JP3712020B2 - Cleaning method for pavement having gap and cleaning vehicle - Google Patents

Description

【００２８】
試験条件は次のとおりである。
まず、空隙の詰まり状況は次のとおりである。
Ａ：砂質土系の空隙詰まりであり、事前の現場透水量試験結果は９００ｃｃ／１５ｓｅｃ程度である。
Ｂ：粘性土質系の空隙詰まりであり、事前の現場透水量試験結果は２００ｃｃ／１５ｓｅｃ程度である。
Ｃ：工事車両による赤土の空隙詰まりであり、事前の現場透水量試験結果は６００ｃｃ／１５ｓｅｃ程度である。
なお、新設時の現場透水量試験結果は、一般的には１０００〜１２００ｃｃ／１５ｓｅｃ程度である。
【００２９】
機能回復評価は、現場透水量試験で作業の前後に明確な差が見られた場合（上記Ｂ及びＣ）、又は試験目視で明確な差が確認できた場合（上記Ａ）を「良好」として、「不良」，「やや良好」，「良好」の三段階で評価した。なお、使用したノズルは異物通過径１．４ｍｍ、噴出角１５度である。
【００３０】
上記試験結果より明らかなように、作業速度を速めるにしたがって噴出圧力を高めないと機能回復評価が「良好」とならないことがわかる。また、Ａ，Ｂ，Ｃのいずれの路面状況においても、必要な噴出圧力はｙ＝ａｘ＋ｂの関係で変化させればよいことがわかる。なお、ｙは必要とされる噴出圧力、ｘは車両の移動速度，ｃは車両の移動速度を最低速度とした場合に必要とされる噴出圧力、ａは路面に応じて変化する係数である。
【００３１】
【発明の効果】
以上述べたように、この発明にかかる空隙を有する舗装の掃除方法によれば、車両の移動速度が速くなるにしたがって水の噴出圧力を高めるようにしたので、掃除車両の速度を速めても確実に掃除作業を行うことができ、したがって掃除時間の短縮が図れる。また車両の移動速度が速くなるにしたがって吸引ノズルと舗装表面の間隙が小さくなるように吸引ノズルの位置を調節するようにしがたので、吸引ノズルが水没しない範囲で常に最適な位置となり、したがって路面上に溜っている水をゴミ等とともに確実に吸引することができる。そして、ノズルより舗装表面に噴出される水の角度が、垂直方向に対し車両の進行方向に向かって大きくなるようにしたので、車両の移動速度を速めても常に水が路面に対しほぼ垂直よりやや前方に当たるようにすることができる。
【００３２】
また、この発明に係る空隙を有する舗装の掃除車両によれば、上記掃除方法が簡単に行える効果を有する。
【図面の簡単な説明】
【図１】この発明に係る空隙を有する舗装の掃除車両の一実施例を示した側面図である。
【符号の説明】
１ 車両
２ 座席
３ 噴出ノズル
４ 吸引ノズル[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cleaning method and a cleaning method for a pavement having a void, in which dirt or sand clogged in the void of the pavement having a void is removed using water pressure, and the functions such as water permeability of the pavement having the void are restored. It relates to vehicles.
[0002]
[Prior art]
Pavement with many voids formed on the surface of the pavement and having rainwater permeate into the basement from this void, generally called drainage pavement, permeable pavement, open grain pavement, etc. It has come to be.
[0003]
By the way, this gap is clogged with dust, sand or the like in about one year after pavement completion, and the water permeability is reduced. Therefore, if it becomes clogged, it will not function as a pavement with voids, and the significance of such pavement will disappear. Therefore, a method and apparatus for removing dust, sand, etc. that cause this clogging There are various thoughts.
[0004]
For example, Japanese Patent Publication No. 61-47289 discloses a method in which pressure water is jetted almost perpendicularly to a pavement surface to scour and discharge clogging. What is shown in the 223206 gazette is a combination of a suction device for sucking the jetted water. In addition, as shown in Japanese Patent Application Laid-Open No. 4-113240 and Japanese Patent Application Laid-Open No. 4-324658, the cleaning ability is more effective.
[0005]
[Problems to be solved by the invention]
By the way, although such a conventional method has a certain effect under certain conditions, the vehicle is used for cleaning work (function recovery work) while jetting water from the cleaning vehicle and moving. There was a lack of recognition that the speed of movement was an important requirement.
[0006]
In other words, when cleaning roads that are generally in service, it is necessary to minimize the traffic regulations associated with the cleaning work, and for that purpose, the speed of movement of the cleaning vehicle during work must be as fast as possible. Is desirable.
[0007]
Therefore, it is only necessary to increase the speed of movement of the cleaning vehicle and perform the cleaning work.However, if the speed of movement is increased while the water discharge pressure is kept constant, the cleaning result is not improved as the speed of movement of the vehicle increases. It turned out to be perfect.
[0008]
That is, in order to clean the pavement surface of a certain area, it is necessary to eject a certain amount of water toward the pavement surface, and the ejection pressure from the nozzle is increased as the moving speed of the cleaning vehicle is increased. As a result of various experiments, it was found that it was necessary. It was also found that the amount of water required depends on the degree of clogging in the pavement surface and the type of clogged soil. Therefore, when the moving speed of the cleaning vehicle is increased, it is necessary to increase the pressure of water ejected from the ejection nozzle accordingly. That is, when the diameter of the ejection nozzle is constant, it is necessary to increase the water ejection pressure.
[0009]
On the other hand, if the amount of water ejection is increased, the amount of water that accumulates on the pavement surface in a certain time increases. If the suction nozzle for collecting water is kept at a certain height, the suction nozzle will be located in the water. However, if the suction nozzle enters the water due to the nature of the suction device, The suction ability is extremely reduced. Therefore, when the moving speed of the cleaning vehicle is decreased and the amount of water is increased, it is necessary to adjust the height so that the suction nozzle moves away from the road surface according to the decreased speed. As shown in the experimental results to be described later, the water ejection pressure increases as the moving speed of the cleaning vehicle increases, but the total amount of water discharged per unit area increases as the moving speed decreases.
[0010]
Further, when water is ejected from the ejection nozzle toward the pavement surface, it is desirable that the ejected water hits slightly forward from the perpendicular to the pavement surface. When the moving speed of the cleaning vehicle increases, the water from the ejection nozzle turns to the rear by the moving speed of the vehicle. Therefore, in order for the water from the ejection nozzle to hit the front slightly from the perpendicular to the pavement surface even if the moving speed of the vehicle is increased, it is necessary to adjust the direction of the ejection nozzle with respect to the road surface according to the speed of the vehicle. .
[0011]
[Means for Solving the Problems]
Accordingly, the cleaning method for a pavement having a gap according to the present invention is a suction port provided toward the pavement surface of the vehicle while spraying water onto the pavement surface from a nozzle provided in the vehicle to wash out the clogged pavement. In the cleaning method that collects the water ejected by the above, the position of the suction nozzle is adjusted so that the water ejection pressure is increased and the gap between the suction nozzle and the pavement surface is reduced as the moving speed of the vehicle increases. (Claim 1 ).
[0012]
Further, the pavement cleaning vehicle having a gap according to the present invention is a suction nozzle provided for spraying water onto the pavement surface from a nozzle provided in the vehicle to wash out the clogged pavement and facing the pavement surface of the vehicle. In a cleaning vehicle that collects the water ejected by the above, the position of the suction nozzle is adjusted so that the water ejection pressure increases and the gap between the suction nozzle and the pavement surface decreases as the moving speed of the vehicle increases. (Claim 2 ).
[0013]
[Action]
The water jet pressure is increased as the speed of the cleaning vehicle is increased. As the water ejection pressure is increased, the amount of water ejected from the nozzle in a given time increases. Therefore, even if the moving speed of the vehicle increases, the amount of water necessary for cleaning the road surface is ejected from the ejection nozzle toward the pavement surface, and the clearance is reliably cleaned.
[0014]
On the other hand, if the height of the suction nozzle is adjusted so as to decrease from the road surface as the moving speed of the cleaning vehicle increases, the result is that the moving speed is greater than the amount of water discharged per unit time as a result of increasing the speed. As a result, even if the water level on the road surface is lowered, it is possible to prevent the gap between the suction nozzle and the road surface from being unnecessarily accompanied with the lowering of the water level, and 100% suction performance can always be exhibited.
[0015]
In addition, as the direction of the water ejection nozzle increases, the angle of the water ejected from the nozzle to the pavement surface increases toward the vehicle traveling direction relative to the vertical direction. The ejected water always hits slightly ahead of the road surface without being affected by the speed of the vehicle.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, an embodiment of a pavement cleaning vehicle having a gap according to the present invention will be described with reference to the drawings. Then, a pavement method for pavement having a gap according to the present invention using this cleaning vehicle will be described.
[0017]
[Example 1]
Reference numeral 1 denotes a self-propelled cleaning vehicle body and 2 driver seats. Reference numeral 3 denotes an ejection nozzle for ejecting water toward the pavement surface, and this ejection nozzle 3 is disposed toward the pavement surface. Reference numeral 4 denotes a suction nozzle for sucking and collecting dust, sand, water, and the like in the pavement surface and gaps. Moreover, the cleaning vehicle 1 may be provided with a water tank or a garbage tank, or these may be provided in another vehicle. Further, the cleaning vehicle 1 may not be self-propelled but may be towed by another vehicle or the like.
[0018]
The water supply pump for ejecting water from the ejection nozzle 3 and the vacuum pump for sucking water from the suction nozzle 4 may be directly driven by the prime mover of the cleaning vehicle 1, or the drive source may be an electric motor. In any case, the ejection pressure of water from the ejection nozzle 3 is changed according to the moving speed of the vehicle. On the other hand, the position of the suction nozzle 4 is also changed according to the moving speed of the vehicle. Further, the angle of the ejection nozzle 3 is also changed according to the moving speed of the vehicle.
[0019]
Any method may be used to change these depending on the moving speed of the vehicle, but the moving speed of the vehicle is detected by various known methods, and as a result, the discharge pressure of the water supply pump, the angle of the jet nozzle 3, the suction nozzle The position of 4 may be controlled by an appropriate method. Further, instead of changing the discharge pressure of the feed water pump, the pressure is changed by changing the diameter of the jet nozzle 3, or a part of the jet nozzle 3 returns to the feed water tank without being ejected in its entirety. The ejection pressure from 3 may be changed.
[0020]
[Example 2]
Next, a method for cleaning a pavement having a gap according to the present invention will be described using the above-described cleaning vehicle.
[0021]
While the vehicle 1 is self-propelled, the suction nozzle 4 sucks and collects water, dirt, earth and sand, etc. on the road surface while jetting water from the jet nozzle 3. More specifically, first, a water permeation amount test on a pavement road surface is performed by an arbitrary water permeation test method or the like to examine the degree of clogging of the gap. Based on this data, the ejection pressure required when the moving speed of the cleaning vehicle 1 is the lowest speed (for example, 10 m / min) is determined, or the cleaning operation is actually performed on the road surface to check the function recovery status. .
[0022]
This required ejection pressure depends on the porosity, the degree of clogging of the gap, the nature of the earth and sand clogged in the gap, etc., and cannot be determined mechanically. It changes depending on the road surface.
[0023]
And if the required ejection pressure at this minimum speed is determined, the ejection pressure of water from the ejection nozzle 3 should be increased as the speed of the cleaning vehicle 1 is increased. As can be seen from the following experimental example, the required ejection pressure may be increased linearly with respect to the speed change.
[0024]
On the other hand, the suction nozzle 4 is changed so that the lower end of the suction nozzle 4 approaches the road surface as the speed of the cleaning vehicle 1 increases. In short, it is desirable that the lower end of the suction nozzle 4 is located as close to the water surface as possible so long as it does not immerse in the water accumulated on the road surface, but this adjustment lowers the suction nozzle 4 as the moving speed of the vehicle increases. Just do it. In order to adjust the position of the suction nozzle 4 more strictly, a device for detecting the water surface position on the road surface may be provided, and thereby the height of the suction nozzle 4 may be adjusted.
[0025]
Further, as the speed of the cleaning vehicle 1 increases, the jet nozzle 3 is directed toward the traveling side of the vehicle 1 so that the water jetted from the jet nozzle 3 hits the pavement surface slightly forward as a result. . The amount of adjustment varies depending on the type of nozzle, the injection angle, and the like, and does not require strict adjustment. In the case where the ejection nozzle 3 is provided at the central portion of the cleaning vehicle 1 and the suction nozzle 4 is provided before and after the cleaning vehicle 1 so that the operation can be performed when the cleaning vehicle 1 moves forward and backward, the ejection nozzle 3 It is convenient to be able to change in both directions.
[0026]
[Experimental example]
Next, Table 1 shows the results of the function recovery test when the cleaning speed is changed at various work surfaces.
[0027]
[Table 1]

[0028]
The test conditions are as follows.
First, the clogged state of the gap is as follows.
A: Sandy soil-based void clogging, and the previous on-site water permeability test result is about 900 cc / 15 sec.
B: Void clogging of clayey soil system, and the previous on-site water permeability test result is about 200 cc / 15 sec.
C: The red soil is clogged by the construction vehicle, and the previous on-site water permeability test result is about 600 cc / 15 sec.
In addition, the on-site water permeability test result at the time of new installation is generally about 1000 to 1200 cc / 15 sec.
[0029]
In the functional recovery evaluation, when a clear difference is observed before and after work in the on-site water permeability test (above B and C), or when a clear difference can be confirmed by visual inspection of the test (above A), “good” , “Bad”, “slightly good”, and “good”. The used nozzle has a foreign substance passage diameter of 1.4 mm and an ejection angle of 15 degrees.
[0030]
As is clear from the above test results, it is understood that the function recovery evaluation does not become “good” unless the ejection pressure is increased as the work speed is increased. In addition, it can be seen that, in any road surface conditions of A, B, and C, the necessary ejection pressure may be changed according to the relationship y = ax + b. In addition, y is the required jet pressure, x is the moving speed of the vehicle, c is the jet pressure required when the moving speed of the vehicle is the minimum speed, and a is a coefficient that varies depending on the road surface.
[0031]
【The invention's effect】
As described above, according to the method for cleaning a pavement having a gap according to the present invention, the water ejection pressure is increased as the moving speed of the vehicle increases. Therefore, the cleaning operation can be performed, and therefore the cleaning time can be shortened. Also, since the position of the suction nozzle is adjusted so that the gap between the suction nozzle and the pavement surface becomes smaller as the moving speed of the vehicle increases, the suction nozzle is always in the optimum position within the range where it does not submerge. The water accumulated on the top can be reliably sucked together with dust and the like. The angle of the water sprayed from the nozzle to the pavement surface is increased in the direction of travel of the vehicle with respect to the vertical direction. Therefore, even if the moving speed of the vehicle is increased, the water is always almost perpendicular to the road surface. You can make it hit slightly forward.
[0032]
Moreover, according to the pavement cleaning vehicle having a gap according to the present invention, the cleaning method can be easily performed.
[Brief description of the drawings]
FIG. 1 is a side view showing an embodiment of a pavement cleaning vehicle having a gap according to the present invention.
[Explanation of symbols]
1 Vehicle 2 Seat 3 Ejection nozzle 4 Suction nozzle

Claims (2)

  In a cleaning method in which water is ejected from the nozzle provided on the vehicle to the surface of the pavement to wash out the clogged pores of the pavement and the water ejected from the suction port provided toward the surface of the pavement of the vehicle is recovered. A method for cleaning a pavement having a gap, characterized in that the position of the suction nozzle is adjusted so that the water ejection pressure is increased and the gap between the suction nozzle and the pavement surface is reduced as the moving speed of the pavement increases.   In a cleaning vehicle in which water is ejected from the nozzle provided on the vehicle to the surface of the pavement to wash out the clogged pores of the pavement and the water ejected by the suction nozzle provided toward the surface of the pavement of the vehicle is collected. A pavement cleaning vehicle having an air gap, characterized in that the position of the suction nozzle is adjusted so that the water ejection pressure is increased and the gap between the suction nozzle and the pavement surface is reduced as the moving speed of the pavement increases.

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