KR101331565B1 - Slide tower for manless meteorological equipment - Google Patents

Abstract

The present invention relates to a slide tower for unmanned meteorological observation equipment, and more specifically to a slide tower for unmanned meteorological observation equipment that enables diversification of observation points by making up-down configuration of the slider with installation of a meteorological observation equipment to be self-supported using a gear. Provided for this purpose is a slide tower for unmanned meteorological observation equipment comprising; a steel structure erected in a vertical direction above the ground; and a rack gear installed along the upper end part and the lower end part of the steel structure in a slide tower for unmanned meteorological observation equipment including a slider moving up and down along the steel structure with installation of the meteorological observation equipment; and a pinion gear installed on the slider and combined in engagement with the rack gear; and a driving motor that drives the pinion gear and is installed on the slider; and a slide tower for unmanned meteorological observation equipment.

Description

Slide tower for manless meteorological equipment

The present invention relates to a slide tower for unmanned meteorological observation equipment, and more particularly to a slide tower for unmanned weather observation equipment to improve the reliability of the observation data by varying the point for weather observation.

Modern society is experiencing rapid environmental changes due to global warming and El Niño, where temperatures rise due to increased emissions of pollutants such as carbon dioxide due to industrialization and industrialization, and forest destruction, resulting in heavy snowfall in local places. Extreme weather events, such as rain, heavy rain or wildfires, occur frequently.

Such extreme weather not only reduces business facilities by increasing production facilities damage, production disruptions and logistics costs, but also causes local damage in a very short time.

The current weather forecasting system that monitors the above extreme weather forecasts a wide range of regions through meteorological satellites, while the local weather such as mountainous valleys and riverside amusement parks is very mysterious and there are many variables. Because of this, it is difficult to accurately find weather information.

In particular, because the weather information is not only different depending on the region, but also sudden local gusts such as instant gusts occur, meteorological stations are provided for each area to collect weather information of each region.

At this time, a meteorological observation tower (surveyor tower) is provided in place of the meteorological observation station where the meteorological observation station cannot be installed due to its geographical characteristics.

That is, the weather station is provided with weather data collected at the weather observation tower.

As shown in FIG. 1, the meteorological tower includes antennas along with various meteorological observation devices (not shown) capable of measuring wind direction, wind speed, temperature, humidity, barometric pressure, rainfall, and the like on a steel structure 10 having a predetermined height. Meteorological observation collection equipment (not shown), such as walkie-talkie and data processor, can be installed, and the meteorological information measured by these meteorological observation equipment is provided to the meteorological station.

On the other hand, in order to maintain the above-mentioned meteorological observation equipment to rotate the wire drum 30 by using the power of the drive motor 20 to elevate the operating plate 50 connected to the wire (40).

That is, since the wire 40 wound around the wire drum 30 and the operation plate 50 are connected to each other, the operation plate 50 is opened while the wire 40 is released or wound by the rotation of the wire drum 30. It is to elevate.

At this time, the operation plate 50 is elevated along the guide rail 60, the operation plate 50 is provided with a fixing table 51 for installing various meteorological observation equipment, elevating the operation plate 50 Through this operation, maintenance and inspection of meteorological observation equipment can be easily performed.

Therefore, since the operator does not need to climb the tower for maintenance and inspection work on the weather observation equipment, it is possible to prevent workman's safety accident and reduce man-hours for maintenance work, thereby improving workability.

However, the conventional meteorological observation tower has the following problems.

First, due to wired equipment such as a wire for elevating the operation plate and lead wires installed in meteorological observation equipment, there is a problem that the operation plate is limited in position due to interference with various lines.

Accordingly, it was difficult to increase the reliability and accuracy of the observation data because the observation point could not be diversified due to the uniform location of the weather observation equipment.

Second, due to various wired equipment, the twisting of the line during the lifting and lowering of the slider may occur, and it is difficult to simplify the configuration of the weather observation tower by requiring additional configuration such as lead wire guide rope to solve this problem.

Accordingly, the production cost of the weather observation tower is increased, there is a problem that the work productivity due to the maintenance falls.

Third, the operating plate, which is installed with the meteorological observation equipment, is moved along the guide rail, and is supported by a wire, but there is a problem that the bearing force of the operating plate is not firm and is affected by the wind speed.

That is, since the operating plate supported by the wire flows more severely as the wind winds up, the measurement accuracy of the meteorological observation equipment installed on the operating plate is inferior.

Republic of Korea Registration Practice 20-0446701

The present invention has been made to solve the above problems, an object of the present invention is to simplify the lifting configuration for the operation plate on which the meteorological observation equipment is installed to a self-supporting type to omit wired equipment such as wires and leads, so that It is to provide a slide tower for unmanned meteorological observation equipment to enable meteorological observations at various locations.

The present invention, in order to achieve the above object, is built in a vertical direction from the ground, the rack structure (rack gear) 200 is installed in the height direction; steel structure 100 is elevated along the steel structure 100 A slider 300 installed with a pinion gear 400 engaged with the rack gear 200; a drive motor 500 installed at the slider 300 to drive the pinion gear 400; It is installed on both sides of the slider 300, meteorological observation equipment (S) for observing the weather, such as wind direction, wind speed, temperature, humidity, air pressure, rainfall; installed on the slider 300, the meteorological observation equipment (S) Provides a slide tower for unmanned meteorological observation equipment consisting of: meteorological observation collection equipment (C): collecting observation data observed through the transmission and transmitting to the weather station using a wireless communication means.

At this time, the guide rails 110 are installed on both sides of the rack gear 200, and the slider 300 has a plurality of guide rollers 310 installed along the pair of guide rails 110. desirable.

At this time, it is preferable that the installation member is installed on each of the upper end and the lower end of the slider, respectively, the guide member is installed on both sides of the guide rail to roll along the front and rear of the guide rail.

In addition, the forward and reverse rotation of the drive motor is preferably operated by a wireless remote control.

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Slide tower for unmanned meteorological observation equipment according to the present invention has the following effects.

First, the rack structure is installed in the steel structure in the height direction, the pinion gear that is rotated along the rack gear is installed on the slider, the lifting configuration of the slider can be simplified compared to the lifting configuration by the wire and winch.

In particular, by providing a self-supporting lifting structure in which the wire structure for lifting and lowering the slider is omitted, a twisting phenomenon due to the wire and the power supply cable or the like during the lifting and lowering of the slider is not generated.

Accordingly, it is possible to freely determine the lifting position of the slider on the steel structure has the effect of varying the weather observation position.

Second, the pinion gear of the slider is engaged with the rack gear installed in the steel structure, and the plurality of rollers provided on both sides of the slider are in close contact with the front and rear surfaces of the guide rail, thereby making the slider coupling force on the steel structure firm.

Therefore, when the position at any observation point, the gear and the guide roller support the slider to minimize the movement of the slider to increase the accuracy of the weather observation data through the weather observation equipment.

1 is a perspective view showing a slide tower for unmanned meteorological observation equipment according to the prior art
Figure 2 is a perspective view showing a slide tower for unmanned meteorological observation equipment according to a preferred embodiment of the present invention
Figure 3 is a front view showing the steel structure of the slide tower for unmanned weather observation equipment according to a preferred embodiment of the present invention
Figure 4 is a front view showing a slide tower for unmanned meteorological observation equipment according to a preferred embodiment of the present invention
5 is an enlarged view of a portion "A" in FIG.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to describe its invention in the best possible way And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention.

Hereinafter, with reference to the accompanying Figures 2 to 5 will be described for the slide tower for unmanned meteorological observation equipment (hereinafter referred to as "slide tower") according to a preferred embodiment of the present invention.

The slide tower simplifies the configuration for elevating the slider equipped with the weather observation equipment, and has a technical feature to increase the accuracy of the weather observation data by strengthening the coupling force to the slider.

In addition, by omitting the configuration of wires and cables that may interfere when the slider is raised and lowered, there is a technical feature that the observation point is varied by varying the position of the slider.

The slide tower includes a steel structure 100, a rack gear 200, a slider 300, a pinion gear 400, and a drive motor 500.

Steel structure 100 constitutes the exterior of the slide tower and provides an observation height.

Steel structure 100 is made through a combination of a plurality of metal frames, it is provided that the unmanned meteorological observation equipment (S) can be fixed in a specific position.

The steel structure 100 is coupled to a plurality of metal frames as described above, the operator can step up if necessary, but due to the lifting action of the slider 300 it is necessary for the worker to move up and down the steel structure 100 Since there is no metal frame serves as a reinforcement.

On the other hand, the rack gear 200 is installed in the center of the steel structure 100 in the height direction, a description thereof will be described later.

And, the guide rail 110 is installed on both sides of the rack gear 200, respectively.

The guide rail 110 provides a path through which the slider 300 is elevated along the steel structure 100 and corresponds to the height of the steel structure 100.

At this time, the guide rail 110 is preferably bolted in place in the height direction of the steel frame structure 100, preferably made of an angle shape.

Next, the rack gear 200 is provided as a part of the configuration for lifting the slider 300, the pinion gear 400 to be described later is engaged with each other.

The rack gear 200 is installed in the height direction of the steel frame structure 100 and is installed between the pair of guide rails 110 as described above.

Next, the slider 300 is a site where the unmanned meteorological observation equipment S is installed, and lifts the steel structure 100 in a state where the unmanned meteorological observation equipment S is installed.

At this time, the meteorological observation equipment (S) includes a device that can measure the wind direction, wind speed, temperature, humidity, air pressure, rainfall.

And, one side of the slider 300 is provided with a meteorological observation collection equipment (C) for collecting the observation data collected from the meteorological observation equipment (S) to transmit to the meteorological station.

At this time, the observation data collected by the meteorological observation collection device C is transmitted to the meteorological station using wireless communication means.

In this case, the wireless communication means may be provided by RF, CDMA Bluetooth, and the like, but is not limited thereto.

On the other hand, the slider 300 is preferably made of a six-sided housing, a plurality of guide rollers 310 are provided on both sides of the slider 300.

The guide roller 310 guides the lifting and lowering of the slider 300 on the guide rail 110 when the slider 300 moves up and down along the rack gear 200.

As shown in FIG. 4, the guide roller 310 is installed at both upper and lower ends of the slider 300.

The guide roller 310 is axially coupled to the installation member 320 installed on one side of the slider 300, and is preferably installed to be in close contact with the front and rear surfaces of the guide rail 110.

This is to prevent the slider 300 from being separated from the rack gear 200.

That is, the guide roller 310 is in close contact with both surfaces of the guide rail 110, so that the slider 300 is not separated from the rack gear 200.

In this case, the front and rear surfaces of the guide rail 110 to which the guide roller 310 is in close contact with both sides of the guide rail 110 in the direction in which the slider 300 is arranged as shown in FIG. 5.

On the other hand, the guide roller 310 is preferably a spring wheel including a shock absorbing member (not shown) such as a spring so that a buffering action can be made during the lifting action of the slider 300.

Next, the pinion gear 400 serves as a medium for raising and lowering the slider 300 and is installed in the slider 300.

The pinion gear 400 is rotated by the driving motor 500 to be described later, and the slider 300 can be lifted by being engaged with the rack gear 200 to be focused.

Such a configuration of the rack gear 200 and the pinion gear 400 is to convert the rotational motion into a straight motion.

On the other hand, the rack gear 200 and the pinion gear 400 is designed to support the weight of the slider 300 up to 500kg, but for safety, the weight of the slider is most preferably about 100kg when driving. .

Next, the drive motor 500 generates the power to rotate the pinion gear 400, it is installed on the slider 300.

The drive motor 500 is axially coupled to the pinion gear 400 and preferably includes a reducer.

And, the power of the drive motor 500 is preferably installed to operate wirelessly.

Accordingly, the cable for supplying power to the slider 300 is omitted, and the wire for lifting the slider 300 is omitted, so that the slider 300 is configured to be fully self-supporting.

Of course, the observation data of the meteorological observation collection device (C) is also transmitted wirelessly, so that the communication cable can be omitted.

Hereinafter, the coupling and operation of the slide tower for the unmanned meteorological observation equipment having the above configuration will be described.

The slider 300, the meteorological observation equipment S is installed, is coupled to the steel frame structure 100.

At this time, the pinion gear 400 installed on the slider 300 is engaged with the rack gear 200 of the steel structure 100, the guide roller 310 of the slider 300 is provided on both sides of the guide rail 110 It comes in close contact.

As such, the slider 300 has a strong coupling force on the steel structure 100 due to the coupling between the rack gear 200 and the pinion gear 400 and the adhesion of the guide roller 310 to the guide rail 110. It becomes possible.

On the other hand, when the slider 300, the meteorological observation equipment (S) and the meteorological observation collection equipment (C) installed as described above is coupled to the steel frame structure 100, the operator determines the driving motor 500 using a wireless remote control. Rotate

Accordingly, the pinion gear 400 is rotated to raise the slider 300 while meshing along the rack gear 200.

At this time, the guide roller 310 installed on both sides of the slider 300 is clouded along the front and rear surfaces of the guide rail 110, the synergism of the slider 300 is made smoothly.

Then, when the slider 300 reaches the observation position of the steel structure 100, the operator operates the wireless remote control to stop the rotation of the drive motor 500.

At this time, in the process of the slider 300 is stopped, the guide roller 310 also serves to buffer the slider 300 on the guide rail 110.

On the other hand, the operator can change the observation position while adjusting the position of the slider 300, as the slider 300 can stop at any position of the steel structure 100 through a wireless remote control operation.

Then, when the position of the slider 300 is determined, when weather information is collected by the meteorological observation equipment S through the meteorological observation collecting equipment C, it is transmitted to the meteorological station through the wireless communication means.

Therefore, the weather station can be provided more clearly weather information of the point where the slide tower is installed, it is possible to provide a reliable weather information to the consumer.

On the other hand, to repair and check the meteorological observation equipment (S) or meteorological observation collection equipment (C) installed on the slider 300 is to lower the slider 300 to the lower end of the steel frame structure (100).

To this end, the operator operates the wireless remote controller to reversely rotate the driving motor 500 of the slider 300.

Accordingly, the pinion gear 400 is rotated while being engaged with the rack gear 200, the slider 300 is guided by the guide roller 310 to lower to the desired position of the operator.

After that, the operator repairs the various equipment while performing a series of maintenance work, and then returns the slider 300.

As described above, the slide tower for the unmanned meteorological observation device according to the present invention has a technical feature of self-configuring the lifting configuration of the slider equipped with the meteorological observation device through the rack gear and the pinion gear.

In this way, by omitting the configuration of wires and cables to move the slider up and down, the position of the slider can be easily adjusted so that the observation point can be varied.

In addition, there is a technical feature that the guide roller is rolled along the guide rail during the lifting action of the slider, thereby further strengthening the smooth lifting action and engaging force of the slider.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

100: steel structure 110: guide rail
200: rack gear 300: actuator
310: guide roller 320: mounting member
400: pinion gear 500: drive motor
S: Observation Equipment C: Collecting Equipment

Claims (5)

A steel structure 100 which is erected in a direction perpendicular to the ground and in which a rack gear 200 is installed in a height direction;
A slider 300 which is elevated along the steel structure 100 and is provided with a pinion gear 400 engaged with and engaged with the rack gear 200;
A drive motor 500 installed at the slider 300 to drive the pinion gear 400;
It is installed on both sides of the slider 300, meteorological observation equipment (S) for observing the weather, such as wind direction, wind speed, temperature, humidity, air pressure, rainfall;
It is installed on the slider 300, the weather observation collection equipment (C) for collecting observation data observed through the weather observation equipment (S) and transmitting to the weather station using a wireless communication means consisting of: Cost slide tower. The method of claim 1,
Guide rails 110 are installed at both sides of the rack gear 200, respectively.
Slider 300 is a slide tower for unmanned meteorological observation equipment, characterized in that a plurality of guide rollers 310 are installed along the pair of guide rails (110). The method of claim 2,
Installation members 320 are installed at both upper and lower ends of the slider 300, respectively.
The installation member 320 is a slide tower for unmanned meteorological observation equipment, characterized in that the guide roller 310 which is rolled along both sides of the guide rail 110, before and after rolling. 4. The method according to any one of claims 1 to 3,
Forward and reverse rotation of the drive motor 500 is a slide tower for unmanned meteorological observation equipment, which is operated by a wireless remote control.







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