CN109302968B - Internet-based garden irrigation method and system - Google Patents

Abstract

The invention relates to a garden watering method based on the Internet. The Internet-based garden irrigation method comprises the following steps: acquiring a forest image through a camera and transmitting the image to a control platform through the Internet; the control platform displays the image on a display; and the control platform receives the irrigation instruction and remotely controls the irrigation device to irrigate the trees according to the irrigation instruction. The internet-based garden watering method is less time consuming. The invention further provides a garden irrigation system based on the internet.

Description

Internet-based garden irrigation method and system

Technical Field

The invention relates to a garden watering method and a garden watering system based on the Internet.

Background

The garden industry mainly includes designing and building garden plants, ornamental horticulture, garden design, garden construction, garden engineering, and the like. The garden practitioner also relates to basic training in the aspects of drawing and expression techniques, planning and designing, garden plant cultivation and breeding, flower arrangement art and the like, and has the aspects of planning and designing, garden plant cultivation, breeding, maintenance and management and the like in urban landscaping, garden building, garden engineering, garden plant landscaping and the like. However, when the garden watering operation is performed, maintenance personnel need to observe every day, and watering is performed after the trees in the garden show the water shortage, so that the observation process needs to take much time.

Disclosure of Invention

In view of the above, there is a need for an internet-based garden watering method and system that is less time consuming.

An Internet-based garden irrigation method comprises the following steps: acquiring a forest image through a camera and transmitting the image to a control platform through the Internet; the control platform displays the image on a display; and the control platform receives the irrigation instruction and remotely controls the irrigation device to irrigate the trees according to the irrigation instruction.

In one embodiment, the camera comprises a base, a support rod, a shell and a photosensitive chip, wherein the base is adjacent to a forest, the support rod is arranged on the base, the shell is arranged on the top end of the support rod, and the photosensitive chip is arranged in the shell.

In one embodiment, the housing is cylindrical, a photosensitive space is formed in the housing, and the photosensitive chip is disposed in the photosensitive space.

In one embodiment, the supporting rod is cylindrical, a lifting cylinder is arranged on the side wall of the supporting rod, a lifting rod is arranged on the inner side of the supporting rod, the shell is fixed at the top end of the lifting rod, and the lifting cylinder is linked with the supporting rod.

In one embodiment, the lifting rod is movably disposed in the supporting rod, a lifting slot is disposed on a side wall of the supporting rod, and the output shaft of the lifting cylinder penetrates through the lifting slot.

In one embodiment, the top end of the lifting rod protrudes out of the top of the supporting rod, and the length of the lifting slot is 0.5 times the length of the supporting rod.

In one embodiment, a communication module is arranged on the supporting rod, and the photosensitive chip and the lifting cylinder are both in wireless electrical connection with the communication module.

The utility model provides a gardens irrigation system based on internet, includes control platform, camera, display and watering device, the camera set up in the garden and with control platform passes through internet communication, the display is close to control platform set up and with control platform electric connection, watering device sets up in the garden and receives control platform remote control.

In one embodiment, the display device includes a base and a display screen, the display screen is connected to the base through a telescopic rod, and a cross section of the telescopic rod is rectangular.

In one embodiment, the seat body is rectangular block-shaped, a supporting block protrudes from a side wall of the control platform, an installation groove is concavely formed in the supporting block, and the seat body is fixed in the installation groove.

In the internet-based garden watering method, the display can timely display the image of the forest, and workers such as forest protection personnel can know whether the forest has water shortage signs through observing the display, and if the forest has the water shortage signs, the workers operate the control platform through operation, the control platform receives the watering instructions and waters the forest according to the watering instruction remote control watering device. In the process, workers do not need to observe the forest every day, and time can be greatly saved.

Drawings

Fig. 1 is a flowchart illustrating steps of an internet-based garden watering method according to an embodiment.

Fig. 2 is a schematic perspective view of a camera according to an embodiment.

Fig. 3 is a perspective view of an embodiment of a watering mechanism.

Fig. 4 is a partially enlarged view of a portion a in fig. 3.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The invention relates to a garden watering method based on the Internet. For example, the internet-based garden watering method comprises the following steps: acquiring a forest image through a camera and transmitting the image to a control platform through the Internet; the control platform displays the image on a display; and the control platform receives the irrigation instruction and remotely controls the irrigation device to irrigate the trees according to the irrigation instruction.

Referring to fig. 1 and 2, an internet-based garden watering method includes the following steps:

in step S101, acquiring a forest image through a camera and transmitting the forest image to a control platform through the Internet;

in step S102, the control platform displays the image on a display; and

in step S103, the control platform receives the watering instruction and remotely controls the watering device to water the trees according to the watering instruction.

In the internet-based garden watering method, the display can timely display the image of the forest, and workers such as forest protection personnel can know whether the forest has water shortage signs through observing the display, and if the forest has the water shortage signs, the workers operate the control platform through operation, the control platform receives the watering instructions and waters the forest according to the watering instruction remote control watering device. In the process, workers do not need to observe the forest every day, and time can be greatly saved.

For example, in order to facilitate enlargement of the camera shooting area of the camera to enlarge the observation range, the camera 20 includes a base 21, a support rod 22, a housing 23 and a photosensitive chip 24, the base is adjacent to a forest, the support rod is arranged on the base, the housing is arranged on the top end of the support rod, and the photosensitive chip is arranged in the housing. The shell is cylindric, be formed with sensitization space 235 in the shell, sensitization chip set up in the sensitization space. The supporting rod is cylindrical, a lifting cylinder 25 is arranged on the side wall of the supporting rod, a lifting rod 26 is arranged on the inner side of the supporting rod, the shell is fixed at the top end of the lifting rod, and the lifting cylinder is linked with the supporting rod. The lifting rod is movably arranged in the supporting rod, a lifting slot 225 is formed in the side wall of the supporting rod, and an output shaft of the lifting cylinder penetrates through the lifting slot. The top end of the lifting rod protrudes out of the top of the supporting rod, and the length of the lifting slot is 0.5 times that of the supporting rod. The supporting rod is provided with a communication module, and the photosensitive chip and the lifting cylinder are both in wireless electric connection with the communication module. Through setting up cylindric branch, and will the lifter set up with liftable in the branch, thereby can utilize lift cylinder drive the lifter goes up and down, and then changes photosensitive chip's height to adjust its region of making a video recording, enlarge the scope of making a video recording. For example, the housing is further provided with a lens 28, and the lens is blocked at one side of the photosensitive chip.

For example, the invention also provides an internet-based garden irrigation system, which comprises a control platform, a camera, a display and an irrigation device, wherein the camera is arranged in the garden and is communicated with the control platform through the internet, the display is arranged adjacent to the control platform and is electrically connected with the control platform, and the irrigation device is arranged in the garden and is remotely controlled by the control platform.

For example, in order to facilitate installation of the display, the display includes a base and a display screen, the display screen is connected to the base through a telescopic rod, and a cross section of the telescopic rod is rectangular. The seat body is rectangular and blocky, a supporting block is convexly extended on the side wall of the control platform, a mounting groove is concavely arranged on the supporting block, and the seat body is fixed in the mounting groove. Through the supporting block and the mounting groove formed in the supporting block, the base of the display can be conveniently mounted in the mounting groove, and the display can be conveniently mounted.

For example, and with particular reference to fig. 3 and 4, since the leaves of the trees also absorb moisture, in order to facilitate watering of the leaves and roots, or of trees of different heights, the watering device includes a plurality of watering mechanisms 30 aligned with different areas of the tree, respectively, for watering, and a plurality of liquid distribution tubes for delivering watering liquid to the watering mechanisms, respectively. For example, each watering mechanism includes a guide post 31, a watering assembly 32 and a lifting assembly 33, the guide post is vertically installed on the ground, the guide post is arranged adjacent to the forest, the watering assembly is slidably arranged on the guide post, and the lifting assembly is used for driving the watering assembly to lift so as to water the forest with different heights or different heights. Because the irrigation cylinder is exposed in gardens or mountains for a long time without being watched by people, the irrigation cylinder is hung on the guide post, so that the damage or pollution of animals can be avoided. For example, the guide post is provided with a guide groove 315 extending in the height direction of the guide post. The watering subassembly includes a watering section of thick bamboo 321, feed liquor plectane 322 and pump-out piece (not shown), one side of a watering section of thick bamboo is provided with two guide blocks, two guide blocks set up and all set up with sliding in the guide way each other at an interval, so that a watering section of thick bamboo is followed the guide post goes up and down. The two guide blocks are connected to the guide post in a slip-proof manner, so that the irrigation cylinder cannot be disengaged from the guide post. For example, a sealing cover 323 is disposed on the top of the irrigation cylinder, a guide post 324 is disposed in the center of the sealing cover, an arc-shaped liquid inlet slot 325 is further disposed on the sealing cover, the arc-shaped liquid inlet slot is adjacent to the edge of the sealing cover, a liquid inlet circular plate is rotatably sleeved on the guide post and attached to the sealing cover, the liquid inlet circular plate seals the arc-shaped liquid inlet slot, a communicating slot 3225 is disposed at the periphery of the liquid inlet circular plate, a driven gear ring 326 is sleeved at the periphery of the liquid inlet circular plate, two magnetic blocks 327 are further disposed at the top of the liquid inlet circular plate, two positioning iron blocks are disposed at the top of the sealing cover, the surfaces of the two positioning iron blocks are flush with the surface of the sealing cover, the two magnetic blocks of the liquid inlet circular plate are respectively adsorbed to the two positioning iron blocks, so that the liquid inlet circular plate is positioned on the sealing cover, and the communicating slot is further staggered, so that the liquid in the irrigation cylinder cannot overflow. For example, a positioning gap 328 is formed between the periphery of the liquid inlet circular plate and the periphery of the closing cover. The positioning gap is not communicated with the arc-shaped liquid inlet groove. For example, the end of the liquid distribution pipe is arranged at the top end of the guide column and faces the arc-shaped liquid inlet groove. When liquid needs to be injected into the irrigation cylinder, the arc-shaped liquid inlet groove is communicated with the communication groove by rotating the liquid inlet circular plate, so that the liquid can be injected into the irrigation cylinder by utilizing the liquid distribution pipe. For example, the irrigation cylinder may be provided with an irrigation opening on one side and the pump-out member may be provided within the irrigation cylinder adjacent the irrigation opening.

For example, in order to facilitate reading the remaining liquid amount in the pouring cylinder, the pouring assembly further includes a graduated scale 34, the graduated scale is disposed on the guide post and adjacent to the guide slot, the extending direction of the graduated scale is parallel to the extending direction of the guide slot, the lifting assembly includes a transverse rod 331 and a hanging spring 332, the transverse rod is laterally protruded on the top of the guide post, one end of the hanging spring is connected to the guide post of the closing cover, and the other end of the hanging spring is connected to the end of the transverse rod to hang the pouring cylinder. When the liquid amount in the irrigation cylinder is reduced, the irrigation cylinder gradually rises under the action of the hanging spring, and the liquid amount in the irrigation cylinder can be read according to the scales on the graduated scale. For example, an electric spraying mechanism (not shown) is provided in the pouring opening, and the electric spraying mechanism is used for spraying the liquid in the pouring cylinder and can change the spraying direction of the liquid. When liquid spraying irrigation is not needed, the electric mechanism drives to close and block the irrigation opening.

For example, when the liquid in the irrigation cylinder reaches the minimum content, the irrigation cylinder rises to the highest position of the graduated scale, and in order to facilitate the injection of the liquid into the irrigation cylinder, the guide post is provided with a liquid injection motor 35, an output shaft of the liquid injection motor is provided with a driving gear 351, the top end of the guide groove is transversely provided with a positioning rod in a protruding manner, the edge of the liquid injection circular plate is provided with an inlet groove, and the inlet groove penetrates through the driven gear ring. The access slot is aligned with the locating rod. When a watering section of thick bamboo rises to highest position, the locating lever passes through the entering groove gets into in the positioning gap of feed liquor plectane bottom, the feed liquor plectane is in under the positioning action of two magnetic blocks, make driven ring gear can aim at drive gear, so that driven ring gear with drive gear intermeshing. When liquid needs to be injected, the liquid injection motor drives the liquid inlet circular plate to rotate through the driving gear and the driven gear ring so as to enable the communicating groove to be communicated with the arc-shaped liquid inlet groove, at the moment, the inlet groove is staggered with the positioning rod, and the positioning rod is supported at the bottom of the inlet circular plate. At this time, the liquid distribution pipe at the top end of the guide post is aligned with the communication groove to inject liquid into the irrigation cylinder, for example, nutrient solution components and the like, the liquid in the irrigation cylinder is gradually increased, the weight of the irrigation cylinder is heavier, and the irrigation cylinder is supported on the positioning rod.

When the pouring of liquid in the watering barrel is completed, the liquid injection motor drives the driving gear to rotate reversely, at the moment, the driven gear ring drives the liquid inlet circular plate to rotate so that the communicating groove and the arc-shaped liquid inlet groove are staggered, the watering barrel is sealed, and at the moment, the liquid inlet groove is restored to be aligned with the positioning rod, so that the watering barrel descends due to gravity. For the convenience of slowing down the falling speed of a watering section of thick bamboo, the lateral wall of guide way has been seted up the card and has been established the slot, the guide post internal rotation ground is provided with dwang 316, one side of dwang is provided with curved card and establishes the fin, the card establish the fin set up with movably in the slot is established to the card, annotate the liquid motor and keep away from protruding linkage post 352 that is equipped with in one side of drive gear, the linkage post with the drive gear linkage, the top of linkage post is provided with linkage gear 353, the top of dwang is provided with connecting gear 354, connecting gear with linkage gear intermeshing. Annotate liquid motor drive gear is rotatory so that the locating lever is aimed at enter slot and release during a watering section of thick bamboo, linkage gear synchronous drive connecting gear reaches the dwang is rotatory, drives the card establish the fin protrusion in the card establish outside the slot and begin to get into in the guide way a decline in-process of a watering section of thick bamboo, the card is established the fin and is supported tightly gradually two guide blocks of a watering section of thick bamboo, thereby slows down the falling speed of a watering section of thick bamboo, finally makes a watering section of thick bamboo be located the bottom of guide way. Meanwhile, the rapid descending of the irrigation cylinder can be prevented due to the pulling and holding action of the hanging spring.

For example, in order to prevent the irrigation cylinder from reciprocating up and down under the pulling of the hanging spring, a positioning ball 318 is arranged in the guide groove, the positioning ball is adjacent to the bottom end of the guide groove, one side of the positioning ball protrudes out of the guide groove, and the other end of the positioning ball abuts against the bottom end of the rotating rod. The bottom of dwang is provided with the elastic bulge, the elastic bulge support hold in on the location ball, in order to force location ball protrusion in the guide way and be located between two guide blocks, make the location ball support hold in one of them the top of guide block prevents that the watering section of thick bamboo rises. Watering section of thick bamboo location back, annotate liquid motor antiport, in order to drive the dwang is rotatory, forces the card to establish the fin retraction in the slot is established to the card, and drives in step the elastic bulge keeps away from the location ball, this moment watering section of thick bamboo can begin the hydrojet watering, also can rise gradually because of weight reduction, because the location ball can be because the support of guide block compresses into in the guide post.

For example, in order to facilitate stirring of the liquid in the pouring cylinder to improve uniformity or mixing degree, the hanging spring is a torsion spring, the guide post is rotatably disposed on the closing cap, an end portion of the hanging spring is fixedly connected to the guide post, and a stirring impeller is disposed at a bottom end of the guide post and located in the pouring cylinder. In the descending process after the completion of liquid injection of the irrigation cylinder, the hanging spring drives the stirring impeller to rotate under the action of restoring the torque force, so that the liquid or the suspending agent in the irrigation cylinder is stirred, and the uniformity and the mixing effect are improved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (1)

1. An internet-based garden irrigation system is characterized by comprising a control platform, a camera, a display and an irrigation device, wherein the camera is arranged in a garden and is communicated with the control platform through the internet;

the camera comprises a base, a support rod, a shell and a photosensitive chip, wherein the base is arranged close to forest trees, the support rod is arranged on the base, the shell is arranged at the top end of the support rod, the photosensitive chip is arranged in the shell, the shell is cylindrical, a photosensitive space is formed in the shell, the photosensitive chip is arranged in the photosensitive space, the support rod is cylindrical, a lifting cylinder is arranged on the side wall of the support rod, a lifting rod is arranged on the inner side of the support rod, the shell is fixed at the top end of the lifting rod, the lifting cylinder is linked with the support rod, the lifting rod is movably arranged in the support rod, a lifting slot is formed in the side wall of the support rod, an output shaft of the lifting cylinder penetrates through the lifting slot, and the top end of the lifting rod protrudes out of the top of the support rod, the length of the lifting slot is 0.5 times of that of the supporting rod, a communication module is arranged on the supporting rod, the photosensitive chip and the lifting cylinder are both in wireless electrical connection with the communication module, the display comprises a base body and a display screen, the display screen is connected to the base body through a telescopic rod, the cross section of the telescopic rod is rectangular, the base body is rectangular and blocky, a supporting block protrudes from the side wall of the control platform, a mounting groove is concavely formed in the supporting block, and the base body is fixed in the mounting groove;

the irrigation device comprises a plurality of liquid distribution pipes and a plurality of irrigation mechanisms, the irrigation mechanisms are respectively aligned with different forest sheet areas for irrigation, the liquid distribution pipes are respectively used for conveying irrigation liquid to the irrigation mechanisms, each irrigation mechanism comprises a guide post, an irrigation assembly and a lifting assembly, the guide posts are vertically arranged on the ground, the guide posts are arranged adjacent to the forest trees, the irrigation assemblies are slidably arranged on the guide posts, the lifting assemblies are used for driving the irrigation assemblies to lift so as to irrigate the forest trees with different heights or different heights, guide grooves are formed in the guide posts and extend along the height direction of the guide posts, each irrigation assembly comprises an irrigation barrel, a liquid inlet plate and a pumping piece, two guide blocks are arranged on one side of the irrigation barrel, and the two guide blocks are arranged at intervals and are arranged in the guide grooves in a sliding manner, so as to make the irrigation cylinder rise and fall along the guide post, the two guide blocks are connected to the guide post in a non-slip manner, so that the irrigation cylinder cannot be separated from the guide post, a sealing cover is arranged at the top of the irrigation cylinder, a guide post is arranged in the center of the sealing cover, an arc-shaped liquid inlet groove is further arranged on the sealing cover, the arc-shaped liquid inlet groove is adjacent to the edge of the sealing cover, a liquid inlet circular plate is rotatably sleeved on the guide post and attached to the sealing cover, the liquid inlet circular plate seals the arc-shaped liquid inlet groove, a communicating groove is arranged at the periphery of the liquid inlet circular plate, a driven gear ring is sleeved at the periphery of the liquid inlet circular plate, two magnetic blocks are further arranged at the top of the liquid inlet circular plate, two positioning iron blocks are arranged at the top of the sealing cover, the surfaces of the two positioning iron blocks are flush with the surface of the sealing cover, and the two magnetic blocks of the liquid inlet circular plate are respectively, the liquid inlet circular plate is positioned on the sealing cover, the communication groove is staggered with the arc-shaped liquid inlet groove, so that liquid in the irrigation cylinder cannot overflow, a positioning gap is formed between the periphery of the liquid inlet circular plate and the periphery of the sealing cover, the positioning gap is not communicated with the arc-shaped liquid inlet groove, the end part of the liquid distribution pipe is arranged at the top end of the guide post and faces the arc-shaped liquid inlet groove, an irrigation opening is formed in one side of the irrigation cylinder, the pump-out part is arranged in the irrigation cylinder and is adjacent to the irrigation opening, the irrigation assembly further comprises a graduated scale, the graduated scale is arranged on the guide post and is adjacent to the guide groove, the extension direction of the graduated scale is parallel to the extension direction of the guide groove, the lifting assembly comprises a transverse rod and a hanging spring, and the transverse rod is transversely convexly arranged at the top of the guide post, one end of the hanging spring is connected to the guide post of the closing cover, the other end of the hanging spring is connected to the end part of the transverse rod so as to hang the watering barrel, an electric ejection mechanism is arranged in the watering opening and is used for ejecting liquid in the watering barrel and changing the ejection direction of the liquid, a liquid injection motor is arranged on the guide post, a driving gear is arranged on an output shaft of the liquid injection motor, a positioning rod is transversely and convexly arranged at the top end of the guide groove, an inlet groove is arranged at the edge of the liquid injection circular plate and penetrates through the driven gear ring, the inlet groove is aligned with the positioning rod, a clamping slot is arranged on the side wall of the guide groove, a rotating rod is rotatably arranged on the guide post, an arc-shaped clamping fin is arranged on one side of the rotating rod, and the clamping fin is movably arranged in the clamping slot, one side of the liquid injection motor, which is far away from the driving gear, is convexly provided with a linkage column, the linkage column is linked with the driving gear, the top end of the linkage column is provided with a linkage gear, the top end of the rotating rod is provided with a connecting gear, the connecting gear is meshed with the linkage gear, a positioning ball is arranged in the guide groove, the positioning ball is adjacent to the bottom end of the guide groove, one side of the positioning ball protrudes out of the guide groove, the other end of the positioning ball abuts against the bottom end of the rotating rod, the bottom end of the rotating rod is provided with an elastic bulge, the elastic bulge abuts against the positioning ball so as to force the positioning ball to protrude out of the guide groove and be positioned between the two guide blocks, so that the positioning ball abuts against the top of one of the guide blocks to prevent the irrigation cylinder from rising, and after the irrigation cylinder is positioned, the liquid injection motor reversely rotates, the hanging spring drives the stirring impeller to rotate under the action of restoring torque force to stir liquid or suspending agent in the irrigation cylinder, so that uniformity and mixing effect are improved.

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