CN214015361U - Intelligent flower nursery - Google Patents
Intelligent flower nursery Download PDFInfo
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- CN214015361U CN214015361U CN202022607405.5U CN202022607405U CN214015361U CN 214015361 U CN214015361 U CN 214015361U CN 202022607405 U CN202022607405 U CN 202022607405U CN 214015361 U CN214015361 U CN 214015361U
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- Cultivation Receptacles Or Flower-Pots, Or Pots For Seedlings (AREA)
Abstract
The utility model relates to an intelligence flower nursery, include: a slide bar assembly; the slide rod assembly is connected with the pouring assembly in a sliding manner and supports the pouring assembly; the two ends of the irrigation component are connected with the driving component, and the driving component works to drive the irrigation component to slide along the sliding rod component; the water outlet of the irrigation assembly faces the upper part of the box body assembly, the driving assembly is fixedly arranged at the top of the box body assembly, and the box body assembly is opened towards the top of the irrigation assembly; the water outlet of the water supply assembly is communicated with the water inlet of the irrigation assembly; the utility model discloses an intelligence flower nursery volume is less, is suitable for the indoor culture plant, and when the drive assembly during operation drive watering subassembly and slide on slide bar assembly, the water supply subassembly provides power, and water flows to the water inlet of watering subassembly from the water supply subassembly to spout on the plant in the box subassembly through the delivery port of watering subassembly.
Description
Technical Field
The utility model relates to a flower nursery planting technical field especially relates to an intelligence flower nursery.
Background
With the continuous progress and development of society, the living standard of people is continuously improved, people no longer meet the simple life of living and having the people, and how to really improve the quality of life makes the leap of the quality of life become the thinking problem of most urban residents. The household planting method has the advantages that the cost is low, and the household planting difficulty is small, so that the selection of most residents is formed. Plants on the balcony purify the air at home; relieving the psychological pressure brought to the user by busy work; the children growing in the city have basic knowledge about the agriculture and the plant … … and the good living environment provided by the family planting enables the residents to really realize the happiness brought by 'returning to the nature and the green life'.
However, nowadays, there are many reasons for the failure of plant cultivation in families, which affects the experience of residents and increases the frustration of residents. The family planting is mostly carried out indoors, in addition, the too fast city life rhythm often needs busy work of overtime business trip, so that people can not pay attention to own plants in a perfect way, the people are difficult to insist on taking care of the plants, the people are difficult to light and water a flower garden according to factors such as actual climate, plant habits and the like due to unfamiliarity with plant cultivation knowledge, and the planting is extremely unfavorable for the growth of the plants.
The common tools for household planting are various, wherein a watering can for watering is small in water yield, time and labor are consumed, and the phenomenon that water supply is insufficient at the root of a plant can be caused because the surface of soil can only be wetted frequently when residents with insufficient experience plant. The watering pot has excessive water, large area of accumulated water near the plants is caused, and a large amount of water resources flow out of the pot bottom through soil, which is very waste. And water drops are easy to be left on the leaves, the water drops are easy to be sunburned by sunlight in the daytime, and the water drops are difficult to evaporate at lower temperature at night to cause the leaves to rot, so that plant diseases and insect pests are induced. And the flowerpot fixed at the same position for a long time is difficult to make the plant receive proper illumination.
The current technological level makes numerous and unsmooth intelligent planting tools appear at home and abroad, wherein the high price is the main reason of low popularization rate. And the intelligent flowerpots are generally small in size, only one plant can be planted, and the user can hardly experience green life. Most intelligent flowerpots also cannot move, so that the illumination of plants is limited. Most of the semi-automatic irrigation devices in the market are 360-degree rotary nozzles, the semi-automatic irrigation devices are widely used for planting large-area plants, the on-off of a water source needs to be manually controlled, and the semi-automatic irrigation devices are difficult to apply to family planting due to large water consumption. Few manufacturers also produce a timed irrigation system, which provides a simple intelligent irrigation method but has the disadvantages of high power consumption, non-adjustable water amount and the like. Most of the plants are watered continuously by using a siphon principle, namely, the water is watered in an infiltration mode, a special watering scheme is customized for different types of plants due to the lack of a database, the optimum growing environment can not be provided for the plants, and a large amount of water resources are wasted. In the face of these problems, it is difficult to make these products stand on the market for a long time.
The invention patent application with the application number of 'CN 201810397036.6' discloses an intelligent garden watering device for gardens, including watering machine main part, connecting hole, place board, joint and controller, the upper end fixedly connected with water spray disc of watering machine main part, and the lower extreme swing joint of water spray disc has the shrink tube, the fixed fixedly connected with base of lower extreme of shrink tube, one side of watering machine main part is provided with the water pipe, and is provided with the valve between water pipe and the shrink tube, one side of valve is provided with the rubber buffer, one side of water pipe is through connecting hole and handheld water pipe fixed connection, the top of handheld water pipe is provided with the shower nozzle, and the surface of shower nozzle is provided with the nozzle. The device that waters in this patent scheme is mainly for being applicable to in the gardens large tracts of land and waters, and the water economy resource that can not be fine, and the application scene receives the restriction.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that overcome current indoor planting plant need the problem that the manual work was watered and wasted water resource.
The utility model discloses a following technical means realizes solving above-mentioned technical problem:
an intelligent flower nursery comprising:
a slide bar assembly;
the slide rod assembly is connected with the pouring assembly in a sliding manner and supports the pouring assembly;
the two ends of the irrigation component are connected with the driving component, and the driving component works to drive the irrigation component to slide along the sliding rod component;
the water outlet of the irrigation assembly faces the upper part of the box body assembly, the driving assembly is fixedly arranged at the top of the box body assembly, and the box body assembly is opened towards the top of the irrigation assembly;
the water outlet of the water supply assembly is communicated with the water inlet of the irrigation assembly;
when the driving assembly works, the irrigation assembly is driven to slide on the sliding rod assembly, the water supply assembly provides power, and water flows to the water inlet of the irrigation assembly from the water supply assembly and is sprayed to plants in the box body assembly through the water outlet of the irrigation assembly.
As a further aspect of the present invention: the utility model discloses a watering subassembly, including the slider, the slider is connected with the slide bar subassembly, the output shaft of first motor passes through shaft coupling and screw rod fixed connection, the support piece is connected with the support piece screw thread, the watering subassembly includes slider, connecting rod, first mounting bracket, first motor, shaft coupling, watering ware, screw rod, support piece, wherein, slider and slide bar subassembly sliding connection, the top and the first mounting bracket fixed connection of slider, the side that the slider is close to watering ware passes through bearing fixedly connected with connecting rod, the slider passes through the connecting rod and moves with the drive assembly cooperation, the bottom and the first motor fixed connection of first mounting bracket, the output shaft of first motor passes through shaft coupling and screw rod fixed connection, the below of screw rod run through support piece and support piece threaded connection, the last support through-hole that has seted up of support piece, support piece passes through support through-hole and watering ware fixed connection, support piece and first mounting bracket bottom sliding connection.
As a further aspect of the present invention: a plurality of sliding holes are formed in the sliding block, and the sliding holes are matched with the sliding rod assemblies to accommodate the sliding rod assemblies to penetrate through.
As a further aspect of the present invention: the watering device comprises a watering inclined nozzle, a watering inlet pipeline, a connecting pipe, a conical pipe and a watering device, wherein the watering inclined nozzle is connected with the watering inlet pipeline and the connecting pipe from top to bottom into a whole, the side surface of the connecting pipe is provided with the watering inclined nozzle, and the outer diameter of the connecting pipe is larger than the supporting through hole.
As a further aspect of the present invention: the supporting piece comprises a second transverse plate and a second longitudinal plate, the second transverse plate and the second longitudinal plate are fixedly connected into a whole, a supporting through hole is formed in the second transverse plate, a sliding groove for allowing the first longitudinal plate to pass through is formed in the second longitudinal plate, and the first longitudinal plate slides relative to the second longitudinal plate; the top of the second transverse plate is fixedly provided with a gasket, the gasket is provided with a screw hole matched with the screw rod, and the screw rod penetrates through the screw hole and is matched with the naked eye to enable the gasket to move relative to the screw rod.
As a further aspect of the present invention: the driving assembly comprises a second motor, a fixed seat, a belt fixed block, a first rotating rod, a first belt, a second belt and a second rotating rod;
the output shaft of the second motor penetrates through the sliding block to be fixedly connected with the first rotating rod, the number of the fixed seats is two, the fixed seats are provided with inserting holes matched with the first sliding rod, the two fixed seats are respectively connected with two ends of the first sliding rod through the inserting holes and support the first sliding rod, and the fixed seats are fixedly connected with the top of the side wall of the box body assembly;
a belt fixing block is fixedly arranged above the side face of the fixing seat, the two belt fixing blocks are connected through a first belt, and the first belt is positioned right above the second belt;
in two fixing bases, be provided with first dwang with second motor fixed connection's fixing base on, first dwang with the output shaft fixed connection of second motor, the second dwang passes through the bearing and is connected with another one fixing base rotation, first dwang, second dwang are fixed respectively and are provided with first track gyro wheel, second track gyro wheel, link together through the second belt between first track gyro wheel, the second track gyro wheel, the top and the bottom of second belt are laminated, the bottom of first belt is laminated with the top of connecting rod mutually. .
As a further aspect of the present invention: the box body assembly comprises a first box body and a second box body, wherein the first box body is placed on the second box body, a driving assembly is fixedly connected to the side wall of the first box body, the first box body is of a box body structure with an internal cavity and an open top, and a water supply assembly is placed inside the second box body of the box body.
As a further aspect of the present invention: the water supply assembly comprises a water tank, a water pipe and a water pump, wherein the water tank is placed at the bottom of the second box body, a water inlet of the water pump is connected with the inside of the water tank through a pipeline, a water outlet of the water pump is communicated with a water inlet of the water pipe, and the other end of the water pipe penetrates through the second box body and is communicated with a water inlet of the irrigator.
As a further aspect of the present invention:
the lifting device is characterized by further comprising a lifting assembly, the lower end of the lifting assembly is fixedly arranged inside the second box body, the upper end of the lifting assembly is hinged to the bottom of the first box body, and the lifting assembly drives the first box body to move up and down in a working mode.
As a further aspect of the present invention: the slide bar assembly comprises a first slide bar, wherein the first slide bar is in sliding connection with the irrigation assembly, and the driving assembly is fixedly connected with the first slide bar to support the first slide bar.
The utility model has the advantages that:
1. the utility model discloses an intelligence flower nursery volume is less, can be applicable to indoor planting, and slide on slide bar assembly when the drive assembly during operation drive watering subassembly, water supply assembly provides power, water flows to the water inlet of watering subassembly from water supply assembly, and spout on the plant in the box subassembly through the delivery port of watering subassembly, realize automatic watering to the plant, it is very convenient to use manpower sparingly, and with the mode of the continuous incessant watering of current hydrocone type, the watering subassembly does not need to incessant watering in succession, thereby save the water resource.
2. The utility model discloses an in the intelligence flower nursery, first motor work drive screw rotates, and the screw rod inserts in the screw, and the inside internal thread that is provided with of screw, and the internal thread cooperatees with the screw rod, makes the gasket screw rod relatively reciprocate, and then drives support piece up-and-down motion, and the spout that holds first longitudinal plate and pass is seted up to the second longitudinal plate, and first longitudinal plate can slide from top to bottom by the relative second longitudinal plate, realizes adjusting the watering subassembly from top to bottom like this.
When the second motor works, the second belt is driven to rotate, the second belt can drive relative movement when rotating and drives the second belt to slide on the first sliding rod, so that the irrigation component slides, the irrigation component works, the rotation is driven, the support piece moves relative to the screw rod through rotation, the height of the irrigation device is adjusted up and down, and water is better sprayed onto plants;
3. the utility model discloses an in the intelligence flower nursery, the water tank is placed in the bottom of second box, and the water inlet of water pump passes through the pipeline and links to each other with the water tank is inside, and the delivery port of water pump is linked together with the water inlet of water pipe, and the other end of water pipe runs through the water inlet that the second box was linked together with the watering ware, and water pump work transports water from the water tank to watering ware department, realizes the watering to the plant.
4. In the control system of the utility model, the microcomputer obtains the data of all directions luminous intensity to average, compares the vertical luminous intensity of all directions with the range value preset in the microcomputer, the range value includes minimum threshold value and maximum threshold value, judges the luminous intensity, if less than the minimum threshold value in the range value, sends corresponding control signal to the lifting component of the direction, controls the lifting component to lift; if the maximum threshold value is larger than the maximum threshold value in the range value, a control signal is sent to the lifting assembly in the direction to enable the lifting assembly to descend, and if the maximum threshold value is within the range value, a control instruction is not sent, so that the angle and the height of the first box body are automatically adjusted to adapt to illumination adjustment.
5. The utility model discloses in still be provided with the camera, the customer can long-rangely know the growth condition of plant through the camera.
6. The utility model discloses the volume is less, and it is great to occupy the sky, can prevent better on the family balcony.
Drawings
Fig. 1 is a schematic structural diagram of an intelligent flower nursery provided in embodiment 1 of the present invention in a first state.
Fig. 2 is a schematic view of a three-dimensional structure of an intelligent flower nursery provided in embodiment 1 of the present invention.
Fig. 3 is a schematic structural diagram of the intelligent flower nursery provided in embodiment 1 in the second state.
Fig. 4 is a schematic perspective view of the intelligent flower nursery provided by the present invention, wherein the irrigation assembly is matched with the driving assembly in the intelligent flower nursery.
Fig. 5 is a schematic perspective view of an intelligent flower nursery irrigation assembly provided in embodiment 1 of the present invention.
Fig. 6 is a perspective view of an irrigation device in an irrigation assembly according to example 1 of the present invention.
Fig. 7 is a schematic structural diagram of the lifting assembly 6 in the intelligent flower nursery provided in embodiment 1 of the present invention.
Fig. 8 is a schematic circuit diagram illustrating a temperature sensor monitoring temperature in the intelligent flower nursery control system according to embodiment 1 of the present invention.
Fig. 9 is a schematic structural diagram of an intelligent flower nursery control system provided in embodiment 2 of the present invention.
In the figure, 1, a sliding rod component; 11. a first slide bar; 12. a second slide bar;
2. a watering assembly; 21. a slider; slide hole 211 a slide hole; 22. a connecting rod; 23. a first mounting bracket; 231. an L plate; 232. a first transverse plate; 233. a first longitudinal plate;
24. a first motor; 25. a coupling; 26. a watering device; 261. pouring an inclined nozzle; 262. irrigating an inlet pipeline; 263. a connecting pipe; 264. a tapered tube;
27. a screw; 271. a gasket; 28. a support member; 281. a second transverse plate; 282. a second longitudinal plate;
3. a drive assembly; 31. a second motor; 32. a fixed seat; 33. a belt fixing block; 34. a first rotating lever; 35. a first belt; 36. a second belt; 37. second rotating rod
4. A case assembly; 41. a first case; 411. a partition plate; 42. a second case; 421. a closing door; 422. a display;
5. a water supply assembly; 51. a water tank; 52. a water pipe;
6. a lifting assembly; 61. a third motor 62, a spiral rotating shaft; 63. a fixed block; 64. bevel gear 65, push rod;
71. a temperature sensor; 72. a humidity sensor; 73. a photosensitive sensor; 74. a satellite computer; 75. a cloud database; 76. and (6) a mobile terminal APP.
Detailed Description
To make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the embodiments of the present invention are combined to clearly and completely describe the technical solution in the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
Example 1
Fig. 1 is a schematic structural diagram of an intelligent flower garden provided by an embodiment 1 of the present invention in a first state, fig. 2 is a schematic structural diagram of an intelligent flower garden provided by an embodiment 1 of the present invention in a three-dimensional manner, fig. 3 is a schematic structural diagram of an intelligent flower garden provided by an embodiment 1 of the present invention in a second state, referring to fig. 1-3, an intelligent flower garden includes a slide bar assembly 1, a watering assembly 2, a driving assembly 3, a box assembly 4, and a water supply assembly 5; wherein:
the slide bar assembly 1 is connected with the irrigation assembly 2 in a sliding mode and supports the irrigation assembly 2, a water outlet of the irrigation assembly 2 faces the upper portion of the box body assembly 4, two ends of the irrigation assembly 2 are connected with the driving assembly 3, the driving assembly 3 works to drive the irrigation assembly 2 to slide along the slide bar assembly 1, the driving assembly 3 is fixedly arranged at the top of the box body assembly 4, and the box body assembly 4 is open towards the top of the irrigation assembly 2;
the water outlet of the water supply assembly 5 is communicated with the water inlet of the irrigation assembly 2;
when the driving assembly 3 works, the watering assembly 2 is driven to slide on the slide bar assembly 1, the water supply assembly 5 provides power, water flows to the water inlet of the watering assembly 2 from the water supply assembly 5 and is sprayed to plants in the box body assembly 4 through the water outlet of the watering assembly 2, automatic watering of the plants is achieved, labor is saved, and the automatic watering device is very convenient to use, is different from an existing siphon type continuous watering mode, and can better save water resources.
Further, referring to fig. 4, fig. 4 is a perspective view illustrating a combined irrigation assembly and a driving assembly in an intelligent flower nursery provided in embodiment 1 of the present invention, the sliding rod assembly 1 includes a first sliding rod 11, wherein the first sliding rod 11 is slidably connected to the irrigation assembly 2, and the driving assembly 3 is fixedly connected to the first sliding rod 11 to support the first sliding rod 11.
With the above, the driving unit 3 supports the first slide bar 11, and the first slide bar 11 penetrates through the slide hole 211 formed on the pouring unit 2, so that the pouring unit 2 slides on the first slide bar 11.
In order to ensure the stability of the irrigation assembly 2 during the sliding process, in the embodiment of the present disclosure, the slide bar assembly 1 further includes a second slide bar 12, the size and shape of the first slide bar 11 and the second slide bar 12 may be the same, in this case, the number of the slide holes 211 is two, and the first slide bar 11 and the second slide bar 12 penetrate through the two slide holes 211 in the irrigation assembly 2, so as to support the irrigation assembly 2 to slide on the first slide bar 11 and the second slide bar 12.
Referring to fig. 4 and 5, fig. 5 is a schematic perspective view of an irrigation assembly in an intelligent flower nursery provided in embodiment 1 of the present invention, where the irrigation assembly 2 includes a slider 21, a connecting rod 22, a first mounting frame 23, a first motor 24, a coupler 25, an irrigation device 26, a screw 27, and a support 28, where the slider 21 is configured to be slidably connected to an external sliding support, a top of the slider 21 is fixedly connected to the first mounting frame 23, a side of the slider 21 close to the irrigation device 26 is fixedly connected to the connecting rod 22 through a bearing, the slider 21 is configured to move by matching with the driving assembly 3 through the connecting rod 22, a bottom of the first mounting frame 23 is fixedly connected to the first motor 24 through a bolt, an output shaft of the first motor 24 is fixedly connected to the screw 27 through the coupler 25, a lower portion of the screw 27 penetrates through the support 28 and is in threaded connection with the support 28, the supporting member 28 is provided with a supporting through hole, the supporting member 28 is fixedly connected with the watering device 26 through the supporting through hole, and the supporting member 28 is slidably connected with the bottom of the first mounting frame 23.
Further, in the embodiment of the present disclosure, the sliding block 21 is provided with a plurality of sliding holes 211, preferably two sliding holes 211, and the sliding holes 211 are used for accommodating the first sliding rod 11 to pass through, so as to slide on the first sliding rod 11.
For a more detailed description of the first mounting frame 23, referring to the drawings, the first mounting frame 23 includes an L-plate 231, a first transverse plate 232, and a first longitudinal plate 233.
The side surface of the lateral portion of the L-shaped plate 231, which is close to the supporting member 28, is fixedly connected with the first motor 24 through bolts or screws, the longitudinal portion of the L-shaped plate 231 is connected with the lower end of the L-shaped plate 232 and the first longitudinal plate 233 into a whole, an included angle is formed between the first lateral plate 232 and the first longitudinal plate 233, the included angle can be selected according to actual conditions, preferably 90 degrees, and the slider 21 is fixed below the first lateral plate 232 through bolts or screws or welding.
Referring to fig. 6, fig. 6 is a schematic perspective view of an irrigation device in an irrigation assembly according to embodiment 1 of the present invention, the irrigation device 26 includes an oblique irrigation nozzle 261, an irrigation inlet pipe 262, a connecting pipe 263 and a tapered pipe 264, wherein the oblique irrigation nozzle 261, the irrigation inlet pipe 262 and the connecting pipe 263 are integrally connected from top to bottom, the oblique irrigation nozzle 261 is disposed on a side of the connecting pipe 263, an included angle between an injection direction of the oblique irrigation nozzle 261 and a horizontal plane is positive 30-60 degrees, preferably positive 45 degrees, and an outer diameter of the connecting pipe 263 is greater than a support through hole.
The water can be sprayed out from the inclined irrigation nozzle 261 and the conical pipe 264, and a plurality of through holes are formed around the conical pipe 264, so that a larger irrigation range can be realized.
Furthermore, the water outlet directions of the inclined irrigation nozzle 261 and the conical pipe 264 can be sealed and provided with a fixing sheet which is integrally connected, and the fixing sheet can be provided with a plurality of spraying holes, so that water atomization can be realized, and water resources can be saved better.
Referring to fig. 5, the supporting member 28 includes a second transverse plate 281 and a second longitudinal plate 282.
The second transverse plate 281 and the second longitudinal plate 282 are fixedly connected as a whole, for example, connected as a whole by welding, the second transverse plate 281 is provided with a supporting through hole for accommodating the watering device 26, the second longitudinal plate 282 is provided with a sliding slot for accommodating the first longitudinal plate 233, and the first longitudinal plate 233 can slide up and down relative to the second longitudinal plate 282.
To better describe the connection manner between the screw 27 and the second horizontal plate 281, specifically, referring to fig. 4, a gasket 271 is fixedly disposed on the top of the second horizontal plate 281 through bolts, the gasket includes a protrusion, the protrusion penetrates through the second horizontal plate 281, the gasket 271 is disposed between the second horizontal plate 281 and the watering device 26, a screw hole matched with the screw 27 is formed in the gasket 271 along the longitudinal direction of the protrusion, an internal thread is disposed inside the screw hole, the screw 27 is inserted into the screw hole, and the internal thread is matched with the screw 27, so that the gasket 271 can move up and down relative to the screw 27.
The first motor 24 drives the screw 27 to rotate, the screw 27 is inserted into a screw hole, an internal thread is arranged inside the screw hole and is matched with the screw 27, so that the gasket 271 can move up and down relative to the screw 27, the supporting piece 28 is driven to move up and down, the second longitudinal plate 282 is provided with a sliding groove for accommodating the first longitudinal plate 233 to pass through, and the first longitudinal plate 233 can slide up and down relative to the second longitudinal plate 282, so that the irrigation component 26 can be adjusted up and down.
The driving assembly 3 comprises a second motor 31, a fixed seat 32, a belt fixing block 33, a first rotating rod 34, a first belt 35, a second belt 36 and a second rotating rod 37.
The output shaft of the second motor 31 penetrates through 21 and is fixedly connected with the first rotating rod 34, the number of the fixing seats 32 is two, the fixing seats 32 are provided with inserting holes matched with the first sliding rod 11 and the second sliding rod 12, the two fixing seats 32 are respectively connected with two ends of the first sliding rod 11 and the second sliding rod 12 through the inserting holes and play a role in supporting the first sliding rod 11 and the second sliding rod 12, and the fixing seats 32 are fixedly connected with the top of the side wall of the box body component 4 through bolts or screws or welding and the like.
A belt fixing block 33 is fixedly arranged above the side face of the fixing seat 32 through a bolt, the belt fixing block 33 is positioned above the first rotating rod 34, the two belt fixing blocks 33 are connected through a first belt 35, the first belt 35 is positioned right above the second belt 36, a first rotating rod 34 is arranged on the fixing seat 32 fixedly connected with the second motor 31 in the two fixing seats 32, one end of the first rotating rod 34 is fixedly connected with an output shaft of the second motor 31, and the other end of the first rotating rod 34 is fixedly connected with a first track roller;
the second dwang 37 is connected with another fixing base 32 through the rotation of bearing (can understand, the bearing passes through modes such as bolt and this fixing base 32 fixed neighbour), the one end fixedly connected with second track gyro wheel of this bearing is kept away from to first dwang 34, links together through second belt 36 between first track gyro wheel, the second track gyro wheel, the top and the 22 bottom laminating of second belt 36, the bottom of first belt 35 and the top of connecting rod 22 are laminated mutually.
In the above, when the second motor 31 is operated to rotate the second belt 36, the second belt 36 can be rotated to move the second belt 22 relatively and drive the second belt 21 to slide on the first slide bar 11, so that the irrigation assembly 2 slides, and the second belt 23 on the irrigation assembly 2 is operated, and the drive 25 rotates and drives the support 28 to move relative to the screw 27, so that the height of the irrigation device 26 can be adjusted up and down, and water can be sprayed onto the plants better.
As an embodiment of the present disclosure, the box assembly 4 includes a first box 41 and a second box 42, wherein the first box 41 is placed on the second box 42, the first box 41 is a box structure with an open top of an internal cavity, soil is placed inside the first box 41 and is used for cultivating plants, a plurality of slidable partition plates 411 are further disposed inside the first box 41, the length of each partition plate 411 is the same as the width or length of the first box 41, and a side surface of the partition plate 411 with the smallest two areas is in close contact with a symmetrical inner side surface of the first box 41.
Specifically, the number of the partitions 411 is preferably four.
The two side walls of the first box 41 are fixedly connected with the two fixing seats 32 closest to the front end (or closest to the rear end) through bolts, so as to support the driving assembly 3, because if the two fixing seats are arranged at the middle, the upward growth of plants can be influenced.
The second box body 42 is a box body structure with an open top of an internal cavity, the water supply assembly 5 is placed inside the second box body 42, the side surface of the second box body 42 is hinged with a closed door 421 through a hinge, a door handle can be fixed on the closed door 421 through welding or bolts or screws, water can be supplemented to the water supply assembly 5 inside the second box body 42 by opening the closed door 421, and the side surface of the second box body 42 is further provided with a display 422 for displaying temperature, humidity and the like.
Referring to fig. 3, in the embodiment of the present disclosure, the water supply assembly 5 includes a water tank 51, a water pipe 52, and a water pump (not shown in the figure), wherein the water tank 51 is disposed at the bottom of the second box 42, a water inlet of the water pump is connected to the inside of the water tank 51 through a pipeline, a water outlet of the water pump is communicated with a water inlet of the water pipe 52, and another end of the water pipe 52 penetrates through the second box 42 and is communicated with a water inlet of the irrigator 26.
It is understood that the number of the water tanks 51 in the embodiment of the present disclosure may be selected according to practical requirements, for example, two water tanks are preferred, and the water pump may be fixed to the side wall of the second tank 42 or the bottom of the second tank 42 or the side wall of the water tank 51 by bolts, the water inlet of the water pump is connected to a pipeline, the pipeline is connected to the lower part of the inside of the two water tanks 51 by two branch pipelines, the water outlet of the water pump is connected to one end of the water pipe 52, and the other end of the water pipe 52 extends through the second tank 42 to the irrigation device 26 and is connected to the water inlet of the irrigation device 26 (i.e., is connected to the irrigation inlet pipeline 262).
The number of the water tanks 51 is increased by the above, thereby increasing the overall weight of the apparatus, which is more stable.
In the practical use process, lighting needs to be considered, and because the time of sun irradiating the balcony is different every day, sometimes the influence of cloudy days or sunny days is also taken into consideration, the embodiment of the disclosure further includes a lifting assembly 6, the lower end of the lifting assembly 6 is fixedly arranged inside the second box body 42 through a bolt, the upper end of the lifting assembly 6 is hinged with the bottom of the first box body 41, and the lifting assembly 6 drives the first box body 41 to move up and down in a working mode, so that the sunlight irradiation can be better received.
Referring to fig. 3 and 7, fig. 7 is a schematic structural diagram of the lifting assembly 6 in the intelligent flower nursery provided in embodiment 1 of the present invention. Lifting unit 6 is the electric push rod, and lifting unit 6 quantity is more than three at least, if for three, two both ends that are located first box 41 long limit, and another one is located the centre on another long limit and forms a triangle-shaped, and fixed can be better stable like this, and for example four again, four lifting unit 6's top is articulated with first box 41 bottom four corners respectively, and every electric push rod rises and can adjust height, the angle of first box 41, conveniently receives illumination.
Illustratively, referring to the figures, the lifting assembly 6 includes a third motor 61, a spiral rotating shaft 62, a fixed block 63, a helical gear 64, and a push rod 65, wherein the third motor 61 is fixedly connected to the inner surface of the bottom of the second box 42 through a motor plate, etc., an output shaft of the third motor 61 is fixedly provided with the spiral rotating shaft 62, the fixed block 63 is fixedly arranged at the bottom of the second box 42 through a bolt or a screw, the helical gear 64 is rotatably connected above the fixed block 63, the push rod 65 is fixedly connected to the top of the helical gear 64, and when the third motor 61 rotates, the helical gear 64 is driven to rotate, and the helical gear 64 rotates to drive the push rod 65 to move upward.
Preferably, in the embodiment of the present disclosure, the helical gear 64 is an involute gear, in which case the driving rod 65 is more stable when being lifted or lowered.
The working principle is as follows:
the first motor 24 works to drive the screw 27 to rotate, the screw 27 is inserted into a screw hole, an internal thread is arranged inside the screw hole and is matched with the screw 27, so that the gasket 271 can move up and down relative to the screw 27, the support piece 28 is driven to move up and down, the second longitudinal plate 282 is provided with a sliding groove for accommodating the first longitudinal plate 233 to pass through, and the first longitudinal plate 233 can slide up and down relative to the second longitudinal plate 282, so that the irrigation component 26 can be adjusted up and down;
when the second motor 31 works to drive the second belt 36 to rotate, the second belt 36 can drive the second belt 22 to move relatively when rotating, and the second belt 21 slides on the first slide bar 11, so that the irrigation component 2 slides, and the second belt 23 works on the irrigation component 2, the second belt 25 rotates, and the second belt 25 rotates to drive the support 28 to move relative to the screw 27, so that the height of the irrigation device 26 is adjusted up and down, and water is better sprayed on plants;
the water tank 51 is placed at the bottom of the second box body 42, the water inlet of the water pump is connected with the inside of the water tank 51 through a pipeline, the water outlet of the water pump is communicated with the water inlet of the water pipe 52, the other end of the water pipe 52 penetrates through the second box body 42 to be communicated with the water inlet of the irrigator 26, and the water pump works to convey water from the water tank 51 to the irrigator 26 so as to irrigate plants.
Example 2
In addition, in order to realize intelligent cultivation, in the embodiment of the present disclosure, a control system based on an intelligent flower nursery is further included, referring to fig. 9, fig. 9 is a schematic structural diagram of the intelligent flower nursery control system provided in embodiment 2 of the present invention, the control system includes a temperature sensor 71, a humidity sensor 72, a photosensitive sensor 73, a microcomputer 74, a cloud database 75, and a mobile terminal APP76, the temperature sensor 71 is fixedly connected to a side surface of the second vertical plate 282 through a screw, the humidity sensor 72 needs to be plated with nickel on a surface and then is buried in soil, the number of the photosensitive sensors 73 is several, the photosensitive sensors are respectively and uniformly arranged at the top of the first box 41, the water pump, the temperature sensor 71, the humidity sensor 72, the photosensitive sensor 73, the camera, the first motor 24, the second motor 31, and the third motor 61 are all in communication connection with the microcomputer 74, the microcomputer 74 is in communication connection with a cloud database 75, and the cloud database 75 is in communication connection with a mobile terminal APP 76.
The microcomputer 74 may be provided on a side surface of the second casing 42, or may be installed at another position in the room.
The camera is fixed to the top of the L-shaped plate 231 through bolts.
Through above-mentioned scheme, the user is long-range can look over the situation that the plant was planted in the flower nursery through removing end APP76, and microcomputer 74 adjusts through the air temperature, soil moisture, the sunshine intensity of judging the flower nursery simultaneously, realizes automated management.
The model of the microcomputer 74 may be: RaspberryPi4B from JINLIDA was selected. The control panel is provided with a 1.5GHz64-bit quad-core processor (ARMCortex-A531.5GHz64-bitquad-coreARMv8CPU), can meet the requirement of real-time data processing, is provided with 40 GPIO interfaces in a built-in mode, outputs PWM with multiple paths and high resolution, and is very suitable for controlling an actuating mechanism. The carried 2.4/5.0Ghz double-frequency wireless LAN, Bluetooth 5.0/BLE and true gigabit Ethernet are enough to complete the tasks of data transmission and the like with the cloud database 75. The specific important parameters are as follows: SOC Broadcom BCM2 temperature sensor 71711, CPU 64-bit 1.5GHZ quad (2.8nm technology), GPU Broadcom video CoreVI @500MHz, Bluetooth: bluetooth 5.0, USB interface: USB2.0 × 2/USB3.0 × 2, HDMI: mircoHDMI 2 supports 4K60, power supply interface: type c (5V3A), WiFi network: 802.11AC wireless 2.4Hz/5GHz dual-frequency WiFi, wired network: a true gigabit ethernet.
The temperature sensor 71 is an MLX90614, and the MLX90614 is a non-contact infrared temperature sensor 71 which integrates an infrared detection thermopile chip and a signal processing professional integrated chip. The low noise amplifier, the 17-bit ADC and the strong DSP processing unit are integrated, so that the sensor realizes high-precision and high-resolution measurement. The data interface is digital PWM and SMBus (System management bus) output. As a standard, PWM is ten bits and temperature resolution is 0.1420 ℃. The specific parameters and schematic diagram are as follows: the working environment is as follows: -40 ℃ to +125 ℃, measured target temperature range: -70 ℃ to +380 ℃ and resolution of the measured values: 0.1420 ℃, supply voltage: 5V/3V, sensitivity: 2 KV.
Fig. 8 is a schematic circuit diagram of the temperature sensor monitoring temperature in the intelligent flower nursery control system provided by embodiment 1, the control circuit monitored by the temperature sensor 71 includes: the LED driving circuit comprises a voltage stabilizing circuit, a conducting circuit and a chip U2, wherein the voltage stabilizing circuit comprises a chip U1, a capacitor C1, a capacitor C2, a resistor R1 and an LED; the on-state circuit comprises a resistor R2, a resistor R3, a MOS transistor Q1, a resistor R4, a resistor R5 and a MOS transistor Q2.
The first pin and the third pin of the chip U1 are electrically connected with a power supply VCC, one end of a capacitor C1 is electrically connected with the power supply VCC, the other end of the capacitor C1 is grounded, the second pin of the chip U1 is grounded, the fifth pin of the chip U1 is electrically connected with one end of a resistor R1 and one end of a capacitor C2, the other end of the resistor R1 is electrically connected with the anode of an LED, the cathode of the LED is grounded, and the other end of the capacitor C1 is grounded;
one end of the resistor R2 is electrically connected with a power supply VCC, the other end of the resistor R2 is electrically connected with the drain of the MOS transistor Q1, and the drain of the MOS transistor Q1 is connected with a control chip pin in the microcomputer 74; the source of the MOS tube Q1 is electrically connected with the second pin of the chip U2, the gate of the MOS tube Q1 is electrically connected with the fifth pin of the chip U1, the source of the MOS tube Q1 is electrically connected with one end of the resistor R3, and the gate of the MOS tube Q1 is connected with the other end of the resistor R3;
one end of the resistor R4 is electrically connected with a power supply VCC, the other end of the resistor R4 is electrically connected with the drain of the MOS transistor Q2, and the drain of the MOS transistor Q2 is connected with a control chip pin in the microcomputer 74; the source of the MOS tube Q2 is electrically connected with the first pin of the chip U2, the gate of the MOS tube Q2 is electrically connected with the fifth pin of the chip U1, the source of the MOS tube Q2 is electrically connected with one end of the resistor R5, and the gate of the MOS tube Q2 is connected with the other end of the resistor R5;
the third pin of the chip U2 is electrically connected to the fifth pin of the chip U1, and the 4 th pin of the chip U2 is grounded.
For example, taking the number of the photosensors 73 as three, when it is necessary to determine whether the illumination is satisfied, the steps are:
s1, acquiring data, including magnitude data of light intensity in each direction acquired by a plurality of photosensitive sensors 73, temperature data measured by a temperature sensor 71 and humidity data measured by a humidity sensor 72, and transmitting the data to a microcomputer;
and S2, sending a corresponding control instruction to the lifting component 6 according to the comparison between the acquired data and the preset range value so as to control the lifting component 6 to ascend or descend.
For example: the microcomputer 74 obtains the data of the light intensity in each direction to calculate an average value, compares the light intensity in each direction with a preset range value in the microcomputer 74, wherein the range value comprises a minimum threshold value and a maximum threshold value, judges the light intensity, and sends a corresponding control signal to the lifting assembly 6 in the direction to control the lifting assembly 6 to lift if the light intensity is smaller than the minimum threshold value in the range value; if the maximum threshold value is larger than the maximum threshold value in the range value, sending a control signal to the lifting assembly 6 in the direction to enable the lifting assembly to descend, and if the maximum threshold value is within the range value, not sending a control instruction;
when the ascending distance or the descending distance of the lifting component 6 reaches a limit threshold value, the lifting component stops ascending or descending.
It can be understood that the cloud database 75 stores therein illumination information, moisture information, temperature information, etc. for various plants growing in different seasons and at different ages, the range values are preset, and the maximum threshold and the minimum threshold in the range values are two end values of the range values, which are both preset, and the microcomputer 74 sets the illumination range and the temperature and humidity range most suitable for the growing environment of the corresponding plant, so as to better provide a good growing environment for the plant.
In addition, when the data are obtained from the temperature sensor 71 and the humidity sensor 72 and sent to the microcomputer 74, the microcomputer 74 also performs comparison judgment on the temperature and the humidity to determine whether watering is needed, and if so, controls the first motor 24 in the watering assembly 2 and the second motor 31 in the driving assembly 3 to work to adjust the position of the drip pipe assembly 2, so as to realize watering of the plants.
The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.
Claims (10)
1. An intelligent flower nursery, comprising:
a sliding rod assembly (1);
the slide rod assembly (1) is connected with the pouring assembly (2) in a sliding mode and supports the pouring assembly (2);
the two ends of the irrigation component (2) are connected with the driving component (3), and the driving component (3) works to drive the irrigation component (2) to slide along the sliding rod component (1);
the water outlet of the irrigation component (2) faces the upper side of the box component (4), the driving component (3) is fixedly arranged at the top of the box component (4), and the box component (4) is opened towards the top of the irrigation component (2);
the water outlet of the water supply assembly (5) is communicated with the water inlet of the irrigation assembly (2);
when the driving component (3) works, the irrigation component (2) is driven to slide on the sliding rod component (1), the water supply component (5) provides power, and water flows from the water supply component (5) to the water inlet of the irrigation component (2) and is sprayed onto plants in the box body component (4) through the water outlet of the irrigation component (2).
2. The intelligent flower nursery as claimed in claim 1, wherein the watering assembly (2) comprises a slider (21), a connecting rod (22), a first mounting frame (23), a first motor (24), a coupling (25), a watering device (26), a screw (27) and a support (28), wherein the slider (21) is slidably connected with the sliding rod assembly (1), the top of the slider (21) is fixedly connected with the first mounting frame (23), the side of the slider (21) close to the watering device (26) is fixedly connected with the connecting rod (22) through a bearing, the slider (21) is matched with the driving assembly (3) to move through the connecting rod (22), the bottom of the first mounting frame (23) is fixedly connected with the first motor (24), and the output shaft of the first motor (24) is fixedly connected with the screw (27) through the coupling (25), the lower part of the screw rod (27) penetrates through the support piece (28) and is in threaded connection with the support piece (28), a support through hole is formed in the support piece (28), the support piece (28) is fixedly connected with the irrigator (26) through the support through hole, and the support piece (28) is in sliding connection with the bottom of the first mounting frame (23).
3. An intelligent flower nursery as claimed in claim 2, wherein the sliding block (21) is provided with a plurality of sliding holes (211), and the sliding holes (211) are matched with the sliding rod assemblies (1) to accommodate the sliding rod assemblies (1) to pass through.
4. The intelligent flower nursery as claimed in claim 2, wherein the watering device (26) comprises a watering inclined nozzle (261), a watering inlet pipe (262), a connecting pipe (263) and a conical pipe (264), wherein the watering inclined nozzle (261) is connected with the watering inlet pipe (262) and the connecting pipe (263) from top to bottom into a whole, the side of the connecting pipe (263) is provided with the watering inclined nozzle (261), and the outer diameter of the connecting pipe (263) is larger than that of the supporting through hole.
5. An intelligent flower nursery as claimed in claim 2, wherein the support member (28) comprises a second transverse plate (281) and a second longitudinal plate (282), the second transverse plate (281) and the second longitudinal plate (282) are fixedly connected as a whole, a support through hole is formed in the second transverse plate (281), a sliding slot for allowing the first longitudinal plate (233) to pass through is formed in the second longitudinal plate (282), and the first longitudinal plate (233) slides relative to the second longitudinal plate (282); the top of the second transverse plate (281) is fixedly provided with a gasket (271), the gasket (271) is provided with a screw hole matched with the screw rod, and the screw rod (27) penetrates through the screw hole and is matched with the naked eye, so that the gasket (271) moves relative to the screw rod (27).
6. An intelligent flower nursery as claimed in claim 2, wherein the driving assembly (3) comprises a second motor (31), a fixed base (32), a belt fixed block (33), a first rotating rod (34), a first belt (35), a second belt (36), a second rotating rod (37);
an output shaft of the second motor (31) penetrates through the sliding block (21) and is fixedly connected with the first rotating rod (34), the number of the fixed seats (32) is two, inserting holes matched with the first sliding rod (11) are formed in the fixed seats (32), the two fixed seats (32) are respectively connected with two ends of the first sliding rod (11) through the inserting holes and support the first sliding rod (11), and the fixed seats (32) are fixedly connected with the top of the side wall of the box body assembly (4);
a belt fixing block (33) is fixedly arranged above the side face of the fixing seat (32), the two belt fixing blocks (33) are connected through a first belt (35), and the first belt (35) is positioned right above a second belt (36);
in two fixing bases (32), be provided with first dwang (34) on with second motor (31) fixed connection's fixing base (32), first dwang (34) with the output shaft fixed connection of second motor (31), second dwang (37) are rotated with another fixing base (32) through the bearing and are connected, first dwang (34), second dwang (37) are fixed respectively and are provided with first track gyro wheel, second track gyro wheel, link together through second belt (36) between first track gyro wheel, the second track gyro wheel, the top and connecting rod (22) bottom of second belt (36) are laminated, the bottom of first belt (35) is laminated with the top of connecting rod (22) mutually.
7. An intelligent flower nursery as claimed in claim 1, wherein the box assembly (4) comprises a first box (41) and a second box (42), wherein the first box (41) is placed on the second box (42), the side wall of the first box (41) is fixedly connected with the driving assembly (3), the first box (41) is a box structure with an open top internal cavity, and the second box (42) is internally provided with the water supply assembly (5).
8. An intelligent flower nursery as claimed in claim 7, wherein the water supply assembly (5) comprises a water tank (51), a water pipe (52) and a water pump, wherein the water tank (51) is placed at the bottom of the second box body (42), the water inlet of the water pump is connected with the inside of the water tank (51) through a pipeline, the water outlet of the water pump is communicated with the water inlet of the water pipe (52), and the other end of the water pipe (52) is communicated with the water inlet of the irrigator (26) through the second box body (42).
9. An intelligent flower nursery as claimed in claim 7, further comprising a lifting assembly (6), wherein the lower end of the lifting assembly (6) is fixedly arranged inside the second box body (42), the upper end of the lifting assembly (6) is hinged with the bottom of the first box body (41), and the lifting assembly (6) is operated to drive the first box body (41) to move up and down.
10. An intelligent flower nursery as claimed in claim 1, wherein the slide bar assembly (1) comprises a first slide bar (11), wherein the first slide bar (11) is slidably connected to the watering assembly (2), and wherein the driving assembly (3) is fixedly connected to the first slide bar (11) for supporting the first slide bar (11).
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CN112273199A (en) * | 2020-11-11 | 2021-01-29 | 合肥工业大学 | Intelligent flower nursery and control system thereof |
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CN112273199B (en) * | 2020-11-11 | 2023-10-13 | 合肥工业大学 | Intelligent flower nursery and control system thereof |
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