CN212723422U - Portable meteorological data acquisition device - Google Patents

Abstract

The utility model provides a portable meteorological data acquisition device, a serial communication port, include: a housing; the meteorological data collectors are arranged at the top of the shell and are used for collecting meteorological data around the shell; the camera is arranged in the shell and is used for shooting an environment image around the shell; the wireless communication module is arranged in the shell and is respectively and electrically connected with the meteorological data collector and the camera; and a supporting component, detachably sets up in the bottom of casing and is used for supporting the casing, wherein, the top of casing is equipped with a plurality of through-holes for the collection corresponding with meteorological data collector, thereby be connected with wireless communication module with the through-hole is passed to the data line that is used for installing meteorological data collector's collection head and makes and links to each other with this collection head, the side of casing is equipped with the shooting with the camera lens looks adaptation with the through-hole, be used for letting the camera see through shoot with the through-hole shoot.

Description

Portable meteorological data acquisition device

Technical Field

The utility model relates to a portable meteorological data acquisition device.

Background

During the transportation of materials, there are some situations that need to open-air deposit materials, for example, during the process of coal shipping and unloading, because the amount of coal shipped is large, coal often needs to be temporarily deposited in an open-air storage yard. Therefore, the various materials stacked in the open air are affected by natural weather, and corresponding protective measures are needed in special weather.

Traditional open-air material monitoring all monitors the condition of weather through the manual work, if when torrential rain weather, monitoring personnel need in time cover the protection at the material to covering and hide cloth, avoid the rainwater to soak the material. However, this monitoring method is very easy to cause material loss due to human error. For example, in a sudden rainstorm, if the monitoring personnel do not notice the sudden rainstorm, the monitoring personnel can cause the material to be wetted by the rainstorm for a long time, so that the quality of the material is deviated.

Adopt meteorological device to monitor weather and can solve human error's problem, however, the installation of current a lot of meteorological collection system is all very troublesome, often uses in the scene that needs carry out meteorological detection to fixed position. And the material is often still need to be stacked in non-fixed places such as shipment, discharge except stacking in fixed storage yard, and at this moment, just very difficult convenient setting weather collection system still needs the manual work to monitor.

SUMMERY OF THE UTILITY MODEL

For solving the above problem, a meteorological data acquisition device convenient to carry and installation is provided, the utility model discloses a following technical scheme:

the utility model provides a portable meteorological data acquisition device, a serial communication port, include: a housing; the meteorological data collectors are arranged at the top of the shell and are used for collecting meteorological data around the shell; the camera is arranged in the shell and is used for shooting an environment image around the shell; the wireless communication module is arranged in the shell and is respectively and electrically connected with the meteorological data collector and the camera; and a supporting component, detachably sets up in the bottom of casing and is used for supporting the casing, wherein, the top of casing is equipped with a plurality of through-holes for the collection corresponding with meteorological data collector, thereby be connected with wireless communication module with the through-hole is passed to the data line that is used for installing meteorological data collector's collection head and makes and links to each other with this collection head, the side of casing is equipped with the shooting with the camera lens looks adaptation with the through-hole, be used for letting the camera see through shoot with the through-hole shoot.

Utility model with the functions and effects

According to the utility model discloses a portable meteorological data collection system, because the top of casing is equipped with the through-hole for the collection with meteorological data collector matched with, make meteorological data collector's collection head can install at the top of casing and penetrate the casing inside through-hole for the collection with the data line, and the side of this casing is equipped with the through-hole for the shooting with the camera lens looks adaptation and lets the camera see through to shoot and take with the through-hole, therefore, realized through each meteorological data collector of casing, the camera and be used for carrying out data transmission's wireless communication module and integrate and accomodate, and protect inside camera and wireless communication module isoelectron device through the casing. Still owing to have the detachably set up in the casing bottom and support the supporting component, consequently, monitoring personnel can go to the place that needs carry out meteorological data acquisition through carrying casing and corresponding supporting component to conveniently accomplish meteorological data acquisition device's arrangement in these places. When need carry out meteorological control to non-fixed places such as material stacking point, open-air freight transportation steamer, through the utility model discloses a portable meteorological data acquisition device just can help the monitoring personnel to carry out arranging of meteorological monitoring point conveniently.

Further, because pass through the utility model discloses a portable meteorological data acquisition device can carry out effectual meteorological detection to the coal yard, consequently after natural weather has influenced the quality of coal, whether the quality that corresponding personnel also can assess out coal through the meteorological data of gathering is the artificial reason, helps guaranteeing the fairness of each coal transaction in-process.

Drawings

Fig. 1 is a first perspective view of a portable meteorological data acquisition device according to a first embodiment of the present invention;

FIG. 2 is a perspective view of a portable meteorological data acquisition device in accordance with a first embodiment of the present invention;

fig. 3 is a first schematic view of a housing according to a first embodiment of the present invention;

fig. 4 is a second schematic view of the housing according to the first embodiment of the present invention;

fig. 5 is a schematic view of a mounting frame according to a first embodiment of the present invention;

fig. 6 is a perspective view of a connecting member according to a first embodiment of the present invention;

fig. 7 is a first perspective view of a portable meteorological data acquisition device according to a second embodiment of the present invention;

fig. 8 is a second perspective view of the portable meteorological data acquisition device according to a second embodiment of the present invention; and

fig. 9 is an exploded view of the stage in the second embodiment of the present invention.

Detailed Description

In order to make the utility model realize that technical means, creation characteristics, achievement purpose and efficiency are easily understood and known, it is right to combine embodiment and attached drawing below the utility model discloses a portable meteorological data collection device does specifically expound.

As an embodiment, the utility model provides a portable meteorological data collection system, a serial communication port, include: a housing; the meteorological data collectors are arranged at the top of the shell and are used for collecting meteorological data around the shell; the camera is arranged in the shell and is used for shooting an environment image around the shell; the wireless communication module is arranged in the shell and is respectively and electrically connected with the meteorological data collector and the camera; and a supporting component, detachably sets up in the bottom of casing and is used for supporting the casing, wherein, the top of casing is equipped with a plurality of through-holes for the collection corresponding with meteorological data collector, thereby be connected with wireless communication module with the through-hole is passed to the data line that is used for installing meteorological data collector's collection head and makes and links to each other with this collection head, the side of casing is equipped with the shooting with the camera lens looks adaptation with the through-hole, be used for letting the camera see through shoot with the through-hole shoot.

In the above embodiment, there may be further provided a technical feature in which the bottom of the housing is provided with a boss having a fixing hole, and the support member includes: one end of the connecting rod is matched with the fixing hole and is detachably arranged in the fixing hole; and the connecting pieces are provided with mounting rings for being fixed on the connecting rods, fixing plates for being fixed on the wall surface and connecting parts for connecting the mounting rings and the fixing plates, and the length of each connecting part is greater than half of the length of the side wall surface of the shell.

In the above embodiment, there may be provided a technical feature in which the fixing plate is vertically attached to a wall surface, and the connecting portion includes: the main supporting rod is used for connecting the fixing plate and the mounting ring; one end of the side supporting rod is connected with the main supporting rod; and one end of the auxiliary supporting rod is connected to the fixing plate, the other end of the auxiliary supporting rod is connected to the other end of the side supporting rod, the side supporting rod is perpendicular to the main supporting rod and the auxiliary supporting rod, and a cambered surface extending to the auxiliary supporting rod is arranged at the joint of the main supporting rod and the fixing plate.

In the above embodiment, there may be further provided a technical feature in which the bottom of the housing is provided with a boss having a fixing hole, and the support member includes: one end of the connecting rod is matched with the fixing hole and is detachably arranged in the fixing hole; and the carrying platform is provided with a support plate and a support rod connected to the support plate and the connecting rod, one end of the support rod is provided with a sleeve matched with the other end of the connecting rod, the connecting rod is detachably arranged in the sleeve, and the other end of the support rod is connected to the support plate through a fixing nail so as to fix the carrying platform to the ground or a material storage yard.

In the above embodiment, there may be a technical feature that the fixing nail is a smooth-surfaced spike for being stepped into the ground or a material yard, and the length of the spike is greater than five times the height of the carrier plate.

In the above embodiment, the support plate may further include a mounting groove formed in the center thereof, the other end of the support rod is provided with a supporting platform matched with the mounting groove, and the supporting platform and the mounting groove are provided with a plurality of mounting holes matched with each other and used for fixing the nails.

In the above embodiment, the present invention may further have a technical feature that a mounting rack for mounting at least the camera and the wireless communication module is further provided in the housing, the mounting rack includes at least one middle layer plate whose bottom surface maintains a certain height, a side surface of the middle layer plate has an insertion groove adapted to the body of the camera, and a position of the middle layer plate is horizontally flush with a position of the through hole for shooting, so that when the body of the camera is inserted into the insertion groove, the lens of the camera can be aligned with the through hole for shooting.

In the above embodiment, the present invention may further include: the power module sets up in the casing and is used for the power supply to wireless communication module, meteorological data collection station and camera, wherein, still be provided with the mounting bracket that is used for installing power module, camera and wireless communication module at least in the casing, the mounting bracket includes well plywood and top plate at least, has a plurality of circuit through-holes that are used for letting power module, camera, meteorological data collection station and wireless communication module's circuit pass through on well plywood and the top plate.

In the above aspect, the present invention may further include a technical feature that the meteorological data collector includes at least a rainfall sensor, a wind speed and direction sensor, a temperature sensor, and a humidity sensor.

In the above embodiment, the present invention may further have a technical feature that the housing is a rectangular parallelepiped, four sides of the housing are four detachable sealing plates, the shooting through hole is provided in the center of the sealing plate, and four cameras are provided in one-to-one correspondence with the shooting through holes.

< example one >

Fig. 1 is a first perspective view of a portable meteorological data acquisition device according to a first embodiment of the present invention; fig. 2 is a perspective view of the portable meteorological data acquisition device in the first embodiment of the present invention.

As shown in fig. 1 and 2, the portable meteorological data acquisition device 100 includes a housing 101, a support assembly 102, five meteorological data acquisition devices 103, four cameras 104 (not shown), a circuit board 105 (not shown), a wireless communication module 106 (not shown), and a power module 107 (not shown).

The housing 101 is used for mounting meteorological data acquisition components such as a meteorological data acquisition device 103, a camera 104, a circuit board 105, a wireless communication module 106, and a power module 107.

Fig. 3 is a first schematic view of a housing according to a first embodiment of the present invention.

As shown in fig. 3, the housing 101 includes a case body 11, a package plate 12, a boss 13, and a mounting bracket 14. The front package plate 12 is hidden from view in fig. 3 for ease of illustration.

The housing body 11 is a rectangular support, and the top surface and the bottom surface of the rectangular support are closed relatively.

Fig. 4 is a second schematic diagram of the housing in the embodiment of the present invention.

As shown in fig. 4, the top surface of the case body 11 is provided with a plurality of collecting through holes 111 for mounting the meteorological data collecting device 103. In this embodiment, the size of the collecting through hole 111 is adapted to the size of the collecting head of the weather data collecting device 103.

The package board 12 is for mounting on the side of the case body 11. The components for collecting meteorological data are mounted in the housing 101, and the sealing plate 12 is used to seal the side surface of the housing body 11, thereby protecting the components for collecting meteorological data provided in the housing 101.

In this embodiment, four package boards 12 are provided, and correspond to four side surfaces of the case body 11 respectively.

Wherein, a through hole 121 for photographing is provided at the center of each package board 12. The size of the through hole 121 is adapted to the size of the lens of the camera 104, so that the camera 104 can shoot through the through hole 121.

The boss 13 is formed in a circular truncated cone shape and is provided at the center of the bottom surface of the housing 101.

Wherein, the middle shaft part of the boss 13 is separately provided with a fixing hole 131, and the side surface of the boss 13 is provided with a screw hole 132 penetrating through the fixing hole 131.

In this embodiment, the case body 11, the package plate 12, and the boss 13 are made of metal materials, so as to ensure the firmness and the protection capability of the case body 11.

The mounting bracket 14 is provided inside the case body 11 for mounting the camera 104, the circuit board 105, the wireless communication module 106, and the power supply module 107.

Fig. 5 is a schematic view of a mounting rack in an embodiment of the present invention.

For convenience of illustration, the housing body 11, the boss 13, the front face, and the right side package plate 12 are hidden in fig. 5, and the right side camera 104 is also hidden.

As shown in fig. 3 and 5, the mounting frame 14 is a three-layer frame, which is divided into a bottom layer 141, a middle layer 142 and a top layer 143, each of which is spaced apart from the other to form a receiving space.

The bottom board 141 is used to mount the circuit board 105 and the wireless communication module 106 disposed on the circuit board 105. In this embodiment, the circuit board 105 is fixed to the bottom plate 141 by screws.

The camera 104 and the power module 107 are fixed on the middle layer plate 142, four sides of the middle layer plate 142 are provided with embedded grooves 1421 matched with the body of the camera 104, and the height of the middle layer plate 142 is basically equal to that of the shooting through hole 121, so that the body of the camera 104 can be clamped in the embedded grooves 1421 and the lens can be aligned to the shooting through hole 121.

The top board 143 and the middle board 142 are provided with a plurality of circuit through holes 1431 for allowing data and power lines among the meteorological data acquisition device 103, the camera 104, the circuit board 105, the wireless communication module 106 and the power module 107 to pass through, and allowing the power lines of the meteorological data acquisition device 103 and the camera 104 to pass through the acquisition through hole 111 and the circuit through hole 1431 to be connected with the circuit board 105 as shown by dotted lines in fig. 3.

In the present embodiment, the mounting frame 14 is fixed inside the case body 11 by screws, for example, the bottom plate 141 may be fixed on the bottom surface of the case body 11 by forming a plurality of screw holes on the bottom plate 141.

In addition, in this embodiment, after the mounting frame 14, the meteorological data acquisition device 103, the four cameras 104, the circuit board 105, the wireless communication module 106, and the power module 107 are mounted and connected by a circuit in the housing body 11, the package board 12 can be fixed (for example, fixed by screws) to the side surface of the housing body 11, so as to seal the housing 101, and at this time, the whole housing 101 forms a whole body convenient for monitoring personnel to carry.

The support assembly 102 includes a connecting rod 21 and two connecting members 22.

The diameter of one end of the connection rod 21 is adapted to the inner diameter of the fixing hole 131, and can be inserted into the fixing hole 131. Meanwhile, one end of the connecting rod 21 is provided with a fixing through hole corresponding to the screw hole 132 for completing the fixing of the connecting rod 21 and the boss 13 by screwing a screw into the screw hole 132 and the fixing through hole when the one end of the connecting rod 21 is inserted into the fixing hole 131.

The connector 22 is mounted on the connecting rod 21 and is used to fix the entire portable meteorological data collecting apparatus 100 to a wall surface.

Fig. 6 is a perspective view of a connecting member according to a first embodiment of the present invention.

As shown in fig. 6, the connection member 22 includes a mounting ring 221, a fixing plate 222, and a connection portion 223.

The mounting ring 221 has two semi-circular rings 2211 with an inner diameter slightly larger than the outer diameter of the connecting rod 21. One end of each of the two semi-circular rings 2211 is connected to the connecting portion 223, and the other end is provided with a fixing hole 2212 disposed oppositely. When the mounting ring 221 is inserted into a predetermined mounting position of the connecting rod 21, the fixing holes corresponding to the two semicircular rings can be connected in series through bolts and nuts, so that the diameter of the mounting ring 221 is reduced and the mounting ring is clamped on the connecting rod 22.

Four corners of the fixing plate 222 are respectively provided with four screw holes 2221 for fixing the connecting member 22 to the wall surface by screws when the fixing plate 222 is attached to the wall surface.

The connection portion 223 is used to connect the mounting ring 221 and the fixing plate 222.

In this embodiment, the connecting part 223 includes a main support 2231, a side support 2232, and a sub support 2233.

Wherein, the main support rod 2231 is connected to the fixing plate 222 and the mounting ring 221, and the main support rod 2231 is perpendicular to the mounting surface of the fixing plate 222. Side struts 2232 are connected at one end to main strut 2231 and are perpendicular to main strut 2231. One end of the secondary support rod 2233 is connected to the fixing plate 222 and the other end is connected to the other end of the side support rod 2232, and the secondary support rod 2233 is perpendicular to the mounting surface of the fixing plate 222 and the side support rod 2232, respectively.

In addition, in this embodiment, the joint between the main support rod 2231 and the fixing plate 222 further has an arc surface 22311 extending toward the secondary support rod 2233, so that the main support rod 2231 can be better stressed.

In this embodiment, the length of the connecting portion is greater than half of the length of the side wall surface of the housing. Through fixing two connecting pieces 22 on connecting rod 21 to fix these two connecting pieces 22 on the wall respectively, can fix portable meteorological data collection device 100 on the wall steadily and accomplish meteorological data's collection.

The meteorological data acquisition device 103 is used for acquiring meteorological data.

Wherein, the meteorological data acquisition device 103 comprises a wind speed and wind direction sensor 31, a temperature sensor 32, a humidity sensor 33 and a rainfall sensor 34.

As shown in fig. 1, the rainfall sensor 34 is disposed at the center of the top of the housing 101, and the wind speed and direction sensor 31, the temperature sensor 32, and the humidity sensor 33 are disposed around the rainfall sensor 34.

In this embodiment, the anemorumbometer 31 is a DYA-200-01K anemorumbometer.

The temperature sensor 32 and the humidity sensor 33 are conventional temperature and humidity sensors.

The rainfall sensor 34 is an infrared optical rainfall sensor.

In this embodiment, fig. 1 shows the pick head of each meteorological data collecting device 103, and the data line thereof extends to the inside of the housing 101 through the collecting through hole 111 provided in the top of the housing 101.

As shown in fig. 3 and 5, the cameras 104 are provided corresponding to the four side surfaces of the housing 101, and are provided corresponding to the respective imaging through holes 121. In this embodiment, the camera 104 is a conventional camera.

The circuit main board 105 is electrically connected with the meteorological data acquisition devices 103, the cameras 104 and the power module 107 through data lines, and is used for receiving meteorological data acquired by the meteorological data acquisition devices 103 and the cameras 104.

The wireless communication module 106 is disposed on the circuit board 105, and is used for transmitting the weather data to the corresponding server. In this embodiment, the wireless communication module 106 is an internet of things communication module, and can complete the transmission of meteorological data through the internet of things.

The power module 107 is electrically connected to the circuit board 105, and is configured to supply power to the weather data collecting device 103, the camera 104, and the wireless communication module 106 through the circuit board 105.

When the portable meteorological data acquisition device 100 is used for monitoring the surrounding meteorological data of the place where the materials are stacked. The monitoring personnel can conveniently carry the casing 101, connecting rod 21 and the connecting piece 22 of dismantling and go to corresponding place to in the suitable position of storage yard through with connecting rod 21 fixed with casing 101 under the fixed orifices 131 of boss 13, and be fixed in the wall with connecting piece 22 on, further insert connecting rod 21 connecting piece 22 and accomplish fixedly. In this way, monitoring personnel can easily complete the monitoring of the yard meteorological data.

Example one action and Effect

According to the portable meteorological data collection device that this embodiment provided, because the top of casing is equipped with the through-hole for collection with meteorological data collection station matched with, make meteorological data collection station's collection head can install at the top of casing and penetrate the casing with the data line through the through-hole for collection inside, and the side of this casing is equipped with the through-hole for shooting with the camera lens looks adaptation and lets the camera see through the through-hole for shooting and shoot, therefore, realized taking in through each meteorological data collection station of casing, camera and the wireless communication module that is used for carrying out data transmission are integrated, and protect internal camera and electronic components such as wireless communication module through the casing, at this moment, be convenient for monitoring personnel only need carry whole casing in daily use, need not spend extra time and energy to carry out meteorological data collection station, the through-hole for collection, make meteorological data collection station's collection station, And (4) mounting components such as a camera.

Still owing to have detachably to set up in the casing bottom and carry out the supporting component who supports, and this supporting component has the connecting rod of connecting in the casing bottom and can install the connecting piece on the wall, consequently, monitoring personnel can go to the place that needs carry out meteorological data collection through carrying casing and corresponding supporting component to arrange meteorological data collection device on the wall conveniently in these places.

In the first embodiment, the boss is in the shape of a circular truncated cone, and the center of the axis is provided with the fixing hole for fixing the connecting rod, so that the connecting rod and the shell can be connected more firmly.

In the first embodiment, still because connecting portion are when connecting fixed plate and collar through the main tributary pole, still through having set up side branch and vice branch pole between main tributary pole and fixed plate to and be equipped with the cambered surface that extends to vice branch in the junction of main tributary pole and fixed plate, consequently when the connecting piece is fixed portable meteorological data collection device and wall, can be so that the atress of connecting portion is more even, improves the bearing capacity of connecting piece.

In the first embodiment, since the circuit board is mounted on the bottom plate of the mounting frame and the power module is mounted on the middle plate of the mounting frame, the influence of the heat of the circuit board on the power module can be avoided.

< example two >

Compared with the first embodiment, in the second embodiment, the support assembly of the portable meteorological data acquisition device is fixed on the ground or a material yard.

For convenience of description, in the second embodiment, the same components as those in the first embodiment are given the same reference numerals, and the corresponding description is omitted.

Fig. 7 is a first perspective view of a portable meteorological data acquisition device according to a second embodiment of the present invention; fig. 8 is a second perspective view of the portable meteorological data acquisition device according to the second embodiment of the present invention.

As shown in fig. 7 and 8, the portable meteorological data acquisition device 200 includes a housing 101, a support assembly 108, five meteorological data acquisition devices 103, four cameras 104 (not shown), a circuit board 105 (not shown), a wireless communication module 106 (not shown), and a power module 107 (not shown).

In the second embodiment, since the housing 101, and the meteorological data collecting device 103, the camera 104, the circuit board 105, the wireless communication module 106 and the power module 107 disposed in the housing 101 have the same structure as the first embodiment, the description thereof is omitted.

The support assembly 108 includes a connecting rod 81 and a carrier 82.

The diameter of one end of the connection rod 81 is adapted to the inner diameter of the fixing hole 131, and can be inserted into the fixing hole 131. Meanwhile, one end of the connection rod 81 is provided with a fixing through hole corresponding to the screw hole 132 for completing the fixing of the connection rod 81 and the boss 13 by screwing a screw into the screw hole 132 and the fixing through hole when the one end of the connection rod 81 is inserted into the fixing hole 131.

The carrier 82 is connected to the connecting rod 81 and is used to fix the entire portable meteorological data acquisition device 200 to the ground or a material yard.

The carrier 82 includes a carrier 821, a support rod 822 for connecting the carrier and the connection rod 81, and a fixing pin 823.

In the second embodiment, a sleeve 8221 adapted to the other end of the connecting rod 81 and a screw hole 8222 penetrating through the sleeve 8221 are disposed at one end of the supporting rod 822. Meanwhile, the other end of the connection rod 81 also has a fixing through hole corresponding to the screw hole 8222 for completing the fixing of the connection rod 81 and the support rod 822 by screwing a screw into the screw hole 8222 and the fixing through hole when the other end of the connection rod 81 is inserted into the sleeve 8221.

Fig. 9 is an exploded view of the stage in the second embodiment of the present invention.

As shown in fig. 9, the carrier plate 821 is provided with a mounting groove 8211 at the center thereof, and four mounting holes 8212 are formed in the mounting groove 8211.

Meanwhile, the other end of the supporting bar 822 has a saddle 8223 engaged with the mounting groove 8211. The pallet 8223 is provided with four mounting holes 8224 which are matched with the mounting holes 8212.

In this embodiment, the platform 8223 is in the shape of a disk having a diameter larger than the diameter of the middle portion of the support bar 822.

The fixing pins 823 are used to insert the mounting holes 8212 and 8212 into the mounting holes 8211 of the support rod 822 and fix the support rod 822 and the support plate 821 when the mount 8223 of the support rod 822 is fitted into the mounting groove 8211 of the support plate 821.

In this embodiment, the fixing pins 823 are smooth surface long pins, and the length of the fixing pins is longer than five times the height of the carrier plate 821.

When adopting portable meteorological data collection system 200 to carry out the control of peripheral meteorological data to the place of stacking the material, in this embodiment two to monitor to the peripheral meteorological data to the coal pile for example, monitoring personnel can conveniently carry the casing 101, connecting rod 81, support plate 821, bracing piece 822 and staple 823 of dismantling and go to corresponding place, and set up portable meteorological data collection system 200 in the suitable position in store yard. For example, when the device needs to be disposed on a coal pile, a monitoring person may sequentially place the support plate 821 and the support rod 822 on the coal pile, and further sequentially step four fixing pins 823 into the coal pile by aligning the mounting holes 8212 and 8212, so that the fixing pins 823 fix the support rod 822, the support plate 821, and the coal pile. Through such a mode, can be very convenient for the monitoring personnel to set up portable meteorological data collection device 200 at the material yard and on the soft subaerial of soil property. After the stage 82 is fixed, the monitoring personnel only need to fix the connecting rod 21 in the fixing hole 131 of the lower boss 13 of the housing 101, and insert the connecting rod 21 into the sleeve 8221 to complete the fixing of the whole device.

Example two actions and effects

According to the portable meteorological data collection device that this embodiment two provided, compare with embodiment one, because the supporting component has the connecting rod of connecting in the casing bottom and can install the microscope carrier in ground or material yard top, consequently, when monitoring personnel arranged portable meteorological data collection device, can fix the microscope carrier through the staple and further pass through the connecting rod with the casing and fix to the microscope carrier. The mode can also enable monitoring personnel to conveniently complete the arrangement of the meteorological data acquisition device at the place where the meteorological data acquisition is needed.

In addition, in the second embodiment, since the fixing nail is a long nail with a smooth surface, and the length of the long nail is greater than five times of the height of the carrier plate, the monitoring personnel can conveniently step the long nail into a material yard or the ground to fix the carrier plate. Aiming at the soft ground and the material yard, the mode can greatly facilitate the arrangement of monitoring personnel on the meteorological data acquisition device.

The above embodiments are merely illustrative of specific embodiments of the present invention, and the present invention is not limited to the description of the above embodiments.

For example, in the first embodiment, the package plate and the housing are made of metal materials, in other aspects of the present invention, the package plate may also be made of transparent materials separately, so that the monitoring personnel can check the states of the components disposed in the housing without detaching the package plate.

For example, in the first embodiment, two connecting members are provided. The utility model discloses an in other schemes, also can set up the connecting piece of more quantity on the connecting rod to further strengthen the fixed ability of portable meteorological data collection system on the wall.

For example, in the second embodiment, the portable meteorological data acquisition device is fixed on ground and material yard through the spike of smooth surface in the other aspects of the present invention, ground can also be hard ground to the staple can be replaced by the screw, thereby let the monitoring personnel accomplish portable meteorological data acquisition device's fixing through the screw.

Claims (10)

1. A portable meteorological data acquisition device, comprising:

a housing;

the meteorological data collectors are arranged at the top of the shell and are used for collecting meteorological data around the shell;

the camera is arranged in the shell and is used for shooting an environment image around the shell;

the wireless communication module is arranged in the shell and is respectively and electrically connected with the meteorological data collector and the camera; and

a support assembly detachably disposed at the bottom of the housing and supporting the housing,

wherein, the top of the shell is provided with a plurality of collecting through holes corresponding to the meteorological data collector and used for installing a collecting head of the meteorological data collector and enabling a data wire connected with the collecting head to pass through the collecting through holes so as to be electrically connected with the wireless communication module,

the side of the shell is provided with a shooting through hole matched with the lens of the camera, and the shooting through hole is used for allowing the camera to shoot.

2. The portable meteorological data acquisition apparatus of claim 1, wherein:

wherein, the bottom of the shell is provided with a boss which is provided with a fixing hole,

the support assembly includes:

one end of the connecting rod is matched with the fixing hole and is detachably arranged in the fixing hole; and

at least two connecting pieces, wherein each connecting piece is provided with a mounting ring for being fixed on the connecting rod, a fixing plate for being fixed on the wall surface and a connecting part for connecting the mounting ring and the fixing plate,

the length of the connecting part is larger than half of the length of the side wall surface of the shell.

3. The portable meteorological data acquisition apparatus of claim 2, wherein:

wherein the fixing plate is vertically attached to the wall surface,

the connecting part has:

the main supporting rod is used for connecting the fixing plate and the mounting ring;

one end of the side supporting rod is connected to the main supporting rod; and

one end of the auxiliary supporting rod is connected with the fixed plate and the other end is connected with the other end of the side supporting rod,

the side branch rods are perpendicular to the main support rod and the auxiliary support rod,

the joint of the main supporting rod and the fixing plate is provided with an arc surface extending to the auxiliary supporting rod.

4. The portable meteorological data acquisition apparatus of claim 1, wherein:

wherein, the bottom of the shell is provided with a boss which is provided with a fixing hole,

the support assembly includes:

one end of the connecting rod is matched with the fixing hole and is detachably arranged in the fixing hole; and

a carrier having a carrier plate and a support rod for connecting the carrier plate and the connecting rod,

one end of the supporting rod is provided with a sleeve matched with the other end of the connecting rod, the connecting rod is detachably arranged in the sleeve,

the other end of the supporting rod is connected to the carrier plate through a fixing nail so as to fix the carrier to the ground or a material storage yard.

5. The portable meteorological data acquisition apparatus of claim 4, wherein:

wherein the fixing nail is a long nail with a smooth surface and is used for being stepped into the ground or the material yard,

the length of the long nail is larger than five times of the height of the carrier plate.

6. The portable meteorological data acquisition apparatus of claim 4, wherein:

wherein, the center of the carrier plate is provided with a mounting groove,

the other end of the supporting rod is provided with a supporting platform matched with the mounting groove,

the saddle with the mounting groove all is equipped with a plurality of cooperatees and is used for the mounting hole of staple.

7. The portable meteorological data acquisition apparatus of claim 1, wherein:

wherein, a mounting rack used for at least mounting the camera and the wireless communication module is also arranged in the shell,

the mounting rack comprises at least one middle layer plate with a certain height maintained on the bottom surface of the shell,

the side surface of the middle layer plate is provided with an embedded groove matched with the camera body,

the position of the middle layer plate is level to the position of the shooting through hole in the horizontal direction, so that when the camera body of the camera is embedded into the embedded groove, the lens of the camera can be aligned to the shooting through hole.

8. The portable meteorological data acquisition apparatus of claim 1, further comprising:

a power supply module arranged in the shell and used for supplying power to the wireless communication module, the meteorological data collector and the camera,

wherein, the shell is also provided with a mounting rack used for at least mounting the power module, the camera and the wireless communication module,

the mounting frame at least comprises a middle layer plate and a top layer plate,

the middle layer board and the top layer board are provided with a plurality of line through holes for the power module, the camera, the meteorological data collector and the wireless communication module to pass through.

9. The portable meteorological data acquisition apparatus of claim 1, wherein:

wherein, meteorological data collector includes rain sensor, wind speed and direction sensor, temperature sensor and humidity transducer at least.

10. The portable meteorological data acquisition apparatus of claim 1, wherein:

wherein the shell is a cuboid,

four detachable packaging plates are arranged on four side surfaces of the shell, the through hole for shooting is arranged in the center of the packaging plates,

the number of the cameras is four, and the cameras correspond to the shooting through holes one to one.

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