KR101527808B1 - A cutting machine of road surface to control the spacing of road surface froove - Google Patents

Abstract

The present invention relates to a road-surface groove cutting device for forming grooves on a road surface to easily discharge rainwater or to improve a frictional force on a road with rainwater or snow and, more specifically, to a road-surface groove cutting device capable of adjusting the distance between road-surface grooves having spacers for adjusting the distance between the grooves formed on the road surface and to a road-surface groove constructing method using the same. The road-surface groove cutting device capable of adjusting the distance between the road-surface grooves according to the present invention includes a housing; a driving unit moving the housing by being installed in the housing and providing power to cut the road-surface grooves; an operation unit controlling the operation of the driving unit; and a cutting unit cutting the road surface by receiving the power from the driving unit. The cutting unit includes multiple cutting wheels joined to a rotary shaft, and the spacers capable of adjusting the distance of the cutting wheels are installed between the cutting wheels. In addition, the road-surface groove constructing method using the road-surface groove cutting device capable of adjusting the distance between the road-surface grooves includes a preparation step of preparing the road surface by cleaning and drying the road surface to be processed; a coating step of coating a primer and a frictional force increasing agent on the road surface prepared in the preparation step; a hardening step of coating and hardening a slip-preventing agent and heat sensitive paint on the surface whereon the primer and frictional force increasing agent are coated in the coating step; and a cutting step of cutting the road-surface grooves on the road surface using the road-surface groove cutting device capable of adjusting the distance between the road-surface grooves after the hardening step of hardening the slip-preventing agent and heat sensitive paint.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a road surface groove cutting apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for cutting a groove on a road surface such as a rainy road or an ice sheet, And a road surface groove forming method using the same. 2. Description of the Related Art

Generally, it improves driving stability by preventing braking due to the improvement of the water film phenomenon and improving the drainage performance at airports, expressways and roads, or by reducing the noise and increasing the friction between the road surface and the tire, thereby increasing the braking force of the traveling devices such as automobiles and airplanes A grooving construction has been carried out to form grooves with constant depth and spacing on the road surface.

The grooving construction was first put to practical use by NASA (NASA). In California, from 1960 to 1974, after grooving, total incidents were reduced by 20%, fatal accidents by 50%, and accidents on wet roads by 70%. Therefore, it is now being put to practical use all over the world.

In this regard, Korean Patent Registration No. 10-0512321 (Sep. 05, 2005) discloses a method for grinding a road by joining a power saw with a power transmission portion to a cutting saw having an abrasive formed thereon, And a body for operating the lower driving wheel by operating a manipulation part and a handle on one side and rotating the lower driving wheel so as to collect dust processed by the working saw on the rear side of the body part And a suction pipe connected to the front surface of the brush of the dust collecting part by a transfer pipe to the suction unit to suck and discharge the dust and air generated in the processing saw, And a dust collecting suction pipe connected to one side of the rear surface of the body part, And a filter portion having a plurality of filters formed therein.

However, the above-described road surface machining apparatus has a problem in that the machining saw having a plurality of machining blades is integrally formed, and the distance between the grooves formed on the road surface can not be adjusted.

As a conventional technique, Korean Utility Model Registration No. 20-0427777 (Sep. 05, 2005) discloses a road surface processing apparatus in which the liquid material is stored so that the bottom surface of the discharge port is covered with a uniform thickness A grooving device provided at the rear of the outlet of the supply container and provided with a plurality of projections on its surface and formed with a cylindrical shape in which the ends of the projections touch the bottom surface of the road and are rotated during traveling; There is known a device for constructing a road surface marking and a non-skid portion including a crosswalk comprising a bead supply device provided at the rear of a grooving device and uniformly supplying beads to a coated surface adhered to a road.

However, since the grooving device is integrally formed, it is impossible to adjust the distance between grooves formed on the road surface.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a road surface groove cutting device capable of adjusting the distance between the grooves formed on the road surface to improve the slip prevention and drainage performance, The purpose of the method is to provide.

In addition, since one or more spacing members capable of adjusting the spacing between the grooves formed on the road surface can be provided, it is possible to easily adjust the distance of the road surface groove to an interval desired by the user, And a road surface groove forming method using the same.

A road surface groove cutting apparatus according to the present invention includes a housing, a driving unit mounted on the housing for moving the housing and cutting the road surface groove, and a control unit for controlling driving of the driving unit. And a cutting unit that receives power from the driving unit and cuts the road surface, wherein the cutting unit includes a plurality of cutting wheels coupled to a rotating shaft, and the interval between the cutting wheels is adjusted between the plurality of cutting wheels A gap holding member is provided.

The gap retaining member is disposed between at least one or more cutting wheels in a cylindrical shape having a hollow therein.

The gap holding member is hollow and has a large diameter cylindrical portion, and the remaining portion is formed of a small diameter cylindrical portion having a smaller outer diameter than the large diameter cylindrical portion, and is disposed between at least one of the cutting wheels.

When the plurality of gap holding members are disposed between the cutting wheels, the small diameter cylindrical portion of another gap holding member is inserted into the hollow of the large diameter cylindrical portion.

The gap holding member is provided with an annular rubber ring at a portion contacting the cutting wheel.

The cutter further includes a cylinder provided to apply pressure to the road surface, and a pressing unit including a pressure control member for adjusting pressure applied to the support member.

A method of constructing a road surface groove using a road surface groove cutting apparatus capable of adjusting a road surface groove spacing according to the present invention includes a step of arranging a road surface by cleaning and drying a road surface to be worked, A curing step of applying a non-slip agent and a zeotropic pigment on a road surface coated with a primer and a frictional force increasing material in the applying step and curing the cured non-slip agent and the zeolite pigment, And a cutting step of cutting the road surface groove on the road surface using a road surface groove cutting device capable of adjusting the groove interval.

The curing step and the cutting step may be performed in reverse order.

Wherein the cutting step comprises a number setting step of setting the number of cutting wheels according to the number of the designated road surface grooves, a step of installing spacing members to adjust the distance between the road surface grooves according to the number of the designated road surface grooves, And a driving step of driving the cutting device so as to cut the road surface groove by manipulating the pressing force of the pressing portion according to the height of the designated road surface groove.

According to the present invention, it is possible to easily adjust the distance between the plurality of road surface grooves formed on the road surface in order to prevent slipping and to improve the drainage performance of the road surface groove cutting device, have.

In addition, the present invention can be provided with a single or a plurality of spacing members capable of adjusting the spacing between the road surface grooves formed on the road surface, so that the road surface groove interval can be adjusted to a desired interval, There is an effect that can be.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view showing an embodiment of a road surface groove cutting apparatus capable of adjusting a road surface groove interval according to the present invention. FIG.
BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a road surface groove cutting apparatus capable of adjusting a road surface groove interval according to an embodiment of the present invention.
FIG. 3 is an enlarged view of a cutting portion and a gap holding member in an embodiment of a road surface groove cutting device capable of adjusting a road surface groove interval according to the present invention. FIG.
FIG. 4 is an enlarged view of still another embodiment of a gap holding member in an embodiment of a road surface groove cutting apparatus capable of adjusting a road surface groove interval according to the present invention. FIG.
FIG. 5 is an exploded perspective view showing still another embodiment of a gap holding member in an embodiment of a road surface groove cutting apparatus capable of adjusting a road surface groove interval according to the present invention. FIG.
FIG. 6 is an enlarged view of still another embodiment of a gap holding member in an embodiment of a road surface groove cutting apparatus capable of adjusting a road surface groove interval according to the present invention. FIG.
FIG. 7 is a schematic view schematically showing the construction of a road surface groove on a road surface using a road surface groove cutting device capable of adjusting a road surface groove interval according to the present invention. FIG.
FIG. 8 is a block diagram showing a method of constructing a road surface groove using a road surface groove cutting device capable of adjusting a road surface groove interval according to an embodiment of the present invention.
FIG. 9 is a block diagram illustrating the construction of a cutting step in an embodiment of a road surface groove construction method using a road surface groove cutting apparatus capable of adjusting a road surface groove interval according to the present invention. FIG.

The present invention relates to a road surface groove cutting apparatus capable of adjusting the distance between road surface grooves and a method of constructing a road surface groove using the same, which comprises a housing, a driving unit mounted on the housing for moving the housing, And a cutting unit for cutting the road surface by receiving power from the driving unit, wherein the cutting unit includes a plurality of cutting wheels coupled to a rotating shaft, And a gap holding member is provided to adjust the spacing between the wheels.

In addition, the gap holding member may be a cylindrical shape having a hollow therein and disposed between at least one or more cutting wheels.

The gap holding member is hollow and has a large diameter cylindrical portion and a small diameter cylindrical portion having a smaller outer diameter than the large diameter cylindrical portion and is disposed between at least one cutting wheel. do.

Further, when the plurality of spacing members are disposed between the cutting wheels, the small diameter cylindrical portion of another spacing member is inserted into the hollow of the large diameter cylindrical portion.

Further, the gap holding member is characterized in that an annular rubber ring is provided at a portion in contact with the cutting wheel.

The cutter may further include a cylinder provided to apply pressure to the road surface, and a pressing unit including a pressure control member for adjusting pressure applied to the support member.

In addition, the present invention relates to a method of manufacturing a tire, which comprises: a cleaning step of cleaning and drying a road surface to be cleaned to form a road surface; a priming step of applying a primer and a friction increasing material to the road surface prepared in the cleaning step; A step of applying a slip inhibitor and a zeotropic pigment to the road surface and curing the road surface, and a step of cutting the road surface groove on the road surface using the road surface groove cutting device capable of adjusting the distance of the road surface groove after hardening the anti- And a cutting step.

In addition, the curing step and the cutting step can be performed in reverse order.

The cutting step may include a number setting step of setting the number of cutting wheels according to the number of the designated road surface grooves, a step of installing spacing members to adjust the distance between the road surface grooves according to the number of the designated road surface grooves, And a driving step of driving the cutting device so as to cut the road surface groove by manipulating the pressing force of the pressing part according to the height of the designated road surface groove.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of a road surface groove cutting apparatus capable of adjusting a road surface groove interval according to the present invention and a road surface groove construction method using the same will be described in detail with reference to the drawings.

1, a road surface groove cutting apparatus according to an embodiment of the present invention includes a housing 10, a driving unit 20, an operating unit 30, a cutting unit 40, And a holding member (50).

The housing 10 is provided as a frame for supporting the cutting device 100. The housing 10 includes a first housing 12 for supporting the driving unit 20 and the devices for driving the cutting unit 40 and a second housing 12 for supporting the operating unit 30 for operating the cutting operation, 2 housing 14 and a support 16 for supporting the entire cutting device 100. [

The driving unit 20 is provided to supply power to move the cutting device 100 and cut the road surface groove. The driving unit 20 includes a driving motor 21 and a cutting motor 25 for driving the cutting device 100 by itself. The drive motor 21 and the cutting motor 25 are installed on the support table 16 and housed in the first housing 12.

The driving motor 21 is provided to transmit power to the driving wheel 23a through the first power transmitting member 22. [ The driving wheel 23a is installed through a supporting frame 23b formed on the supporting frame 16. [ The auxiliary wheel 24a is installed through an auxiliary support frame 24b formed on the support 16 to maintain the balance of the cutting device 100. [

The cutting motor 25 is provided to transmit the power to the cutting wheel 42 through the second power transmitting member 26. In other words, the second power transmission member 26 is connected to the drive shaft of the cutting motor 25 and the rotation axis 46 of the cutting wheel 42 so that the power of the cutting motor 25 is transmitted to the cutting wheel 42 .

The operation unit 30 includes an operation handle 32 for switching the direction of the cutting device 100 and an operation button 34 for controlling the operation of the cutting device 100 and the cutting force and cutting direction.

The operation button 34 includes a drive button for operating start and stop of the cutting device 100 and a cutting control button for controlling the pressing force of the cutting wheel 42 on the road surface, A control button for controlling the moving speed of the cutting device 100, and the like.

The cutting unit 40 includes a cutting wheel 42 that is rotatable about a rotation axis 46. Diamond particles may be distributed on the outer surface of the cutting wheel 42 to enhance the cutting force.

2, the cutting portion 40 is provided with a rotary shaft 46 on the rotary support member 44. [ The rotating shaft 46 is composed of a rotating shaft member 46a and a threaded portion 46b formed in the end surface of the rotating shaft member 46a.

A plurality of cutting wheels 42 are arranged on the outer surface of the rotating shaft member 46a at regular intervals. The plurality of cutting wheels 42 are each provided with a cutting edge 41 on the outer periphery of a circular shape. In order to strengthen the cutting force, diamond particles or the like are buried in the outer peripheral surface of the cutting edge 41.

The cutting portion 40 is provided with a fixing nut 48 for fastening the cutting wheel 42 in the axial direction in order to prevent the cutting wheel 42 from being shaken due to vibration when the cutting wheel 42 is installed on the rotary shaft 46. The fixing nut 48 is engaged with and fixed to the threaded portion 46b.

A gap holding member 50 is provided between the two cutting wheels 42 facing each other with the plurality of cutting wheels 42 facing each other.

The gap holding member 50 is formed in a hollow cylindrical shape and is inserted into the rotation shaft 46. A plurality of rubber rings 55 are provided between the gap holding member 50 and the plurality of cutting wheels 42 in order to maintain the sealing of the portion connected to the rotation axis while preventing wear.

As shown in FIG. 3, the gap holding member 50 can arrange the plurality of cutting wheels 42 at a constant interval W by adjusting the axial length. The gap holding member 50 can vary the length in the manufacturing process, and it is possible to adjust the distance of the road surface grooves to be installed on the road surface to various lengths.

As shown in FIG. 4, the spacing members 50 may be provided in a plurality of spaced apart intervals (W). Therefore, the gap holding member 50 may be manufactured by forming a plurality of gap holding members 50 having different lengths and adjusting the gap W according to the construction conditions. Alternatively, a plurality of gap holding members 50 may be used, W) can be adjusted.

5 and 6, the gap holding member 50 includes a large-diameter cylindrical portion 50a and a small-diameter cylindrical portion 50b having a diameter smaller than that of the large-diameter cylindrical portion 50a . When the plurality of gap holding members 50 are installed, the small diameter cylindrical portion 50b of another gap holding member 50 is inserted into the large diameter cylindrical portion 50a.

The road surface grooving apparatus 100 according to the present invention, which is capable of adjusting the distance between the road surface grooves, may further include a pressing unit 60.

The pressing portion 60 is provided so that the road surface can be cut by applying pressure to the cutting portion 40. The pressing portion 60 includes a pressing control member 62 for controlling the pressure applied to the cutting portion 40 and a cylinder 64 and a supporting member 66 for applying pressure to the cutting portion 40.

The pressing control member 62 is provided to control the magnitude of the force that the cutting wheel 42 exerts in the direction of gravity. The pressure control member 62 is installed on the support table 16 and transmits hydraulic pressure to the cylinder 64 to adjust the pressure applied to the road surface through the cutting wheel 42. [

The cylinder 64 is connected to the support member 66 and is capable of pressing the cutting knife 42 rotating in the direction of the paper surface. The depth of the road surface cut according to the magnitude of the pressing force of the pressure control member 62 can be adjusted.

1 and 7, a road surface groove cutting apparatus 100 capable of adjusting the road surface groove interval according to the present invention moves a cutting device 100 on a road surface 200 on which a road surface groove 205 is to be formed, A plurality of cutting wheels 42 are coupled to the rotary shaft 46 of the cutting unit 40. A space holding member 50 is disposed between the plurality of cutting wheels 42 along the set distance W of the road surface grooves 205, . Further, a rubber ring 55 is further provided to maintain the sealing of the portion connected to the rotary shaft 46 while preventing the gap holding member 50 and the cutting wheel 42 from being worn.

The drive motor 21 and the cutting motor 25 of the drive unit 20 are driven by operating the depth and length of the road surface groove 205 with the operation handle 32 and the operation button 34 of the operation unit 30 And the road surface groove 205 is formed on the road surface 200.

As described above, according to the present invention, the interval between the axial length of the gap holding member 50 and the number of the gap holding members 50 provided in plural can be variously adjusted. The gap holding member 50 may be formed of a large diameter cylindrical portion 50a and a small diameter cylindrical portion 50b and may be made of a road surface groove 205 Can be adjusted in various ways.

Therefore, the user who uses the cutting apparatus 100 according to the present invention can adjust the length and the number of the spacing members 50 in consideration of the required distance between the road surface grooves 205, ) Can be processed at various intervals (W).

Next, as shown in FIG. 9, a method for constructing a road surface groove using a road surface groove cutter capable of adjusting the road surface groove spacing according to the present invention comprises the steps of arranging 10, applying 20, curing S30, (S40).

The rearranging step (S10) cleans and cleans the road surface to be worked and arranges the road surface. It is preferable that the road surface to be worked is cleaned and completely dried so as to form a road surface groove on the road surface where no damage such as flatness degradation and cracking will occur.

The applying step (S20) applies the primer and the frictional force increasing material to the road surface arranged in the arranging step (S10). In the coating step S20, it is preferable to apply the primer first evenly and then apply the friction increasing material before the primer dries. In the application step S20, the primer applied to the road surface is excellent in workability and viscosity, so that the durability and abrasion resistance of the road surface groove are improved. The frictional force increasing material applied in the applying step S20 suppresses the water film phenomenon on the road surface and increases the frictional force with the automobile tire.

In the curing step S30, a non-slip agent and a zeotropic pigment are applied on the road surface coated with the primer and the friction increasing agent in the coating step S30 and cured. In the curing step (S30), the anti-slip agent is evenly applied to the road surface, and then the cyan pigment is applied and cured. The anti-slip agent applied on the road surface in the curing step (S30) prevents the automobile tire from slipping, and the zeolite pigment recognizes the road surface state according to the weather condition and changes the color depending on the temperature.

In the cutting step S40, the road surface groove is cut on the road surface using the road surface groove cutting device 100 capable of adjusting the road surface groove interval. More specifically, as shown in Fig. 9, the cutting step S40 is composed of the number setting step S41, the mounting step S42, and the driving step S43.

The number setting step S41 sets the number of cutting wheels according to the number of the road surface grooves designated. That is, in the number setting step S41, the number of cutting wheels corresponding to the number of road surface grooves formed on the road surface is selected.

In the installation step (S42), a spacing member is provided to adjust the distance between the road surface grooves according to the number of the designated road surface grooves. The installation step S42 is capable of varying the spacing between the road surface grooves with the spacing members, and is installed according to the interval between the designated road surface grooves.

The driving step S43 drives the cutting device 100 so that the road surface groove can be cut by operating the pressing force of the pressing part according to the height of the designated road surface groove. The driving step S43 adjusts the pressing intensity of the pressing portion and cuts the road surface to form a road surface groove.

In addition, the road surface grooving method using the road surface grooving apparatus capable of adjusting the road surface groove spacing according to the present invention can be performed by changing the order of the hardening step S30 and the cutting step S40.

When the curing step S30 is performed after the cutting step S40, the anti-skid agent and the soda pigment can be applied to the road surface grooves cut in the cutting step S40 and then hardened, thereby enhancing the anti-slip and discriminating ability .

It will be apparent to those skilled in the art that various modifications, substitutions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are intended to illustrate and not to limit the technical spirit of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings . The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: housing 12: first housing 14: second housing
16: support base 20: driving part 21: driving motor
22: first power transmitting member 23a: driving wheel 23b: supporting frame
24a: auxiliary wheel 24b: auxiliary supporting frame 25: cutting motor
26: second power transmitting member 30: operating portion 32: operating handle
34: Operation button 40: Cutting part 41: Cutting edge
42: cutting wheel 44: rotation support member 46:
46a: rotating shaft member 46b: threaded portion 48: fixed nut
50: spacing member 50a: large diameter cylindrical portion 50b: small diameter cylindrical portion
55: rubber ring 60: pressing portion 62: pressure control member
64: cylinder 66: support member 100: cutting device
200: road surface 205: road surface groove W: space

Claims (9)

A housing
A drive unit mounted on the housing to move the housing and supply power to cut the road surface groove;
An operation unit for controlling driving of the driving unit;
And a cutting unit that receives power from the driving unit and cuts the road surface,
Wherein the cutting portion has a plurality of cutting wheels coupled to a rotating shaft, and a gap holding member is provided between the plurality of cutting wheels so as to adjust an interval between the cutting wheels,
Wherein the gap holding member is hollow and has a large diameter cylindrical portion and the remaining portion is formed of a small diameter cylindrical portion having a smaller outer diameter than the large diameter cylindrical portion and is disposed between at least one cutting wheel Slot grooving device with adjustable groove spacing.
delete delete The method according to claim 1,
Wherein when the plurality of spacing members are disposed between the cutting wheels, the small diameter cylindrical portion of another spacing member is inserted into the hollow of the large diameter cylindrical portion.
The method according to claim 1,
Wherein the gap holding member is provided with an annular rubber ring at a portion in contact with the cutting wheel.
The method according to claim 1,
Further comprising: a cylinder provided to allow the cutting section to apply pressure to the road surface, and a pressing section having a pressure control member for adjusting pressure applied to the support member.
A cleaning step of cleaning and drying the road surface to be worked and arranging the road surface;
An applying step of applying a primer and a frictional force increasing material to the road surface arranged in the rearranging step;
A curing step of applying a non-slip agent and a zeotropic pigment to the road surface to which the primer and the friction increasing agent are applied in the applying step and curing the road surface;
A cutting step of cutting the road surface groove on the road surface by using the road surface groove cutting device capable of adjusting the road surface groove interval according to any one of claims 1 to 6 after hardening the antiskid agent and the zeolite pigment in the hardening step ; ≪ / RTI >
Wherein the cutting step comprises a number setting step of setting the number of cutting wheels according to the number of the designated road surface grooves, a step of installing spacing members to adjust the distance between the road surface grooves according to the number of the designated road surface grooves, And a driving step of driving the cutting device so as to cut the road surface groove by manipulating the pressing force of the pressing portion according to the height of the designated road surface groove. Way.
The method of claim 7,
Wherein the curing step and the cutting step can be performed in a reversed order.
delete

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