CN212933015U - Multi-element snow condition information detection equipment - Google Patents

Abstract

The utility model discloses a many key elements snow condition information detection equipment. The multi-element snow condition information detection equipment comprises a vertical rod and a multi-element automatic meteorological device, an infrared temperature device, a lightning arrester, a solar radiation sensing device, a laser snow depth device, a ball machine, a control box and a snow layer temperature sensing device, wherein the multi-element automatic meteorological device is used for observing ambient temperature, air pressure, ambient humidity, wind direction, wind speed and rainfall, the infrared temperature device is used for measuring infrared energy of external radiation, the solar radiation sensing device is used for measuring solar radiation and solar energy, the laser snow depth device is used for measuring snow depth, the ball machine is used for detecting external snow amount, the snow layer temperature sensing device is used for sensing snow layer temperature. The utility model discloses measurement accuracy is higher, need not the manual work and takes the measuring tape to measure in the snowfield, and user's use is experienced higher, easily promotes.

Description

Multi-element snow condition information detection equipment

Technical Field

The utility model relates to a many key elements snow condition information detection equipment.

Background

The snow fall amount is one of the factors difficult to be widely measured in weather and meteorology, and the snow fall disasters suffered each year all over the country bring immeasurable loss to the society, so the snow fall amount is particularly important for measuring the snow depth. At present, most traditional snow depth detection multi-factor snow condition information detection equipment adopts a snow measuring ruler to measure or directly measures to read snow depth data, and the multi-factor snow condition information detection equipment needs to measure multiple points, wastes time and energy when operating in snow days, and has low measurement precision.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a many key elements snow condition information detection equipment. The technical scheme is as follows:

the utility model provides a many key elements snow condition information check out test set, many key elements snow condition information check out test set includes the pole setting and locates the automatic meteorological device of many key elements, infrared temperature device, lightning arrester, solar radiation sensing device, laser snow deep device, ball machine, control box and snow layer temperature sensing device in the pole setting, many key elements automatic meteorological device is used for observing ambient temperature, atmospheric pressure, ambient humidity, wind direction, wind speed, rainfall, infrared temperature device is used for measuring the infrared energy of external radiation, solar radiation sensing device is used for measuring solar radiation and solar energy, laser snow deep device is used for measuring the snow degree of depth, the ball machine is used for detecting external snow deposit volume, snow layer temperature sensing device is used for the sensing snow layer temperature, many key elements automatic meteorological device infrared temperature device, Solar radiation sensing device laser snow dark device the ball machine and snow layer temperature sensing device all with control box electric connection, the pole setting includes the montant and locates horizontal pole on the montant, lightning arrester the ball machine the control box and snow layer temperature sensing device all is located on the montant, lightning arrester is located the top of montant, the ball machine is located be close to on the montant the position of horizontal pole, the automatic meteorological apparatus of many elements infrared temperature device solar radiation sensing device and laser snow dark device all is located on the horizontal pole.

Further, the lightning arrester the ball machine the control box and snow layer temperature sensing device follow the axial of montant sets gradually from last to down.

Further, the multi-element automatic meteorological device, the infrared temperature device, the solar radiation sensing device and the laser snow depth device are sequentially arranged from left to right along the axial direction of the cross rod.

Further, the multi-element snow condition information detection equipment further comprises a reminding piece, wherein the reminding piece is electrically connected with the multi-element automatic meteorological device, the infrared temperature device, the solar radiation sensing device, the laser snow depth device, the snow layer temperature sensing device and the control box, and when physical parameters detected by the multi-element automatic meteorological device, the infrared temperature device, the solar radiation sensing device, the laser snow depth device and the snow layer temperature sensing device meet a first preset physical parameter in the control box, the control box controls the reminding piece to remind.

Furthermore, a second physical parameter is preset in the control box, and when the physical parameters detected by the multi-element automatic meteorological device, the infrared temperature device, the solar radiation sensing device, the laser snow depth device and the snow layer temperature sensing device meet the second physical parameter, the control box controls the reminding piece to send out a danger alarm signal.

Furthermore, the laser snow depth device comprises a controller, at least two first signal units and second signal units equal to the first signal units in number, wherein each two first signal units have a height difference, each first signal unit is arranged opposite to one second signal unit, each first signal unit and each second signal unit are electrically connected with the controller, the controller is used for controlling the first signal units to send optical signals to the second signal units after obtaining a detection instruction, and if only one second signal unit of each two second signal units of adjacent heights receives the optical signals, the snow depth is calculated according to the heights of the two second signal units of the adjacent heights.

Furthermore, each first signal unit is an infrared transmitting unit, and each second signal unit is an infrared receiving unit.

Further, each of the first signal units is a laser transmitter, and each of the second signal units is a laser receiver.

Furthermore, the laser snow depth device also comprises a position information acquisition module and a communication interface, wherein the position information acquisition module and the communication interface are both electrically connected with the controller, and the position information acquisition module is used for acquiring the current position information of the laser snow depth device; the controller is still used for passing through the snow degree of depth that position information and calculation reachd the communication interface sends to an intelligent terminal, the deep device of laser snow still includes inner shell and shell, the shell cover is located outside the inner shell, just the shell with be formed with the clearance between the inner shell, every first signal unit with the second signal unit all set up in the inboard of inner shell, inner shell or shell are provided with control circuit board, control circuit board is located in the clearance, the controller arrange in control circuit board.

Furthermore, the laser snow depth device further comprises a solar cell panel, a charging circuit and a storage battery, wherein the charging circuit and the storage battery are uniformly distributed on the control circuit board, and the solar cell panel, the charging circuit, the storage battery and the controller are sequentially and electrically connected.

The embodiment of the utility model provides a beneficial effect that technical scheme brought is:

the utility model discloses a many key elements snow condition information check out test set, many key elements snow condition information check out test set includes the pole setting and locates the automatic meteorological device of many key elements, infrared temperature device, lightning arrester, solar radiation sensing device, laser snow deep device, ball machine, control box and snow layer temperature sensing device in the pole setting, the automatic meteorological device of many key elements is used for observing ambient temperature, atmospheric pressure, ambient humidity, wind direction, wind speed, rainfall, infrared temperature device is used for measuring external radiation's infrared energy, solar radiation sensing device is used for measuring solar radiation and solar energy, laser snow deep device is used for measuring the snow degree of depth, the ball machine is used for detecting external snow volume, snow layer temperature sensing device is used for the sensing snow layer temperature. The utility model discloses a many key elements snow condition information check out test set can be through many key elements automated inspection snow condition information, and measurement accuracy is higher, need not the manual work and holds the measuring tape and measure in the snowfield, and user's use is experienced higher, easily promotes.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a multi-element snow condition information detection device provided by the present invention;

fig. 2 is a schematic structural view of a solar cell panel of the multi-element snow-condition-information detecting apparatus shown in fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1-2, the present invention discloses a multi-element snow condition information detecting apparatus, which comprises a vertical rod 7, and a multi-element automatic weather device 1, an infrared temperature device 2, a lightning arrester 3, a solar radiation sensing device 4, a laser snow depth device 5, a ball machine 6, a control box 8 and a snow layer temperature sensing device 9 arranged on the vertical rod, wherein the multi-element automatic weather device is used for observing an ambient temperature, an air pressure, an ambient humidity, a wind direction, a wind speed and a rainfall, the infrared temperature device is used for measuring infrared energy of external radiation, the solar radiation sensing device is used for measuring solar radiation and solar energy, the laser snow depth device is used for measuring a snow depth, the ball machine is used for detecting an external snow accumulation amount, the snow layer temperature sensing device is used for sensing the snow layer temperature, the automatic meteorological device of many key elements infrared temperature device solar radiation sensing device laser snow dark device the ball machine and snow layer temperature sensing device all with control box electric connection, the pole setting includes the montant and locates horizontal pole on the montant, lightning arrester the ball machine the control box and snow layer temperature sensing device all is located on the montant, lightning arrester is located the top of montant, the ball machine is located be close to on the montant the position of horizontal pole, the automatic meteorological device of many key elements infrared temperature device solar radiation sensing device and laser snow dark device all is located on the horizontal pole.

The lightning protection device, the ball machine, the control box and the snow layer temperature sensing device are arranged along the axial direction of the vertical rod from top to bottom in sequence.

The multi-element automatic meteorological device, the infrared temperature device, the solar radiation sensing device and the laser snow depth device are sequentially arranged from left to right along the axial direction of the cross rod.

In one embodiment, the multi-element snow condition information detection device further comprises a reminding piece, wherein the reminding piece is electrically connected with the multi-element automatic meteorological device, the infrared temperature device, the solar radiation sensing device, the laser snow depth device, the snow layer temperature sensing device and the control box, and when physical parameters detected by the multi-element automatic meteorological device, the infrared temperature device, the solar radiation sensing device, the laser snow depth device and the snow layer temperature sensing device meet a first preset physical parameter in the control box, the controller controls the reminding piece to remind.

In one embodiment, a second physical parameter is preset in the control box, and when the physical parameters detected by the multi-element automatic meteorological device, the infrared temperature device, the solar radiation sensing device, the laser snow depth device and the snow layer temperature sensing device meet the second physical parameter, the controller controls the reminding piece to send out a danger alarm signal.

Specifically, the physical parameters detected by the multi-element automatic meteorological device, the infrared temperature device, the solar radiation sensing device, the laser snow depth device and the snow layer temperature sensing device are fed back to the control box. It can be understood that the first physical parameter may be stored in the control box by the manufacturer in advance according to the physical parameter to be detected, or may be input into the control box by the user according to the actual use experience of the user, for example, when the physical parameters detected by the multi-element automatic meteorological device, the infrared temperature device, the solar radiation sensing device, the laser snow depth device, and the snow temperature sensing device satisfy the first physical parameter preset in the control box, the control box may control the reminding member to display the corresponding warning symbol prompt, and upload the warning symbol prompt to the system master station to remind the relevant staff of the detection site; for example, the snow layer temperature sensing device feeds the detected snow layer temperature parameter back to the control box, and when the temperature parameter reaches a first preset temperature value preset in the controller, the controller can control the reminding piece to display a corresponding temperature alarm symbol prompt, and meanwhile, the reminding piece uploads a system main station to remind relevant workers. It will be appreciated that in other embodiments not shown, the control box may also alert by generating a vibration, audio, etc. The second physical parameter is larger than the first physical parameter, for example, the snow layer temperature sensing device feeds the detected snow layer temperature parameter back to the control box, the temperature parameter is compared with the second physical parameter which is stored in advance, if the temperature detected by the snow layer temperature sensing device reaches a second temperature threshold value, the surface snow condition environment is extremely severe, the control box can control the reminding piece to display a corresponding temperature alarm symbol prompt, and meanwhile, the reminding piece uploads the temperature alarm symbol prompt to a system master station to remind related workers to detect the site.

The reminding piece can be a vibration reminding piece, a voice reminding piece or a display reminding piece and other devices for reminding a user. For example, the reminder may be configured to flash a green light or sound a reminder, and it will be appreciated that in other embodiments not shown, the reminder may remind the user by generating a vibration or the like.

In one embodiment, the laser snow depth device includes a controller, at least two first signal units, and a number of second signal units equal to the number of the first signal units, where each two first signal units have a height difference therebetween, each first signal unit is disposed opposite to one second signal unit, each first signal unit and each second signal unit are electrically connected to the controller, the controller is configured to control the first signal unit to send an optical signal to the second signal unit after obtaining a detection instruction, and if only one of the second signal units of two adjacent heights receives the optical signal, the snow depth is calculated according to the heights of the two second signal units of the adjacent heights.

Each first signal unit is an infrared transmitting unit, and each second signal unit is an infrared receiving unit. It will be appreciated that in another embodiment, each of the first signal units is a laser transmitter and each of the second signal units is a laser receiver.

The laser snow depth device also comprises a position information acquisition module and a communication interface, wherein the position information acquisition module and the communication interface are electrically connected with the controller, and the position information acquisition module is used for acquiring the current position information of the laser snow depth device; the controller is still used for passing through the snow degree of depth that position information and calculation reachd the communication interface sends to an intelligent terminal, the deep device of laser snow still includes inner shell and shell, the shell cover is located outside the inner shell, just the shell with be formed with the clearance between the inner shell, every first signal unit with the second signal unit all set up in the inboard of inner shell, inner shell or shell are provided with control circuit board, control circuit board is located in the clearance, the controller arrange in control circuit board.

The laser snow depth device further comprises a solar cell panel 10, a charging circuit and a storage battery, wherein the storage battery is uniformly distributed on the control circuit board, and the solar cell panel, the charging circuit, the storage battery and the controller are electrically connected in sequence.

The utility model discloses a many key elements snow condition information check out test set, many key elements snow condition information check out test set includes the pole setting and locates the automatic meteorological device of many key elements, infrared temperature device, lightning arrester, solar radiation sensing device, laser snow deep device, ball machine, control box and snow layer temperature sensing device in the pole setting, the automatic meteorological device of many key elements is used for observing ambient temperature, atmospheric pressure, ambient humidity, wind direction, wind speed, rainfall, infrared temperature device is used for measuring external radiation's infrared energy, solar radiation sensing device is used for measuring solar radiation and solar energy, laser snow deep device is used for measuring the snow degree of depth, the ball machine is used for detecting external snow volume, snow layer temperature sensing device is used for the sensing snow layer temperature. The utility model discloses a many key elements snow condition information check out test set can be through many key elements automated inspection snow condition information, and measurement accuracy is higher, need not the manual work and holds the measuring tape and measure in the snowfield, and user's use is experienced higher, easily promotes.

The terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying a number of the indicated technical features. Thus, a defined feature of "first", "second", may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

The above embodiment numbers of the present invention are only for description, and do not represent the advantages and disadvantages of the embodiments.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides a many key elements snow condition information check out test set, a serial communication port, many key elements snow condition information check out test set includes the pole setting and locates the automatic meteorological device of many key elements, infrared temperature device, lightning arrester, solar radiation sensing device, laser snow deep device, ball machine, control box and snow layer temperature sensing device in the pole setting, many key elements automatic meteorological device is used for observing ambient temperature, atmospheric pressure, ambient humidity, wind direction, wind speed, rainfall, infrared temperature device is used for measuring the infrared energy of external radiation, solar radiation sensing device is used for measuring solar radiation and solar energy, laser snow deep device is used for measuring the snow degree of depth, the ball machine is used for detecting external snow deposit volume, snow layer temperature sensing device is used for sensing snow layer temperature, many key elements automatic meteorological device infrared temperature device, Solar radiation sensing device laser snow dark device the ball machine and snow layer temperature sensing device all with control box electric connection, the pole setting includes the montant and locates horizontal pole on the montant, lightning arrester the ball machine the control box and snow layer temperature sensing device all is located on the montant, lightning arrester is located the top of montant, the ball machine is located be close to on the montant the position of horizontal pole, the automatic meteorological apparatus of many elements infrared temperature device solar radiation sensing device and laser snow dark device all is located on the horizontal pole.

2. The multi-element snow-condition-information detecting apparatus according to claim 1, wherein said lightning arrester, said ball machine, said control box, and said snow-layer-temperature sensing device are provided in this order from top to bottom along an axial direction of said vertical rod.

3. The multi-element snow-condition-information detecting apparatus according to claim 2, wherein said multi-element automatic weather device, said infrared temperature device, said solar radiation sensing device and said laser snow depth device are arranged in order from left to right in an axial direction of said cross bar.

4. The multi-element snow condition information detection apparatus according to claim 3, further comprising a reminder electrically connected to the multi-element automatic weather device, the infrared temperature device, the solar radiation sensing device, the laser snow depth device, the snow layer temperature sensing device, and the control box, wherein when a physical parameter detected by the multi-element automatic weather device, the infrared temperature device, the solar radiation sensing device, the laser snow depth device, and the snow layer temperature sensing device satisfies a first physical parameter preset in the control box, the control box controls the reminder to remind.

5. The multi-element snow condition information detection apparatus according to claim 4, wherein a second physical parameter is preset in the control box, and when the physical parameters detected by the multi-element automatic weather device, the infrared temperature device, the solar radiation sensing device, the laser snow depth device and the snow layer temperature sensing device satisfy the second physical parameter, the control box controls the reminder to send out a danger alarm signal.

6. The multi-element snow-condition-information detecting apparatus according to claim 5, wherein said laser snow depth device comprises a controller, at least two first signal units each having a height difference therebetween, and a number of second signal units equal to the number of said first signal units, each first signal unit and each second signal unit are arranged oppositely, and are electrically connected with the controller, the controller is used for controlling the first signal unit to send the optical signal to the second signal unit after obtaining the detection instruction, if only one of the second signal units at the adjacent height receives the optical signal, and calculating the snow depth according to the heights of the two second signal units with the adjacent heights.

7. A multi-factor snow-condition-information detecting apparatus according to claim 6, wherein each of said first signal units is an infrared-ray transmitting unit, and each of said second signal units is an infrared-ray receiving unit.

8. A multi-element snow-condition-information detecting apparatus according to claim 6, wherein each of said first signal units is a laser transmitter, and each of said second signal units is a laser receiver.

9. The multi-element snow condition information detection device according to claim 7, wherein the laser snow depth device further comprises a position information acquisition module and a communication interface, the position information acquisition module and the communication interface are electrically connected with the controller, and the position information acquisition module is used for acquiring current position information of the laser snow depth device; the controller is still used for passing through the snow degree of depth that position information and calculation reachd the communication interface sends to an intelligent terminal, the deep device of laser snow still includes inner shell and shell, the shell cover is located outside the inner shell, just the shell with be formed with the clearance between the inner shell, every first signal unit with the second signal unit all set up in the inboard of inner shell, inner shell or shell are provided with control circuit board, control circuit board is located in the clearance, the controller arrange in control circuit board.

10. The apparatus according to claim 9, wherein said laser snow depth device further comprises a solar panel, a charging circuit and a storage battery, said charging circuit and said storage battery are disposed on said control circuit board, and said solar panel, said charging circuit, said storage battery and said controller are electrically connected in sequence.

Images