JP3763048B2 - Scraping snow mountain melting device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a scraping snow mountain melting apparatus for melting a snow mountain formed by being scraped to a shoulder of a road or a parking lot site by a mechanical or human power snow removal operation.
[0002]
[Prior art]
Conventionally, in snowy areas, a road heating device using hot water or electric heat is used as a means for melting snow on the road surface, or a room temperature water spraying device that pumps river surface water or groundwater and flows it on the road surface.
[0003]
[Problems to be solved by the invention]
By the way, on the shoulder of the road, the snow raked from the roadway and the sidewalk is removed in a mountain shape, and a raked snow mountain is formed. This raked snow mountain is formed continuously along the shoulder, and reaches about 2 m at the corner of the road in the middle of winter. For this reason, when going out from the middle street to the roadway, the left and right line of sight becomes extremely bad, causing vehicles or pedestrians to meet each other, causing a collision accident at the head, or causing a traffic accident due to jumping out of a child. . Also, if the scraping snow mountain gets bigger, the roadway and sidewalks become narrower, causing traffic congestion, and as the snow mountain side gets higher than the roadway side, the sidewalk snow surface height increases. There are also accidents in which children and elderly people slip from pedestrian crossings and fall to the roadside.
[0004]
However, conventional snow melting means are intended to remove snow that has fallen on the road surface, and the scraped snow mountain formed on the shoulder of the road has reached a certain height, and is carried out by a truck with a shovel car, a blow-up rotor car, etc. However, it is currently being removed and is not in a system for constantly preventing the various dangers described above. In addition, the above-mentioned problem occurs also in large-scale parking lots such as supermarkets, etc., and there is a problem that parking space is reduced due to the scraping snow mountain formed to secure the parking space, and traveling There is no wonder that accidents such as cars and pedestrians coming into contact with each other due to narrow roads occur.
[0005]
Therefore, it is conceivable to install a heating element of a road heating device on the road shoulder or site, but since the heating element is covered with asphalt or the like, direct transfer of heat to and from a snowy mountain is prevented. In addition, the surface layer of the snowy mountain, which has been chilled in the cold at midnight in cold regions, is partially frozen, making it difficult to melt snow. On the other hand, inside the snowy mountain, a cavity is formed above the heating element, and the cavity becomes a heat insulating layer. Therefore, the snowy mountain as a whole has a drawback that the snow melting efficiency is extremely poor and it cannot be efficiently melted. Conventionally, there has been no known means for removing this scraping snow mountain early, effectively and constantly.
[0006]
The present invention has been made in view of the problems that have not been solved in the above-described prior art, and by sequentially melting the scraped snow mountain formed on the road shoulder and site, vehicle accidents and personal injury are prevented, and road width It is an object of the present invention to provide a scraped snow mountain melting apparatus that can secure traffic and eliminate traffic congestion.
[0007]
[Means for Solving the Problems]
The means of the present invention configured to solve the above-described problems includes a hot water supply pipe disposed in the upper half of a drainage groove embedded in the roadbed, and a hot water supply pipe with the nozzle hole facing upward. A plurality of spaced spray nozzles, a hot water generating device that heats a part of the snowmelt drainage taken from the drain groove to a desired temperature, and hot water generated by the hot water generating device is sprayed from each of the spray nozzles Therefore, it consists of warm water injection means connected between the warm water generator and the warm water supply pipe.
[0008]
And a temperature sensor for detecting the temperature of the hot water supplied from the hot water generator to the jet nozzle side, and a temperature sensor for detecting the temperature of the snowmelt drainage flowing into the hot water generator, The hot water jetting unit may be driven based on the detected temperature difference. With this configuration, the melting operation can be automatically controlled.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the figure, reference numeral 1 denotes a road on which an apparatus according to an embodiment is installed. The road 1 is composed of a road 1A and road shoulders 1B and 1B located on both sides in the width direction of the road 1A, and a sidewalk 3 is formed on the outside of each road shoulder 1B via a curb. Reference numeral 4 denotes a side groove that is located on each road shoulder 1B and is embedded in the roadbed 1C. The side groove 4 includes a side groove body 4A having a substantially bowl-shaped cross section and an open lid 4B that covers the side groove body 4A. . Each side groove 4 is connected to a central drain pipe 6 via a drain intake pipe 5.
[0010]
Reference numeral 11 denotes a hot water supply pipe disposed in each side groove 4 along the longitudinal direction. Reference numeral 12 denotes a supply main pipe constituting the hot water supply pipe 11, and the supply main building 12 is connected to a plurality of corrosion-resistant steel pipes, for example, and is laid in a length of several kilometers from the start point to the end point of the side groove 4. The main body 4A is supported by a mounting bracket (not shown). .. Are supply branch pipes set to an appropriate length, for example, a length of 10 to 30 m. The supply branch pipes 13, 13,... It is lined up. Both ends of each supply branch pipe 13 are connected to the supply main pipe 12 via electromagnetic on-off valves 14 and 14 so that hot water can be supplied and stopped for each supply branch pipe 13. 15, 15,... Indicate injection nozzles arranged in rows on the supply branch pipes 13 at a predetermined interval, for example, 1 to 3 m. Each injection nozzle 15 is installed in an upward state with its nozzle hole corresponding to the opening of the opening lid 4B, and is removably screwed to the supply branch pipe 13 so that inspection, repair, and replacement can be performed. is there.
[0011]
Next, reference numeral 16 denotes a hot water generating device for generating hot water for melting snow that is ejected from the spray nozzle 15 toward the snow mountain. Reference numeral 17 denotes the hot water generating device 16, which is a source water tank for storing a part of the snowmelt drainage flowing from the side groove 4, and the source water tank 17 is used to remove dust and the like in the introduction pipe 18 and the snowmelt drainage. It is connected to the side groove 4 through a filter 19. Further, a discharge pipe 20 is connected between the source water tank 17 and the central drain pipe 6, and when the snowmelt drainage in the source water tank 17 stays excessively, it is discharged to the central drain pipe 6 by the pumping pump 21. It is like that. It should be noted that city water can be supplied from the water pipe 22 to the source water tank 17, and city water can be replenished and warmed at the beginning of the winter when there is little snowmelt drainage.
[0012]
Reference numeral 23 denotes a heating tank for heating the snowmelt drainage supplied from the source water tank 17 through the connecting pipe 24 to a predetermined temperature, that is, about 30 ° C. in the embodiment. The heating tank 23 is provided with a heating element 23A such as an electric heater or a heat radiating panel using electricity or kerosene as a heat source. Thus, the hot water generator 16 according to the present embodiment warms the source water tank 17 that stores a part of the snowmelt drainage that flows from the side groove 4 via the introduction pipe 18 and the snowmelt drainage that is supplied from the source water tank 17. The heating tank 23 is generally constituted.
[0013]
Further, 25 is an electric hot water injection pump connected to the heating tank 23 through a communication pipe 26, and the hot water injection pump 25 is connected to a water supply pipe 28 having a check valve 27. Reference numeral 28 is branched and connected to the left and right hot water supply pipes 11 and 11, respectively. Reference numerals 29 and 30 denote a pair of temperature sensors for detecting the melting state of the scraped snow mountain caused by the injection of the hot water. The one temperature sensor 29 is provided in the communication pipe 26 to detect the temperature of the hot water, and the other temperature. The sensor 30 is provided in the introduction pipe 18 to detect the temperature of the snowmelt drainage. Then, the temperatures of the hot water and the snowmelt drainage are compared, and when the temperature difference is equal to or greater than a predetermined value, it is determined that the snow mountain has been melted. Further, when the temperature difference is smaller than a predetermined value, it is a case where the injected hot water is recirculated from the side groove 4 at almost the same temperature, and it is determined that the scraped snow mountain is in a melted state.
[0014]
31 is a control panel electrically connected to each electromagnetic on-off valve 14, the pair of temperature sensors 29, 30 and the hot water injection pump 25 via signal lines 31A to 31H and 31J, respectively. Based on the comparison results of the above, a part of the automatic control for operating the hot water injection pump 25 and a signal to open or close the electromagnetic on-off valve 14 according to the melting state of the scraping snow mountain continuously along the road 1 Alternatively, manual control for stopping the supply of hot water to all supply branch pipes 13 can be performed. The source water tank 17, the warming tank 23, and the hot water injection pump 25 constituting the hot water generating device 16 are installed in the basement A that is located on the end point side of the side groove 4 and below the central drain pipe 6, and is connected to the control panel. For example, 31 is preferably installed on the ground using a post 32.
[0015]
The scraping snow mountain melting apparatus according to the present embodiment has the above-described configuration. When the snow that has been scraped and removed by the shoulder 1B begins to form a mountain shape in the winter, the control panel 31 causes the heating tank 23 to be formed. Is turned on to heat the snowmelt drainage, open each electromagnetic on-off valve 14, and actuate the hot water injection pump 25 to scoop up hot water from the injection nozzle 15 and inject it toward the snow mountain. Thereby, the snowy mountain melts and flows into the side groove 4 as snowmelt drainage. The snowmelt drainage flowing into the side groove 4 flows down due to the gradient of the side groove 4, and flows into the source water tank 17 through the introduction pipe 18 and the filter 19. Since a large amount of snowmelt drainage flows into the source water tank 17, excess drainage is discharged to the central drainage pipe 6 through the discharge pipe 20. The snowmelt drainage remaining in the source water tank 17 flows into the heating tank 23 through the connecting pipe 24 and is heated to about 30 degrees by the heating element 23A. Based on the temperature detection signals of the temperature sensors 29 and 30, the control panel 31 determines the melting state from the temperature difference and sends it to the hot water injection pump 25 as a pump drive signal. As a result, the hot water is pumped from the hot water injection pump 25 to the hot water supply pipe 11 through the communication pipe 28, and is squeezed from each injection nozzle 15 toward the snow mountain to melt the snow mountain.
[0016]
In the above operation, when only a part of the scraped snow mountain continuously formed along the road shoulder 1B is melted, or when the scraped snow mountain remaining without snow removal is melted, the supply branch pipe located there Only the 13 electromagnetic on-off valves 14 need to be opened. By adopting a configuration in which hot water is jetted only from the jet nozzle 15 located at a place where melting is necessary, the running cost can be reduced.
[0017]
Next, FIG. 3 shows a modification of the present embodiment. In the figure, 41 is a snowmelt drainage recovery tank connected to the central drainage pipe 6 via a recovery pipe 42, and the snowmelt drainage recovery tank 41 is connected to the source water tank 17 via a return pipe 43. The snowmelt drainage recovery tank 41 is configured to temporarily store the snowmelt drainage flowing from the central drain pipe 6 and return the stored snowmelt drainage to the source water tank 17 by gravity or a pressure pump. The purpose of attaching such a snowmelt drainage recovery tank 41 is that the side groove 4 installed on the shoulder 1B along the up and down terrain has a low position in the middle of the entire length, and the snowmelt drainage is supplied to the source tank 17. Since there is a risk that the snowmelt drainage does not flow smoothly, the snowmelt drainage is temporarily stored in the snowmelt drainage recovery tank 41 and the stored snowmelt drainage is supplied to the source water tank 17 to prevent the water level in the source water tank 17 from being lowered. .
[0018]
In the present embodiment, the hot water supply pipe 11 is disposed in the side groove 4 and the hot water injection nozzle 15 is also positioned in the side groove 4. However, the hot water supply pipe 11 may be provided above the side groove 4. Alternatively, the hot water supply pipe 11 may be provided in the side groove 4 and the hot water injection nozzle 15 may be protruded outside the side groove 4. In this case, it is needless to say that the hot water supply pipe 11 and the hot water injection nozzle 15 need to be considered so as not to impair the use function of the road and the site.
[0019]
Furthermore, the running cost required for melting snow can be reduced as much as possible by using the waste heat of the heating device discharged from the city building group or the like as the heat source of the heating tank 23.
[0020]
【The invention's effect】
Since the present invention is configured as described above in detail, the following effects are obtained.
(1) Since warm water is jetted directly onto the snow mountain, it is possible to efficiently melt the snow mountain that is almost impossible with the road heating method.
(2) Since the snowmelt drainage is collected in the drainage groove and does not flow out to the road surface on the roadway side, it is possible to reliably prevent the road surface from freezing due to the snowmelt drainage, which is excellent in safety.
(3) Since the warm water used for melting the snow-capped snow mountain is configured to be circulated by taking a part or majority of the snow-melting drainage, a sufficient amount of water for melting the snow can be secured. Also, since river water is not used, there are no restrictions on water rights, etc., and these adjustments are unnecessary, and there is a degree of freedom in installation.
(4) A temperature sensor for detecting the temperature of the hot water supplied from the hot water generator to the injection nozzle side and a temperature sensor for detecting the temperature of the snowmelt drainage flowing into the hot water generator are detected by each temperature sensor. By configuring the hot water jetting means to be driven from the temperature difference between the two temperatures, the melting operation can be automatically controlled.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing an installed state of a scraping snow mountain snow melting device according to an embodiment of the present invention.
FIG. 2 is a system diagram of a snow-melting snow mountain melting apparatus.
FIG. 3 is a cross-sectional view showing a modification of the scraping snow mountain snow melting device.
[Explanation of symbols]
1C Roadbed 4 Side groove 11 Hot water supply pipe 15 Injection nozzle 16 Hot water generator 25 Hot water injection pumps 29 and 30 Temperature sensor

Claims (2)

A hot water supply pipe disposed in the upper half of the drainage groove embedded in the roadbed, a plurality of injection nozzles spaced in the axial direction of the hot water supply pipe with the nozzle hole facing upward, and water taken from the drainage groove A hot water generating device for heating a part of the melted snow drainage to a desired temperature, and the hot water generated by the hot water generating device connected between the hot water generating device and the supply hot water pipe so as to be ejected from each of the injection nozzles A scraped snow mountain melting apparatus comprising the hot water jetting means. A temperature sensor for detecting the temperature of hot water supplied from the hot water generator to the spray nozzle side, and a temperature sensor for detecting the temperature of the snowmelt drainage flowing into the hot water generator, and detected by each temperature sensor; The scraping snow mountain melting apparatus according to claim 1, wherein the hot water jetting unit is driven from a temperature difference.

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