CN217329092U - Orchard weather monitoring equipment - Google Patents

Abstract

The utility model discloses an orchard weather monitoring facilities, which comprises a body, install the adjustment mechanism in the body lower part to and install the case that holds on the body of rod, adjustment mechanism includes the every single move runner assembly of adjustable body every single move angle and the horizontal runner assembly that is used for adjusting body horizontal angle, the adjustment mechanism lower part is installed on the movable plate, the movable plate is located and holds the case and seted up open one side, it installs first driving motor to hold the incasement, a driving motor transmission is connected with the lead screw, it has the guide bar to hold the incasement wall outside extension, guide bar and lead screw parallel arrangement of each other, the guide bar tip passes the uide bushing of movable plate lower part, the screw thread bush screw-thread fit of lead screw tip and movable plate lower part. The lead screw and the guide rod can enable the movable plate to move horizontally, the movable plate is finally driven to move, when the movable plate is in bad weather, the body is moved into the containing box, and when the weather is improved, the body is moved out of the containing box. Thereby protecting the body and prolonging the service life of the body.

Description

Orchard weather monitoring equipment

Technical Field

The utility model belongs to the technical field of equipment for weather monitoring, concretely relates to orchard weather monitoring equipment.

Background

Weather is very important factor among the orchard planting process, and through ground meteorological observation in time master the weather condition, the crop is planted to the scientific standard, is favorable to promoting the sustainable development of agricultural production, in time protects the fruit tree according to the weather condition and can effectively improve the output of fruit. Meanwhile, monitoring the weather in the orchard for a long time is beneficial to controlling the change of the weather, planting corresponding fruits according to the weather conditions, and finally improving the income of fruit growers.

The weather monitoring of the orchard is generally realized by adopting weather monitoring equipment, the equipment can observe meteorological elements such as wind speed, wind direction, temperature, humidity, air pressure, pm2.5, pm10, noise and the like in real time, and can realize 24-hour continuous online monitoring of outdoor meteorological parameters.

However, on one hand, the existing equipment cannot rotate by an angle, so that the monitored data is not accurate and comprehensive, and on the other hand, when extreme weather such as snowfall, typhoon and the like is encountered, the detection element is easily damaged, so that the whole equipment fails, and therefore, it is necessary to design the orchard weather monitoring equipment capable of protecting the detection element in the extreme weather.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned problem that exists among the prior art, the utility model provides an orchard weather monitoring facilities.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides an orchard weather monitoring equipment, includes the body, installs the adjustment mechanism in the body lower part to and install the case that holds on the body of rod, adjustment mechanism includes but the every single move runner of body every single move angle and the horizontal runner that is used for adjusting body horizontal angle, and the adjustment mechanism lower part is installed on the movable plate, the movable plate is located and holds the case and seted up open one side, holds the incasement and installs a driving motor, and a driving motor transmission is connected with the lead screw, it has the guide bar to hold the incasement wall outside extension, and guide bar and lead screw parallel arrangement of each other, guide bar tip pass the uide bushing of movable plate lower part, the screw rod tip and the thread bushing screw-thread fit of movable plate lower part.

In this embodiment, the body can carry out real-time observation to meteorological elements such as wind speed, wind direction, temperature, humidity, atmospheric pressure, pm2.5, pm10, noise, and the body can be from carrying the battery and also can supply power through the power in the holding box. This is prior art. The body sub-unit connection has the every single move runner assembly subassembly, and horizontal runner assembly installs in the below of body, and horizontal runner assembly can adjust the body and rotate around self place axis, and every single move runner assembly installs in the side of body, can adjust the angle of elevation and the angle of depression of body to change the every single move angle of body, acquire more comprehensive weather data.

The adjusting mechanism is movably connected with the accommodating box through a movable plate at the lower part, a first driving motor is installed in the accommodating box, the first driving motor drives the screw rod to rotate when working, the screw rod is in transmission fit with the thread sleeve, the screw rod and the guide rod can enable the movable plate to horizontally move, the movable plate is finally driven to move, when the body is in severe weather, the body is moved into the accommodating box, and when the weather is good, the body is moved out from the accommodating box. Thereby protecting the body and prolonging the service life of the body.

Furthermore, adjustment mechanism includes the fixed plate of vertical installation on the movable plate, every single move runner assembly and horizontal runner assembly all include rotor arm and adjusting part, and one of them adjusting part is located the fixed plate outside, and this adjusting part runs through fixed plate after-fixing to a rotor arm, two rotor arms surround outside a rotor ball, and the rotor ball below is provided with another adjusting part, and this adjusting part runs through a connecting plate after-fixing with another rotor arm fixed, the rotor ball is fixed with two axis of rotation, and the axis of rotation correspondence is connected to the rotor arm, and the axis of rotation and the body coupling on rotor ball upper portion.

The embodiment provides a specific structure of every single move runner assembly and horizontal runner assembly, specifically is that the rotor arm is "L" type structure, and rotor arm one end trompil, adjusting part run through this hole, and the fixed axis of rotation of the other end, two adjusting part place straight lines mutually perpendicular, and the fixed plate level sets up, and the connecting plate sets up with the fixed plate is perpendicular, and the connecting plate is located one side that the fixed plate is close to and holds the case.

Further, the adjusting part is an adjusting button, and the adjusting button is in damping fit with the corresponding connecting plate or fixing plate.

This embodiment provides a specific structure of the adjustment member, and this embodiment employs manual adjustment. During the use, according to the direction of regulation of needs body, rotate the adjusting knob that corresponds, the adjusting knob can be selected according to actual conditions, for example stopper column structure, and the adjusting knob drives the rotor arm and rotates, and adjusting knob and connecting plate or fixed plate damping cooperation avoid the body to drive the adjusting knob because weight and rotate, the position of control body.

Further, the adjusting means is a second driving motor electrically connected to an electric control center inside the accommodating box.

Furthermore, a solar cell panel is fixed outside the rod body and is electrically connected with an electric control center.

In this embodiment, another specific structure of the adjusting component is provided, in which a motor is used to drive the rotating arm, a second driving motor is electrically connected to the electric control center, and the second driving motor may be a servo motor, and has a lower rotation speed, and can control the number of turns of the rotating battery cell.

In order to prolong the service time of the power supply, a solar cell panel is arranged on the rod body and is positioned above the accommodating box.

Further, the end part of the rotating shaft at the upper part of the rotating ball is provided with an external thread, and the rotating shaft is in threaded connection with the body through the external thread.

In the embodiment, the body is connected with the rotating shaft through threads, so that the installation is convenient.

Compared with the prior art, the scheme has the beneficial effects that:

the body sub-unit connection has the every single move rotating assembly subassembly, and horizontal rotating assembly installs in the below of body, and horizontal rotating assembly can adjust the body and rotate around self place axis, and every single move rotating assembly installs in the side of body, can adjust the angle of elevation and the angle of depression of body to change the every single move angle of body, acquire more comprehensive weather data. The lead screw and the guide rod can enable the movable plate to move horizontally, the movable plate is finally driven to move, when the movable plate is in bad weather, the body is moved into the containing box, and when the weather is improved, the body is moved out of the containing box. Thereby protecting the body and prolonging the service life of the body.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the orchard weather monitoring equipment;

FIG. 2 is a schematic structural view of the body and the adjusting mechanism;

fig. 3 is a schematic view of the moving plate.

The reference numbers are in sequence: the solar cell panel comprises a body 1, an adjusting mechanism 2, a moving plate 21, a fixed plate 22, a rotating arm 23, an adjusting component 24, a rotating ball 25, a rotating shaft 26, a connecting plate 27, a containing box 3, a screw rod 31, a guide rod 32, a threaded sleeve 33, a guide sleeve 34, a solar cell panel 4 and a rod body 5.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The utility model provides an orchard weather monitoring equipment, as shown in fig. 1-3, includes body 1, installs adjustment mechanism 2 in body 1 lower part to and install the case 3 that holds on the body of rod 5, adjustment mechanism 2 includes the every single move runner assembly of adjustable body 1 every single move angle and the horizontal runner assembly that is used for adjusting body 1 horizontal angle, and 2 lower parts of adjustment mechanism are installed on movable plate 21, movable plate 21 is located and holds case 3 and has seted up open one side, holds and install a driving motor in the case 3, and a driving motor transmission is connected with lead screw 31, it has guide bar 32 to hold 3 inner walls of case outwards to extend, and guide bar 32 and lead screw 31 parallel arrangement of each other, and guide bar 32 tip passes guide sleeve 34 of movable plate 21 lower part, the threaded sleeve 33 screw-thread fit of lead screw 31 tip and movable plate 21 lower part.

In this embodiment, the main body 1 can observe meteorological factors such as wind speed, wind direction, temperature, humidity, air pressure, pm2.5, pm10, noise and the like in real time, and the main body 1 can be provided with a battery or can be powered by a power supply in the accommodating box 3. This is prior art. 1 sub-unit connection of body has a every single move runner assembly subassembly, and horizontal runner assembly installs in the below of body 1, and horizontal runner assembly can adjust body 1 and rotate around self place axis, and every single move runner assembly installs in the side of body 1, can adjust the angle of elevation and the angle of depression of body 1 to change the angle of every single move of body 1, acquire more comprehensive weather data.

Adjusting mechanism 2 holds case 3 swing joint through movable plate 21 of lower part with holding, installs a driving motor in holding case 3, and a driving motor during operation drives lead screw 31 and rotates, and lead screw 31 and the transmission of thread bush 33 are cooperated, and lead screw 31 and guide bar 32 can make movable plate 21 horizontal migration, finally drive movable plate 21 and remove, when meeting with bad weather, move into body 1 and hold case 3, and when weather improves, from moving out body 1 from holding the case 3 in. Thereby protecting the body 1 and prolonging the service life of the body 1.

Further, the adjusting mechanism 2 includes a fixed plate 22 vertically mounted on the moving plate 21, the pitching rotation assembly and the horizontal rotation assembly each include a rotation arm 23 and an adjusting part 24, one of the adjusting parts 24 is located outside the fixed plate 22, the adjusting part 24 penetrates through the fixed plate 22 and then is fixed to one rotation arm 23, the two rotation arms 23 surround a rotation ball 25, the other adjusting part 24 is disposed below the rotation ball 25, the adjusting part 24 penetrates through a connecting plate 27 and then is fixed to the other rotation arm 23, two rotation shafts 26 are fixed to the rotation ball 25, the rotation shafts 26 are correspondingly connected to the rotation arms 23, and the rotation shaft 26 on the upper portion of the rotation ball 25 is connected to the body 1.

The embodiment provides a specific structure of the pitching rotating assembly and the horizontal rotating assembly, and particularly, the rotating arm 23 is in an L-shaped structure, one end of the rotating arm 23 is provided with a hole, the adjusting part 24 penetrates through the hole, the other end of the rotating arm fixes the rotating shaft 26, the two adjusting parts 24 are located on straight lines which are perpendicular to each other, the fixing plate 22 is horizontally arranged, the connecting plate 27 is vertically arranged with the fixing plate 22, and the connecting plate 27 is located on one side of the fixing plate 22 close to the accommodating box 3.

Further, the adjusting member 24 is an adjusting knob, and the adjusting knob is in damping fit with the corresponding connecting plate 27 or the fixing plate 22.

This embodiment provides a specific structure of the adjustment member 24, and this embodiment employs manual adjustment. During the use, according to the direction of regulation that needs body 1, rotate the adjusting knob that corresponds, the adjusting knob can be selected according to actual conditions, for example stopper column structure, and the adjusting knob is driving rotor arm 23 and is rotating, and adjusting knob and connecting plate 27 or fixed plate 22 damping cooperation avoid body 1 to drive the adjusting knob because weight and rotate, control body 1's position.

Further, said adjustment means 24 is a second driving motor electrically connected to an electric control center inside the containing box 3.

Furthermore, a solar cell panel 4 is fixed outside the rod body 5, and the solar cell panel is electrically connected with the electric control center.

In this embodiment, another specific structure of the adjusting component 24 is provided, which uses a motor to drive the rotating arm 23, and a second driving motor is electrically connected to the electric control center, and the second driving motor can use a servo motor, and has a lower rotating speed, and can control the number of turns of the battery cell.

In order to prolong the service time of the power supply, the rod body 5 is provided with a solar cell panel 4 which is positioned above the accommodating box 3.

Further, the end of the rotating shaft 26 at the upper part of the rotating ball 25 has an external thread, and the rotating shaft 26 is screwed with the body 1 through the external thread.

In this embodiment, the body 1 is screwed to the rotating shaft 26, thereby facilitating the installation.

The utility model discloses a control mode is through controller come automatic control, and the control circuit of controller can realize through the simple programming of technical staff in this field, belongs to the common general knowledge in this field, and the utility model discloses mainly use to protect mechanical device, so the utility model discloses do not explain control mode and circuit connection in detail.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the technical scope of the present invention, and the technical scope of the present invention is also considered to fall into the scope of the claims.

Claims (6)

1. The utility model provides an orchard weather monitoring equipment, its characterized in that includes the body, installs the adjustment mechanism in the body lower part to and install the case that holds on the body of rod, adjustment mechanism includes the every single move runner assembly of adjustable body every single move angle and the horizontal runner assembly who is used for adjusting the horizontal angle of body, and the adjustment mechanism lower part is installed on the movable plate, the movable plate is located and holds the case and seted up open one side, holds the incasement and installs a driving motor, and a driving motor transmission is connected with the lead screw, it has the guide bar to hold the incasement wall outside extension, and the guide bar passes the uide bushing of movable plate lower part with the parallel arrangement of lead screw each other, the screw rod tip is with the thread bush screw-thread fit of movable plate lower part.

2. An orchard weather monitoring device according to claim 1, wherein the adjusting mechanism comprises a fixed plate vertically mounted on the movable plate, the pitching rotating assembly and the horizontal rotating assembly each comprise a rotating arm and an adjusting part, one of the adjusting parts is located outside the fixed plate, the adjusting part penetrates through the fixed plate and then is fixed on one rotating arm, the two rotating arms surround a rotating ball, the other adjusting part is arranged below the rotating ball and then is fixed with the other rotating arm, the rotating ball is fixed with two rotating shafts, the rotating shafts are correspondingly connected to the rotating arms, and the rotating shaft on the upper part of the rotating ball is connected with the body.

3. An orchard weather monitoring device as claimed in claim 2 wherein the adjustment means is an adjustment knob in damped engagement with the respective connecting or fixing plate.

4. An orchard weather monitoring apparatus as claimed in claim 2 wherein the adjustment means is a second drive motor, the second drive motor being electrically connected to an electrical control centre within the containment.

5. An orchard weather monitoring apparatus according to claim 4, wherein a solar panel is fixed to the outside of the rod body and is electrically connected to the electrical control centre.

6. An orchard weather monitoring device according to claim 2, wherein the end of the rotating shaft at the upper part of the rotating ball is provided with an external thread, and the rotating shaft is in threaded connection with the body through the external thread.

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