CN109463265A - One kind is for the water-saving seedling-protection device of mountainous region radix saposhnikoviae - Google Patents

Abstract

The invention discloses one kind for the water-saving seedling-protection device of mountainous region radix saposhnikoviae, including apparatus main body and it is set to the intracorporal moisture collection device of described device master, the moisture collection device includes being set in described device main body and the first cavity of opening upwards, spacer block is fixedly installed on the side arc inner wall of first cavity, perforative first through hole up and down is provided in the spacer block, what is be connected in the downside inner wall of first cavity is provided with the second cavity, the first sliding block for upwardly extending and passing through the first through hole is rotatably provided in second cavity, third cavity is provided in first sliding block, the first lead screw is rotatably provided in the third cavity；The present invention is directed to design one kind automatically to store rainwater at rainy day, and when long-term dry can by the way that the hydrone in air is captured and is stored, while can timing the device that plant is automatically irrigated.

Description

One kind is for the water-saving seedling-protection device of mountainous region radix saposhnikoviae

Technical field

It is specifically a kind of for the water-saving seedling-protection device of mountainous region radix saposhnikoviae the present invention relates to plant automatic irrigation technical field.

Background technique

The normal growth of plant is ensured in planting, inevitably watering Irrigation is carried out to it, if adopting With time-consuming and laborious by manually carrying out irrigating, and nature rainwater is used since soil water storage ability is poor to be easy to cause water when irrigating Shunt to lose also can only be irrigated in short term, if the phenomenon that not raining for a long time still can only be irrigated by manpower, so With regard to needing frequently to irrigate using a large amount of labours, virtually increased planting cost again, therefore, designing one kind can be under Automatically rainwater can be stored when the rainy day, and can be gone forward side by side by capture to the hydrone in air when long-term dry Row storage, at the same can timing one kind that plant is automatically irrigated it is necessary for the mountainous region water-saving seedling-protection device of radix saposhnikoviae.

Summary of the invention

Technical problem to be solved by the invention is to provide one kind for the water-saving seedling-protection device of mountainous region radix saposhnikoviae, is able to solve The problems in above-mentioned present technology.

The present invention is achieved through the following technical solutions: one kind of the invention is for the water-saving seedling-protection dress of mountainous region radix saposhnikoviae It sets, including apparatus main body and is set to the intracorporal moisture collection device of described device master, the moisture collection device includes setting It is placed in described device main body and the first cavity of opening upwards, is fixedly installed on the side arc inner wall of first cavity Spacer block is provided with perforative first through hole up and down in the spacer block, is connected in the downside inner wall of first cavity It is provided with the second cavity, it is sliding that first upwardly extended and by the first through hole is rotatably provided in second cavity Block is provided with third cavity in first sliding block, is rotatably provided with the first lead screw in the third cavity, and described first The upper end of lead screw is rotatablely connected in the upper inside walls of the third cavity by bearing, in the third cavity slidably Be provided with the second sliding block being cooperatively connected with first threads of lead screw, in the left and right sides inner wall of the third cavity respectively Left and right is perforative to be provided with the second through-hole, and the outer sheath of first sliding block is equipped with matches with the first sliding block end face outside sliding Close the third sliding block of connection, wherein being fixedly connected between the third sliding block and the opposing end surface of second sliding block can be The Four-slider slided up and down in second through-hole is fixedly connected with the 5th sliding block on the upside end face of the third sliding block, The first support column is fixedly connected on the upside end face of 5th sliding block, the upper end of first support column is fixedly connected with One spline block is provided with capillary crystal column on first support column, and the 4th sky is provided in the downside inner wall of second cavity Chamber, the lower end of first lead screw, which extends, to be passed into the 4th cavity and is fixedly connected with and can turn in the 4th cavity The right side engagement of dynamic first bevel gear, the first bevel gear is connected with second bevel gear, the right side of the 4th cavity What is be connected in the inner wall of side is provided with the 5th cavity, is connected in the right end face of the second bevel gear by shaft secure fit There is the 6th sliding block that can be rotated in the 5th cavity, the first turn trough of opening to the right, institute are provided in the 6th sliding block It states and is fixedly connected with the first fixed block on the side arc inner wall of the first turn trough, fixation is set in the right side inner wall of the 5th cavity It is equipped with first motor, the left end of the first motor is connected with by shaft power and can be rotated in first turn trough First rotating block is provided with opening on all side end faces of first rotating block and is oriented far from first rotating block axle center Notch, the first swing rod is rotatably connected on the inner wall of the notch, and first swing rod has far from the turning joint One end is fixedly connected with the first centering block, end face and the notch of first centering block close to first rotating block axle center side Inner wall between be fixedly connected with the first spring, the left side engagement of the first bevel gear is connected with third hand tap gear, institute It states and is fixedly connected with the first rotation axis at the axle center of third hand tap gear, the left end of first rotation axis, which extends, is passed through the described 4th In the inner left wall of cavity and it is fixedly connected on the arrangement of clutch being set in the 4th cavity inner left wall, described first The 6th cavity of opening upwards is provided in the inner left wall of cavity, being provided in the 6th cavity can slide up and down the 7th Sliding block, the upper side opening that the 6th cavity is extended in the upper end of the 7th sliding block are outer and be fixedly connected with and described first empty The cover board that the upper end opening of chamber matches, it is perforative up and down in the cover board to be provided with third through-hole, it can in the third through-hole Rotation is provided with the 8th sliding block, and perforative be provided with can match with the first spline block up and down in the 8th sliding block First spline, what is be connected in the inner left wall of six cavity is provided with the 7th cavity, and the 7th cavity is close to upside What is be connected in the side inner wall of inner wall is provided with second sliding slot, wherein the 6th cavity is in the left side of upper end opening The third sliding slot for being provided with opening upwards being connected in wall, wherein the third sliding slot is set as cyclic annular and with described second The rear side inner wall of sliding slot is connected, and the second lead screw, the upper end of second lead screw are rotatably provided in the 7th cavity It is rotatablely connected with by bearing in the upper inside walls of the 7th cavity, it is fixed in the left end face of the 7th sliding block to connect It is connected to the 9th sliding block for extending and being passed through in the 7th cavity and being cooperatively connected with second threads of lead screw, the 7th cavity Downside inner wall in be provided with the 8th cavity, the lower end of second lead screw, which extends, to be passed through in the 8th cavity and is fixedly connected There is the 4th bevel gear that can be rotated in the 8th cavity, the right side engagement of the 4th bevel gear is connected with the 5th cone Gear is fixedly connected with the second rotation axis, setting in the right side inner wall of the 8th cavity at the axle center of the 5th bevel gear Continue to extend to the right and be fixedly connected after thering is the 9th cavity, the right end of second rotation axis to extend through the 9th cavity In on the arrangement of clutch, wherein be fixedly connected with can rotate in the 9th cavity second in second rotation axis Rotating block is fixedly connected with the first torque spring, described device between second rotating block and the inner wall of the 9th cavity Fixed device is provided in main body.

The arrangement of clutch includes being set to the right side inner wall of the 9th cavity and described as a preferred technical solution, First between the inner left wall of 4th cavity begins to speak, and being provided with for being connected in the described first right side inner wall begun to speak second is opened Chamber, the left end extension of first rotation axis are passed through described second and begin to speak interior and be fixedly connected with and can begin to speak interior turn described second Dynamic third rotating block is provided with the first cone tooth socket of opening to the left, the described first left side begun to speak in the third rotating block The third that is provided with being connected in inner wall is begun to speak, and the right end extension of second rotation axis is passed through the third and begins to speak interior and fix Being connected with can begin to speak the 4th rotating block of interior rotation in the third, and second of opening to the right is provided in the 4th rotating block Bore tooth socket, described first begin to speak it is interior be slidably provided with the first sliding shoe, be fixedly installed second in first sliding shoe The right end of motor, second motor is connected with the 6th cone that can be meshed with the first cone tooth socket by shaft power The left end of gear, second motor is connected with the 7th cone that can be meshed with the second cone tooth socket by shaft power Gear, being provided with for being connected in the described first downside inner wall begun to speak the 4th are begun to speak, the downside end face of first sliding shoe On be fixedly connected with and extend into the described 4th and begin to speak interior the second sliding shoe, be connected in the described 4th right side inner wall begun to speak It is provided with pressure chamber, it is sliding that the third for extending and being passed through in the pressure chamber is fixedly connected in the right end face of the second sliding shoe Motion block, the right side of the third sliding shoe and is located in the pressure chamber and is slidably provided with the 4th sliding shoe, and the described 4th The first bracing wire is fixedly connected in the right end face of sliding shoe, what is be connected in the right side inner wall of the pressure chamber is provided with first Threading hole, wherein being provided with for being connected in the inner left wall of first cavity the 5th is begun to speak, the described 5th begin to speak in can slide Dynamic is provided with the first buoyant block, and the upper end of first threading hole upwardly extends and is connected with the 5th lower end begun to speak It is logical, the right end of first bracing wire extend through extend after first threading hole be passed through the described 5th begin to speak in and be fixedly connected In on the downside end face of first buoyant block, between the left side of the 4th sliding shoe and the right side of the third sliding shoe What is be connected in the downside inner wall of the pressure chamber is provided with the first intake chamber, and the left end of first intake chamber has to the left prolongs Extend to the rainwater-collecting slot for being provided with opening upwards for upwardly extending and being connected after the left side of the 7th cavity, the pressure The first catch basin is provided in the downside inner wall of power chamber, in the upper inside walls of first catch basin and the downside of the pressure chamber What is be connected between wall is provided with the second intake chamber, in the initial state, the upper end opening and institute's pressure of second intake chamber Separated between chamber by the 4th sliding shoe.

It is provided with the second catch basin in the downside inner wall of first cavity as a preferred technical solution, described second What is be connected between the upper inside walls of catch basin and the downside inner wall of first cavity is provided with third intake chamber, and described first What is be connected between the lower end and the inner left wall of second catch basin of inner wall on the right side of catch basin is provided with the 4th intake chamber, institute It states and is provided with check valve on the inner wall of the 4th intake chamber, the check valve may make that the moisture in first catch basin can be in institute It states when the liquid level in the second catch basin is lower than the downside inner wall of first catch basin and is flowed into second catch basin, and it is described Moisture in second catch basin can not be flowed into first catch basin.

As a preferred technical solution, when the 9th sliding block rises to greatest extent in the 7th cavity, due to The upside end face of 9th sliding block and the upper inside walls of the 7th cavity abut against, on the 9th sliding block can not continue at this time Rise, while losing constraint on the left of the right side of the back end surface of the 9th sliding block and front end face, at this time second lead screw after It is continuous rotate in same direction in the case where the 9th sliding block and second lead screw relative displacement does not occur, i.e. second lead screw at this time Drive the 9th sliding block rotate 90 degree up to the 9th sliding block back end surface right end and front end face left end again Stop operating when constraint, and if second lead screw rotates backward at this moment, due to the downside end face of the 9th sliding block Constraint by the downside inner wall can not move down, and the 9th sliding block and second lead screw are opposing stationary at this time, this Second lead screw described in Shi Ruo, which rotates backward, can drive the 9th sliding block reversely to go back into the 7th cavity and in institute The front end face of 9th sliding block described in stating when the 9th sliding block is gone back to greatest extent in the 7th cavity suffers restraints, at this time the second lead screw Continuing to rotate backward can drive the 9th sliding block to decline in the 7th cavity, while when the 9th sliding block rotates or goes up and down The 7th sliding block can be all driven to rotate or decline.

First buoyant block can float in water as a preferred technical solution, and first buoyant block is floating Power is greater than the difference of the friction between the 4th sliding shoe and the pressure chamber and the moisture pressure in first intake chamber, institute State powerful the rubbing in the third sliding shoe, the second sliding shoe and first sliding shoe of the water partial pressure in the first intake chamber The sum of wiping and the friction being less than between the 4th sliding shoe and the pressure chamber.

Cold-making block is fixedly installed in the 5th sliding block as a preferred technical solution, is set in first support column It is equipped with diversion pipe, the diversion pipe is connected with the cold-making block, and the cold air that the cold-making block generates can pass through the diversion pipe The capillary crystal column is cooled down.

Solar panels, the solar energy are fixedly installed on the upside end face of the cover board as a preferred technical solution, The converted electric energy of plate can provide the power consumption of the present apparatus.

What is be connected in the described first upper inside walls begun to speak as a preferred technical solution, is provided with the first guide runner, The first slider guide for extending and being passed through in first guide runner is fixedly connected on the upside end face of first sliding shoe, it is described The first return spring is fixedly connected between the left end face of first slider guide and the inner left wall of first guide runner, it is described What is be connected in the upper inside walls of pressure chamber is provided with the second guide runner, is fixedly connected on the upside end face of the 4th sliding shoe There is extension to be passed through the second slider guide in second guide runner, the right end face of second slider guide and second slide guide The second return spring is fixedly connected between the right side inner wall of slot.

The fixed device includes being fixedly connected on end face at left and right sides of described device main body as a preferred technical solution, The fixed plate of lower end, perforative up and down in the fixed plate to be provided with fixation hole, the present apparatus can be consolidated by the fixation hole It is fixed.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, carried out in rainwater and air by the present apparatus Moisture when being collected, when carrying out the hydrone in air and collecting, the second electric motor starting, and then pass through shaft drive the 6th Bevel gear rotation, and then the rotation of the first rotation axis is driven by third rotating block, and then the first cone is driven by third hand tap gear Gear rotation, second bevel gear does not have an impact the first rotating block rotation at this time, and the first lead screw rotates at this time, in turn It drives the second sliding block to rise in third cavity, and then drives third sliding block to rise by Four-slider, and then drive the 5th to slide Block rises, and then the upper end opening that the first spline is risen from capillary crystal column and the 5th bevel gear is driven by the first support column Outside, cold-making block is powered at this time, and then by cooling down to capillary crystal column, when the temperature of capillary crystal column drops to certain temperature It stops working, at this time since the temperature of capillary crystal column is lower, and then is that hydrone liquefies and is built-up on capillary crystal column in air, At this time when the temperature recovery of capillary crystal column to a certain degree when the second motor reversal, and then by the first rotation axis drive third cone Gear reversion, and then the reversion of the first lead screw is driven by first bevel gear, and then Four-slider decline is driven by the second sliding block, And then the decline of the 5th sliding block is driven by third sliding block, and then capillary crystal column and the 5th bevel gear is driven to drop to original state, The 5th bevel gear connect with the first spline spline fitted at this time and capillary crystal column drops in the lower ending opening of the first spline, The second motor continues to accelerate reversion at this time, at this time since the second sliding block declines to greatest extent and then the first lead screw and first is slided at this time The relatively fixed connection of block, drives third hand tap gear rotation by the first rotation axis when the second motor continues to accelerate reversion at this time, And then driving the first sliding block to rotate in the second cavity by the first lead screw, and then drive the rotation of capillary crystal column, capillary is brilliant at this time Column rotates in the first cavity on the upside of spacer block and then water droplet liquefied on capillary crystal column is passed through centrifuge separation to the first sky Intracavitary and finally flow into the second catch basin, in the process, the 5th bevel gear can ensure centrifugation with engaging for the first spline When drop will not throw away it is steady when causing waste outside the first cavity while can also ensure the first sliding block and the centrifugation of the first support column It is qualitative, the hydrone in air can be captured in fine day by the above process, when rain and rainwater is collected When, rainwater is entered in the first intake chamber by rainwater-collecting slot, at this time increasing with the liquid level in the first intake chamber, third Liquid pressure between sliding shoe right end face and the left end face of the 4th sliding shoe is gradually increased, and then pushes third sliding shoe It moves to the left, and then the first sliding shoe is driven to move to the left and the 7th bevel gear is driven to engage into the second sliding shoe, this When the second motor rotate, and then by shaft drive the 4th rotating block rotation, and then by the second rotation axis drive the 5th bore tooth Wheel rotation, and then the rotation of the second lead screw is driven by the 4th bevel gear, and then drive the 9th sliding block to rise, and then sliding by the 7th Block drives cover board to rise, and the rotation under the drive of the second lead screw when the 9th sliding block rises to greatest extent, and then passes through the 7th Sliding block drives cover board to rotate backward, and then the upper end opening of the first cavity is opened to the collection for carrying out rainwater, and in the process the A part of torque is stored in the deformation of the first torque spring by the rotation of two motors, the band when the liquid level in the first cavity rises Dynamic first buoyant block rises, and when the first buoyant block rises to certain altitude, pulls first by the buoyancy of the first buoyant block Bracing wire, and then pull the 4th sliding shoe one mobile to the right by the first bracing wire, at this time in rainwater-collecting slot and the 4th bevel gear Rainwater entered in the first catch basin and stored by the second intake chamber, at this time on the right side of third sliding shoe and the 4th sliding shoe Pressure in the pressure chamber in left side reduces rapidly, and the first sliding shoe is returned to just by the elastic force effect of the first return spring at this time Beginning state, the torque being stored in the first torque spring at this time drive the reversion of the second rotation axis, and then drive the reversion of the second lead screw, And then cover board is driven to restore to close to original state and to the upper end opening of the first cavity, in the process, when the 5th cone Gear is located at outside the first spline upper end opening or in the present apparatus when not enough power supply, first motor rotation, and then passes through shaft The first rotating block is driven to rotate, at this time when the first rotating block is rotated since the centrifugal action of the first spring is to far from the first rotation The mobile direction simultaneously along the rotation of the first rotating block in block axle center side snaps on the 6th sliding block, and the first rotating block can drive the at this time The rotation of six sliding blocks, and then first bevel gear rotation is driven by second bevel gear, and then drive the rotation of the first lead screw, it at this time can be by Capillary crystal column withdraw the first cavity in anti-tamper, the collection deposit of rainwater can be automatically carried out by the present apparatus, when fine day again It can be irrigated by the rainwater collected in advance when being irrigated, while can be automatically to the moisture in air in fine day Son is captured and is stored, and present apparatus power consumption can all be supplied by being set to the solar energy equipment of therein Electricity is not necessarily to external power supply, and energy conservation and environmental protection is easy to use, and a large amount of water resource that can be saved is worth being recommended to use.

Detailed description of the invention

The present invention is described in detail by following specific embodiments and drawings for ease of explanation,.

Fig. 1 is a kind of schematic diagram of internal structure for the water-saving seedling-protection device of mountainous region radix saposhnikoviae of the invention；

Fig. 2 is the schematic diagram of internal structure of the present invention in the operating condition；

Fig. 3 is the enlarged diagram of " A " in Fig. 1；

Fig. 4 is the enlarged diagram of " B " in Fig. 1；

Fig. 5 is the enlarged diagram of " C " in Fig. 1；

Fig. 6 is the connection schematic diagram of the first rotating block and the 6th sliding block in the present invention；

Fig. 7 is the structural schematic diagram in direction " D-D " in Fig. 1；

Fig. 8 is the structural schematic diagram in direction " E-E " in Fig. 1；

Fig. 9 is the structural schematic diagram in direction " F-F " in Fig. 1；

Figure 10 is the structural schematic diagram in direction " G-G " in Fig. 1；

Figure 11 is the enlarged diagram of " B " in Fig. 1.

Specific embodiment

As shown in figs 1 to 6, one kind of the invention is for the water-saving seedling-protection device of mountainous region radix saposhnikoviae, including apparatus main body 11 and The moisture collection device being set in described device main body 11, the moisture collection device include being set to described device main body 11 Interior and opening upwards the first cavity 21 is fixedly installed spacer block 24, institute on the side arc inner wall of first cavity 21 It states and is provided with perforative first through hole 25 up and down in spacer block 24, the setting being connected in the downside inner wall of first cavity 21 There is the second cavity 38, is rotatably provided with and upwardly extends and by the first of the first through hole 25 in second cavity 38 Sliding block 31 is provided with third cavity 28 in first sliding block 31, is rotatably provided with first in the third cavity 28 The upper end of thick stick 29, first lead screw 29 is rotatablely connected in the upper inside walls of the third cavity 28 by bearing, institute State the second sliding block 56 for being slidably provided in third cavity 28 and being threadedly engaged connection with first lead screw 29, the third Left and right is perforative respectively in the left and right sides inner wall of cavity 28 is provided with the second through-hole 27, and the outside of first sliding block 31 is arranged Have with 31 end face outside of the first sliding block sliding connection third sliding block 26, wherein the third sliding block 26 with it is described The Four-slider 57 that can be slided up and down in second through-hole 27, institute are fixedly connected between the opposing end surface of second sliding block 56 It states and is fixedly connected with the 5th sliding block 32 on the upside end face of third sliding block 26, it is fixed on the upside end face of the 5th sliding block 32 to connect It is connected to the first support column 35, the upper end of first support column 25 is fixedly connected with the first spline block 98, first support column It is provided with capillary crystal column 34 on 35, the 4th cavity 74, first lead screw are provided in the downside inner wall of second cavity 58 29 lower end, which extends, to be passed into the 4th cavity 74 and is fixedly connected with can rotate in the 4th cavity 74 first The right side engagement of bevel gear 61, the first bevel gear 61 is connected with second bevel gear 63, the right side of the 4th cavity 74 What is be connected in the inner wall of side is provided with the 5th cavity 104, is matched in the right end face of the second bevel gear 63 by shaft fixation Conjunction be connected with the 6th sliding block 105 that can be rotated in the 5th cavity 104, be provided in the 6th sliding block 105 opening to The first right turn trough 108, is fixedly connected with the first fixed block 107 on the side arc inner wall of first turn trough 108, and described the First motor 103 is fixedly installed in the right side inner wall of five cavitys 104, the left end of the first motor 103 passes through shaft power It is connected with the first rotating block 109 that can be rotated in first turn trough 108, all sides of first rotating block 109 It is provided with opening on face and is oriented the notch 108 far from 109 axle center of the first rotating block, it can on the inner wall of the notch 108 Rotation is connected with the first swing rod 114, and first swing rod has 114 one end far from the turning joint to be fixedly connected with first Centering block 112, first centering block 112 is close to the end face of the 109 axle center side of the first rotating block and the inner wall of the notch 108 Between be fixedly connected with the first spring 115, the left side engagement of the first bevel gear 61 is connected with third hand tap gear 62, institute It states and is fixedly connected with the first rotation axis 64 at the axle center of third hand tap gear 62, the left end of first rotation axis 64, which extends, is passed through institute It states in the inner left wall of the 4th cavity 74 and is fixedly connected on the arrangement of clutch being set in 74 inner left wall of the 4th cavity On, the 6th cavity 44 of opening upwards, setting in the 6th cavity 44 are provided in the inner left wall of first cavity 21 Can slide up and down the 7th sliding block 47, and the upper end of the 7th sliding block 47 is extended outside the upper side opening of the 6th cavity 44 And it is fixedly connected with the cover board 54 matched with the upper end opening of first cavity 21, it is perforative up and down in the cover board 54 to set Be equipped with third through-hole 99, be rotatably provided with the 8th sliding block 101 in the third through-hole 99, in the 8th sliding block 101 on Under it is perforative be provided with the first spline 102 that can be matched with the first spline block 98, in the left side of six cavity 44 What is be connected in wall is provided with the 7th cavity 42, and what the 7th cavity 42 was connected in the side inner wall of upper inside walls sets It is equipped with second sliding slot 49, wherein what the 6th cavity 44 was connected in the inner left wall of upper end opening is provided with opening Upward third sliding slot 113, wherein the third sliding slot 113 is set as the cyclic annular and rear side inner wall with the second sliding slot 49 It is connected, the second lead screw 43 is rotatably provided in the 7th cavity 42, the upper end of second lead screw 43 passes through bearing It is rotatablely connected in the upper inside walls of the 7th cavity 42, is fixedly connected in the left end face of the 7th sliding block 46 Extend the 9th sliding block 45 for being passed through in the 7th cavity 42 and being threadedly engaged connection with second lead screw 43, the described 7th is empty The 8th cavity 39 is provided in the downside inner wall of chamber 42, the lower end of second lead screw 43, which extends, to be passed through in the 8th cavity 39 And it is fixedly connected with the 4th bevel gear 41 that can be rotated in the 8th cavity 39, the right side engagement of the 4th bevel gear 41 It is connected with the 5th bevel gear 38, is fixedly connected with the second rotation axis 37 at the axle center of the 5th bevel gear 98, described The 9th cavity 95 is provided in the right side inner wall of eight cavitys 39, it is empty that the right end of second rotation axis 37 extends through the described 9th Continue to extend to the right and be fixedly connected on the arrangement of clutch after chamber 95, wherein fixed in second rotation axis 37 to connect It is connected to the second rotating block 97 that can be rotated in the 9th cavity 95, second rotating block 97 and the 9th cavity 95 It is fixedly connected with the first torque spring 96 between inner wall, is provided with fixed device in described device main body 11.

Valuably, the arrangement of clutch includes the right side inner wall and the 4th cavity 74 for being set to the 9th cavity 95 Inner left wall between first begin to speak 78, described first begin to speak 78 right side inner wall in be connected be provided with and second begin to speak 86, the left end of first rotation axis 64, which extends, to be passed through described second and begins to speak in 86 and be fixedly connected with and can begin to speak described second The third rotating blocks 87 rotated in 86, are provided with the first cone tooth socket 89 of opening to the left in the third rotating block 87, and described the One begin to speak 78 inner left wall in the third that is provided with that is connected begin to speak 121, the right end extension of second rotation axis 37 is passed through The third begins to speak in 121 and is fixedly connected with to begin to speak the 4th rotating block 94 rotated in 121 in the third, and the described 4th The the second cone tooth socket 93 of opening to the right is provided in rotating block 94, described first, which begins to speak, is slidably provided with the first sliding in 78 Block 83, the second motor 85 is fixedly installed in first sliding shoe 83, and the right end of second motor 85 passes through shaft power It is connected with the 6th bevel gear 88 that can be meshed with the first cone tooth socket 89, the left end of second motor 85 is by turning Axis power be connected with can with the 7th bevel gear 81 that be meshed of the second cone tooth socket 93, described first begin to speak 78 downside Being provided with for being connected in inner wall the 4th begins to speak 93, is fixedly connected on the downside end face of first sliding shoe 83 and extends into institute State the 4th the second sliding shoe 92 begun to speak in 93, the described 4th begin to speak 93 right side inner wall in be connected be provided with pressure chamber 67, the third sliding shoe for extending and being passed through in the pressure chamber 67 is fixedly connected in the right end face of the second sliding shoe 92 91, the right side of the third sliding shoe 91 and be located at the pressure chamber 67 in be slidably provided with the 4th sliding shoe 71, it is described It is fixedly connected with the first bracing wire 51 in the right end face of 4th sliding shoe 71, is connected in the right side inner wall of the pressure chamber 67 It is provided with the first threading hole 66, wherein being provided with for being connected in the inner left wall of first cavity 21 the 5th begins to speak 53, institute The 5th is stated to begin to speak slidably to be provided with the first buoyant block 52 in 53, the upper end of first threading hole 66 upwardly extend and with institute The 5th begin to speak 53 lower end is stated to be connected, the right end of first bracing wire 51 extend through extend after first threading hole 66 it is logical Enter the described 5th to begin to speak in 53 and be fixedly connected on the downside end face of first buoyant block 52, the 4th sliding shoe 71 What is be connected in the downside inner wall of the pressure chamber 67 between left side and the right side of the third sliding shoe 91 is provided with first Intake chamber 46, the left end of first intake chamber 46 upwardly extend after having the left side for extending to the 7th cavity 42 to the left And the rainwater-collecting slot 48 for being provided with opening upwards being connected, the first water storage is provided in the downside inner wall of the pressure chamber 67 Slot 75, what is be connected between the upper inside walls of first catch basin 75 and the downside inner wall of the pressure chamber 67 is provided with second Intake chamber 72 passes through the described 4th in the initial state between the upper end opening and institute's pressure chamber 67 of second intake chamber 72 Sliding shoe 71 is separated.

Valuably, the second catch basin 23, second catch basin 23 are provided in the downside inner wall of first cavity 21 Upper inside walls and the downside inner wall of first cavity 21 between be connected be provided with third intake chamber 22, described first stores What is be connected between the lower end of 75 right side inner wall of sink and the inner left wall of second catch basin 23 is provided with the 4th intake chamber 76, check valve 77 is provided on the inner wall of the 4th intake chamber 76, and the check valve 77 may make first catch basin 75 Interior moisture can be flowed into institute when the liquid level in second catch basin 23 is lower than the downside inner wall of first catch basin 75 The second catch basin 23 is stated, and the moisture in second catch basin 23 can not be flowed into first catch basin 75.

Valuably, when the 9th sliding block 45 rises to greatest extent in the 7th cavity 42, due to the described 9th The upside end face of sliding block 45 and the upper inside walls of the 7th cavity 42 abut against, and the 9th sliding block 45 can not continue to rise at this time, Simultaneously the 9th sliding block 45 back end surface right side and front end face on the left of lose constraint, at this time second lead screw 43 after It is continuous rotate in same direction in the case where the 9th sliding block 45 with second lead screw 43 relative displacement does not occur, i.e., at this time described second Lead screw 43 drives the 9th sliding block 45 to rotate 90 degree right ends and front end face up to 45 back end surface of the 9th sliding block Left end stop operating when constraining again, and if second lead screw 43 rotates backward at this moment, due to the described 9th sliding The downside end face of block 45 can not be moved down by the constraint of 49 downside inner wall, described at this time the 9th sliding block 45 and described the Two lead screws 43 are opposing stationary, if second lead screw 43 rotates backward the 9th sliding block 45 can be driven reversely to go back at this time Enter in the 7th cavity 42 and when the 9th sliding block 45 is gone back to greatest extent in the 7th cavity 42 described in the 9th sliding block 45 Front end face suffer restraints, the second lead screw 43, which continues to rotate backward, at this time can drive the 9th sliding block 45 in the 7th cavity 42 Interior decline, while can all drive the 7th sliding block 47 to rotate or decline when the 9th sliding block 45 rotates or goes up and down.

Valuably, first buoyant block 52 can float in water, and the buoyancy of first buoyant block 52 is greater than institute The difference of the friction between the 4th sliding shoe 71 and the pressure chamber 67 and the moisture pressure in first intake chamber 46 is stated, it is described Water partial pressure in first intake chamber 46 is powerful in the third sliding shoe 91, the second sliding shoe 93 and first sliding shoe The sum of 83 friction and the friction being less than between the 4th sliding shoe 71 and the pressure chamber 67.

Valuably, it is fixedly installed cold-making block 33 in the 5th sliding block 32, is provided with and leads in first support column 25 Flow tube 36, the diversion pipe 36 are connected with the cold-making block 33, and the cold air that the cold-making block 33 generates can pass through the water conservancy diversion Pipe 36 cools down the capillary crystal column 34.

Valuably, solar panels 55,55 turns of the solar panels are fixedly installed on the upside end face of the cover board 54 Changing electric energy can provide the power consumption of the present apparatus.

Valuably, described first begin to speak 78 upper inside walls in be connected be provided with the first guide runner 84, described first It is fixedly connected on the upside end face of sliding shoe 83 and extends the first slider guide 82 for being passed through in first guide runner 84, described the The first return spring 79 is fixedly connected between the left end face of one slider guide 82 and the inner left wall of first guide runner 84, What is be connected in the upper inside walls of the pressure chamber 67 is provided with the second guide runner 68, the upside end face of the 4th sliding shoe 71 On be fixedly connected with and extend the second slider guide 73 for being passed through in second guide runner 68, the right-hand end of second slider guide 73 The second return spring 69 is fixedly connected between face and the right side inner wall of second guide runner 68.

Valuably, the fixed device includes the fixation for being fixedly connected on 11 left and right sides end face lower end of described device main body Plate 201, perforative up and down in the fixed plate 201 to be provided with fixation hole 202, the present apparatus can be carried out by the fixation hole 202 It is fixed.

When original state, the downside end face of the second sliding block 56 is abutted against with the downside inner wall of third cavity 28, and at this time the 4th Sliding block 57 declines to greatest extent, and the upside end face of the downside end face of the 5th sliding block 32 and the first sliding block 31 abuts against Ei, and at this time the Five bevel gears 98 decline to greatest extent and drop in the first cavity 21, while the downside end face of cover board 54 and apparatus main body 11 Upside end face abuts against, and the upper end opening of the first cavity 21 is closed by cover board 54 at this time, can prevent the first cavity at this time Moisture evaporation in 21, while the 5th bevel gear 98 is caught in the first spline 102, while the first cone tooth socket 89 is begun to speak first It is moved to right to greatest extent in 78, the 6th bevel gear 88 engages into the first cone tooth socket 89 at this time, the right end face of the second sliding shoe 92 It is abutted against with the right side inner wall of the second sliding shoe 93, third sliding shoe 91 is protruded into greatest extent in pressure chamber 67, the first torsion bullet Spring 96 is in relaxed state, and the 4th sliding shoe 71 moves to left to greatest extent in pressure chamber 67 and opens the upper end of the second intake chamber 72 Mouth separates, no moisture in the first intake chamber 46, while the first centering block 112 is acted on to greatest extent by the elastic force of the first spring 115 Close to the axle center of the first rotating block 109, the 6th sliding block 105 rotation at this time is not had an impact the first rotating block 109.

When being collected by the moisture in present apparatus progress rainwater and air, collected when carrying out the hydrone in air When, the starting of the second motor 85, and then the rotation of the 6th bevel gear 88 is driven by shaft, and then pass through the drive of third rotating block 87 the The rotation of one rotation axis 64, and then drive first bevel gear 61 to rotate by third hand tap gear 62, even if second bevel gear 63 at this time Rotation does not also have an impact the first rotating block 109, and the first lead screw 29 rotates at this time, and then drives the second sliding block 56 in third sky Rise in chamber 28, and then drive third sliding block 26 to rise by Four-slider 57, and then the 5th sliding block 32 is driven to rise, Jin Ertong It crosses on the first support column 35 drive capillary crystal column 34 and the 5th bevel gear 98 and rises from outside the upper end opening of the first spline 102, this When cold-making block 33 be powered, and then cooled down by 36 pairs of capillary crystal columns 34, when the temperature of capillary crystal column 34 drops to certain temperature 33 stop working when spending, and at this time since the temperature of capillary crystal column 34 is lower, and then are that hydrone liquefies and is built-up in hair in air On fine grain column 34, at this time when the temperature recovery of capillary crystal column 34 to a certain degree when the second motor 85 invert, and then pass through first Rotation axis 64 drives third hand tap gear 62 to invert, and then drives the reversion of the first lead screw 29 by first bevel gear 61, and then pass through Second sliding block 56 drives Four-slider 57 to decline, and then drives the decline of the 5th sliding block 32 by third sliding block 26, and then drive hair Fine grain column 34 and the 5th bevel gear 98 drop to original state, at this time 102 spline fitted of the 5th bevel gear 98 and the first spline Connection and capillary crystal column 34 drops in the lower ending opening of the first spline 102, at this time the second motor 85 continue accelerate reversion, this When decline to greatest extent and then the relatively fixed connection of the first lead screw 29 and the first sliding block 31 at this time due to the second sliding block 56, exist at this time Second motor 85 continues to accelerate to drive third hand tap gear 62 to rotate by the first rotation axis 64 when reversion, and then passes through the first lead screw 29 drive the first sliding blocks 31 rotated in the second cavity 58, and then drive capillary crystal column 34 rotate, at this time capillary crystal column 34 Water droplet liquefied on capillary crystal column 34 is passed through centrifuge separation to the first sky in turn by rotation in first cavity 21 of 24 upside of spacer block It in chamber 21 and finally flows into the second catch basin 23, in the process, the 5th bevel gear 98 can with the first engaging for spline 102 Drop, which will not be thrown away, when ensureing centrifugation causes to waste while can also ensure the first sliding block 31 and the first support outside the first cavity 21 Column 35 be centrifuged when stability, the hydrone in air can be captured in fine day by the above process, when rain simultaneously When being collected to rainwater, rainwater is entered in the first intake chamber 46 by rainwater-collecting slot 48, at this time with the first intake chamber Liquid level in 46 increases, the liquid pressure between 91 right end face of third sliding shoe and the left end face of the 4th sliding shoe 71 by It is cumulative big, and then third sliding shoe 91 is pushed to move to the left, and then drive the first sliding shoe 83 to move to the left and drive the Seven bevel gears 81 engage into the second sliding shoe 93, and the second motor 85 rotates at this time, and then drive the 4th rotating block by shaft 94 rotations, and then the rotation of the 5th bevel gear 38 is driven by the second rotation axis 37, and then drive second by the 4th bevel gear 41 Lead screw 43 rotates, and then the 9th sliding block 45 is driven to rise, and then drives cover board 54 to rise by the 7th sliding block 47, and sliding the 9th The rotation under the drive of the second lead screw 43 when block 45 rises to greatest extent, and then drive cover board 54 to turn round by the 7th sliding block 47 It is dynamic, and then the upper end opening of the first cavity 21 is opened to the collection for carrying out rainwater, the rotation of the second motor 85 will in the process A part of torque is stored in the deformation of the first torque spring 96, and the first floating is driven when the liquid level in the first cavity 21 rises Block 52 rises, and when the first buoyant block 52 rises to certain altitude, pulls the first bracing wire by the buoyancy of the first buoyant block 52 51, and then pull the 4th sliding shoe 71 one mobile to the right by the first bracing wire 51, rainwater-collecting slot 48 and the 4th cone tooth at this time Rainwater in wheel 41 is entered in the first catch basin 75 by the second intake chamber 72 to be stored, at this time 91 right side of third sliding shoe And the pressure in the pressure chamber 67 in 71 left side of the 4th sliding shoe reduces rapidly, the first sliding shoe 83 is by the first return spring at this time 79 elastic force effect is returned to original state, and the torque being stored in the first torque spring 96 at this time drives the second rotation axis 37 anti- Turn, and then drives the reversion of the second lead screw 43, and then drive cover board 54 to restore to original state and open the upper end of the first cavity 21 It mouthful is closed, in the process, when the 5th bevel gear 98 is located at outside 102 upper end opening of the first spline or electricity in the present apparatus When amount is insufficient, first motor 103 is rotated, and then drives the rotation of the first rotating block 109 by shaft, at this time in the first rotating block Since the centrifugal action of the first spring 115 is to far from the movement of 109 axle center side of the first rotating block and along first turn when 109 rotation The direction that motion block 109 rotates snaps on the 6th sliding block 105, and the first rotating block 109 can drive the 6th sliding block 105 to rotate at this time, into And drive first bevel gear 61 to rotate by second bevel gear 63, and then drive the rotation of the first lead screw 29, it at this time can be by capillary crystalline substance Column 34 is withdrawn in the first cavity 21 with anti-tamper.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, carried out in rainwater and air by the present apparatus Moisture when being collected, when carrying out the hydrone in air and collecting, the second electric motor starting, and then pass through shaft drive the 6th Bevel gear rotation, and then the rotation of the first rotation axis is driven by third rotating block, and then the first cone is driven by third hand tap gear Gear rotation, second bevel gear does not have an impact the first rotating block rotation at this time, and the first lead screw rotates at this time, in turn It drives the second sliding block to rise in third cavity, and then drives third sliding block to rise by Four-slider, and then drive the 5th to slide Block rises, and then the upper end opening that the first spline is risen from capillary crystal column and the 5th bevel gear is driven by the first support column Outside, cold-making block is powered at this time, and then by cooling down to capillary crystal column, when the temperature of capillary crystal column drops to certain temperature It stops working, at this time since the temperature of capillary crystal column is lower, and then is that hydrone liquefies and is built-up on capillary crystal column in air, At this time when the temperature recovery of capillary crystal column to a certain degree when the second motor reversal, and then by the first rotation axis drive third cone Gear reversion, and then the reversion of the first lead screw is driven by first bevel gear, and then Four-slider decline is driven by the second sliding block, And then the decline of the 5th sliding block is driven by third sliding block, and then capillary crystal column and the 5th bevel gear is driven to drop to original state, The 5th bevel gear connect with the first spline spline fitted at this time and capillary crystal column drops in the lower ending opening of the first spline, The second motor continues to accelerate reversion at this time, at this time since the second sliding block declines to greatest extent and then the first lead screw and first is slided at this time The relatively fixed connection of block, drives third hand tap gear rotation by the first rotation axis when the second motor continues to accelerate reversion at this time, And then driving the first sliding block to rotate in the second cavity by the first lead screw, and then drive the rotation of capillary crystal column, capillary is brilliant at this time Column rotates in the first cavity on the upside of spacer block and then water droplet liquefied on capillary crystal column is passed through centrifuge separation to the first sky Intracavitary and finally flow into the second catch basin, in the process, the 5th bevel gear can ensure centrifugation with engaging for the first spline When drop will not throw away it is steady when causing waste outside the first cavity while can also ensure the first sliding block and the centrifugation of the first support column It is qualitative, the hydrone in air can be captured in fine day by the above process, when rain and rainwater is collected When, rainwater is entered in the first intake chamber by rainwater-collecting slot, at this time increasing with the liquid level in the first intake chamber, third Liquid pressure between sliding shoe right end face and the left end face of the 4th sliding shoe is gradually increased, and then pushes third sliding shoe It moves to the left, and then the first sliding shoe is driven to move to the left and the 7th bevel gear is driven to engage into the second sliding shoe, this When the second motor rotate, and then by shaft drive the 4th rotating block rotation, and then by the second rotation axis drive the 5th bore tooth Wheel rotation, and then the rotation of the second lead screw is driven by the 4th bevel gear, and then drive the 9th sliding block to rise, and then sliding by the 7th Block drives cover board to rise, and the rotation under the drive of the second lead screw when the 9th sliding block rises to greatest extent, and then passes through the 7th Sliding block drives cover board to rotate backward, and then the upper end opening of the first cavity is opened to the collection for carrying out rainwater, and in the process the A part of torque is stored in the deformation of the first torque spring by the rotation of two motors, the band when the liquid level in the first cavity rises Dynamic first buoyant block rises, and when the first buoyant block rises to certain altitude, pulls first by the buoyancy of the first buoyant block Bracing wire, and then pull the 4th sliding shoe one mobile to the right by the first bracing wire, at this time in rainwater-collecting slot and the 4th bevel gear Rainwater entered in the first catch basin and stored by the second intake chamber, at this time on the right side of third sliding shoe and the 4th sliding shoe Pressure in the pressure chamber in left side reduces rapidly, and the first sliding shoe is returned to just by the elastic force effect of the first return spring at this time Beginning state, the torque being stored in the first torque spring at this time drive the reversion of the second rotation axis, and then drive the reversion of the second lead screw, And then cover board is driven to restore to close to original state and to the upper end opening of the first cavity, in the process, when the 5th cone Gear is located at outside the first spline upper end opening or in the present apparatus when not enough power supply, first motor rotation, and then passes through shaft The first rotating block is driven to rotate, at this time when the first rotating block is rotated since the centrifugal action of the first spring is to far from the first rotation The mobile direction simultaneously along the rotation of the first rotating block in block axle center side snaps on the 6th sliding block, and the first rotating block can drive the at this time The rotation of six sliding blocks, and then first bevel gear rotation is driven by second bevel gear, and then drive the rotation of the first lead screw, it at this time can be by Capillary crystal column withdraw the first cavity in anti-tamper, the collection deposit of rainwater can be automatically carried out by the present apparatus, when fine day again It can be irrigated by the rainwater collected in advance when being irrigated, while can be automatically to the moisture in air in fine day Son is captured and is stored, and present apparatus power consumption can all be supplied by being set to the solar energy equipment of therein Electricity is not necessarily to external power supply, and energy conservation and environmental protection is easy to use, and a large amount of water resource that can be saved is worth being recommended to use.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, of the invention Protection scope should be determined by the scope of protection defined in the claims.

Claims (9)

1. one kind is for the water-saving seedling-protection device of mountainous region radix saposhnikoviae, including apparatus main body and it is set to the intracorporal moisture of described device master Collection device, the moisture collection device include being set in described device main body and the first cavity of opening upwards, and described the It is fixedly installed spacer block on the side arc inner wall of one cavity, perforative first through hole up and down is provided in the spacer block, What is be connected in the downside inner wall of first cavity is provided with the second cavity, be rotatably provided in second cavity to Upper extension and by the first sliding block of the first through hole, is provided with third cavity, the third cavity in first sliding block Interior to be rotatably provided with the first lead screw, the upper end of first lead screw is rotatablely connected with the third cavity by bearing Upper inside walls on, be slidably provided in the third cavity be cooperatively connected with first threads of lead screw it is second sliding Block, left and right is perforative respectively in the left and right sides inner wall of the third cavity is provided with the second through-hole, first sliding block it is outer Side be arranged with the first sliding block end face outside sliding connection third sliding block, wherein the third sliding block with it is described The Four-slider that can be slided up and down in second through-hole, the third are fixedly connected between the opposing end surface of second sliding block It is fixedly connected with the 5th sliding block on the upside end face of sliding block, is fixedly connected with the first support on the upside end face of the 5th sliding block Column, the upper end of first support column are fixedly connected with the first spline block, capillary crystal column, institute are provided on first support column It states and is provided with the 4th cavity in the downside inner wall of the second cavity, the lower end of first lead screw, which extends, is passed into the 4th cavity Interior and be fixedly connected with the first bevel gear that can be rotated in the 4th cavity, cooperation is engaged on the right side of the first bevel gear It is connected with second bevel gear, what is be connected in the right side inner wall of the 4th cavity is provided with the 5th cavity, the second cone tooth The 6th sliding block that can be rotated in the 5th cavity is connected with by shaft secure fit in the right end face of wheel, the described 6th The first turn trough of opening to the right is provided in sliding block, it is fixed to be fixedly connected with first on the side arc inner wall of first turn trough Block, first motor is fixedly installed in the right side inner wall of the 5th cavity, and the left end of the first motor passes through shaft power It is connected with the first rotating block that can be rotated in first turn trough, is provided on all side end faces of first rotating block Opening is oriented the notch far from first rotating block axle center, is rotatably connected with the first pendulum on the inner wall of the notch Bar, first swing rod have one end far from the turning joint to be fixedly connected with the first centering block, and first centering block is close to institute It states and is fixedly connected with the first spring between the end face of the first rotating block axle center side and the inner wall of the notch, the first cone tooth The left side engagement of wheel is connected with third hand tap gear, and the first rotation axis is fixedly connected at the axle center of the third hand tap gear, The left end of first rotation axis, which extends in the inner left wall for being passed through the 4th cavity and is fixedly connected on, is set to described the On arrangement of clutch in four cavity inner left walls, the 6th that opening upwards are provided in the inner left wall of first cavity is empty Chamber is provided with the 7th sliding block that can slide up and down in the 6th cavity, and the upper end of the 7th sliding block extends the described 6th The upper side opening of cavity is outer and is fixedly connected with the cover board matched with the upper end opening of first cavity, in the cover board on Under it is perforative be provided with third through-hole, be rotatably provided with the 8th sliding block in the third through-hole, in the 8th sliding block on Under it is perforative be provided with the first spline that can be matched with the first spline block, be connected in the inner left wall of six cavity Logical is provided with the 7th cavity, and it is sliding that the 7th cavity was connected in the side inner wall of upper inside walls is provided with second Slot, wherein the third sliding slot for being provided with opening upwards that the 6th cavity is connected in the inner left wall of upper end opening, Wherein, the third sliding slot is set as cyclic annular and is connected with the rear side inner wall of the second sliding slot, can in the 7th cavity Rotation is provided with the second lead screw, and the upper end of second lead screw is rotatablely connected with the upper of the 7th cavity by bearing On the inner wall of side, it is fixedly connected with extension in the left end face of the 7th sliding block and is passed through in the 7th cavity and with described second The 9th sliding block that threads of lead screw is cooperatively connected, is provided with the 8th cavity in the downside inner wall of the 7th cavity, and described second The lower end of thick stick, which extends, is passed through in the 8th cavity and is fixedly connected with the 4th bevel gear that can be rotated in the 8th cavity, The right side engagement of 4th bevel gear is connected with the 5th bevel gear, is fixedly connected at the axle center of the 5th bevel gear Second rotation axis, the 9th cavity is provided in the right side inner wall of the 8th cavity, and the right end of second rotation axis extends logical Continue to extend to the right and be fixedly connected on the arrangement of clutch after crossing the 9th cavity, wherein second rotation axis On be fixedly connected with the second rotating block that can be rotated in the 9th cavity, second rotating block and the 9th cavity It is fixedly connected with the first torque spring between inner wall, fixed device is provided in described device main body.

2. according to claim 1 a kind of for the water-saving seedling-protection device of mountainous region radix saposhnikoviae, it is characterised in that: the arrangement of clutch First including being set between the right side inner wall of the 9th cavity and the inner left wall of the 4th cavity begins to speak, and described Being provided with for being connected in the one right side inner wall begun to speak second is begun to speak, and the left end of first rotation axis, which extends, is passed through described second In beginning to speak and it is fixedly connected with the third rotating block that can begin to speak interior rotation described second, is provided with out in the third rotating block The the first cone tooth socket of mouth to the left, the third that is provided with being connected in the described first inner left wall begun to speak are begun to speak, and described second turn The right end of moving axis extend be passed through the third begin to speak in and be fixedly connected with and can begin to speak the 4th rotation of interior rotation in the third Block, is provided with the second cone tooth socket of opening to the right in the 4th rotating block, and described first, which begins to speak, interior is slidably provided with the One sliding shoe is fixedly installed the second motor in first sliding shoe, and the right end of second motor is matched by shaft power The 6th bevel gear that is connected with and can be meshed with the first cone tooth socket is closed, the left end of second motor is matched by shaft power The 7th bevel gear that is connected with and can be meshed with the second cone tooth socket is closed, is connected in the described first downside inner wall begun to speak It is provided with the 4th to begin to speak, is fixedly connected on the downside end face of first sliding shoe and extends into the described 4th and begin to speak interior second Sliding shoe, what is be connected in the described 4th right side inner wall begun to speak is provided with pressure chamber, the right end face of the second sliding shoe On be fixedly connected with and extend the third sliding shoe that is passed through in the pressure chamber, the right side of the third sliding shoe and be located at the pressure Power is intracavitary to be slidably provided with the 4th sliding shoe, is fixedly connected with the first bracing wire in the right end face of the 4th sliding shoe, What is be connected in the right side inner wall of the pressure chamber is provided with the first threading hole, wherein in the inner left wall of first cavity Being provided with for being connected the 5th is begun to speak, and the described 5th, which begins to speak, interior is slidably provided with the first buoyant block, first threading hole Upper end upwardly extend and be connected with the 5th lower end begun to speak, the right end of first bracing wire extends through described first Extension is passed through the described 5th and begins to speak interior and be fixedly connected on the downside end face of first buoyant block, the described 4th after threading hole What is be connected in the downside inner wall of the pressure chamber between the left side of sliding shoe and the right side of the third sliding shoe is provided with First intake chamber, the left end of first intake chamber upwardly extend simultaneously after having the left side for extending to the 7th cavity to the left The rainwater-collecting slot for being provided with opening upwards being connected is provided with the first catch basin, institute in the downside inner wall of the pressure chamber State be connected between the upper inside walls of the first catch basin and the downside inner wall of the pressure chamber be provided with the second intake chamber, first When beginning state, separated between the upper end opening and institute's pressure chamber of second intake chamber by the 4th sliding shoe.

3. according to claim 1 a kind of for the water-saving seedling-protection device of mountainous region radix saposhnikoviae, it is characterised in that: first cavity Downside inner wall in be provided with the second catch basin, the downside inner wall of the upper inside walls of second catch basin and first cavity Between be connected be provided with third intake chamber, a left side for the lower end of inner wall and second catch basin on the right side of first catch basin What is be connected between the inner wall of side is provided with the 4th intake chamber, and check valve, the list are provided on the inner wall of the 4th intake chamber It may make the moisture in first catch basin can be in the liquid level in second catch basin lower than first catch basin to valve Downside inner wall when be flowed into second catch basin, and the moisture in second catch basin can not be flowed into described first and store In sink.

4. according to claim 1 a kind of for the water-saving seedling-protection device of mountainous region radix saposhnikoviae, it is characterised in that: when the 9th cunning When block rises to greatest extent in the 7th cavity, due to the 9th sliding block upside end face and the 7th cavity it is upper Side inner wall abuts against, and the 9th sliding block can not continue to rise at this time, while the right side of the back end surface of the 9th sliding block and front end face Left side lose constraint, at this time in the case where second lead screw continues to rotate in same direction the 9th sliding block with described second Relative displacement does not occur for thick stick, i.e., second lead screw drives the 9th sliding block to rotate 90 degree until the 9th sliding block at this time The right end of back end surface and the left end of front end face stop operating when constraining again, and if second lead screw occurs instead at this moment It is described at this time since the downside end face of the 9th sliding block can not be moved down by the constraint of the downside inner wall to rotation 9th sliding block and second lead screw are opposing stationary, if at this time second lead screw rotate backward can drive it is the described 9th sliding Block reversely go back in the 7th cavity and when the 9th sliding block is gone back to greatest extent in the 7th cavity described in it is the 9th sliding The front end face of block suffers restraints, at this time the second lead screw continue to rotate backward can drive the 9th sliding block in the 7th cavity under Drop, while can all drive the 7th sliding block to rotate or decline when the 9th sliding block rotates or goes up and down.

5. according to claim 1 a kind of for the water-saving seedling-protection device of mountainous region radix saposhnikoviae, it is characterised in that: first floating Block can float in water, and the buoyancy of first buoyant block is greater than rubbing between the 4th sliding shoe and the pressure chamber The difference of moisture pressure in first intake chamber described in scrape along, water partial pressure in first intake chamber is powerful to be slided in the third The sum of friction of block, the second sliding shoe and first sliding shoe and be less than the 4th sliding shoe and the pressure chamber it Between friction.

6. according to claim 1 a kind of for the water-saving seedling-protection device of mountainous region radix saposhnikoviae, it is characterised in that: the 5th sliding block It is inside fixedly installed cold-making block, diversion pipe is provided in first support column, the diversion pipe is connected with the cold-making block, The cold air that the cold-making block generates can cool down the capillary crystal column by the diversion pipe.

7. according to claim 1 a kind of for the water-saving seedling-protection device of mountainous region radix saposhnikoviae, it is characterised in that: the cover board it is upper Solar panels are fixedly installed on side end face, the converted electric energy of solar panels can provide the power consumption of the present apparatus.

8. according to claim 1 a kind of for the water-saving seedling-protection device of mountainous region radix saposhnikoviae, it is characterised in that: described first begins to speak Upper inside walls in be connected be provided with the first guide runner, be fixedly connected with extension on the upside end face of first sliding shoe The first slider guide being passed through in first guide runner, a left side for the left end face of first slider guide and first guide runner The first return spring is fixedly connected between the inner wall of side, what is be connected in the upper inside walls of the pressure chamber is provided with the second slide guide Slot is fixedly connected with the second slider guide for extending and being passed through in second guide runner on the upside end face of the 4th sliding shoe, The second return spring is fixedly connected between the right end face of second slider guide and the right side inner wall of second guide runner.

9. according to claim 1 a kind of for the water-saving seedling-protection device of mountainous region radix saposhnikoviae, it is characterised in that: the fixed device Fixed plate including being fixedly connected on end face lower end at left and right sides of described device main body, perforative setting up and down in the fixed plate There is fixation hole, the present apparatus can be fixed by the fixation hole.