KR200472087Y1 - Injection head with LED induction lamp - Google Patents

Abstract

The exposed snow melt injection head having an LED induction lamp of the present invention is installed on a road or a bridge and sprays snow melt on a road by receiving a snow melt from a snow melt injection device that injects snow melt to melt snow or prevent freezing on the road. It relates to a snow melt injection head that plays a role, which is installed in a structure such as a median separator or a protective wall surface of the road, and is connected to a pipe to which snow is supplied, a snow melt injection head for injecting snow melt on the road. An injection head body fixed to a structure on a road, connected to the pipe to receive a snow melt, and a plurality of injection nozzles are formed to spray the snow melt received on the road; An LED induction lamp including an induction light housing fixed to the injecting head body and a plurality of LED light emitting devices fixed to the induction light housing and connected to an external power source to drive the plurality of LED light emitting devices; The technical feature of the present invention is that the snow melt injection head itself has an induction function of the vehicle, the snow melt injection device can be utilized for vehicle induction even in a period of having an image temperature or in the absence of snow, rain or When the driver's vision deteriorates due to snowfall, there is an effect of safely inducing a driving vehicle and a section in which a snow melting injection device is installed and a section in which an existing induction lamp is installed in general are similar, and thus there is no need to install a separate induction lamp.

Description

Exposure head with LED induction lamp

The present invention is provided to a snow melt injection head which is installed on a road or a bridge and is supplied with snow melt from a snow melt injector that injects snow melt to melt snow accumulated on the road or prevent freezing. In particular, the present invention relates to an exposure-type snow melt spraying head which is installed while being exposed to a central separator or a barrier wall surface of a road.

Generally, when the snow falls in winter and the road surface freezes, vehicle accidents and pedestrian traffic accidents may occur. Especially, roads formed on mountainous terrain have a very slow melting rate of snow accumulated on the road due to shade. If snow is not quickly removed from the road surface, the road freezes and traffic accidents occur frequently.

Conventionally, sand or calcium chloride was applied to the road by manpower to prevent freezing of the road. This method is not a fundamental solution to the problem of sliding accidents on the ice road, and due to the limitation of manpower, it does not respond appropriately. There is a problem, and in the case of using the manpower, there is a problem that a huge cost is spent to prevent snow removal and freezing.

In order to solve this problem, various studies have been conducted to prevent road frost caused by winter snowfall.

Recently, research on the snow melt liquid injection device includes a sensor for measuring a meteorological variable, a controller for controlling a device based on a detection result of the sensor, and an execution unit for spraying snow melt on a road surface under the control of the controller. It's going on.

That is, the execution unit installs a snow melt spray head for directly spraying a predetermined snow melt on a road surface such as a median separator or guard rail, or directly buried in a road to spray snow melt on the road to freeze the road surface during snowfall. Prevent or thaw frozen roads.

An example of such a snow melt spraying apparatus has been disclosed in the prior art application No. 20-2005-0003883 'road freezing prevention system'.

The prior art, as shown in the figure showing an example of the conventional snow melt injection device, a snow melt storage tank 10, a snow melt supply pipe 110 and a plurality of snow melt injection unit 20 and the climate It consists of a measuring instrument 31, road surface conditioner 33 and the electronic control unit 40, the snow melt storage tank 10 stores the snow melt, such as calcium chloride solution, the edge data 11 therein Is installed.

The snow melt supply pipe 110 is arranged in a circulation manner with respect to the snow melt storage tank 10. That is, one end of the snow melt supply pipe 110 is connected to the lower portion of the snow melt storage tank 10, and the other end of the snow melt supply pipe 110 is connected to the upper portion of the snow melt storage tank 10. The snow melt injection unit 20 is connected to the middle of the snow melt supply pipe 110 is installed on one side of the road. The climate measuring device 31 is installed outdoors to measure climate such as precipitation and atmospheric temperature. The road surface conditioner 33 is installed on the road surface to detect the state of the road. The electronic control unit 40 receives the signals from the climate measuring device 31 and the road surface condition sensor 33 to control the injection of the snow melt from the snow melt injection unit 20. In addition, a pressure pump 50 is installed immediately downstream of the snow melting storage tank 10 in the snow melting supply pipe 110. In addition, a pressurized tank 60 is installed immediately downstream of the pressurized pump 50 in the snow melting supply pipe 110.

Therefore, by using the pressure pump 50 and the pressure tank 60, it is possible to compress the snow melt coming out of the snow melt storage tank 10 in real time to continuously supply to the injection unit 20.

Then, the snow melt is sprayed on the road through a plurality of snow melt injection units 20 corresponding to the snow melt injection head as shown in the drawing showing an example of a conventional snow melt injection head.

The snow melt injection device for directly injecting snow melt on the road surface by using the snow melt injection head as described above can be installed relatively freely according to the structure of the road and the environment in which the road is located. There is an advantage that conditions are easy.

That is, the snow melt injection head can be installed on a road structure such as a guardrail or a protective wall surface installed on the outer surface of the road, and can be buried on the floor of the road if necessary, on the outer surface of the road or near the center line of the road. Can be installed on

As such, the snow melt injection device has many advantages in terms of performance and installation cost as compared to the conventional heating method for preventing road ice, but is only used during snow or road freezing periods, so that the snow has a temperature or image temperature. There is a problem that there is no use at all during this period.

The present invention is designed to solve the problem that the conventional snow melt injection device as described above does not have a useful value in the period of the temperature of the image or the snow does not fall, the snow melt injection head of the snow melt injection device The snow melting head itself has a function of inducing a vehicle by using a point installed in a central separator or a barrier wall, so that it can be used as a means of inducing a vehicle to serve as a vehicle in the period of having an image temperature or a period of no snow. For the purpose of

In addition, an object of the present invention is to provide a snow spray head that can safely guide a driver's vehicle during rainfall or snowfall.

The present invention is installed in a structure such as a median separator or a protective wall surface of the road to achieve the problem to be solved as described above, and the snow melt injection to spray the snow melt input to the road connected to the pipe supplied with the snow melt A head comprising: an injection head body fixed to a structure on a road, connected to the pipe to receive a snow melt, and having a plurality of injection nozzles formed thereon to spray the snow melt received on the road; An LED induction lamp including an LED induction light housing coupled to the jet head body and a plurality of LED light emitting devices fixed to the LED induction light enclosure and an LED driver connected to an external power source to drive the plurality of LED light emitting devices; It is characterized by including the technical features.

In addition, the injection head body is formed in the upper surface coupled to the induction light housing coupled to the external power supply and the LED driving unit electrically circuit; forming the induction light enclosure is connected to the power connection in the lower surface and the LED It is a technical feature that the power supply connecting portion is connected to the driver circuit.

In addition, the injection head body has a spray surface formed with a plurality of injection nozzles to the horizontal surface to spread the snow melt is sprayed, and the induction lamp housing also has a LED light emitting device mounting surface of the curved surface matching the curved surface To form; as a technical feature.

The present invention has the effect that the snow melt injection head itself has an induction function of the vehicle through the technical features as described above.

In addition, there is an effect that the snow melt injection device can be used to guide the vehicle even in the period of the temperature of the image or the period of no snow.

Further, in addition to the basic function of removing snow accumulated on the road or thawing the frozen road, there is an effect of safely inducing a driving vehicle when the driver's vision deteriorates due to rainfall or snowfall.

In addition, since the section in which the snow melt injection device is installed and the existing induction light installation section are generally similar, there is no need to install a separate induction light.

1 is a view showing an example of a conventional snow melt injection device,
2 is a view showing an example of a conventional snow melt injection head,
Figure 3 is a view showing an installation example of the exposure-type snow melt injection head having an LED induction lamp of the present invention,
4 is a view showing an exposed snow melt injection head having an LED induction lamp of the present invention,
5 is a view showing an example of the injection head body of the exposure-type snow melt injection head having an LED induction lamp of the present invention,
6 is a view for explaining the power supply connection of the exposure-type snow melt injection head having the LED induction lamp of the present invention.

DETAILED DESCRIPTION OF EMBODIMENTS The following detailed description of the present invention refers to the accompanying drawings that show, by way of illustration, specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention with respect to one embodiment. In addition, it is to be understood that the location or arrangement of individual components in each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is defined only by the appended claims, along with the full scope of equivalents to which such claims are entitled. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

3 is a view showing an installation example of the exposure-type snow melt injection head having an LED induction lamp of the present invention, the snow melt injection head 200 according to the present invention is the same as the guardrail as shown in FIG. It is fixedly coupled to the structure installed on the road.

Snow melt injection head 200 according to the present invention is the LED induction lamp 220 is integrally coupled to the snow melt injection device in the period of having a temperature of the image or the snow does not use the snow melt injection device is not used It can be used as a means for guiding a vehicle.

In particular, the LED induction lamp 220 increases visibility and reduces power consumption by using an LED light emitting device as a light emitting means.

As described in detail, the exposure-type snow melt injection head 200 having the LED induction lamp 300 according to the present invention as shown in FIG. The present invention is installed in a structure such as a median separator or a protective wall surface of the road in the snow melt injection head for spraying the snow melt input to the road connected to the pipe to which the snow is supplied, fixedly fixed to the structure on the road It is connected to the pipe and receives the snow melt, a plurality of injection nozzles 212 is formed and coupled to the spray head body 210 and the spray head body 210 for spraying the input snow melt on the road and fixed The plurality of LED light emitting devices 222 fixed to the induction light enclosure 221 and the induction light enclosure 221 and connected to an external power source drive the plurality of LED light emitting devices. It includes an LED induction lamp 220 including an LED driver (not shown).

As shown in FIG. 4, the spray head body 210 includes a plurality of spray nozzles 212, and the plurality of spray nozzles 212 is connected to an internal space of the spray head body 212.

In addition, the injection head body 210 is connected to the pipe 300 to which the snow melt is supplied to receive the snow melt.

Therefore, the snow melt flows into the inner space of the spray head body 210 through the pipe 300 and is sprayed at high pressure through the plurality of spray nozzles 212.

Such a spray head body 210 is preferably made of a metal material, the shape may be a variety of forms that can be provided with a spray nozzle 212 to inject a wide range of snow melt in addition to the form shown in FIG. .

For example, FIG. 5 shows an injection surface 212-1 in which the injection nozzle 212 is installed, as shown in the drawing showing an example of the injection head body of the exposure-type snow melt injection head having the LED induction lamp of the present invention. As shown in FIG. 5 (a), the spray nozzles 212 are provided at predetermined intervals along the curved surface to extend the total width of the snow melt sprayed by the curvature of the curved surface, or as shown in FIG. As shown in FIG. 5 (c), the snow melt may be sprayed in both directions as the front and both inclined surfaces, or as shown in FIG. 5C.

In addition to the form illustrated in FIG. 5, the spray head body 210 may be implemented in various forms as necessary.

The spray nozzle 212 may be a variety of liquid spray nozzles capable of spraying snow melt as widely as possible, and are not limited to the spray nozzles of any particular shape or structure.

As such, the injection head body 210 according to the present invention may be in various forms, but as shown in FIGS. 4 and 5 (a), the injection head body 210 has a plurality of injection nozzles 212 formed therein. The snow melt is spread out horizontally with the sprayed surface 212-1 being a curved surface, and the LED light emitting device mounting surface 221-1 having the curved surface corresponding to the curved surface of the induction lamp enclosure 221 is also curved. It is preferable to form.

At this time, the LED light emitting element 222 provided on the LED light emitting element mounting surface 221-1 is preferably formed only in the direction in which the vehicle is coming.

This is because when the LED light emitting device mounting surface 221-1 has a curved surface as shown in FIGS. 4 and 5A, the LED light emitting devices installed on opposite sides are in a position that cannot be seen by the driver. The LED light emitting element 222 is provided only in the direction.

The LED induction light 220 is coupled to the injection head body 210 as shown in Figure 4 is fixed to achieve the present invention.

The LED induction lamp 220 is composed of an induction lamp enclosure 221, an LED light emitting element 222, and an LED driver.

The induction light enclosure 221 forms a sealed space for installing the LED driving unit therein, and is coupled to the upper portion of the injection head body 210 as a structure in which the LED light emitting device 222 may be installed.

Such an induction lamp housing 221 may be made of various materials such as metal, nonferrous metal or synthetic resin.

The LED light emitting device 222 is a light emitting means of low heat generation efficiency, commonly referred to as "LED (LED)" is not limited to any specific LED in the present invention, and uses a conventional LED.

However, the LED light emitting device 222 is 0.5 watt or more so that the driver can check the road shape by the snow melt injection head 200 according to the present invention even from a distance, it is possible to be able to be alert. Do.

The LED driving unit is installed in the induction lamp enclosure 221 and is connected to the LED light emitting device 222 in a circuit to receive a power supplied from the outside to drive the plurality of LED light emitting devices 222.

The LED driving unit may be simply a connection circuit for electrically connecting the external power source and the plurality of LED light emitting devices 222 or may be a flashing circuit for blinking the plurality of LED light emitting devices 222.

The LED driving unit and the external power supply may be connected in various forms, such as being connected through an electric wire inserted into the induction light enclosure 221, but as shown in FIGS. In combination with the induction light enclosure 221 to form a power connection portion 213 for electrically connecting the external power source and the LED drive unit, the induction light enclosure 221 is connected to the power connection portion 213 on the bottom surface And forming a power connection 223 connected to the LED driving unit in a circuit, so that the LED driving unit and the external power are electrically connected by the combination of the injection head body 210 and the induction lamp enclosure 221 connected to the external power source. desirable.

The power connection portion 213 is a power connection portion 213 formed on the upper surface of the injection head body 210 as shown in the figure for explaining the power connection portion of the exposure-type snow melt injection head having an LED induction lamp of the present invention Is connected to the external power through the wire insertion hole 213-1 which is connected to the injection head body 210 inside.

That is, when the LED driving unit installed in the induction light enclosure 221 is coupled to the induction light enclosure 221 and the injection head body 210, the injection head body is connected to the power connection unit 223 formed in the induction light enclosure 221 and an external power source. The power connector 213 formed at 210 is electrically connected to the external power source.

While the present invention has been described in connection with the preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. And such variations and modifications are intended to fall within the scope of the appended claims.

200: snow melt injection head according to the present invention
210: spray head body
212: injection nozzle
213: power connection
220: LED induction light
221: guide light enclosure
222: LED light emitting element
223 power supply connection
300: pipe

Claims (3)

In the snow melting liquid injection head which is installed on the structure such as the central separator of the road or the barrier wall surface and sprays the snow melt inputted in connection with the pipe to which the snow melt is supplied,
A spray head body fixedly installed on a structure on a road, connected to the pipe to receive snow melt, and having a plurality of injection nozzles formed thereon to spray the snow melt received on the road;
Induction light housing coupled to the injection head body and the plurality of LED light emitting elements fixed to the induction light housing and is connected to an external power source and the LED induction lamp including an LED driving unit for driving the plurality of LED light emitting elements; ,
The spray head body has a spray surface formed with a plurality of spray nozzles as a curved surface so that the molten liquid is spread and sprayed horizontally, and the induction lamp housing also forms an LED light emitting device installation surface having a curved surface that matches the curved surface. An exposed snow melt injection head having an LED induction lamp. The method of claim 1,
The injection head body is formed in the upper surface and the power supply connecting portion for connecting the external power source and the LED driving unit in an electric circuit in combination with the induction light housing;
The induction lamp housing is exposed on the bottom surface of the snow-melting liquid injection head having an LED induction lamp, characterized in that formed; and a power connection connected to the LED driving unit and the circuit. delete

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