CN112568013A - Device for controlling watering according to hardness of soil - Google Patents

Abstract

The invention discloses a device for controlling watering according to the hardness of soil, which comprises a working base, a power groove is arranged in the working base, a power motor is fixedly arranged on the lower wall surface of the inner cavity of the power groove, a power motor shaft is rotatably arranged on the upper end surface of the power motor, a working box is fixedly arranged on the upper end surface of the power motor shaft, a planting cavity is arranged in the working box, a linkage cavity is arranged at the right side of the planting cavity, arc plates are symmetrically and rotatably arranged at the front and the back of the right wall surface of the inner cavity of the planting cavity through hinges, after the planting and the operation are carried out according to the requirements of the invention, the invention can automatically carry out soil hardness detection on the soil at different positions in the soil, by processing the hardness detection of the soil in different places, only the soil moisture data of the place with the most water shortage is obtained, meanwhile, the invention is also provided with a water storage fermentation device, and water is fermented and watered according to the obtained data.

Description

Device for controlling watering according to hardness of soil

Technical Field

The invention relates to a device for controlling watering according to the hardness of soil, and mainly relates to the technical field of fertilization equipment.

Background

The plants are one of the main forms of life, comprise familiar organisms such as trees, shrubs, vines, grasses, ferns, green algae, lichens and the like, and at the present stage, many families can cultivate a lot of green plants, but the plant growth is damaged due to the limited time for taking care of the plants and the fact that the plants need water at any time is not understood, and the invention is improved aiming at the defects.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a device for controlling watering according to the hardness of soil, and the device overcomes the problems.

The invention is realized by the following technical scheme.

The invention relates to a device for controlling watering according to the hardness of soil, which comprises a working base, wherein a power groove is arranged in the working base, a power motor is fixedly arranged on the lower wall surface of an inner cavity of the power groove, a power motor shaft is rotatably arranged on the upper end surface of the power motor, a working box is fixedly arranged on the upper end surface of the power motor shaft, a planting cavity is arranged in the working box, a linkage cavity is arranged on the right side of the planting cavity, an arc plate is symmetrically and rotatably arranged on the right wall surface of the inner cavity of the planting cavity in a front-back manner through hinges, a processing block is fixedly arranged on the arc plate, a detection groove is arranged on the right wall surface of the inner cavity of the planting cavity, a pressure sensor is fixedly arranged on the right wall surface of the inner cavity of the detection groove, a pressure rod is slidably arranged in the inner cavity of the detection, a semicircular plate is slidably installed in the inclined chute, racks and clamping grooves are arranged on the wall surface of the inner cavity of the semicircular plate, two control cavities are arranged in the pressure rod, a central shaft is rotatably installed on the rear wall surface of the inner cavity of each control cavity, a central gear is fixedly installed on the front end surface of the central shaft, an external rod is slidably installed on the rear wall surface of the inner cavity of each control cavity, an internal rod is slidably installed in the inner cavity of the external rod, a connecting spring is fixedly installed between the internal rod and the wall surface of the inner cavity of the external rod, the central gear is hinged with the external rod through a pulling rod, a convex disc is fixedly installed on the rear wall surface of the inner cavity of each control cavity, a shifting disc shaft is fixedly installed on the central shaft, the convex disc is sleeved on the shifting disc shaft, the semicircular plate is hinged with the arc plate through a measuring rod, and a transfer rotary disc is installed, the transfer turntable is hinged with the arc plate through a turnover rod, the lower wall surface of the cavity of the linkage cavity is provided with a left sliding groove and a right sliding groove, the left sliding groove and the right sliding groove are internally provided with a pushing plate in a sliding way, the lower wall surfaces of the inner cavities of the left sliding groove and the right sliding groove are symmetrically provided with inner sliding grooves in front and back, the inner sliding grooves are internally provided with driven sliding blocks in a sliding way, the driven sliding blocks are hinged with the transfer turntable through connecting rods, the lower wall surface of the cavity of the linkage cavity is rotatably provided with a penetrating shaft, the upper end surface of the penetrating shaft is fixedly provided with a driven gear, the driven gear is hinged with the pushing plate through the pushing rod, the lower end surface of the penetrating shaft extends to the lower end surface of the working box, the lower end surface of the penetrating shaft is fixedly provided with a driving gear, the right wall surface, the utility model discloses a processing piece, including the processing piece, the line shaft with plant the chamber, the line shaft with fixed mounting torsional spring between the processing piece inner chamber wall, the line shaft with plant and connect through tensile line between the chamber inner chamber wall, the axle is inserted to the symmetry fixed mounting about the processing piece inner chamber left side wall, insert the hollow sharp-pointed pole of epaxial slidable mounting, slidable mounting T type rack on the processing piece inner chamber left side wall, terminal surface is respectively through splice bar and two about the T type rack hollow sharp-pointed pole is articulated to be connected, the carousel with fixed mounting drive rod is articulated to be connected between the T type rack, the symmetry is rotated the installation steering wheel through articulated about the processing piece inner chamber left side wall, the steering wheel pass through the steering column with hollow sharp-pointed pole is articulated to be connected, the steering wheel with T type rack meshing.

Furthermore, a power storage torsion spring is fixedly installed between the transfer turntable and the lower wall surface of the cavity in the linkage cavity.

Further, a spraying pipe is fixedly arranged on the inner wall surface of the planting cavity.

Further, plant the chamber left side and be equipped with the storage chamber, store chamber inner chamber left side wall and set to the absorber plate, store chamber inner chamber lower wall fixed mounting water pump, the water pump with through the transportation union coupling between the spray pipe.

Further, the wall rotates installation rotation axis under the power groove inner chamber, supreme fixed mounting cam, rotary gear in proper order down on the rotation axis, be equipped with upper and lower spout on the wall of power groove inner chamber left side, slider about the slidable mounting in the spout from top to bottom, under the upper and lower slider terminal surface with fixed mounting is spring about between the wall under the upper and lower spout inner chamber, slider right-hand member face fixed mounting hang plate about, the circular rack of slider up end fixed mounting about, circular rack with the driving gear meshing, the last fixed mounting power motor gear of power motor shaft, the power motor gear with rotary gear meshes.

The invention has the beneficial effects that: after planting and operation are carried out according to the requirements of the invention, the invention can automatically carry out soil hardness detection on the soil at different positions in the soil, only the soil moisture data of the place with the most water shortage is obtained by processing the soil hardness detection of the soil at different places, and meanwhile, the invention is also provided with a water storage fermentation device, and water is fermented and watered according to the obtained data.

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.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

Fig. 3 is an enlarged schematic view of B in fig. 1.

Fig. 4 is a schematic diagram of the structure C-C in fig. 2.

Fig. 5 is an enlarged schematic view of D in fig. 2.

Fig. 6 is a schematic diagram of the structure of E-E in fig. 5.

Fig. 7 is a schematic view of the structure of F-F in fig. 6.

Fig. 8 is a schematic diagram of the structure of G-G in fig. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The device for controlling watering according to the hardness of soil, which is described in conjunction with the attached drawings 1-8, comprises a working base 10, wherein a power groove 12 is arranged in the working base 10, a power motor 14 is fixedly arranged on the lower wall surface of the inner cavity of the power groove 12, a power motor shaft 15 is rotatably arranged on the upper end surface of the power motor 14, a working box 13 is fixedly arranged on the upper end surface of the power motor shaft 15, a planting cavity 27 is arranged in the working box 13, a linkage cavity 28 is arranged on the right side of the planting cavity 27, arc plates 30 are rotatably arranged on the front and back of the right wall surface of the inner cavity of the planting cavity 27 in a hinged manner, a processing block 31 is fixedly arranged on the arc plate 30, a detection groove 60 is arranged on the right wall surface of the inner cavity of the planting cavity 27, a pressure sensor 61 is fixedly arranged on the right wall surface of the inner cavity of the detection groove 60, a pressure rod 62 is slidably arranged in the, the pressure rod 62 is provided with inclined sliding grooves 74 in up-down symmetry, a semicircular plate 65 is slidably mounted in the inclined sliding grooves 74, the wall surfaces of the inner cavities of the semicircular plate 65 are provided with racks 66 and clamping grooves 73, the pressure rod 62 is provided with two control cavities 77, the rear wall surface of the inner cavity of each control cavity 77 is rotatably mounted with a central shaft 67, the front end surface of the central shaft 67 is fixedly mounted with a central gear 68, the rear wall surface of the inner cavity of each control cavity 77 is slidably mounted with an outer rod 70, the inner cavity of the outer rod 70 is slidably mounted with an inner rod 71, the inner rod 71 is fixedly mounted with the wall surface of the inner cavity of the outer rod 70 by a connecting spring 72, the central gear 68 is hinged with the outer rod 70 by a pulling rod 69, the rear wall surface of the inner cavity of each control cavity 77 is fixedly mounted with a convex disc 75, the central shaft 67 is fixedly mounted with a shifting sheet, the semicircular plate 65 is hinged with the arc plate 30 through a measuring rod 78, a transfer turntable 40 is mounted on the lower wall surface of the inner cavity of the linkage cavity 28 in a hinged and rotating manner through a hinge, the transfer turntable 40 is hinged with the arc plate 30 through a turning rod 41, a left sliding groove 32 and a right sliding groove 32 are arranged on the lower wall surface of the inner cavity of the linkage cavity 28, a pushing plate 33 is mounted in the left sliding groove 32 in a sliding manner, inner sliding grooves 59 are symmetrically arranged on the lower wall surfaces of the inner cavities of the left sliding groove 32 and the right sliding groove 32 in a front-back manner, a driven sliding block 38 is mounted in the inner sliding groove 59 in a sliding manner, the driven sliding block 38 is hinged with the transfer turntable 40 through a connecting rod 39, a penetrating shaft 34 is rotatably mounted on the lower wall surface of the inner cavity of the linkage cavity 28, a driven gear 36 is fixedly mounted on the upper end surface of the penetrating shaft 34, the driven gear 36 is hinged with, the lower end face of the penetrating shaft 34 is fixedly provided with a driving gear 35, the right wall face of the inner cavity of the processing block 31 is provided with a reel shaft 49 in a rotating mode, the reel shaft 49 is sequentially and fixedly provided with a turntable 53 and a reel shaft 50 from left to right, the reel shaft 50 is fixedly provided with a torsion spring 51 between the inner cavity wall faces of the processing block 31, the reel shaft 50 is connected with the inner cavity wall face of the planting cavity 27 through a stretching wire 52, the left wall face of the inner cavity of the processing block 31 is fixedly provided with an inserting shaft 47 in an up-and-down symmetrical mode, the inserting shaft 47 is provided with a hollow sharp rod 48 in a sliding mode, the left wall face of the inner cavity of the processing block 31 is provided with a T-shaped rack 54 in a sliding mode, the upper end face and the lower end face of the T-shaped rack 54 are respectively hinged with two hollow sharp rods 48 through splicing rods 57, the turntable 53 is hinged with a fixed mounting belt 58 between the T-, the steering wheel 55 is hinged with the hollow sharp rod 48 through a steering rod 56, and the steering wheel 55 is meshed with the T-shaped rack 54.

Advantageously, a power storage torsion spring 64 is fixedly installed between the transfer turntable 40 and the lower wall surface of the inner cavity of the interlocking cavity 28.

Advantageously, the spraying pipe 46 is fixedly arranged on the inner cavity wall surface of the planting cavity 27.

Advantageously, a storage cavity 29 is arranged at the left side of the planting cavity 27, the left wall surface of the inner cavity of the storage cavity 29 is provided with a heat absorbing plate 43, a water pump 44 is fixedly arranged on the lower wall surface of the inner cavity of the storage cavity 29, and the water pump 44 is connected with the spraying pipe 46 through a conveying pipe 45.

Beneficially, rotation shaft 17 is rotatably installed on the lower wall surface of the inner cavity of power groove 12, cam 20 and rotary gear 19 are fixedly installed on rotation shaft 17 from bottom to top in sequence, upper and lower sliding grooves 21 are formed in the left wall surface of the inner cavity of power groove 12, upper and lower sliding blocks 22 are slidably installed in upper and lower sliding grooves 21, upper and lower springs 23 are fixedly installed between the lower end surfaces of upper and lower sliding blocks 22 and the lower wall surface of the inner cavity of upper and lower sliding grooves 21, inclined plates 24 are fixedly installed on the right end surfaces of upper and lower sliding blocks 22, circular racks 25 are fixedly installed on the upper end surfaces of upper and lower sliding blocks 22, circular racks 25 are meshed with driving gear 35, power motor gear 16 is fixedly installed on power motor shaft 15, and power motor gear 16.

Sequence of mechanical actions of the whole device:

1. planting flowers in an inner cavity of a planting cavity 27, starting a power motor 14, driving a working box 13 to rotate by the power motor 14 through a power motor shaft 15, driving a driving gear 35 to be meshed with a circular rack 25 while the working box 13 rotates around the power motor shaft 15, further driving the driving gear 35 to rotate, driving a driven gear 36 to rotate through a through shaft 34 by the driving gear 35, further enabling a reset torsion spring 42 to slowly accumulate force, driving a pushing plate 33 to move leftwards in a left sliding groove 32 and a right sliding groove 32 by the driven gear 36 through a pushing rod 37, pushing a driven slide block 38 to move leftwards in an inner sliding groove 59, driving a transfer turntable 40 through a connecting rod 39, enabling a power accumulation torsion spring 64 to accumulate force by the transfer turntable 40, driving an arc plate 30 to open through a turning rod 41, driving a power motor gear 16 to rotate while the power motor shaft 15 rotates, and driving a rotating, the rotary gear 19 drives the cam 20 to rotate through the rotary shaft 17, the cam 20 drives the upper and lower sliding blocks 22 to move upwards in the upper and lower sliding grooves 21 through the inclined plate 24, the upper and lower sliding blocks 22 drive the circular rack 25 to move upwards to separate the circular rack 25 from the driving gear 35, meanwhile, the reset torsion spring 42 rotates to drive the driven gear 36 to rotate mutually, the driven gear 36 further drives the pushing plate 33 to move rightwards in the left and right sliding grooves 32 through the pushing rod 37, the power storage torsion spring 64 rotates to drive the arc plate 30 to move towards the middle through the turning rod 41 to extrude soil, meanwhile, when the arc plate 30 moves, the tensile wire 52 pulls the wire shaft 50 to rotate to drive the wire shaft 49 to rotate, the wire shaft 49 drives the turntable 53, the turntable 53 drives the T-shaped rack 54 to move through the driving rod 58, so that the inserting shaft 47 moves in the hollow sharp rod 48, and the T-shaped rack 54 drives the steering wheel, the steering wheel 55 drives the hollow sharp rod 48 to rotate through the steering rod 56, so that soil loosening is facilitated to be detected through the hollow sharp rod 48, and the oxygen content of soil can be increased, because the power groove 12 is rotated, soil in different directions is irradiated by different sunlight forces, so that the soil hardness is different due to different moisture content in the soil in different positions, so that the moving speed of the circular arc plate 30 is different, when the soil is wet, the moving speed of the circular arc plate 30 is high, otherwise, the speed is low, the circular arc plate 30 drives the semicircular plate 65 to slide in the inclined sliding groove 74 through the measuring rod 78, because the speed of the semicircular plate 65 is different, the semicircular plate 65 with high speed drives the central gear 68 to rotate through the rack 66, the central gear 68 drives the outer rod 70 to move downwards through the pulling rod 69, and the outer rod 70 drives the inner rod 71 to move downwards through the connecting spring 72, insert the slow draw-in groove 73 of speed with inside pole 71, and then the semicircle board 65 that is slow drives pressure rod 62 and moves right, and pressure rod 62 passes through pressure spring 63 extrusion pressure sensor 61, according to pressure sensor 61's data, we can detect the most serious place of lack of water in soil like this, and when the most serious place lack of water is watered, sunlight shines absorber plate 43, absorber plate 43 carries out the appropriate messenger to store the chamber 29 of water in the chamber 29 and heats it and make its fermentation, starts water pump 44, and water pump 44 makes water spout from spray tube 46 through transport pipe 45.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a device that control was watered according to hardness of soil, includes work base, its characterized in that: the automatic detection device is characterized in that a power groove is formed in the working base, a power motor is fixedly installed on the lower wall surface of an inner cavity of the power groove, a power motor shaft is rotatably installed on the upper end surface of the power motor, a working box is fixedly installed on the upper end surface of the power motor shaft, a planting cavity is arranged in the working box, a linkage cavity is arranged on the right side of the planting cavity, an arc plate is rotatably installed in the front and back of the right wall surface of the inner cavity of the planting cavity in a hinged mode, a processing block is fixedly installed on the arc plate, a detection groove is formed in the right wall surface of the inner cavity of the planting cavity, a pressure sensor is fixedly installed on the right wall surface of the inner cavity of the detection groove, a pressure rod is slidably installed in the inner cavity of the detection groove, a pressure spring is fixedly installed between the pressure rod and the pressure sensor, The pressure rod is internally provided with two control cavities, the rear wall surface of the inner cavity of the control cavity is rotatably provided with a central shaft, the front end surface of the central shaft is fixedly provided with a central gear, the rear wall surface of the inner cavity of the control cavity is slidably provided with an outer rod, the inner cavity of the outer rod is slidably provided with an inner rod, the inner rod and the wall surface of the inner cavity of the outer rod are fixedly provided with a connecting spring, the central gear is hinged with the outer rod through a pulling rod, the rear wall surface of the inner cavity of the control cavity is fixedly provided with a convex disc, the central shaft is fixedly provided with a shifting sheet shaft, the convex disc is sleeved on the shifting sheet shaft, the semicircular plate is hinged with the arc plate through a measuring rod, the front wall surface and the rear wall surface of the lower cavity of the linkage cavity are rotatably provided with a transition turntable through hinges, the transition turntable is hinged with the arc plate through a turnover rod, a pushing plate is slidably mounted in the left and right sliding grooves, inner sliding grooves are symmetrically arranged in front and back of the lower wall surfaces of the inner cavities of the left and right sliding grooves, a driven slider is slidably mounted in each inner sliding groove, the driven slider is hinged with the transfer turntable through a connecting rod, a through shaft is rotatably mounted on the lower wall surfaces of the inner cavities of the linkage cavities, a driven gear is fixedly mounted on the upper end surface of the through shaft, the driven gear is hinged with the pushing plate through a pushing rod, the lower end surface of the through shaft extends to the lower end surface of the working box, a driving gear is fixedly mounted on the lower end surface of the through shaft, a line shaft is rotatably mounted on the right wall surface of the inner cavity of the processing block, the turntable and the line shaft are fixedly mounted on the line shaft from left to right in sequence, a torsion spring is fixedly mounted between the line shaft and the inner cavity wall surface of the processing block, the processing block inner chamber left wall face longitudinal symmetry fixed mounting inserts the axle, insert the hollow sharp-pointed pole of epaxial slidable mounting, slidable mounting T type rack on the processing block inner chamber left wall face, terminal surface is respectively through splice bar and two about the T type rack hollow sharp-pointed pole articulates the connection, the carousel with fixed mounting takes the pole to articulate between the T type rack and connects, processing block inner chamber left wall face longitudinal symmetry is through articulated rotation installation steering wheel, the steering wheel pass through the steering wheel with hollow sharp-pointed pole articulates the connection, the steering wheel with T type rack meshing.

2. An apparatus for controlling watering according to hardness of soil according to claim 1, wherein: and a power storage torsion spring is fixedly arranged between the transfer turntable and the lower wall surface of the cavity in the linkage cavity.

3. An apparatus for controlling watering according to hardness of soil according to claim 1, wherein: and a spraying pipe is fixedly arranged on the inner wall surface of the planting cavity.

4. An apparatus for controlling watering according to hardness of soil according to claim 1, wherein: the planting device is characterized in that a storage cavity is arranged on the left side of the planting cavity, a heat absorbing plate is arranged on the left wall surface of the inner cavity of the storage cavity, a water pump is fixedly installed on the lower wall surface of the inner cavity of the storage cavity, and the water pump is connected with the spraying pipes through a conveying pipe.

5. An apparatus for controlling watering according to hardness of soil according to claim 1, wherein: the wall rotates installation rotation axis under the power groove inner chamber, supreme fixed mounting cam, rotatory gear in proper order down on the rotation axis, be equipped with upper and lower spout on the wall of power groove inner chamber left side, sliding mounting upper and lower slider in the spout from top to bottom, under the upper and lower slider terminal surface with fixed mounting upper and lower spring between the wall under the upper and lower spout inner chamber, upper and lower slider right-hand member face fixed mounting hang plate, the circular rack of upper and lower slider up end fixed mounting, circular rack with the driving gear meshing, the last fixed mounting motor gear of motor shaft, the motor gear with rotatory gear meshing.

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