CN219609256U - Orchard weather station - Google Patents

Orchard weather station Download PDF

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Publication number
CN219609256U
CN219609256U CN202321194407.3U CN202321194407U CN219609256U CN 219609256 U CN219609256 U CN 219609256U CN 202321194407 U CN202321194407 U CN 202321194407U CN 219609256 U CN219609256 U CN 219609256U
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China
Prior art keywords
fixed
orchard
support
servo motor
weather station
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CN202321194407.3U
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Chinese (zh)
Inventor
曹光标
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Fuzhou Kaida Ecological Agriculture Co ltd
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Fuzhou Kaida Ecological Agriculture Co ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A90/00Technologies having an indirect contribution to adaptation to climate change
    • Y02A90/10Information and communication technologies [ICT] supporting adaptation to climate change, e.g. for weather forecasting or climate simulation

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  • Testing Or Calibration Of Command Recording Devices (AREA)

Abstract

The utility model discloses an orchard weather station which comprises a shell, wherein an installation seat is rotatably sleeved in the shell, a support is fixed in the shell, an electric rotating mechanism for driving the installation seat to rotate is installed on the support, four stepped holes are formed in the installation seat, a cylindrical sliding block is slidably sleeved in the stepped holes, a sensor group is installed on the cylindrical sliding block, an electric propelling mechanism for driving the cylindrical sliding block to slide in the stepped holes is installed on the support, and a through hole is formed in the top of the shell. The four groups of sensor groups are arranged in the utility model, and correspond to four seasons respectively, the types of the sensors are set according to the parameters required to be measured in each season, so that the sensors can be well protected, and the service life of the sensors is prolonged.

Description

Orchard weather station
Technical Field
The utility model relates to the technical field of orchard weather monitoring, in particular to an orchard weather station.
Background
In the orchard planting, all-weather field monitoring is generally required to be carried out on meteorological elements such as wind speed, wind direction, rainfall, air temperature, air humidity, illumination intensity and atmospheric pressure, but in each season all the year round, the key points of different meteorological monitoring are different, if all the meteorological sensors are directly installed and placed, waste is easy to cause, and the service lives of the meteorological sensors are greatly damaged, so that an orchard meteorological station is provided for solving the problem.
Disclosure of Invention
The utility model aims to solve the defects in the prior art and provides an orchard weather station.
In order to achieve the above purpose, the present utility model adopts the following technical scheme:
the utility model provides an orchard weather station, includes the casing, the inside of casing rotates and cup joints the mount pad, the inside of casing is fixed with the support, install the electronic rotary mechanism that is used for driving the mount pad rotation on the support, four shoulder holes have been seted up on the mount pad, cylinder slider has been cup jointed in the sliding of shoulder hole, install the sensor group on the cylinder slider, install the electronic advancing mechanism that is used for driving cylinder slider at the gliding in shoulder hole on the support, the through-hole has been seted up at the top of casing.
Preferably, a supporting rod is fixed on the side edge of the shell, and a mounting plate is fixed at the bottom end of the supporting rod.
Preferably, the inside bottom of casing is domatic, the bottom intercommunication of casing has the drain pipe, the bottom mounting of drain pipe has the metal mesh.
Preferably, the side of mount pad is fixed with annular slider, annular slider's outside has rotated the sleeve joint annular slide, annular slide is fixed on the inner wall of casing.
Preferably, the electric rotating mechanism comprises a first servo motor, the first servo motor is mounted on the support, and an output shaft of the first servo motor is fixedly connected with the mounting seat.
Preferably, the output shaft of the first servo motor is fixedly sleeved with a cylindrical block, four fixing rods which are arranged in a circumferential array are fixed on the side edges of the cylindrical block, an induction block is fixed on the fixing rods, and an inductor corresponding to the induction block is installed on the support.
Preferably, a drain hole is formed in the top edge of the cylindrical sliding block, and a sealing gasket is fixed to the top of the cylindrical sliding block.
Preferably, the electric propulsion mechanism comprises a second servo motor, a screw rod, a lifting plate, a push rod and a slide rod, wherein the second servo motor is installed on the support, an output shaft of the second servo motor is connected with the screw rod, the lifting plate is sleeved on the screw rod through threads, the push rod is fixed at the top of the lifting plate, the slide rod is sleeved on the lifting plate in a sliding mode, and the slide rod is fixed on the support.
Compared with the prior art, the utility model has the beneficial effects that:
1. in the utility model, the mounting plate can be directly fixed on the ground or other appointed positions; the sensor groups are respectively corresponding to four seasons, the types of the sensors are set according to parameters required to be measured in each season, the sensors can be well protected, the service life of the sensors is prolonged, the rotation stability of the mounting seat can be improved through the annular sliding blocks and the annular sliding seats, the first servo motor can drive the mounting seat to rotate, when one sensing block is moved from above the sensor and the next sensing block is moved to above the sensor, the sensor groups are exactly rotated by 90 degrees, at the moment, one sensor group can be exactly replaced, and the mounting seat can move different sensor groups to the lower part of the through hole in the rotation process;
2. according to the utility model, the second servo motor drives the screw rod to rotate, the screw rod can drive the lifting plate to move through the threaded transmission between the screw rod and the lifting plate, the lifting plate drives the push rod to push the cylindrical sliding block, so that the cylindrical sliding block is lifted, a sensor group at the position is pushed out of the through hole, the parameter detection is realized, when the sensor group needs to be replaced, the push rod moves downwards, the cylindrical sliding block moves downwards under the action of gravity, and the cylindrical sliding block can move downwards under the action of the gravity of the electric propulsion mechanism and the cylindrical sliding block;
3. in the utility model, the slope is convenient for discharging water in the shell, the metal net can prevent foreign matters from entering the shell, and the drain pipe can drain water in the shell, so that the influence on the use of the electric appliance caused by the accumulation of water in the shell is avoided.
Drawings
FIG. 1 is a schematic diagram of an orchard weather station according to the present utility model;
FIG. 2 is a cross-sectional view of a housing of an orchard weather station according to the present utility model;
fig. 3 is a schematic view of an installation structure of a component on a bracket of an orchard weather station according to the present utility model.
In the figure: 1 a shell, 2 support rods, 3 mounting plates, 4 electric rotating mechanisms, 41 a first servo motor, 42 a cylindrical block, 43 a fixed rod, 44 an induction block, 45 an inductor, 5 an electric propelling mechanism, 51 a second servo motor, 52 screw rods, 53 lifting plates, 54 push rods, 55 slide rods, 6 annular sliding seats, 7 annular sliding blocks, 8 cylindrical sliding blocks, 9 sensor groups, 10 through holes, 11 sealing gaskets, 12 drainage holes, 13 mounting seats, 14 brackets and 15 metal meshes.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.
Referring to fig. 2, an orchard weather station, which comprises a housing 1, mount pad 13 has been cup jointed in the inside rotation of housing 1, the inside of housing 1 is fixed with support 14, install the electronic rotary mechanism 4 that is used for driving mount pad 13 rotation on support 14, electronic rotary mechanism 4 can drive mount pad 13 rotation, four shoulder holes have been seted up on mount pad 13, cylindrical slider 8 has been cup jointed in the shoulder hole slip, install sensor group 9 on the cylindrical slider 8, sensor group 9 is provided with four groups, four sensor group 9 correspond with the four seasons respectively, set for the kind of sensor according to the parameter of each season needs to measure, mount pad 13 can be with different sensor group 9 removal to the below of through-hole 10 in the rotation process, can promote cylindrical slider 8 through electronic advancing mechanism 5 and shift up, thereby come out the sensor group 9 of this position from through-hole 10, realize the detection to the parameter, when need change sensor group 9, can realize cylindrical slider 8 down shift through electronic advancing mechanism 5 and cylindrical slider 8's gravity down, install the electronic advancing mechanism 5 that is used for driving cylindrical slider 8 to slide in the hole on the support 14, the through-hole top of housing 1 has been seted up through-hole 10.
Referring to fig. 1, a support bar 2 is fixed to a side of a housing 1, a mounting plate 3 is fixed to a bottom end of the support bar 2, and the mounting plate 3 may be directly fixed to the ground or other designated positions.
Referring to fig. 2, the inside bottom of the casing 1 is a slope, the bottom of the casing 1 is communicated with a drain pipe, the bottom end of the drain pipe is fixed with a metal net 15, a drain hole 12 is formed in the top edge of the cylindrical sliding block 8, a sealing gasket 11 is fixed at the top of the cylindrical sliding block 8, the slope facilitates the discharge of water inside the casing 1, the metal net 15 can prevent foreign matters from entering the casing 1, the drain pipe can drain water inside the casing 1, and the phenomenon that the use of an electric appliance is influenced due to the accumulation of water inside is avoided.
Referring to fig. 2, an annular slider 7 is fixed to a side of the mounting base 13, an annular slider 6 is rotatably sleeved on the outer portion of the annular slider 7, the annular slider 6 is fixed to an inner wall of the housing 1, and stability of rotation of the mounting base 13 can be improved through the annular slider 7 and the annular slider 6.
Referring to fig. 3, the electric rotating mechanism 4 includes a first servo motor 41, the first servo motor 41 is mounted on a bracket 14, an output shaft of the first servo motor 41 is fixedly connected with a mounting seat 13, a cylindrical block 42 is fixedly sleeved on the output shaft of the first servo motor 41, four fixing rods 43 arranged in a circumferential array are fixed on the side edges of the cylindrical block 42, sensing blocks 44 are fixed on the fixing rods 43, a sensor 45 corresponding to the sensing blocks 44 is mounted on the bracket 14, the first servo motor 41 can drive the mounting seat 13 to rotate, and when one sensing block 44 is moved from above the sensor 45 and is moved from above the next sensing block 44 to above the sensor 45, the rotation is exactly 90 degrees, and at the moment, one sensor group 9 can be exactly replaced.
Referring to fig. 3, the electric propulsion mechanism 5 includes a second servo motor 51, a screw rod 52, a lifting plate 53, a push rod 54, and a sliding rod 55, where the second servo motor 51 is installed on the support 14, an output shaft of the second servo motor 51 is connected with the screw rod 52, the screw rod 52 is sleeved with the lifting plate 53 through a thread, the push rod 54 is fixed on the top of the lifting plate 53, the lifting plate 53 is slidably sleeved with the sliding rod 55, the sliding rod 55 is fixed on the support 14, the second servo motor 51 drives the screw rod 52 to rotate, the screw rod 52 can drive the lifting plate 53 to move through a thread transmission with the lifting plate 53, the lifting plate 53 drives the push rod 54 to push the cylindrical slider 8 to realize lifting of the cylindrical slider 8, and when the push rod 54 moves down, the cylindrical slider 8 moves down under the action of gravity.
Working principle: when in use, the mounting plate 3 can be directly fixed on the ground or other designated positions; the four groups of sensor groups 9 are arranged, the four sensor groups 9 correspond to four seasons respectively, the types of the sensors are set according to parameters required to be measured in each season, the stability of rotation of the mounting seat 13 can be improved through the annular sliding block 7 and the annular sliding seat 6, the first servo motor 41 can drive the mounting seat 13 to rotate, when one sensor block 44 is moved from the upper part of the sensor 45 and the next sensor block 44 is moved to the upper part of the sensor 45, the sensor groups 9 can be just rotated by 90 degrees, at the moment, the mounting seat 13 can just replace one sensor group 9, the different sensor groups 9 can be moved to the lower part of the through hole 10 in the rotation process, the second servo motor 51 drives the screw rod 52 to rotate, the screw rod 52 can drive the lifting plate 53 to move through the screw transmission between the lifting plate 53, the lifting plate 53 drives the push rod 54 to push the cylindrical sliding block 8, the cylindrical sliding block 8 is lifted, accordingly, the sensor groups 9 at the position are pushed out of the through hole 10, the detection of the parameters is achieved, when the sensor groups 9 need to be replaced, the push rod 54 moves down, the cylindrical sliding block 8 moves down under the action of gravity, and the cylindrical sliding block 8 moves down through the gravity of the electric pushing mechanism 5 and the cylindrical sliding block 8; the slope is convenient for the drainage of casing 1 inside water, and the metal mesh 15 can prevent that the foreign matter from entering into in the casing 1, and the drain pipe can discharge the inside water of casing 1, avoids inside water to stay and influences the electrical apparatus and use.
The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The utility model provides an orchard weather station, includes casing (1), its characterized in that, the inside of casing (1) rotates and cup joints mount pad (13), the inside of casing (1) is fixed with support (14), install on support (14) and be used for driving the rotatory electronic rotary mechanism (4) of mount pad (13), four shoulder holes have been seted up on mount pad (13), cylinder slider (8) have been cup jointed in the shoulder hole slip, install sensor group (9) on cylinder slider (8), install on support (14) and be used for driving the gliding electronic propulsion mechanism (5) in the shoulder hole of cylinder slider (8), through-hole (10) have been seted up at the top of casing (1).
2. An orchard weather station according to claim 1, wherein the side of the housing (1) is fixed with a support bar (2), and the bottom end of the support bar (2) is fixed with a mounting plate (3).
3. An orchard weather station according to claim 1, wherein the inner bottom of the housing (1) is a slope, the bottom of the housing (1) is communicated with a drain pipe, and a metal net (15) is fixed at the bottom end of the drain pipe.
4. An orchard weather station according to claim 1, wherein the side edge of the mounting base (13) is fixedly provided with an annular sliding block (7), an annular sliding seat (6) is rotatably sleeved outside the annular sliding block (7), and the annular sliding seat (6) is fixed on the inner wall of the shell (1).
5. An orchard weather station according to claim 1, wherein the electric rotating mechanism (4) comprises a first servo motor (41), the first servo motor (41) is mounted on a support (14), and an output shaft of the first servo motor (41) is fixedly connected with a mounting seat (13).
6. The orchard weather station according to claim 5, wherein a cylindrical block (42) is fixedly sleeved on an output shaft of the first servo motor (41), four fixing rods (43) which are arranged in a circumferential array are fixed on the side edges of the cylindrical block (42), sensing blocks (44) are fixed on the fixing rods (43), and sensors (45) corresponding to the sensing blocks (44) are mounted on the support (14).
7. The orchard weather station according to claim 1, wherein the top edge of the cylindrical sliding block (8) is provided with a drain hole (12), and a sealing gasket (11) is fixed to the top of the cylindrical sliding block (8).
8. The orchard weather station according to claim 1, wherein the electric propulsion mechanism (5) comprises a second servo motor (51), a screw rod (52), a lifting plate (53), a push rod (54) and a slide rod (55), the second servo motor (51) is installed on the support (14), an output shaft of the second servo motor (51) is connected with the screw rod (52), the lifting plate (53) is sleeved on the screw rod (52) through threads, the push rod (54) is fixed at the top of the lifting plate (53), the slide rod (55) is sleeved on the lifting plate (53) in a sliding mode, and the slide rod (55) is fixed on the support (14).
CN202321194407.3U 2023-05-17 2023-05-17 Orchard weather station Active CN219609256U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202321194407.3U CN219609256U (en) 2023-05-17 2023-05-17 Orchard weather station

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202321194407.3U CN219609256U (en) 2023-05-17 2023-05-17 Orchard weather station

Publications (1)

Publication Number Publication Date
CN219609256U true CN219609256U (en) 2023-08-29

Family

ID=87751817

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202321194407.3U Active CN219609256U (en) 2023-05-17 2023-05-17 Orchard weather station

Country Status (1)

Country Link
CN (1) CN219609256U (en)

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