CN220063062U - Flower growth condition monitoring device - Google Patents

Abstract

The utility model relates to the technical field of plant planting, in particular to a flower growth condition monitoring device, which comprises a mounting bracket, wherein two transverse screws are coaxially connected in mounting holes symmetrically arranged at the left end and the right end of the mounting bracket, and one ends of the two transverse screws pass through the mounting bracket and are coaxially connected with a transmission motor in a transmission manner; a movable shell is arranged above the two transverse screws, two driving gears and a driven gear are equidistantly arranged on the top surface of the movable shell, and the two driving gears are coaxially connected with a gear motor in a transmission manner; the center of the top surface of the driven wheel is fixedly welded with a longitudinal screw, a moving block is connected to the longitudinal screw in a threaded transmission manner and is slidably connected in the torsion supporting arm, radar sensors are mounted at the front end and the rear end of the moving block, and a temperature and humidity sensor is mounted at the front end surface of the moving shell. The utility model can realize the monitoring and recording of the growth condition of flower planting.

Description

Flower growth condition monitoring device

Technical Field

The utility model relates to the technical field of plant planting, in particular to a flower growth condition monitoring device.

Background

With the development of social science, the material demands of people are met to a certain extent, and the pursuit of good things is further turned to, and the market of flowers and plants for flowers and flowers is gradually rising; the flower planting needs to consider illumination, temperature, humidity and soil environment according to different periods of flowers, for example, the planting of China rose can be performed, and the flower plant height of the China rose can be shown most intuitively; the China rose can reach the height of one to two meters, the planting and growing process of the China rose is divided into a germination period, a leaf spreading period, a bud pregnancy period, a flowering period, a full flowering period, a fruit initiation period and a setting period, wherein only the height change between the germination period and the leaf spreading period is not obvious, so that the growth period of the China rose can be judged through the height detection of the China rose, and further the scientific regulation and control of temperature, humidity, illumination and land fertilization can be carried out, thereby achieving scientific and effective planting management, improving the flower quality and reducing the manpower resource consumption.

The patent with publication number CN214744709U discloses a real-time monitoring device for growth conditions of greenhouse crops at each stage, which is provided with a circular slide rail, wherein the inner side surface of the slide rail is provided with a rack, and the upper side surface and the lower side surface of the slide rail are provided with sliding grooves along the circumferential direction of the slide rail; the inside installation mechanism that is used for installing the camera that is equipped with of slide rail, installation mechanism include the lifter plate, are equipped with the splint that are located the slide rail upper and lower both sides on the side of lifter plate, are equipped with on the splint and are located the gliding slider of corresponding spout, are equipped with rotatable and with rack engaged with gear between the splint for gear rotation drives installation mechanism and removes along the rack, thereby drives the camera around plant rotation shoot the plant, preferably record each stage growth condition of plant.

Although the problem of monitoring flower planting is solved to above-mentioned scheme, but this mechanism structural design is limited to working area, only is applicable to small-size experimental planting field, and to flowers that plant in large tracts of land then can not gather all data very well and carry out effectual analysis. In view of this, we propose a flower growth detection device.

Disclosure of Invention

The utility model aims to provide a flower growth condition monitoring device which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the flower growth condition monitoring device comprises a mounting bracket, wherein two transverse screws are coaxially connected in mounting holes symmetrically formed in the left end and the right end of the mounting bracket, the thread directions of the two transverse screws are opposite, and one ends of the two transverse screws pass through the mounting bracket and are coaxially connected with a transmission motor; the two transverse screws are provided with the same movable shell, driven wheels are arranged in the center of the top surface of the movable shell, two driving wheels which are simultaneously meshed with the driven wheels are arranged on two sides of the driven wheels, and the two driving wheels are coaxially connected with a gear motor in a transmission manner; the mobile casing top surface is equipped with the torsion support arm, from driving wheel top surface central point put screw rod in welded fastening, it has the movable block to indulge threaded connection on the screw rod, movable block sliding connection is in the torsion support arm, radar sensor is all installed at both ends around the movable block, the front end surface mounting of mobile casing has temperature and humidity sensor.

Preferably, a through groove is formed in the center of the mounting bracket, and the through groove reduces material loss and the weight of the machine on the premise of not affecting structural stability, so that the mounting bracket is convenient to move and mount; four supporting feet used for fixing positions are arranged at the bottom of the mounting support, the supporting feet are used for being inserted into soil to fix the mounting support, and stability of the whole mechanism is improved.

Preferably, two connecting parts are arranged at the bottom of the mobile casing, holes with built-in threads are formed in the two connecting parts, the two connecting parts are respectively in threaded connection with the two transverse screws, and the left and right movement of the mobile casing is controlled through the rotation of the two transverse screws.

Preferably, the torsion support arm is formed by combining two turning support arms in a central symmetry manner, the turning support arm is divided into a turning arm and a vertical arm, a limiting hole is formed in the top of the torsion support arm, the top of the longitudinal screw is rotationally connected in the limiting hole, and the radar sensor on the moving block is enabled to scan in a front-back direction on the premise that the operation of the driving wheel is not affected.

Preferably, three positioning holes are formed in the top surface of the mobile casing at equal intervals between the two steering arms of the torsion supporting arm, the driven wheels are rotatably connected to the positioning holes in the middle, and the two driving wheels are rotatably connected to the positioning holes on the two sides respectively.

Preferably, sliding grooves are formed in the inner sides of the two vertical arms of the torsion supporting arm, which are opposite to each other, sliding blocks which are arranged on two sides of the moving block and are in sliding connection with the sliding grooves in a protruding mode are arranged on the two sides of the moving block, and the moving block drives the radar sensor to scan up and down.

Preferably, the heights of the torsional support arm and the vertical screw are larger than the maximum height which can be achieved by the planted plants, and the height of the top surface of the mobile casing is lower than the average height when the plants grow, so that the working range of the radar sensor covers the height range of the plants in different growth states.

Compared with the prior art, the utility model has the beneficial effects that:

1. this flowers growth condition monitoring devices has set up lateral shifting mechanism and vertical shifting mechanism, makes the radar sensor on the machine can gather the altitude information of kind of plant in planting regional a plurality of directions, and then feeds back to the server and carries out information processing to whole nursery.

2. This flowers growth condition monitoring devices has installed temperature and humidity sensor, gathers the temperature and the humidity of planting the region, and accurate to the growth environment of accuse plant, the feedback is given the server, combines the growth state of plant to carry out whether the analysis environment needs artificial regulation and control, can greatly use manpower sparingly, improve the qualification rate of plant, improve economic benefits.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the utility model;

FIG. 2 is a front elevational view of the structure of the utility model;

FIG. 3 is a side view of the structure of the utility model;

FIG. 4 is a top view of the structure of the utility model;

fig. 5 is an exploded view of the structure of the utility model.

In the figure: 1. a mounting bracket; 11. a mounting hole; 12. a support leg; 2. a horizontal screw rod is arranged; 21. a drive motor; 3. a mobile chassis; 31. a connection part; 32. positioning holes; 33. twisting the support arm; 34. a limiting hole; 35. a chute; 4. driven wheel; 5. a driving wheel; 51. a gear motor; 6. a longitudinally arranged screw; 7. a moving block; 8. a radar sensor; 9. and a temperature and humidity sensor.

Detailed Description

The following description of the embodiments of the present utility model will be made more apparent and fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present embodiment provides a technical solution:

the flower growth condition monitoring device comprises a mounting bracket 1, wherein two transverse screws 2 are coaxially connected in mounting holes 11 symmetrically formed in the left end and the right end of the mounting bracket 1, the thread directions of the two transverse screws 2 are opposite, and one ends of the two transverse screws 2 pass through the mounting bracket 1 and are coaxially connected with a transmission motor 21; the two transverse screws 2 are provided with the same movable shell 3, the driven wheels 4 are arranged in the center of the top surface of the movable shell 3, two driving wheels 5 which are simultaneously meshed with the driven wheels 4 are arranged on two sides of the driven wheels 4, and the two driving wheels 5 are coaxially connected with a gear motor 51 in a transmission manner; the top surface of the movable casing 3 is provided with a torsion supporting arm 33, a longitudinal screw rod 6 is fixedly welded at the center of the top surface of the driven wheel 4, a movable block 7 is connected to the longitudinal screw rod 6 in a threaded manner, the movable block 7 is slidably connected in the torsion supporting arm 33, radar sensors 8 are respectively installed at the front end and the rear end of the movable block 7, and a temperature and humidity sensor 9 is installed on the front end surface of the movable casing 3.

Furthermore, a through groove is formed in the center of the mounting bracket 1, and the through groove reduces material loss and the weight of the machine on the premise of not affecting the structural stability, so that the movable mounting is convenient; four supporting legs 12 used for fixing positions are arranged at the bottom of the mounting bracket 1, the supporting legs 12 are used for being inserted into soil to fix the mounting bracket 1, and stability of the whole mechanism is improved.

Further, two connecting parts 31 are arranged at the bottom of the movable casing 3, holes with built-in threads are formed in the two connecting parts 31, the two connecting parts 31 are respectively in threaded connection with the two transverse screws 2, and the movable casing 3 is controlled to move left and right through rotation of the two transverse screws 2.

Further, the torsional support arm 33 is formed by symmetrically combining two turning support arms at the center, the turning support arm is divided into a turning arm and a vertical arm, a limiting hole 34 is formed in the top of the torsional support arm 33, the top of the longitudinal screw 6 is rotatably connected in the limiting hole 34, and the radar sensor 8 on the moving block 7 is enabled to scan forwards and backwards on the premise that the operation of the driving wheel 5 is not affected.

Further, three positioning holes 32 are equidistantly formed between the two steering arms of the torsional support arm 33 on the top surface of the mobile casing 3, the driven wheel 4 is rotatably connected to the middle positioning hole 32, and the two driving wheels 5 are rotatably connected to the positioning holes 32 on two sides respectively.

Further, the opposite inner sides of the two vertical arms of the torsional support arm 33 are respectively provided with a chute 35, two sides of the moving block 7 are respectively provided with a convex sliding block in sliding connection with the chute 35, and the moving block 7 drives the radar sensor 8 to scan up and down.

In addition, the heights of the torsional support arm 33 and the longitudinal screw 6 are larger than the maximum height of the planted plants, and the height of the top surface of the movable casing 3 is lower than the average height of the planted plants in growth, so that the working range of the radar sensor 8 covers the height range of the plants in different growth states.

Finally, it should be noted that the transmission motor 21, the gear motor 51, the radar sensor 8 and the temperature and humidity sensor 9 according to the present utility model are all universal standard components or components known to those skilled in the art, the structure and principle of which are all known by those skilled in the art or by routine experimental methods, and at the idle position of the device, all the electric devices mentioned above, which refer to power elements, electric devices and an adaptive controller and a power supply, are connected through wires, and specific connection means should refer to the working principle of the present utility model, and all the electric devices are electrically connected according to the sequential working sequence, and the detailed connection means are all known in the art.

When the flower growth condition monitoring device is used, the mounting bracket 1 is moved to the middle position of a planting area, and the supporting legs 12 of the mounting bracket 1 are inserted into soil to fix a machine; when the machine is started, the movable machine shell 3 arranged on the two transverse screw rods 2 is positioned at the left end of the mounting bracket 1, the transmission motor 21 arranged at the left end of the mounting bracket 1 is started, the transmission motor 21 drives one transverse screw rod 2 to rotate, and the transverse screw rod 2 drives the movable machine shell 3 in threaded connection with the transverse screw rod 2 to move towards the right end of the mounting bracket 1; at this time, the moving block 7 with radar sensors 8 installed at the front and rear ends is located at the lowest point between the vertical arms of the torsion supporting arms 33, when the radar sensors 8 sense that a barrier exists in front, the gear motor 51 installed at the left side of the top of the moving casing 3 is controlled to start, the gear motor 51 drives the left driving wheel 5 to rotate, the driving wheel 5 is meshed with the driven wheel 4 welded with the longitudinal screw rod 6, the longitudinal screw rod 6 rotates to drive the moving block 7 in sliding connection between the torsion supporting arms 33 to move upwards, the moving block 7 stops when the radar sensors 8 just cannot detect the barrier, feedback information to the server, the gear motor 51 installed at the right side of the top of the moving casing 3 is started in the next step, the longitudinal screw rod 6 rotates to drive the moving block 7 to move to the bottom of the vertical arm of the torsion supporting arms 33 again, along with the movement of the mobile casing 3 to the right end of the mounting bracket, the gear motor 51 arranged on the left side of the top of the mobile casing 3 is started to drive the radar sensor 8 arranged on the mobile block 7 to scan the next round, the cycle is circulated until the mobile casing 3 moves to the right end of the mounting bracket 1 to stop, in the process, the temperature and humidity sensor 9 arranged on the mobile casing 3 collects information such as air temperature and humidity and feeds the information back to the server, and finally the server calculates a plurality of pieces of height information collected by the machine, takes the average number or the median of the height information to judge the growth state of the plants, and combines the collected environmental information such as temperature and humidity to judge whether manual regulation is needed or not, so that the machine work is completed.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a flowers growth condition monitoring devices, includes installing support (1), its characterized in that: two transverse screws (2) are coaxially connected in mounting holes (11) symmetrically formed in the left end and the right end of the mounting bracket (1), the thread directions of the two transverse screws (2) are opposite, and one ends of the two transverse screws (2) penetrate through the mounting bracket (1) and are coaxially connected with a transmission motor (21); the two transverse screws (2) are provided with the same movable shell (3), driven wheels (4) are arranged in the center of the top surface of the movable shell (3), two driving wheels (5) meshed with the driven wheels (4) are arranged on two sides of the driven wheels (4), and the two driving wheels (5) are coaxially connected with a gear motor (51) in a transmission manner; the mobile casing (3) top surface is equipped with torsion support arm (33), from driving wheel (4) top surface central point put screw rod (6) in the welded fastening, it has movable block (7) to indulge on screw rod (6) threaded connection, movable block (7) sliding connection is in torsion support arm (33), radar sensor (8) are all installed at both ends around movable block (7), temperature and humidity sensor (9) are installed to the front end surface mounting of mobile casing (3).

2. A flower growing condition monitoring device according to claim 1, wherein: the mounting bracket is characterized in that a through groove is formed in the center of the mounting bracket (1), and four supporting feet (12) used for fixing the position are arranged at the bottom of the mounting bracket (1).

3. A flower growing condition monitoring device according to claim 1, wherein: two connecting parts (31) are arranged at the bottom of the mobile casing (3), holes with built-in threads are formed in the two connecting parts (31), and the two connecting parts (31) are respectively in threaded connection with the two transverse screws (2).

4. A flower growing condition monitoring device according to claim 1, wherein: the torsion support arm (33) is formed by combining two turning support arms in a central symmetry mode, the turning support arm is divided into a turning arm and a vertical arm, a limiting hole (34) is formed in the top of the torsion support arm (33), and the top of the longitudinal screw (6) is rotationally connected in the limiting hole (34).

5. A flower growing condition monitoring apparatus according to claim 4, wherein: three locating holes (32) are formed in the top surface of the movable casing (3) at equal intervals between the two steering arms of the torsion supporting arm (33), the driven wheel (4) is rotationally connected to the middle locating holes (32), and the two driving wheels (5) are respectively rotationally connected to the locating holes (32) on two sides.

6. A flower growing condition monitoring device according to claim 1, wherein: sliding grooves (35) are formed in the inner sides of the two opposite vertical arms of the torsion supporting arm (33), and sliding blocks which are protruding and slidably connected with the sliding grooves (35) are arranged on two sides of the moving block (7).

7. A flower growing condition monitoring device according to claim 6, wherein: the heights of the torsion supporting arm (33) and the longitudinal screw (6) are larger than the maximum height which can be reached by the planted plants, and the height of the top surface of the movable casing (3) is lower than the average height when the planted plants grow.