CN110089404B - Water level regulation and control equipment for agricultural irrigation - Google Patents

Abstract

The invention provides water level regulating and controlling equipment for agricultural irrigation, which comprises a main machine body, wherein a water storage cavity is formed in the main machine body, a filter layer is arranged at the top in the water storage cavity, a filter cavity is formed in the left end wall of the main machine body on the left side of the filter layer, the bottom of the water storage cavity is communicated with the outside through a water wheel cavity, a water wheel metering mechanism is arranged in the water wheel cavity, a sector cavity is formed in the main machine body on the right side of the water wheel cavity, and a bent pipeline is arranged in the main machine body on the top of the water storage cavity; the water level regulating mechanism can automatically control the amount of water in the water storage cavity, and can automatically regulate the amount of water in the water storage cavity by matching with the water wheel metering mechanism, so that the water amount in the water storage tank can be increased when the water consumption is high, the water storage can be automatically controlled when the water consumption is low, the water deterioration and waste are prevented, and the intelligent control is realized.

Description

Water level regulation and control equipment for agricultural irrigation

Technical Field

The invention relates to the technical field of agricultural irrigation, in particular to water level regulating and controlling equipment for agricultural irrigation.

Background

In agricultural irrigation, a water storage tank is generally pumped by manually operating a water pumping switch or a timing water pumping mechanism, the working mode has low automation degree, the problem that the requirement for water cannot be met when the water consumption is high due to the timing water pumping is also solved, and if the water consumption is low, a large amount of water is pumped and stored in the water storage tank, the water source is deteriorated; therefore, the present invention provides a device capable of controlling the regulation of water level, so as to solve the above problems.

Disclosure of Invention

The invention aims to provide water level regulating and controlling equipment for agricultural irrigation, which can overcome the defects in the prior art and realize intelligent automatic regulation.

The water level regulating and controlling equipment for agricultural irrigation comprises a main machine body, wherein a water storage cavity is formed in the main machine body, a filter layer is arranged at the top in the water storage cavity, a filter cavity is formed in the left end wall of the main machine body on the left side of the filter layer, the bottom of the water storage cavity is communicated with the outside through a water wheel cavity, a water wheel metering mechanism is arranged in the water wheel cavity, a sector gear cavity is formed in the main machine body on the right side of the water wheel cavity, a bent pipeline is arranged in the main machine body on the top of the water storage cavity, a switch cavity is formed in the bottom of the horizontal pipeline of the bent pipeline, left rack cavities are communicated and formed in the walls on the left side and the right side of the switch cavity, a left gear cavity is formed in the main machine body on the bottom of the left rack cavity, a gear mechanism is arranged in the left gear cavity, and a slide plate cavity is formed in the main machine body on the bottom of the switch cavity, the bottom of the sliding plate cavity is communicated with a sliding block cavity, a water level regulating mechanism is arranged in the sliding block cavity, a middle gear cavity located on the right side of the switch cavity is formed in the bottom wall of the left gear cavity, a right gear cavity is formed in the main machine body on the right side of the middle gear cavity, a right gear cavity is formed in the bottom wall of the right gear cavity, and a water pumping mechanism is arranged in the right gear cavity.

Wherein, the water wheel metering mechanism rotates the water wheel arranged on the rear side end wall of the water wheel cavity, the rear side of the water wheel on the right side of the water wheel cavity is provided with a bevel gear transmission mechanism and is in power fit with a water wheel rotating shaft which is rotatably arranged between the water wheel cavity and the sector cavity, the tail end of the right side of the water wheel rotating shaft is fixedly provided with a water wheel bevel gear which is positioned in the sector cavity, the rear wall of the sector cavity is rotatably provided with a sector gear, the front side end surface of the sector gear is meshed with the water wheel bevel gear, the top wall of the sector cavity is provided with a bottom rack cavity, a bottom rack is arranged in the bottom rack cavity in a sliding manner, the left side end wall of the middle gear cavity is fixedly provided with a bottom contact type inductor, a spring is elastically connected between the bottom rack and the right wall of the bottom rack cavity, the bottom rack bottom wall is intermittently meshed with the sector gear, and the bottom of the bottom rack cavity is fixedly provided with a bottom controller, and the bottom contact sensor is electrically connected with the bottom controller.

Wherein, gear mechanism is including sliding the setting and is in top rack in the left side rack intracavity, be equipped with in the switch intracavity with the switch gear that top rack toothing set up, switch gear with be located valve power in the crooked pipeline is connected, the valve opening that is linked together around having seted up in the valve, rotate on the back wall in left side gear chamber be equipped with the top wire winding gear that top rack toothing set up, top wire winding gear longitudinal symmetry sets up, it is equipped with the left side slide to slide in the diapire in left side gear chamber, the left side slide with be located the bottom top wire winding gear meshing sets up, two of longitudinal symmetry connect through left side wire winding power between the top wire winding gear.

Wherein, the water level regulating mechanism comprises a slide block which is arranged in the slide block cavity in a sliding way, a slide block inner cavity which extends rightwards is arranged on the left end surface of the slide block, a right slide plate is arranged in the slide block inner cavity in a sliding way, a slide block gear cavity is arranged on the top wall of the slide block inner cavity, a slide block inner cavity gear which is meshed with the right slide plate is arranged on the rear wall of the slide block gear cavity in a rotating way, the front end surface of the slide block inner cavity gear is designed into a bevel gear, a spline sleeve which extends upwards and downwards is arranged on the top wall of the slide block gear cavity in a rotating way, a slide block bottom bevel gear which is meshed with the slide block inner cavity gear is fixedly arranged at the tail end of the bottom of the spline sleeve, the top extension section of the spline sleeve is connected with the top wall of the slide block cavity in a sliding way, a spline shaft which extends downwards is arranged on the bottom wall of the middle gear cavity in a rotating way, and the bottom of the spline shaft is connected with the spline sleeve in a matching way, the top of the spline shaft is fixedly provided with a spline shaft bevel gear extending into the middle gear cavity, the rear side of the spline shaft bevel gear is meshed with middle bevel teeth rotatably arranged on the rear wall of the middle gear cavity, the middle bevel teeth are meshed with the bottom end of the top rack, a middle sliding plate is arranged in the sliding plate cavity in a sliding manner, a left vertical sliding plate is fixedly arranged on the left end surface of the middle sliding plate, the top end of the left vertical sliding plate is in abutting-pressing sliding fit with the right end of the left sliding plate through an inclined surface, a right vertical sliding plate is fixedly arranged on the right end surface of the middle sliding plate, the bottom end of the right vertical sliding plate is in abutting-pressing sliding fit with the left end of the right sliding plate through an inclined surface, the bottom end of the middle sliding plate is fixedly matched and connected with a rubber sliding plate, the rubber sliding plate can be bent and deformed, the right end wall of the water storage cavity is provided with a thrust cavity, and a water baffle is arranged in the thrust cavity in a sliding manner, the breakwater right side terminal surface with rubber slide left side terminal surface fixed connection, the partial screw-thread fit in slider right side is connected with the screw rod, slider chamber bottom the host computer has seted up the turbine chamber in vivo, the terminal income of screw rod bottom the turbine intracavity and its end have set firmly and are located the turbine of turbine intracavity, the turbine rear side the turbine intracavity rotate be equipped with the worm that the turbine meshing set up, the left side end wall in turbine chamber is embedded to have first motor, first motor with bottom control ware electric connection, first motor with worm power is connected.

Beneficially, the water pumping mechanism comprises a right rack slidably disposed in the right rack cavity, a right winding gear symmetrically disposed up and down is rotatably disposed on the rear wall of the right gear cavity, the right winding gear is connected with the right winding gear through a right winding power, the right winding gear at the top is meshed with the top rack, the right winding gear at the bottom is meshed with the right rack, a right contact sensor and a right contact sensor are fixedly embedded in the bottom wall of the right rack cavity, a gear pump mechanism is disposed in a vertical pipeline on the right side of the bending pipeline, the gear pump mechanism is connected with a second motor fixedly mounted on the right side through power, and the second motor is electrically connected with the right contact sensor.

The water level regulating mechanism can automatically control the amount of water in the water storage cavity, and can automatically regulate the amount of water in the water storage cavity by matching with the water wheel metering mechanism, so that the water amount in the water storage tank can be increased when the water consumption is high, the water storage can be automatically controlled when the water consumption is low, the water deterioration and waste are prevented, and the intelligent control is realized.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic view showing the overall structure of a water level control apparatus for agricultural irrigation according to the present invention;

fig. 2 is an enlarged schematic view of a in fig. 1 according to the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 2 in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. As shown in fig. 1 to 2, the water level regulating and controlling device for agricultural irrigation of the present invention comprises a main body 100, a water storage cavity 112 is formed in the main body 100, a filter layer 102 is formed on the top inside the water storage cavity 112, a filter cavity 101 is formed on the left side end wall of the main body 100 on the left side of the filter layer 102, the bottom of the water storage cavity 112 is communicated with the outside through a water wheel cavity 113, a water wheel metering mechanism is arranged inside the water wheel cavity 113, 126 toothed cavities are formed in the main body 100 on the right side of the water wheel cavity 113, a curved pipeline 103 is arranged inside the main body 100 on the top of the water storage cavity 112, an open-close cavity 161 is formed at the bottom of a horizontal pipeline of the curved pipeline 103, left rack cavities 104 are formed on the walls on the left and right sides of the open-close cavity 161, a left gear cavity 107 is formed in the main body 100 on the bottom of the left rack cavity 104, be equipped with gear mechanism in the left side gear chamber 107, switch chamber 161 bottom set up slide plate chamber 163 in the main engine body 100, slide plate chamber 163 bottom is linked together and is equipped with slide plate chamber 118, be equipped with water level regulation and control mechanism in the slide plate chamber 118, set up on the left side rack chamber 104 diapire and be located middle part gear chamber 133 on switch chamber 161 right side, middle part gear chamber 133 right side set up right side gear chamber 138 in the main engine body 100, right side rack chamber 139 has been seted up on the right side gear chamber 138 diapire, be equipped with the mechanism of drawing water in the right side rack chamber 139.

Referring to fig. 1, a concrete implementation manner for implementing the water wheel metering mechanism will be described in detail, wherein the water wheel metering mechanism rotates a water wheel 114 disposed on a rear end wall of a water wheel cavity 113, a bevel gear transmission mechanism is disposed on a rear side of the water wheel 114 on a right side of the water wheel cavity 113 and is in power fit with a water wheel rotating shaft 115 rotatably disposed between the water wheel cavity 113 and the 126 sector cavities, a water wheel bevel gear 128 disposed in the 126 sector cavities is fixedly disposed at a right end of the water wheel rotating shaft 115, a sector gear 127 is rotatably disposed on a rear wall of the 126 sector cavities, a front end face of the sector gear 127 is engaged with the water wheel bevel gear 128, a bottom rack cavity 131 is disposed on a top wall of the 126 sector cavities, a bottom rack 130 is slidably disposed in the bottom rack cavity 131, and a bottom contact sensor 129 is fixedly disposed on a left end wall of the middle gear cavity 133, a spring 125 is elastically connected between the bottom rack 130 and the right wall of the bottom rack cavity 131, the bottom wall of the bottom rack 130 is intermittently engaged with the sector gear 127, a bottom controller 124 is fixedly arranged at the bottom of the bottom rack cavity 131, and the bottom contact sensor 129 is electrically connected with the bottom controller 124.

Next, the gear mechanism is described in detail with reference to fig. 1 to 2, which includes a top rack 105 slidably disposed in the left rack chamber 104, a switch gear 162 engaged with the top rack 105 is arranged in the switch cavity 161, the switching gear 162 is in power connection with the valve 110 located in the curved conduit 103, a valve opening 109 which is communicated with the front and the back is arranged in the valve 110, a top winding gear 106 which is meshed with the top rack 105 is rotatably arranged on the rear wall of the left gear cavity 107, the top winding gear 106 is arranged up and down symmetrically, a left sliding plate 111 is arranged in the bottom wall of the left gear cavity 107 in a sliding manner, the left slide plate 111 is engaged with the top winding gear 106 at the bottom, and two top winding gears 106 which are symmetrical up and down are in power connection through a left winding 108.

The water level regulating mechanism is described with reference to fig. 1 to 2, wherein the water level regulating mechanism includes a slide block 153 slidably disposed in the slide block cavity 118, a slide block inner cavity 152 extending rightward is disposed on a left end surface of the slide block 153, a right slide plate 151 is slidably disposed in the slide block inner cavity 152, a slide block gear cavity 175 is disposed on a top wall of the slide block inner cavity 152, a slide block inner cavity gear 150 engaged with the right slide plate 151 is rotatably disposed on a rear wall of the slide block gear cavity 175, a slide block inner cavity gear 150 engaged with the right slide plate 151 is disposed on a front end surface of the slide block inner cavity gear 150, a spline housing 147 extending upward and downward is rotatably disposed on a top wall of the slide block gear cavity 175, a slide block bottom bevel gear 149 engaged with the slide block inner cavity gear 150 is fixedly disposed at a bottom end of the spline housing 147, and a top extension section of the spline housing 147 is slidably engaged with the top wall of the slide block cavity 118, a spline shaft 136 extending downwards is rotatably arranged on the bottom wall of the middle gear cavity 133, the bottom of the spline shaft 136 is in spline fit connection with the spline housing 147, a spline shaft bevel gear 135 extending into the middle gear cavity 133 is fixedly arranged at the top of the spline shaft 136, a middle bevel gear 134 rotatably arranged on the rear wall of the middle gear cavity 133 is engaged at the rear side of the spline shaft bevel gear 135, the middle bevel gear 134 is engaged with the bottom end of the top rack 105, a middle sliding plate 144 is slidably arranged in the sliding plate cavity 163, a left vertical sliding plate 146 is fixedly arranged on the left end surface of the middle sliding plate 144, the top end of the left vertical sliding plate 146 is in abutting-pressing sliding fit with the right end of the left sliding plate 111 through an inclined surface, a right vertical sliding plate 145 is fixedly arranged on the right end surface of the middle sliding plate 144, and the bottom end of the right vertical sliding plate 145 is in abutting-pressing sliding fit with the left end of the right sliding plate 151 through an inclined surface, the bottom end of the middle sliding plate 144 is fixedly matched and connected with a rubber sliding plate 117, the rubber sliding plate 117 can be bent and deformed, the right end wall of the water storage cavity 112 is provided with a thrust cavity 116, a water baffle 132 is arranged in the thrust cavity 116 in a sliding manner, the right end face of the water baffle 132 is fixedly connected with the left end face of the rubber sliding plate 117, the right part of the slide block 153 is in threaded fit and connected with a screw 119, the bottom of the slide block cavity 118 is provided with a turbine cavity 120 in the host machine body 100, the bottom end of the screw 119 extends into the turbine cavity 120 and the tail end of the screw is fixedly provided with a turbine 121 in the turbine cavity 120, the turbine cavity 120 at the rear side of the turbine 121 is internally provided with a worm 122 meshed with the turbine 121 in a rotating manner, a first motor 123 is fixedly embedded in the left end wall of the turbine cavity 120, and the first motor 123 is electrically connected with the bottom controller 124, the first motor 123 is in power connection with the worm 122.

Beneficially, the water pumping mechanism includes a right rack 140 slidably disposed in the right rack cavity 139, a right winding gear 137 symmetrically disposed up and down is rotatably disposed on a rear wall of the right gear cavity 138, the right winding gear 137 is dynamically connected with a right winding 170, the right winding gear 137 at the top is meshed with the top rack 105, the right winding gear 137 at the bottom is meshed with the right rack 140, a right contact sensor 141 and a right contact sensor 141 are fixedly embedded in a bottom wall of the right rack cavity 139, a gear pump mechanism 142 is disposed in a vertical pipe at the right side of the bent pipe 103, the gear pump mechanism 142 is dynamically connected with a second motor 143 fixedly embedded at the right side, and the second motor 143 is electrically connected with the right contact sensor 141.

In the following, the applicant will use the specific structure of a water level control device for agricultural irrigation described above with reference to fig. 1 to 2, first, in the initial state, the water baffle 132 is located at the left position of the thrust cavity 116 to the maximum extent, the middle slide plate 144 is located at the downward position to the maximum extent, the right vertical slide plate 145 is used to press the right slide plate 151 at the rightmost position of the slide cavity 152, the left slide plate 111 is inserted into the slide plate cavity 163, and the top rack 105 is located at the left position to the maximum extent, so that the valve opening 109 communicates with the curved pipe 103, and the right rack 140 is not in contact with the right contact sensor 141.

When the device works, the device is electrified to electrify the right contact sensor 141, the right rack 140 cannot be sensed by the right contact sensor, the second motor 143 is controlled to work, the water pumping mechanism works to pump water, water enters the filter layer 102 through the valve opening 109 and is filtered and then enters the water storage cavity 112, the water dispenser mechanism can be connected to the bottom of the water wheel cavity 113, water in the water storage cavity 112 can apply a certain pressure to the water baffle 132 in the thrust cavity 116, the middle sliding plate 144 moves upwards, the left vertical sliding plate 146 moves upwards, after moving upwards for a certain distance, the left vertical sliding plate 146 presses the left sliding plate 111 to move leftwards, the top winding gear 106 rotates, the top rack 105 moves rightwards, the valve opening 109 is closed, the middle conical tooth 134 rotates, the spline shaft 136 rotates and drives the slider inner cavity 150 to rotate, and the right sliding plate 151 moves rightwards and enters the slider cavity 163, meanwhile, the right winding gear 137 rotates to enable the right rack 140 to be in contact with the right contact sensor 141, the right contact sensor 141 sends a signal to control the second motor 143 to be turned off, water pumping is finished, when water is used, the water flows out through the water wheel cavity 113 and drives the water wheel 114 to rotate while flowing out, the water wheel 114 rotates to enable the water wheel rotating shaft 115 to rotate and further drive the sector gear 127 to rotate, so that the bottom rack 130 collides with the bottom contact sensor 129, the average daily water consumption can be calculated through measuring the assembling times, the first motor 123 is controlled to rotate through the bottom controller 124, the turbine 121 rotates, the screw 119 is further rotated, the sliding block 153 is further moved up and down, if the water consumption is more, the right vertical sliding plate 145 can be pressed against the right sliding plate 151 after a small part of the water consumption, so that the water pumping mechanism works to supplement the water in the water storage cavity 112, if the water consumption is less, the number of times of collision is reduced, the slide block 153 moves downwards to enable the water in the water storage cavity 112 to flow out more, namely the right vertical sliding plate 145 moves downwards for a larger distance, and then the water is pressed against the right sliding plate 151, so that the water pump works, the water quantity can be controlled in advance, and the water shortage or excessive and incomplete deterioration waste is prevented.

The invention has the beneficial effects that: the water level regulating mechanism can automatically control the amount of water in the water storage cavity, and can automatically regulate the amount of water in the water storage cavity by matching with the water wheel metering mechanism, so that the water amount in the water storage tank can be increased when the water consumption is high, the water storage can be automatically controlled when the water consumption is low, the water deterioration and waste are prevented, and the intelligent control is realized.

To sum up, this device can regulate and control the water level of water storage tank automatically, makes water supply water source when just using up automatically, and when water storage intracavity water was full, the self-closing mechanism that draws water has realized the full automatization, can control how much of water storage intracavity water yield moreover, and water is unlikely to surplus and is used up the not complete rotten when using less, and the automatic water intracavity water yield that makes when using more increases the storage, has realized intellectuality.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (1)

1. The utility model provides a water level regulation and control equipment for agricultural irrigation, includes the main engine body, its characterized in that: the water storage cavity is formed in the main machine body, the top in the water storage cavity is provided with a filter layer, the left side end wall of the main machine body on the left side of the filter layer is provided with a filter cavity, the bottom of the water storage cavity is communicated with the outside through a water wheel cavity, the water wheel cavity is internally provided with a water wheel metering mechanism, the right side of the water wheel cavity is internally provided with a sector cavity, the top of the water storage cavity is internally provided with a bent pipeline, the bottom of the horizontal pipeline of the bent pipeline is provided with a switch cavity, the walls on the left side and the right side of the switch cavity are communicated and provided with a left side rack cavity, the bottom of the left side rack cavity is internally provided with a left side gear cavity, the left side gear cavity is internally provided with a gear mechanism, the bottom of the switch cavity is internally provided with a slide plate cavity, the bottom of the slide plate cavity is communicated and provided with a slide block cavity, and the slide block cavity is internally provided with a water level regulating mechanism, a middle gear cavity located on the right side of the switch cavity is formed in the bottom wall of the left rack cavity, a right rack cavity is formed in the main machine body on the right side of the middle gear cavity, a right rack cavity is formed in the bottom wall of the right rack cavity, and a water pumping mechanism is arranged in the right rack cavity;

the water wheel metering mechanism is rotatably arranged on a water wheel on the rear side end wall of the water wheel cavity, a bevel gear transmission mechanism is arranged on the right side of the water wheel cavity and is in power fit with a water wheel rotating shaft rotatably arranged between the water wheel cavity and the sector cavity, water wheel bevel gears positioned in the sector cavity are fixedly arranged at the tail end of the right side of the water wheel rotating shaft, a sector gear is rotatably arranged on the rear wall of the sector cavity, the front side end face of the sector gear is meshed with the water wheel bevel gears, a bottom rack cavity is arranged on the top wall of the sector cavity, a bottom rack is slidably arranged in the bottom rack cavity, a bottom contact sensor is fixedly arranged on the left side end wall of the middle gear cavity, a spring is elastically connected between the bottom rack and the right wall of the bottom rack cavity, the bottom rack bottom wall is intermittently meshed with the sector gear, and a bottom controller is fixedly arranged at the bottom of the bottom rack cavity, the bottom contact type sensor is electrically connected with the bottom controller;

the gear mechanism comprises a top rack which is arranged in the left rack cavity in a sliding mode, a switch gear which is meshed with the top rack is arranged in the switch cavity, the switch gear is in power connection with a valve which is positioned in the bent pipeline, a valve opening which is communicated with the front and the back is formed in the valve, a top winding gear which is meshed with the top rack is arranged on the rear wall of the left gear cavity in a rotating mode, the top winding gears are arranged in an up-and-down symmetrical mode, a left sliding plate is arranged in the bottom wall of the left gear cavity in a sliding mode, the left sliding plate is meshed with the top winding gear which is positioned at the bottom, and two top winding gears which are symmetrical up and down are connected through left winding power;

the water level regulating mechanism comprises a sliding block which is arranged in the sliding block cavity in a sliding mode, a sliding block inner cavity which extends rightwards is formed in the left end face of the sliding block, a right sliding plate is arranged in the sliding block inner cavity in a sliding mode, a sliding block gear cavity is formed in the top wall of the sliding block inner cavity, a sliding block inner cavity gear which is meshed with the right sliding plate is arranged on the rear wall of the sliding block gear cavity in a rotating mode, the front end face of the sliding block inner cavity gear is designed to be provided with bevel teeth, a spline sleeve which extends up and down is arranged in the top wall of the sliding block gear cavity in a rotating mode, sliding block bottom bevel teeth which are meshed with the sliding block inner cavity gear are fixedly arranged at the tail end of the bottom of the spline sleeve, an extending section of the top of the spline sleeve is connected with the top wall of the sliding block cavity in a sliding mode, a spline shaft which extends downwards is rotatably arranged on the bottom wall of the middle gear cavity, and is connected with the spline sleeve in a matching mode, the top of the spline shaft is fixedly provided with a spline shaft bevel gear extending into the middle gear cavity, the rear side of the spline shaft bevel gear is meshed with middle bevel teeth rotatably arranged on the rear wall of the middle gear cavity, the middle bevel teeth are meshed with the bottom end of the top rack, a middle sliding plate is arranged in the sliding plate cavity in a sliding manner, a left vertical sliding plate is fixedly arranged on the left end surface of the middle sliding plate, the top end of the left vertical sliding plate is in abutting-pressing sliding fit with the right end of the left sliding plate through an inclined surface, a right vertical sliding plate is fixedly arranged on the right end surface of the middle sliding plate, the bottom end of the right vertical sliding plate is in abutting-pressing sliding fit with the left end of the right sliding plate through an inclined surface, the bottom end of the middle sliding plate is fixedly matched and connected with a rubber sliding plate, the rubber sliding plate can be bent and deformed, the right end wall of the water storage cavity is provided with a thrust cavity, and a water baffle is arranged in the thrust cavity in a sliding manner, the right end face of the water baffle is fixedly connected with the left end face of the rubber sliding plate, a screw is connected to the right side part of the sliding block in a threaded fit manner, a turbine cavity is formed in the main machine body at the bottom of the sliding block cavity, the tail end of the bottom of the screw extends into the turbine cavity, a turbine positioned in the turbine cavity is fixedly arranged at the tail end of the screw, a worm meshed with the turbine is rotatably arranged in the turbine cavity at the rear side of the turbine, a first motor is fixedly embedded in the left end wall of the turbine cavity and electrically connected with the bottom controller, and the first motor is in power connection with the worm;

the mechanism of drawing water is in including sliding the setting right side rack in the right side rack intracavity, rotate on the back wall in right side gear chamber and be equipped with the right side wire winding gear that the symmetry set up from top to bottom, connect through right side wire winding power between the right side wire winding gear, be located the right side wire winding gear and the top rack toothing at top, be located the right side wire winding gear and the right side rack toothing of bottom, the diapire in right side rack chamber is embedded to have the right side contact inductor admittedly, right side contact inductor, be equipped with gear pump mechanism in the vertical pipeline on crooked pipeline right side, gear pump mechanism is connected with the second motor power that inlays admittedly on right side, the second motor with right side contact inductor electric connection.

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