ROAD GUTTER HAVING DUST COLLECTION FUNCTION

Abstract

A road gutter having a dust collection function, consisting of a gutter groove (11) and a cover stopper (10) that covers the gutter groove (11). The side surface of the cover stopper (10) is “T”-shaped. Plugs (10b) of the cover stopper (10) are embedded in the gutter groove (11), and a shoulder (10c) of the cover stopper (10) is supported on platforms (11c) formed by the left and right walls of the gutter groove (11) to bear the weight of the whole cover stopper (10). The front surface of the cover stopper (10) is inverted “U”-shaped, and forms a dust absorption channel (10a) with a solid part of the gutter groove (11). The dust absorption channel (10a) communicates the gutter groove (11) with an external space. Road dust and mess enter the gutter groove (11) from the external space by means of the dust absorption channel (10a) under the drive of an external force, and fall to the bottom of the gutter groove (11).

Claims

1. A road dust collection and drainage canal, wherein the dust collection and drainage canal is for disposition at a roadside edge of a road surface, the dust collection and drainage canal comprises a drainage ditch and a cover plug that covers the drainage ditch; a side surface of the cover plug is in a T-shape, a cover plug head is embedded in the drainage ditch, and cover plug shoulders are supported on platforms formed by left and right ditch walls of the drainage ditch to bear a weight of the cover plug; and a front surface of the cover plug is in an inverted U-shape and forms a dust absorption channel with a part of the drainage ditch, the dust absorption channel provides communication between the drainage ditch and an external space, and dust and debris on a road get into and fall into a bottom of the drainage ditch from the external space through the dust absorption channel under driving of an external force.

2. The road dust collection and drainage canal according to claim 1, wherein the front surface of the cover plug is in the inverted U-shape, and a concave extent is gradually decreased on a cross section of the inverted U-shape.

3. The road dust collection and drainage canal according to claim 1, wherein the side surface of the cover plug is in the T-shape, and is matched with a symmetry of the U-shaped drainage ditch.

4. The road dust collection and drainage canal according to claim 1, wherein a size of the cover plug head is matched with a size of the drainage ditch, so as to reduce a left-right shaking amplitude of the cover plug, and bear or transmit an impact force from a vehicle on a road to a horizontal component force of the cover plug.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] FIG. 1 is a top view illustrating a relative position relationship between a road dust collection and drainage canal according to the present invention, and a road and a sand sediment trap.

[0016] FIG. 2 is a first I-I cross-sectional view of the road dust collection and drainage canal according to the present invention in FIG. 1, which is already enlarged.

[0017] FIG. 3 is a diagram of FIG. 2 with a cover plug lifted from a drainage ditch, and a relative relationship among the cover plug, the drainage ditch and a road surface may be distinguished from a side surface.

[0018] FIG. 4 is a stereoscopic view and an enlarged view of the cover plug in FIG. 3.

[0019] FIG. 5 is a second I-I cross-sectional view of the road dust collection and drainage canal according to the present invention in FIG. 1, which is already enlarged.

[0020] FIG. 6 is a diagram of FIG. 5 with the cover plug lifted from the drainage ditch, and the relative relationship among the cover plug, the drainage ditch and the road surface may be distinguished from the side surface. The stereoscopic view of the cover plug refers to FIG. 4.

[0021] FIG. 7 is a third I-I cross-sectional view of the road dust collection and drainage canal according to the present invention in FIG. 1, which has been enlarged.

[0022] FIG. 8 is a diagram of FIG. 7 with the cover plug lifted from the drainage ditch, and the relative relationship among the cover plug, the drainage ditch and the road surface may be distinguished from the side surface.

[0023] FIG. 9 is a stereoscopic view and an enlarged view of the cover plug in FIG. 8.

DETAILED DESCRIPTION

[0024] Embodiment 1 of the present invention: the embodiment is described with reference to FIG. 1, FIG. 2, FIG. 3, and FIG. 4.

[0025] According to a road dust collection and drainage canal (sewer) of the present invention, a road edge of a road surface 2 is provided with a road dust collection and drainage canal 1 adjacent to a roadside flatstone 5, and the road dust collection and drainage canal 1 is composed of two major parts including a U-shaped drainage ditch 11 adjacent to the road edge and a cover plug 10 that covers the drainage ditch 11. The drainage ditch 11 may be built with cement or cast with cement in situ before laying the road surface 2 and the flatstone 5. The drainage ditch 11 is cast into a U-shape, platforms 11C on a left wall and a right wall thereof are generally symmetrical or asymmetrical, and a symmetrical mode is used in the embodiment. Moreover, the platforms 11C are as high as the road surface or the flatstone 5. A pressure from the road surface caused by a vehicle running on the road surface enables the flatstone 5 to abut against the left wall of the drainage ditch 11, as shown in FIG. 2, and a cover plug head 10b of the cover plug 10 is embedded in the drainage ditch 11. Therefore, the pressure is transmitted to the right wall of the drainage ditch 11, then is borne by a cushion layer 14 and a non-motor vehicle road surface 13, and finally reaches the soil.

[0026] As shown in FIG. 3, a side view of the cover plug 10 is in a T-shape, the cover plug head 10b is a protruding head, and cover plug shoulders 10c are protruding shoulders. The cover plug head 10b is embedded in the drainage ditch 11, and the cover plug shoulders 10c are supported on the platforms on the left wall and the right wall of the drainage ditch 11 to bear a weight of the whole cover plug 10. Moreover, a front view of the cover plug 10 is in an inverted U-shape, and an body of the inverted U-shape, together with a part of the drainage ditch, forms a dust absorption channel (dust collection passage) 10a. The dust absorption channel 10a provides communication between the drainage ditch 11 and an external space. Dust 16 and debris on the road surface 2 get into and fall into a bottom of the drainage ditch 11 from the external space through the dust absorption channel 10a under driving of an external force such as wind, rainwater and the like.

[0027] As shown in FIG. 2 and FIG. 3, a cross section of the cover plug 10 tends to increase in area from left to right, which on one hand is beneficial for the cover plug 10 to bear a larger downward pressure due to a rolling force of the vehicle, and on the other hand is beneficial for maintaining a stability of the cover plug 10 itself without additional reinforcement due to the increase in the weight of the cover plug 10 itself.

[0028] The dust absorption channel 10a has a narrow area, and a minimum size thereof determines a diameter of smallest debris capable of entering the area, thus preventing too many large-sized objects from entering the drainage ditch 11.

[0029] Generally, if the cover plug head 10b is longer, a larger part of the cover plug head 10b is embedded in the drainage ditch 11, and the cover plug 10 is more stable, so that the cover plug 10 is more capable of withstanding an impact of an external force from the vehicle and the like. For example, when a height of the cover plug head 10b is equal to that of the common curbstone, which is 150 mm, and a depth of the drainage ditch 11 is more than 300 mm, a better effect is achieved. The smaller the clearance fit between the cover plug head 10b and the drainage ditch 11 is, the better the effect is, which can prevent the cover plug head 10b from shaking left and right. Generally, a dimension of the cover plug head 10b may be smaller than that of the drainage ditch 11 by 1 mm.

[0030] Although the cover plug head 10b has a symmetrical shape in the embodiment, the cover plug head 10b may also be asymmetrical, as long as the cover plug head 10b is matched with a symmetry of the U-shaped drainage ditch 11.

[0031] A large amount of dust and debris may accumulate in a drainage channel 11a contained in the drainage ditch 11, and get into a sand sediment trap 20 under an impact of rainwater. In the case of too much debris in the trap, a trap cover 20c may be opened for cleaning.

[0032] The drainage ditch 11 is cast with concrete in situ, built with stone, or built with brick and concrete. The cover plug 10 is prefabricated with concrete, including resin concrete, and may also be cast with cast iron.

[0033] The implementation of the present invention can effectively reduce road dust pollution and guarantee a driving safety and a pedestrian safety on the road.

[0034] Embodiment 2 of the present invention:

[0035] The embodiment is described with reference to FIG. 1, FIG. 5, FIG. 6 and FIG. 4.

[0036] Compared with Embodiment 1, in this embodiment, a drainage ditch 11 is cast into a U-shape, and platforms (top sides) 11C on a left wall and a right wall thereof are not as high as the top surface of a road surface or a flatstone 5, but are lower than the road surface or the flatstone 5. Such a structure makes the flatstone 5 directly abut against a front surface of a cover plug 10, and directly transmits a horizontal force from a vehicle to a cushion layer 14 and a non-motor vehicle road surface 13, and finally transmits the horizontal force to the soil, thus effectively protecting the drainage ditch 11 from being easily damaged. Moreover, after constructing and installing the cover plug 10 in place, the cover plug 10 can be further fixed with cement mortar 15 to make up or partially make up for a deficiency that a cover plug head 10b is embedded in the drainage ditch 11 in a shallower manner.

[0037] A dust absorption/collection channel (passage) 10a also has a narrower area, and a minimum size thereof determines a diameter of smallest debris capable of entering the area, thus preventing too many large-sized objects from entering the drainage ditch 11. However, it is very obvious that compared with Embodiment 1, the narrower area is much larger, and a size of debris allowed to enter the area is much larger. Therefore, a grid or a mesh may be arranged in the dust absorption channel 10a to prevent debris or objects of certain sizes from entering the drainage ditch 11.

[0038] A perspective view of the cover plug 10 in this embodiment may be as shown in FIG. 4.

[0039] The rest is the same as in Embodiment 1.

[0040] Embodiment 3 of the present invention:

[0041] The embodiment is described with reference to FIG. 1, FIG. 7, FIG. 8 and FIG. 9.

[0042] An inner cavity of a cover plug 10 in the embodiment is larger, which may save materials, is light in weight and easy to construct, but has a poor strength and a poor impact and pressure resistance compared with the above two examples.

[0043] A dust absorption channel 10a almost has no narrower area to prevent too many large-sized objects from entering a drainage ditch 11. Therefore, a grid or a mesh may be arranged in the dust absorption channel 10a to prevent debris or objects of certain sizes from entering the drainage ditch 11.

[0044] The rest is the same as in Embodiment 1 and 2.

[0045] All these embodiments merely illustrate a part of the present invention and are not exhaustive. Those skilled in the art have various technical means to make modifications. For example, the cover plug 10 is changed from the U-shape to a circular arch shape in the front view; and a part of the inverted T-shape is cut out in the side view to be concave, so as to save materials, etc. The inventor also believes that the cover plug 10 is essentially a cover plug structure, which is a cover and a plug with respect to the drainage ditch 11. No matter what shape the drainage ditch is or how the cover plug 10 is changed, the cover plug structure is essential.