor 210, the conducting wire 212 is connected inside the transmission pile 211 in a gluing mode, the collector head 213 is electrically connected in the middle of the three transmission piles 211, the collector head 213 can integrate electric energy together and collect and uniformly treat the electric energy received at all positions, and the treatment and utilization of the electric energy are convenient, the corrugated energy storage frame s3 is composed of a side sticking frame s30, an adhesion block s31 and a clamping groove s32, the side sticking frame s30 is vertically nailed on the left side of the hydraulic cavity s6, the clamping groove s32 is provided with more than two clamping blocks and is welded on the inner side of the side sticking frame s30, the adhesion block s31 is connected on the inner side of the clamping groove s32 in a gluing mode, the adhesion block s31 can slightly resist the movement of the upper friction heat rod s21, the generation of heat energy is facilitated, the electric energy storage amount can be improved, and the energy storage pushing device s4 is composed of inner hinged arms 40, 59, Stirring pad s41, close tight ring s42, inflation piece s43 and constitute, close tight ring s42 mechanical connection at the inside left end of hydraulic pressure chamber s6, stir pad s41 swing joint close tight ring s 42's last lower extreme, interior hinge arm s40 articulates in the outside of stirring pad s41, inflation piece s43 is through the right side of hinge arm s40 including the buckle lock, and inflation piece s43 is made for elastic material, can restore automatically to the original state after the shrink, makes the hydraulic oil of inside stop flowing, waits for the drive next time, and the inboard of interior hinge arm s40 has the setting to collude the arm, can improve holistic promotion effect, and the design impetus that prevents the single pole is less.

The specific manner of use of this example:

when water flow impacts, pressure can be caused to the inward expansion rods 1, the inward expansion rods are enabled to move towards the inner side continuously, the central stress pad 222 is enabled to be impacted continuously, impact force is enabled to be dispersed into the distributor 210, mechanical energy is converted into electric energy, the electric energy is concentrated into the collector head 213 through the transmission piles 211 and the conduction wires 212, the pressed ring s22 is enabled to be extruded towards the inner side continuously along with fluctuation of the water flow, the friction head s20, the upper friction heat rod s21 and the lower friction heat rod s24 are enabled to act in the clamping groove s32 continuously, heat energy generated through friction is also converted into electric energy to be stored in the collector head 213, the more the electric energy is stored as the closer to the energy storage pushing device s4, the more the electric energy is stored, when the electric energy contacts the tightening ring s42, all the electric energy tightening rings s42 are enabled to drive the inward hinge pads s41, the larger the inward angle of the electric energy is, the inward hinge arms 40 of the inward hinge pads 41 are enabled to be pushed out, make internal hinge arm s40 release inflation piece s43, let inflation piece s43 extrusion hydraulic chamber s6 inside hydraulic oil, promote the rivers in the extrusion accepting pipe 4 of liquid pushing frame s5, make rivers by the pressurization, can provide power for whole according to the flow of river course rivers, untimely pressurizeing rivers, let the irrigation effect of rivers can cover whole piece farmland, improve holistic work efficiency.

Example 2 is as follows:

on the basis of embodiment 1, as shown in fig. 8, the invention provides a hydraulic pressurizing device for river channel automatic driving, wherein the water touch screen ring 0 is composed of a wave block s10, a wave strip s11, a retraction disk s12 and a thrust disk s13, the thrust disk s13 is connected to the right side of the retraction disk s12 through a nail, the retraction disk s12 is movably buckled at the left side of the conversion inner cylinder 1, the wave strip s11 is hinged at the left side of the retraction disk s12, the wave block s10 is connected with the wave strip s11 through glue, when river channel water acts, the two ends of a river bank are continuously impacted, the scattered wave block s10 and the wave strip s11 collide towards the outer side, the wave block s10 is pushed towards the two sides and has a rebound effect, the impact force of the wave block s10 can be completely absorbed according to the flowing state of the river channel according to the tidal action, the impact force of the river channel s12 is continuously retracted to continuously absorb the impact force, the inner expansion rod s1 is continuously pushed, the impact effect of the water flow is completely converted.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. The utility model provides a river course automatic drive's hydraulic pressure supercharging equipment, its structure includes that water touches a net circle (0), changes and makes a section of thick bamboo (1), solid cardboard (2), holds in the palm and lifts frame (3), accept pipe (4), hydraulic pressure inner tube (5), its characterized in that:

water touches net circle (0) and installs the left side of making a section of thick bamboo (1) in the conversion, hydraulic pressure inner tube (5) are fixed and are made the right side of a section of thick bamboo (1) in the conversion, solid cardboard (2) are inserted and are inlayed and make the junction of a section of thick bamboo (1) and hydraulic pressure inner tube (5) in the conversion, bearing pipe (4) lock is on the right side of hydraulic pressure inner tube (5), the outer surface at bearing pipe (4) is nested in lifting frame (3).

2. The hydraulic supercharging device for the automatic driving of the river channel according to claim 1, wherein: make section of thick bamboo (1) in the conversion by interior exhibition pole (s1), save arm pole (s2), ripple energy storage frame (s3), energy storage propelling device (s4), liquid pushing frame (s5), hydraulic pressure chamber (s6) and constitute, ripple energy storage frame (s3) are installed and are being touched the right side of net circle (0) in water, save arm pole (s2) and install the inboard at ripple energy storage frame (s3), interior exhibition pole (s1) vertical fixation is in the left side of saving arm pole (s2), hydraulic pressure chamber (s6) fastening is on the right side of ripple energy storage frame (s3), energy storage propelling device (s4) lock tightly at the right side of ripple energy storage frame (s3) and in the inside left side in hydraulic pressure chamber (s6), liquid pushing frame (s5) are connected and are hugged closely at the inboard of hydraulic pressure chamber (s 6).

3. The hydraulic supercharging device for the automatic driving of the river channel according to claim 2, wherein: the scraping arm rod (s2) is composed of a friction head (s20), an upper friction heat rod (s21), a pressed ring (s22), a radiation net wire (s23) and a lower friction heat rod (s24), wherein the friction head (s20) is provided with more than two parts and is arranged on the outer surfaces of the upper friction heat rod (s21) and the lower friction heat rod (s24), the upper friction heat rod (s21) is inserted and embedded above the pressed ring (s22), the lower friction heat rod (s24) is vertically fixed below the pressed ring (s22), and the radiation net wire (s23) is arranged inside the pressed ring (s 22).

4. The hydraulic supercharging device capable of being automatically driven in the river channel according to claim 3, wherein: the pressure-bearing ring (s22) is composed of a pressure-bearing disc (220), an inner electric structure (221), a center stress pad (222) and a sub-packaging piece (223), the pressure-bearing disc (220) is fixed in the middle of an upper friction hot rod (s21) and a lower friction hot rod (s24), the center stress pad (222) is installed in the center of the pressure-bearing disc (220), the sub-packaging piece (223) is provided with four and fixed on the inner side of the pressure-bearing disc (220), and the inner electric structure (221) is provided with four and is fastened in four directions of the center stress pad (222).

5. The hydraulic supercharging device capable of being automatically driven in the river channel according to claim 4, wherein: the sub-assembly piece (223) comprises a distributor (210), transmission piles (211), conducting wires (212), collector heads (213) and a series connection pipe (214), wherein the series connection pipe (214) is provided with two and is arranged between every two distributor plates (210), the transmission piles (211) are provided with three and are fastened on the right side of the distributor plates (210), the conducting wires (212) are tightly attached to the inside of the transmission piles (211), and the collector heads (213) are fixedly arranged in the middle of the three transmission piles (211).

6. The hydraulic supercharging device for the automatic driving of the river channel according to claim 1, wherein: net circle (0) is touched to water comprises undulant piece (s10), undulant strip (s11), retraction disc (s12), the thrust disc (s13), thrust disc (s13) fastening is on the right side of retracting disc (s12), the left side of making a section of thick bamboo (1) in the conversion is retracted disc (s12) lock, the left side of retracting disc (s12) is installed in undulant strip (s11), undulant piece (s10) links together with undulant strip (s 11).

7. The hydraulic supercharging device automatically driven by a river channel according to claim 2, wherein: ripple energy storage frame (s3) comprises side subsides frame (s30), adhesion piece (s31), chucking recess (s32), side subsides frame (s30) vertical fixation is in the left side of hydraulic pressure chamber (s6), chucking recess (s32) are equipped with more than two and install the inboard at side subsides frame (s30), the inboard at chucking recess (s32) is laminated to adhesion piece (s 31).

8. The hydraulic supercharging device automatically driven by a river channel according to claim 2, wherein: energy storage propelling movement device (s4) comprises interior articulated arm (s40), stir pad (s41), close tights ring (s42), inflation piece (s43), it hugs closely at the inside left end of hydraulic pressure chamber (s6) to close tights ring (s42), stir pad (s41) and connect the upper and lower end of closing tights ring (s42), interior articulated arm (s40) sets firmly the outside of stirring pad (s41), the right side of articulated arm (s40) including inflation piece (s43) lock.

Images