CN114487303A - Make things convenient for wisdom agricultural environment monitoring device of extension network deployment - Google Patents

Abstract

The invention discloses a smart agricultural environment monitoring device convenient for networking expansion, which belongs to the technical field of smart agriculture and comprises a plurality of groups of shed rods arranged in an agricultural greenhouse, wherein a plurality of fixed ring seats are detachably mounted on the outer side walls of the shed rods, a plurality of adjusting mechanisms are connected to the inner cavities of the fixed ring seats in a sliding mode, the adjusting mechanisms can be connected to the inner cavities of the fixed ring seats in a limiting mode, and an expansion assembly is fixedly arranged on one side of each adjusting mechanism. According to the agricultural environment monitoring mechanism, the adjusting limiting blocks are rotated to drive the side expanding assembly and the sensing communication module, the air monitoring mechanism and the soil monitoring mechanism which are installed in an expanding mode to adjust the axial relative position, angle adjustment adaptation of a monitoring area can be achieved, adjustment processing of the assembly angle of the agricultural environment monitoring mechanism is effectively improved through the adjusting limiting blocks which are distributed along the axis, expansion increase and decrease processing of the monitoring module in the area is facilitated, and the agricultural environment monitoring mechanism is suitable for adaptive adjustment of the monitoring area and the angle of crops in different ranges.

Description

Make things convenient for wisdom agricultural environment monitoring device of extension network deployment

Technical Field

The invention belongs to the technical field of intelligent agriculture, and particularly relates to an intelligent agricultural environment monitoring device convenient for network expansion.

Background

Along with the development of science and technology, the environmental monitoring of agriculture has been judged by traditional experience and has been changed into through sensor monitoring agricultural growth environment, terminal node is used for the environmental aspect of perception crops, utilize sensing equipment such as air temperature sensor, know air humidity sensor, illuminance, soil pH valve, soil humiture to detect the environment of planting the base in real time, these data condition that detect can be timely upload to wisdom agriculture cloud platform, through the growth situation of linkage platform real-time detection crops, carry out the environment and transfer the optimum.

Chinese patent document CN113447078A discloses a 5G technology-based intelligent agricultural multi-parameter environment monitoring device, which belongs to the technical field of agricultural environment monitoring and comprises an installation shaft, a positioning and sampling assembly, a monitoring box and a main mounting frame, wherein the monitoring box is arranged outside the main mounting frame; this scheme is through installing high definition digtal camera on it, can carry out the growing trend to agricultural crops and shoot, when monitoring, but remote control opens driving motor, the height of adjustable monitoring case, monitor to the environmental condition of co-altitude not, the rainwater that has the rainy day is collected, the air water intaking effect of no rainy day, can be effectively for the self-cleaning of device provides the water source, guarantee the precision of device to the environmental parameter control, but when the in-service use, because the crop planting region can often change in the big-arch shelter, the monitoring devices who sets firmly can not satisfy the synchronous monitoring adjustment when the crop is changed, and because the external environment changes easily, the air detection equipment who is located the outside leads to deviating from because of external impact easily, can not be fine satisfies the monitoring needs.

Disclosure of Invention

The invention aims to: in order to solve the problem that the crop planting area in the greenhouse can change frequently, the fixed monitoring device cannot meet the requirement for synchronous monitoring adjustment during crop replacement, and the problem that the external air detection equipment located outside deviates easily due to external impact is solved.

In order to achieve the purpose, the invention adopts the following technical scheme:

a smart agricultural environment monitoring device convenient for networking expansion comprises a plurality of groups of shed rods arranged in an agricultural greenhouse, wherein a plurality of fixed ring seats are detachably mounted on the outer side walls of the shed rods, a plurality of adjusting mechanisms are slidably connected to the inner cavities of the fixed ring seats, the adjusting mechanisms can be in limited connection with the inner cavities of the fixed ring seats, an expansion component is fixedly arranged on one side of each adjusting mechanism, and the expansion components are respectively detachably connected with an air monitoring mechanism, a soil monitoring mechanism and a sensing communication module and used for transmitting agricultural environment monitoring data to the smart agricultural platform through the sensing communication module;

adjustment mechanism is including adjusting the stopper, adjust stopper sliding connection at fixed ring seat inner chamber, adjust the equal fixedly connected with spacing pinion rack in stopper both ends, the equal fixedly connected with spacing tooth in spacing pinion rack both sides, spacing tooth is laminated with fixed ring seat inner chamber one side mutually, extend the subassembly including setting firmly in the extension seat of adjusting stopper one side, extend seat one side adjustable connection and insert the seat, insert the seat and correspond the air monitoring mechanism, soil monitoring mechanism and the sensing communication module swing joint of position.

As a further description of the above technical solution:

extend seat one side and seted up the spacing groove, a plurality of butt pieces of spacing inslot fixedly connected with, extend the first transfer line of fixedly connected with between the seat inner chamber both sides, first transfer line lateral wall sliding connection has first cover and connects the ring, first cover and connects ring one side through body of rod fixedly connected with articulated elements, articulated elements one side is articulated mutually through round pin axle and insertion seat outer wall, first cover and connects ring rear side fixedly connected with extrusion piece, the spacing butt of extrusion piece is in spacing inslot inner chamber butt piece one side.

As a further description of the above technical solution:

a threaded cap is embedded in one side of an inner cavity of the inserting seat, a threaded column is connected with the threaded cap in a threaded mode, and the threaded column is used for being extruded and limited with an inner inserting component.

As a further description of the above technical solution:

the air monitoring mechanism comprises a first supporting rod, a fixing seat is fixedly connected to the top end of the first supporting rod, the first supporting rod is inserted and connected into an inner cavity of the inserting seat, a hinge rod is fixedly connected between two sides of the inner cavity of the fixing seat, a partial rotating shaft sleeve can be sleeved on the outer side wall of the hinge rod in a limiting mode, a regulating plate is fixedly connected to one side of the partial rotating shaft sleeve, and a plurality of monitoring modules are fixedly mounted at the top of the regulating plate and used for monitoring the quality of outside air, the temperature and the humidity and wind power outside the greenhouse through the first supporting rod.

As a further description of the above technical solution:

inclined to one side pivot cover fixedly connected with articulated piece, articulated piece one side articulates through the round pin axle has the connecting rod, the connecting rod bottom articulates there is the connecting block, connecting block one side and spacing connection are at the outside adjusting collar fixed connection of first bracing piece.

As a further description of the above technical solution:

the utility model discloses a spacing laminating of butt groove piece top inclined plane, including first bracing piece, cell body, and cell body inner chamber fixedly connected with a plurality of butt groove pieces, butt groove piece cross sectional shape is triangle-shaped, adjusting sleeve inner chamber one side inlays and is equipped with the sliding sleeve, sliding sleeve inner chamber sliding connection has the slide bar, slide bar one end fixedly connected with insertion plate, insertion plate one side and the spacing laminating of butt groove piece top inclined plane one side, slide bar other end fixedly connected with handle, slide bar lateral wall cover is equipped with the spring, the spring both ends correspond position fixed connection with handle and sliding sleeve one side respectively.

As a further description of the above technical solution:

the soil monitoring mechanism comprises a second supporting rod connected in an inserting seat at the bottom side in an inserting mode, the bottom end of the second supporting rod is fixedly connected with a connecting seat, a second transmission seat is fixedly connected between two sides of an inner cavity of the connecting seat, a second sleeving ring is sleeved on the outer side wall of the second transmission seat, a planting rod is fixedly connected to one side of the second sleeving ring, and a soil humidity sensor is fixedly connected to the tail end of the planting rod and used for being inserted into soil through the planting rod.

As a further description of the above technical solution:

the sensing communication module is a zigbee Internet of things communication module, and the sensing communication module is inserted and sleeved outside the corresponding position inserting seat.

As a further description of the above technical solution:

the fixing ring seat is characterized in that fixed inner hoops are fixedly arranged on two sides of an inner cavity of the fixing ring seat through telescopic rods, elastic pieces are sleeved on outer side walls of the telescopic rods, and two sides of each elastic piece are fixedly connected with the outer wall of each fixed inner hoop and one corresponding position of one side of each telescopic rod respectively.

As a further description of the above technical solution:

the fixed ring seat comprises two symmetrical arc-shaped parts, the two ends of the arc-shaped parts on the two sides are assembled through fixing bolts, the inner cavity of the arc-shaped part is provided with an adjusting groove for adjusting the limiting block to slide, and the limiting block is adjusted to be closely inserted and matched with the arc-shaped parts of the inner cavity of the fixed ring seat.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. in the invention, after the fixing ring seat is assembled with the greenhouse poles in the greenhouse through the two side step mounting blocks and the fixing bolts, after the relative position of the fixed ring seat outside the shed rod is adjusted by pulling, the limit tooth plates on the two sides of the adjusting limit block can be pressed to drive the limit tooth teeth to fully collapse inwards to be separated from the corresponding position of the fixed ring seat, the adjusting limiting block can be rotated to drive the side expanding component, the sensing communication module, the air monitoring mechanism and the soil monitoring mechanism which are installed in an expanding way to adjust the axial relative position, the angle adjustment and adaptation of the monitoring area can be realized, the adjusting limiting blocks arranged in a distributed mode along the axis effectively improve the adjusting processing of the assembly angle of the agricultural environment monitoring mechanism, the expanding, increasing and decreasing processing of monitoring modules in the region is facilitated, and the adjusting limiting blocks are adaptive to the monitoring regions and the adjusting of the angle of crops in different ranges.

2. According to the invention, through the designed air monitoring mechanism and the expansion assembly, the expansion seat can preliminarily adjust the assembly height through the sliding position of the first sleeve joint ring outside the first transmission rod, meanwhile, when the assembly height of the first sleeve joint ring is adjusted outside the first transmission rod, after the angle of the first sleeve joint ring is adjusted, the insertion seat on one side can be pulled to rotate around a pin shaft on one side of the hinge piece, the insertion seat can drive the correspondingly inserted air monitoring mechanism and the first support rod and the second support rod of the soil monitoring mechanism to adjust the relative assembly depth and the relative orientation angle, through the rotation treatment of the insertion seat around the pin shaft, the extension butt of the top detection module of the air monitoring mechanism on the greenhouse window body can be adjusted, the insertion rod and the soil humidity sensor of the soil monitoring mechanism on the bottom side can be inserted into the soil in the area to be detected, the air monitoring mechanism and the soil humidity sensor can be improved, The soil monitoring mechanism and the sensing communication module realize multi-dimensional monitoring processing of agricultural environment data in the greenhouse, and monitoring and extraction of necessary data of intelligent agriculture are met.

3. According to the invention, when a monitoring module of the air monitoring mechanism extends upwards out of a shed roof, the air speed sensor and the temperature and humidity sensor of the monitoring module can monitor the temperature and humidity outside the shed and the relative air speed, and when the air monitoring mechanism extends out of the shed roof, after the inserting plate is driven to be separated from the abutting groove block by drawing the sliding rod, the connecting block on one side can be driven to rotate around the bottom side of the connecting rod by pulling the adjusting sleeve and the hinge block on the other side of the connecting rod on the top side is pushed to deflect relatively, the hinge block can drive the deflection shaft sleeve to rotate around the hinge rod, the deflection shaft sleeve can rotate to pull the adjusting plate on one side and the monitoring module assembled at the top to deflect and adjust, the relative deflection angle of the monitoring module is fully adjusted, the adjustment of the orientation angle of the monitoring module on the windward side is met, and the monitoring stability of the environment climate outside the shed is ensured.

Drawings

Fig. 1 is a schematic perspective view of an intelligent agricultural environment monitoring device with convenient networking expansion according to the present invention;

FIG. 2 is a schematic diagram of an explosion-splitting structure of the intelligent agricultural environment monitoring device convenient for networking expansion according to the present invention;

FIG. 3 is a schematic view of an expanded component assembly structure of the intelligent agricultural environment monitoring device convenient for expanded networking according to the present invention;

FIG. 4 is a schematic structural view of an air monitoring mechanism of the intelligent agricultural environment monitoring device convenient for networking expansion according to the present invention;

FIG. 5 is a schematic view of another angle structure of an air monitoring mechanism of the intelligent agricultural environment monitoring device convenient for networking expansion according to the present invention;

FIG. 6 is a schematic perspective view of an insertion board of the intelligent agricultural environment monitoring device convenient for network expansion according to the present invention;

FIG. 7 is a schematic view of an assembly structure of a sensing communication module of the intelligent agricultural environment monitoring device convenient for network expansion according to the present invention;

FIG. 8 is a schematic view of a three-dimensional structure of a soil monitoring mechanism of the intelligent agricultural environment monitoring device convenient for networking expansion according to the present invention;

FIG. 9 is a schematic diagram of a partially disassembled structure of an intelligent agricultural environment monitoring device with convenient expansion and networking according to the present invention;

FIG. 10 is a schematic diagram of a networking architecture of an intelligent agricultural environment monitoring device with convenience in expanded networking according to the present invention;

fig. 11 is a schematic structural diagram of another perspective view of the intelligent agricultural environment monitoring device convenient for networking expansion according to the present invention.

Illustration of the drawings:

1. a stationary ring seat; 2. an adjustment mechanism; 201. adjusting a limiting block; 202. a limit toothed plate; 203. limiting teeth; 3. an air monitoring mechanism; 301. a fixed seat; 302. a hinged lever; 303. a deflection rotating shaft sleeve; 304. an adjusting plate; 305. a monitoring module; 306. a hinged block; 307. a connecting rod; 308. connecting blocks; 309. an adjusting sleeve; 310. a slide bar; 311. an insertion plate; 312. a spring; 313. abutting against the groove block; 314. a first support bar; 4. an expansion component; 401. an expansion seat; 402. a limiting groove; 403. a first drive lever; 404. a first ferrule; 405. an articulation member; 406. a plug seat; 407. a threaded post; 5. fixing the inner hoop; 6. a soil monitoring mechanism; 601. a second support bar; 602. a connecting seat; 603. a second transmission seat; 604. a second nesting ring; 605. an insertion rod; 7. a sensing communication module; 8. a shed rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-11, the present invention provides a technical solution: a smart agricultural environment monitoring device convenient for networking expansion comprises a plurality of groups of shed rods 8 arranged in an agricultural greenhouse, wherein a plurality of fixed ring seats 1 are detachably mounted on the outer side walls of the shed rods 8, a plurality of adjusting mechanisms 2 are slidably connected to the inner cavities of the fixed ring seats 1, the adjusting mechanisms 2 can be in limited connection with the inner cavities of the fixed ring seats 1, expanding components 4 are fixedly arranged on one sides of the adjusting mechanisms 2, and the expanding components 4 are detachably connected with an air monitoring mechanism 3, a soil monitoring mechanism 6 and a sensing communication module 7 respectively and used for transmitting agricultural environment monitoring data to the smart agricultural platform through the sensing communication module 7;

adjusting mechanism 2 is including adjusting stopper 201, adjust stopper 201 sliding connection at 1 inner chamber of fixed ring seat, adjust the equal fixedly connected with spacing pinion rack 202 in stopper 201 both ends, the equal fixedly connected with spacing tooth 203 in spacing pinion rack 202 both sides, spacing tooth 203 laminates with 1 inner chamber one side of fixed ring seat mutually, extend subassembly 4 including setting firmly in the extension seat 401 of adjusting stopper 201 one side, extend the adjustable seat 406 that is connected with in seat 401 one side, insert seat 406 and the air monitoring mechanism 3, the soil monitoring mechanism 6 and the 7 swing joint of sensing communication module who correspond the position.

The implementation mode is specifically as follows: when the environment in the agricultural intelligent greenhouse needs to be monitored, after the fixed ring seat 1 is assembled with the greenhouse rod 8 in the greenhouse through the two side step assembling blocks and the fixing bolts, after the relative position outside the greenhouse rod 8 is adjusted by pulling the fixed ring seat 1, the limiting teeth 203 can be driven to fully collapse inwards by pressing the limiting toothed plates 202 on the two sides of the adjusting limiting block 201, at the moment, the limiting toothed plates 202 can be separated from the corresponding position of the fixed ring seat 1, at the moment, the one side expanding component 4, the sensing communication module 7 which is installed in an expanding way, the air monitoring mechanism 3 and the soil monitoring mechanism 6 can be driven to adjust the axial relative position by rotating the adjusting limiting block 201, after the angle is adjusted, the angle adjustment and adaptation of a monitoring area can be realized, the adjustment processing of the assembling angle of the agricultural environment monitoring mechanism can be effectively improved through the adjusting limiting blocks 201 which are distributed along the axis, the expansion increase and decrease processing of the monitoring modules 305 in the area is facilitated.

Referring to fig. 2-8, a limiting groove 402 is formed on one side of the expanding base 401, a plurality of abutting blocks are fixedly connected in the limiting groove 402, a first transmission rod 403 is fixedly connected between two sides of an inner cavity of the expanding base 401, a first engaging ring 404 is slidably connected to an outer side wall of the first transmission rod 403, an articulating piece 405 is fixedly connected to one side of the first engaging ring 404 through a rod body, one side of the articulating piece 405 is articulated with an outer wall of the inserting base 406 through a pin shaft, a squeezing block 408 is fixedly connected to a rear side of the first engaging ring 404, the squeezing block 408 abuts against one side of the abutting block in the inner cavity of the limiting groove 402 in a limiting manner, a screw cap is embedded in one side of the inner cavity of the inserting base 406, a threaded post 407 is connected to the inner thread of the screw cap in a threaded manner, the threaded post 407 is used for squeezing and limiting with an inner inserting component, the soil monitoring mechanism 6 includes a second supporting rod 601 inserted and connected in the inserting base 406 at the bottom side, the bottom end of the second support rod 601 is fixedly connected with a connecting seat 602, a second transmission seat 603 is fixedly connected between two sides of an inner cavity of the connecting seat 602, a second sleeving ring 604 is sleeved on the outer side wall of the second transmission seat 603, an inserting rod 605 is fixedly connected to one side of the second sleeving ring 604, a soil humidity sensor is fixedly connected to the tail end of the inserting rod 605, the soil humidity sensor is inserted into soil through the inserting rod 605, the sensing communication module 7 is a zigbee internet of things communication module, and the inserting sleeve of the sensing communication module 7 is arranged outside the corresponding inserting seat 406.

The implementation mode is specifically as follows: through the designed air monitoring mechanism 3 and the expanding assembly 4, the expanding base 401 can preliminarily adjust the assembly height through the sliding position of the first sleeve joint ring 404 outside the first transmission rod 403, meanwhile, when the first sleeve joint ring 404 adjusts the assembly height through the outside of the first transmission rod 403, the extrusion block 408 at the rear side of the first sleeve joint ring 404 can be assembled and fixed through limiting and abutting of the limiting groove 402, after the angle of the first sleeve joint ring 404 is adjusted, the inserting base 406 at one side can be pulled to rotate around the pin shaft at one side of the hinge part 405, the inserting base 406 can drive the first support rod 314 and the second support rod 601 of the correspondingly inserted air monitoring mechanism 3 and soil monitoring mechanism 6 to adjust the relative assembly depth and the relative orientation angle, and when the first support rod 314 and the second support rod 601 are inserted into the inserting base 406 at the corresponding positions, the first support rod 314 and the second support rod 601, which can be screwed inwards and correspond to the inner side, of the threaded column 407 on one side of the inserting base 406 can be extruded through rotation The laminating, handle through the rotation of inserting seat 406 around the round pin axle, can adjust the extension butt of 3 top detection module of air monitoring mechanism to the big-arch shelter window form, simultaneously, can satisfy bottom side soil monitoring mechanism 6 insert wait to detect regional soil in pole 605 and soil moisture sensor insert to can improve air monitoring mechanism 3, soil monitoring mechanism 6 and sensing communication module 7 realize the multidimension degree monitoring of agricultural environment data in the big-arch shelter and handle, satisfy the monitoring of wisdom agriculture essential data and draw.

Referring to fig. 4-6, the air monitoring mechanism 3 includes a first supporting rod 314, a fixed seat 301 is fixedly connected to a top end of the first supporting rod 314, the first supporting rod 314 is inserted into an inner cavity of an insertion seat 406, a hinge rod 302 is fixedly connected between two sides of the inner cavity of the fixed seat 301, a deflection shaft sleeve 303 is sleeved on an outer side wall of the hinge rod 302 in a position-limiting manner, an adjusting plate 304 is fixedly connected to one side of the deflection shaft sleeve 303, a plurality of monitoring modules 305 are fixedly mounted on a top of the adjusting plate 304 and used for extending to the outside of the greenhouse through the first supporting rod 314 to monitor the quality, temperature, humidity and wind power of the outside air, a hinge block 306 is fixedly connected to one side of the deflection shaft sleeve 303, a connecting rod 307 is hinged to one side of the hinge block 306 through a pin shaft, a connecting block 308 is hinged to a bottom end of the connecting rod 307, and one side of the connecting block 308 is fixedly connected to an adjusting sleeve 309 which is connected to the outside of the first supporting rod 314 in a position-limiting manner, the cell body has been seted up to first bracing piece 314 one side, and a plurality of butt groove block 313 of cell body inner chamber fixedly connected with, butt groove block 313 cross sectional shape is triangle-shaped, adjusting collar 309 inner chamber one side is inlayed and is equipped with the sliding sleeve, sliding sleeve inner chamber sliding connection has slide bar 310, slide bar 310 one end fixedly connected with inserts board 311, insert board 311 one side and the spacing laminating in butt groove block 313 top inclined plane one side, slide bar 310 other end fixedly connected with handle, slide bar 310 lateral wall cover is equipped with spring 312, the spring 312 both ends correspond position fixed connection with handle and sliding sleeve one side respectively.

The implementation mode is specifically as follows: when the monitoring module 305 of the air monitoring mechanism 3 extends upwards out of the shed roof, the wind speed sensor and the temperature and humidity sensor of the monitoring module 305 can monitor the temperature and humidity outside the shed and the relative wind speed, and when the monitoring module extends out of the shed roof, the sliding rod 310 is drawn to drive the insertion plate 311 to separate from the abutting groove block 313, the adjusting sleeve 309 can be drawn to drive the connecting block 308 at one side to rotate around the bottom side of the connecting rod 307 and push the hinge block 306 at the other side of the connecting rod 307 at the top side to deflect relatively, the hinge block 306 can rotate to drive the deflection shaft sleeve 303 to rotate around the hinge rod 302, the deflection shaft sleeve 303 can rotate to draw the adjusting plate 304 at one side and the monitoring module 305 assembled at the top to deflect and adjust, so that the relative deflection angle of the monitoring module 305 can be fully adjusted, the adjustment of the orientation angle of the detection monitoring module 305 to the windward side is satisfied, and the monitoring stability of the environmental climate outside the shed is ensured, simultaneously when angle modulation accomplishes the back, can utilize one side insertion plate 311 to reset to block in butt groove 313 through unclamping handle spring 312 to the spacing throughput after can realizing the angle modulation of orientation, and through the butt groove 313 of multiunit setting, can satisfy the multistage regulation throughput of detecting the angle.

Referring to fig. 2, fixed inner hoops 5 are fixedly mounted on two sides of an inner cavity of the fixed ring seat 1 through telescopic rods, elastic members are sleeved on outer side walls of the telescopic rods, two sides of each elastic member are fixedly connected with the outer wall of the fixed inner hoop 5 and one side of the telescopic rod in a corresponding position, and the fixed inner hoops 5 can be used for assembling and fixing shed rods 8 with different diameters through the matching of the telescopic rods and the elastic members through the designed fixed inner hoops 5, so that the assembling requirements are met.

The working principle is as follows: when the agricultural intelligent greenhouse internal environment monitoring device is used, after the fixed ring seat 1 is assembled with a greenhouse rod 8 in the greenhouse through the two-side-step assembling blocks and the fixing bolts, after the relative position outside the greenhouse rod 8 is adjusted by pulling the fixed ring seat 1, the limiting teeth 203 are driven to fully collapse inwards by pressing the limiting toothed plates 202 on the two sides of the adjusting limiting block 201, at the moment, the limiting toothed plates 202 are separated from the corresponding position of the fixed ring seat 1, at the moment, the adjusting limiting block 201 is rotated to drive the one-side expanding component 4, the sensing communication module 7, the air monitoring mechanism 3 and the soil monitoring mechanism 6 to adjust the axial relative position, the expanding seat 401 primarily adjusts the assembling height through the sliding position of the first sleeve-connection ring 404 outside the first transmission rod 403, when the first sleeve-connection ring 404 adjusts the assembling height outside the first transmission rod 403, the extrusion block 408 at the rear side of the first nesting ring 404 is assembled and fixed by limiting and abutting the limiting groove 402, after the angle of the first nesting ring 404 is adjusted, the insertion seat 406 pulls the insertion seat 406 at one side to rotate around the pin shaft at one side of the hinge 405, the insertion seat 406 drives the first support rod 314 and the second support rod 601 of the correspondingly inserted air monitoring mechanism 3 and soil monitoring mechanism 6 to adjust the relative assembly depth and orientation angle, when the first support rod 314 and the second support rod 601 are inserted into the insertion seat 406 at the corresponding positions, the threaded post 407 at one side of the insertion seat 406 is screwed inwards by rotation into the first support rod 314 and the second support rod 601 corresponding to the inner side to perform extrusion and fitting, through the rotation process of the insertion seat 406 around the pin shaft, the extension abutting of the top detection module of the air monitoring mechanism 3 to the greenhouse window is adjusted, when the monitoring module 305 of the air monitoring mechanism 3 extends upwards out of the greenhouse top, the wind speed sensor and the temperature and humidity sensor of the monitoring module 305 monitor the temperature and humidity outside the greenhouse and the relative wind speed, when the greenhouse is extended out of the ceiling, the sliding rod 310 is pulled to drive the insertion plate 311 to be separated from the abutting groove block 313, the adjusting sleeve 309 is pulled to drive the connecting block 308 on one side to rotate around the bottom side of the connecting rod 307 and push the hinge block 306 on the other side of the connecting rod 307 on the top side to deflect relatively, the hinge block 306 rotates to drive the deflection shaft sleeve 303 to rotate around the hinge rod 302, and the deflection shaft sleeve 303 rotates to pull the adjusting plate 304 on one side and the monitoring module 305 assembled at the top to deflect and adjust.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The intelligent agricultural environment monitoring device convenient for networking expansion comprises a plurality of groups of shed rods (8) arranged in an agricultural greenhouse, wherein a plurality of fixed ring seats (1) are detachably mounted on the outer side wall of each shed rod (8), and is characterized in that a plurality of adjusting mechanisms (2) are slidably connected to the inner cavity of each fixed ring seat (1), each adjusting mechanism (2) can be connected to the inner cavity of each fixed ring seat (1) in a limiting manner, an expansion component (4) is fixedly arranged on one side of each adjusting mechanism (2), and the expansion components (4) are respectively detachably connected with an air monitoring mechanism (3), a soil monitoring mechanism (6) and a sensing communication module (7) and used for transmitting agricultural environment monitoring data to the intelligent agricultural platform through the sensing communication module (7);

adjustment mechanism (2) are including adjusting stopper (201), adjust stopper (201) sliding connection at retaining ring seat (1) inner chamber, adjust stopper (201) equal fixedly connected with spacing pinion rack (202) in both ends, spacing pinion rack (202) both sides equal fixedly connected with spacing tooth (203), spacing tooth (203) laminate with retaining ring seat (1) inner chamber one side mutually, extend subassembly (4) including setting firmly in expanding seat (401) of adjusting stopper (201) one side, it is adjustable to be connected with in one side of seat (401) to expand seat (406), insert seat (406) and air monitoring mechanism (3), soil monitoring mechanism (6) and sensing communication module (7) swing joint that correspond the position.

2. The intelligent agricultural environment monitoring device convenient for networking expansion of claim 1, wherein a limiting groove (402) is formed in one side of the expansion seat (401), a plurality of abutting blocks are fixedly connected in the limiting groove (402), a first transmission rod (403) is fixedly connected between two sides of an inner cavity of the expansion seat (401), a first sleeve ring (404) is slidably connected to the outer side wall of the first transmission rod (403), an articulated piece (405) is fixedly connected to one side of the first sleeve ring (404) through a rod body, one side of the articulated piece (405) is hinged to the outer wall of the insertion seat (406) through a pin shaft, a squeezing block (408) is fixedly connected to the rear side of the first sleeve ring (404), and the squeezing block (408) is in limited abutting connection with one side of the abutting block of the inner cavity of the limiting groove (402).

3. The intelligent agricultural environment monitoring device convenient for networking expansion of claim 2, wherein a threaded cap is embedded on one side of the inner cavity of the insertion seat (406), a threaded column (407) is connected with the threaded cap in a threaded manner, and the threaded column (407) is used for limiting the position of the inner insertion component in a pressing manner.

4. The intelligent agricultural environment monitoring device convenient for networking expansion of claim 1, wherein the air monitoring mechanism (3) comprises a first supporting rod (314), a fixed seat (301) is fixedly connected to the top end of the first supporting rod (314), the first supporting rod (314) is inserted into an inner cavity of an insertion seat (406), a hinge rod (302) is fixedly connected between two sides of the inner cavity of the fixed seat (301), a deflection shaft sleeve (303) is sleeved on the outer side wall of the hinge rod (302) in a limiting manner, an adjusting plate (304) is fixedly connected to one side of the deflection shaft sleeve (303), and a plurality of monitoring modules (305) are fixedly mounted on the top of the adjusting plate (304) and used for monitoring external air quality, temperature and humidity and wind power by extending the first supporting rod (314) to the outside of the greenhouse.

5. The intelligent agricultural environment monitoring device convenient for networking expansion of claim 4, wherein one side of the deflection shaft sleeve (303) is fixedly connected with a hinge block (306), one side of the hinge block (306) is hinged with a connecting rod (307) through a pin shaft, the bottom end of the connecting rod (307) is hinged with a connecting block (308), and one side of the connecting block (308) is fixedly connected with an adjusting sleeve (309) in a limiting connection mode outside the first supporting rod (314).

6. The convenient wisdom agricultural environment monitoring device of extension network deployment of claim 5, characterized in that, the cell body has been seted up to first bracing piece (314) one side, and cell body inner chamber fixedly connected with a plurality of butt groove pieces (313), butt groove piece (313) cross sectional shape is triangle-shaped, adjusting sleeve (309) inner chamber one side is inlayed and is equipped with the sliding sleeve, sliding sleeve inner chamber sliding connection has slide bar (310), slide bar (310) one end fixedly connected with inserts board (311), insert board (311) one side and the spacing laminating of butt groove piece (313) top inclined plane one side, slide bar (310) other end fixedly connected with handle, slide bar (310) lateral wall cover is equipped with spring (312), spring (312) both ends correspond position fixed connection with handle and sliding sleeve one side respectively.

7. The intelligent agricultural environment monitoring device convenient for networking expansion of claim 1, wherein the soil monitoring mechanism (6) comprises a second support rod (601) inserted and connected in the bottom insertion seat (406), a connection seat (602) is fixedly connected to the bottom end of the second support rod (601), a second transmission seat (603) is fixedly connected between two sides of an inner cavity of the connection seat (602), a second insertion ring (604) is sleeved on the outer side wall of the second transmission seat (603), an insertion rod (605) is fixedly connected to one side of the second insertion ring (604), and a soil humidity sensor is fixedly connected to the tail end of the insertion rod (605) and used for inserting the soil humidity sensor into soil through the insertion rod (605).

8. The intelligent agricultural environment monitoring device convenient for networking expansion of claim 1, wherein the sensing communication module (7) is a zigbee internet of things communication module, and the sensing communication module (7) is inserted and sleeved outside the corresponding insertion seat (406).

9. The intelligent agricultural environment monitoring device convenient for networking expansion of claim 1, wherein the fixed ring seat (1) is fixedly provided with fixed inner hoops (5) at two sides of the inner cavity through telescopic rods, the outer side wall of the telescopic rods is sleeved with elastic members, and two sides of the elastic members are respectively fixedly connected with the outer walls of the fixed inner hoops (5) and one side of the telescopic rods in corresponding positions.

10. The intelligent agricultural environment monitoring device convenient for networking expansion as claimed in claim 1, wherein the fixing ring seat (1) comprises two symmetrical arc-shaped portions, two ends of each arc-shaped portion are assembled by fixing bolts, an inner cavity of each arc-shaped portion is provided with an adjusting groove for sliding the adjusting limiting block (201), and the adjusting limiting block (201) is tightly inserted and matched with the arc-shaped portion of the inner cavity of the fixing ring seat (1).

Images