JP4218958B2 - Open cutting cutter machine with cylindrical cutter - Google Patents

Description

  The present invention is an excavation used for laying long objects (hereinafter referred to as “pipes, etc.”) such as electric pipes, gas pipes, and optical fiber cables in a shallow layer of a road (referring to all paved roads). Regarding the cutter machine, more specifically, in the pipe laying work in which the excavation groove is formed by excavating the road, and the excavation groove is backfilled after laying the duct in the excavation groove, The present invention relates to an open-cut cutter machine equipped with a cylindrical cutter used for implementing a new open-cut method for laying.

  Conventionally, when laying pipes and the like at a relatively shallow position under a road, an open-cut method that is easy to work and relatively low in construction costs has been used. The excavation method is a method of excavating earth and sand directly from the ground using heavy machinery or the like, laying pipes and the like in the formed excavation groove, and then filling it back.

  However, since most of the excavation methods are performed using roads, traffic obstruction due to lane restrictions is a major problem during construction. Therefore, on high-traffic roads, construction work was restricted only during limited time periods when the traffic volume was relatively low, such as at night. In other words, in such road excavation methods, digging is started by regulating lanes after traffic volume decreases at night, and the formed excavation trenches are temporarily suspended until dawn when traffic volume increases. He had to refill and complete the temporary restoration work to open the road. On the next day, digging was continued again from the previous day and laying work was continued. For this reason, such laying work often involves only a fraction of a day's work compared to laying work without such restrictions, and as a result, the cost required for the work increases dramatically. There was a problem.

In order to solve the problem of traffic obstacles, various non-cutting methods such as shield method and propulsion method have been developed. The non-open-cut method is a method in which an excavator is generally sent from a start shaft, and a pipe or the like is laid by pushing the steel pipe, the fume pipe, etc. connected to the excavator from behind with a hydraulic jack or the like. The non-open-cut method requires only one section of start and reach shafts, so there is less impact on ground traffic compared to the open-cut method, and the noise caused by construction does not reach a wide range. In addition, since the amount of residual soil (paved surface, soil, etc.) that must be treated is small, the load on the environment is small. On the other hand, however, there is a problem that a large space is required for the departure base and the construction cost is high.
Therefore, the non-opening method is usually used for large-scale pipe laying work and pipe laying work deep in the ground, and is rarely used when laying pipes etc. in shallow layers. It was.

As described above, each of the open-cut method and the non-open-cut method has advantages and disadvantages, and various improvements have been made to improve the shortcomings of each method. However, there has been no effect yet.
JP200221098 JP2003-185058

  As described above, when laying a pipe line or the like in a shallow layer, it is still common to employ an open-cut method because of its simplicity. Therefore, in the open-cut method, while maintaining and improving the advantages such as ease of work and low construction cost, (1) traffic obstacles during construction, (2) prolonged construction period, (3) environmental load due to generated soil, ( 4) It is important to solve the problems such as construction noise and respond to the demands of laying work represented by underground cable.

  The present invention has been proposed to solve the above-mentioned problems. By improving the construction efficiency and shortening the construction period, the occurrence period of obstacles to traffic is shortened as much as possible and the construction cost is reduced. An object of the present invention is to provide an open-cut cutter machine equipped with a cylindrical cutter that is used for minimizing the lane restrictions associated with, and further reducing the environmental load.

  In order to achieve the above object, an open cutter machine having the cylindrical cutter according to claim 1 has a predetermined length provided with a cutting tooth (4) at one open end of a cylindrical drum (2). A cylindrical cutter (6) having a cylindrical shape, and a driving body (8) for detachably fixing the other opening end of the cylindrical cutter, the driving body rotating the cylindrical cutter axially The earth and sand (14) including the pavement surface of the road (12) is cut, and the earth and sand are cut into semi-cylindrical earth and sand blocks (14 ') while maintaining the original shape.

  The open-cutting cutter machine provided with the cylindrical cutter according to claim 2 cuts the earth and sand (14) perpendicularly to the traveling direction of the cylindrical cutter (6) to pass the semi-cylindrical earth and sand lump (14 ') to the road. A disc-shaped cutter (16) for separating from the disc is provided.

  The open-cutting cutter machine provided with the cylindrical cutter according to claim 3, wherein the cutting teeth (4) reduce friction between the cylindrical cutter (6) rotating on the shaft and the earth (14) and a lump of earth and sand. In order to maintain the shape of (14 ′), an ejection port (18) for ejecting the lubricant and coagulant is formed.

  The open-cut cutter machine provided with the cylindrical cutter according to claim 4, wherein the cylindrical cutter (6) includes an outer drum (2a) to which cutting teeth (4) are attached and an inner portion located inside the outer drum. It consists of a double cylinder with a drum (2b), and this inner drum slides smoothly with respect to the outer drum which rotates.

  The open-cut cutter machine provided with the cylindrical cutter according to claim 5 is provided with a plate-like pressing plate (24) attached to the urging means (22) inside the cylindrical cutter (6). The pressing plate urges the pavement surface of the earth and sand lump (14 ') downward by the urging means to suppress the rotation of the earth and sand lump in the cylindrical cutter.

  The open-cut cutter machine provided with the cylindrical cutter according to claim 6, wherein the cylindrical cutter (6) has an attachment structure for attaching a lid plate (26) that forms a lid at one or both opening ends. It is characterized by that.

  The open-cut cutter machine provided with the cylindrical cutter according to claim 7, wherein an extension cylinder (32) for extending the length of the cylindrical cutter is attached to and detached from the other opening end of the cylindrical cutter (6). It is connected freely.

  An open-cut cutter machine provided with the cylindrical cutter according to claim 8 is characterized by comprising lifting means (34) for lifting and lowering the cylindrical cutter (6).

The invention according to claim 1 is an open-cut cutter machine provided with a special cylindrical cutter having cutting teeth at the opening end. This excavation cutter machine rotates the cylindrical cutter axially with a driving body and pushes the cutter machine in the axial direction to propel the sand and sand including the paved surface while maintaining its shape. Form a drilling groove on the road.
As described above, according to the excavation cutter machine of the present invention, the road sediment can be efficiently pierced while maintaining its shape as a semi-cylindrical sediment mass, and the sediment mass can be used as it is for backfilling. So that the road can be restored very efficiently.
That is, according to the excavation cutter machine of the present invention, it is possible to perform excavation and backfilling work with a small number of people in a short time, and as a result, the efficiency of laying work is improved, the traffic trouble is reduced by shortening the construction period, the construction period is shortened, and the personnel is reduced. Reduction of construction cost, reduction of environmental load by reuse of earth and sand, reduction of noise during backfilling, etc. can be achieved.
In addition, laying pipes, etc., further forms a small groove of a size necessary for burying the pipe line etc. at the bottom of the formed excavation groove, and after laying the pipe line etc. here, only the small groove is backfilled and excavated. After adjusting the shape of the groove to the shape at the time of cutting, it is performed by returning the hollow semi-cylindrical earth and sand lump as it is to the original position.
Further, the open cutter machine of the present invention cuts the road by rotating the cylindrical cutter with the engine or motor as power, but this cutter machine can be made smaller than a heavy machine vehicle. Less space is required for work, and traffic obstructions due to lane restrictions can be minimized.
As described above, if the open cutter machine equipped with the cylindrical cutter of the present invention is used, it is represented by the progress of undergrounding of the electric wire in the future while improving the problems such as the deterioration of traffic conditions of the laying work by the conventional open cutting method. It is possible to satisfy the growing need for underground structures.

The invention according to claim 2 is provided with a disk type cutter for cutting earth and sand cut in the axial direction (extension direction of the excavation groove) by a cylindrical cutter in the direction perpendicular to the axial direction. This disk-type cutter cuts the tip of the earth and sand lump cut by the cylindrical cutter, and separates the semi-columnar earth and sand lump from the road. As a result, it is possible to take out the litter and sand in a state where the lump is enclosed in the cylindrical cutter.
In addition, although cutting of earth and sand with a disk type cutter can also be performed using a conventional disk type cutter machine, by attaching a cylindrical cutter and a disk type cutter to one cutter machine, the required equipment can be Can be reduced.

  According to the invention described in claim 3, by providing the nozzle for cutting out the lubricant / coagulant on the cutting teeth of the cylindrical cutter, while supplying the lubricant / coagulant evenly to the cutting teeth and earth and sand, Cutting can be performed. Note that the lubricant / coagulant supplied from the jet port is for reducing friction between the cutting teeth and the earth and sand, enabling smooth cutting, and maintaining the shape more firmly than the shape of the earth and sand lump. As a result, it can be cut out as a semi-cylindrical lump without almost destroying the litter, and after digging grooves on the road and laying pipes, etc., the hollowed-out lump is very easy as it is. It can be used for backfilling.

  According to invention of Claim 4, since the cylindrical cutter consists of the double cylinder of an outer drum and an inner drum, the earth and sand lump which cut through the earth and sand with the outer drum to which cutting teeth were attached, and was penetrated Is supported by an outer drum that rotates and an inner drum that slides smoothly, so that it is possible to effectively prevent the cut earth and sand lump from causing landslide in the cylindrical cutter.

  According to the fifth aspect of the present invention, the earth and sand lump in the cylindrical cutter is urged downward and pressed by the pressing plate so that the earth and sand lump can be removed without being affected by the rotation of the cylinder cutter. It can hold | maintain at the bottom part inside, and it can prevent effectively that a sediment lump causes a landslide in a cylindrical cutter.

  According to the invention described in claim 6, since the cover plate can be attached to the opening end of the cylindrical cutter, the sand lump is also moved when the cylindrical cutter containing the sand lump separated from the road is moved. Can be prevented from collapsing.

  According to the seventh aspect of the present invention, the length of the cylindrical cutter can be appropriately extended, so that the cutting efficiency can be improved. Note that by selecting an appropriate length of the cylindrical cutter, the starting hole in the first stage of excavation can be made small, and the efficiency of excavation work can be improved.

  According to the invention described in claim 8, since the open-cut cutter machine includes the lifting means for lifting and lowering the cylindrical cutter, the cylindrical cutter can be easily replaced. That is, in the excavation work by the open cutting cutter machine of the present invention, the excavation groove is extended by sequentially replacing the cylindrical cutter containing the earth and sand lump with a new cylindrical cutter. By providing the lifting / lowering means, the replacement can be facilitated.

  The present invention is a kind of cutter machine used for excavation work in which a long object such as a conduit of a wire, a gas pipe, or an optical fiber cable is laid in a relatively shallow position under a paved road. For example, a power transmission cable having an extra high voltage or less is laid in a relatively shallow ground having a depth of 60 cm, so that excavation work can be performed using the cutter machine of the present invention.

  As shown in FIG. 1, the road 12 is composed of a surface layer (paved surface) 11 such as asphalt or concrete, and a roadbed 13 such as crushed stone or earth and sand, and a pipe 15 or the like is embedded in the roadbed 13. In order to protect the pipe line 15 or the like, a sandy soil 17 having a small particle diameter is arranged around it. In addition, since the earth and sand 14 used as the foundation of the paved road is prepared, rocks and the like that are difficult to cut are removed from the shallow strata in advance.

Hereinafter, a preferred embodiment of an open-cut cutter machine provided with a cylindrical cutter of the present invention will be described with reference to the drawings.
2A and 2B are views showing an entire image of the open cutter machine 10 of the present embodiment, where FIG. 2A is a side view and FIG. 2B is a plan view. FIG. 3 is a view showing a cylindrical cutter used in the open cutter machine of the present invention.

  The cutting cutter machine 10 of the present invention shown in FIG. 2 includes a cutter machine body 21 that generates power, and a cutter unit that includes a cutter that performs cutting of the road 12 and the like. The cutter machine main body 21 has an engine (not shown) inside a rectangular parallelepiped housing, and two-to-four tires 25 for easily moving the open cutter machine 10 are attached to both sides of the bottom part. It has been. The tires 25 are opposed to each other at a constant interval, and the open cutter machine 10 can be moved back and forth across the excavated trench. The engine of the cylindrical cutter body 21 is a power source for generating hydraulic pressure.

  The cutter unit mainly includes a base 29, a cutter support unit 30, a driving body 8, a cylindrical cutter 6, and a disk cutter 16.

The cylindrical cutter 6 shown in FIG. 3 is a double cylinder composed of an outer drum 2a having a length of 80 cm, a radius of 60 cm, and a thickness of about 1 cm, and an inner drum 2b made of a thin plate with substantially the same radius. The outer drum 2a and the inner drum 2b can slide smoothly with each other. A cutting tooth 4 protruding in the axial direction is provided at one open end 1a of the outer drum 2a. This cutting tooth 4 is provided with a spout 18 for injecting a lubricant and coagulant such as a concrete mill supplied from the cutter machine main body 21 into the earth and sand 14 to be cut in the vicinity of its tip. The lubricant and coagulant is supplied from the cutter machine body 21 through the through hole 35 (only one is shown in the figure) passing through the thickness of the outer drum 2 a and guided to the jet port 18. This lubricant / coagulant reduces friction between earth and sand and cutting teeth and enables smooth cutting and maintains the shape of the earth and sand lump more firmly.
In addition, an insertion hole 23 that is an attachment structure for attaching a lid plate 26 that is inserted from the radial direction of the cylindrical cutter and closes the opening end 1a is formed on the entire circumference in the vicinity of one opening end 1a of the cylindrical cutter. ing. Further, the inner drum 2b of the cylindrical cutter is provided with a pressing plate 24 for suppressing the earth and sand lump 14 'cut and accommodated in the cylindrical drum 6 from above. The push plate 24 is attached to the urging means 22, and the tip on the opening end side forms a curved surface so as not to disturb the earth and sand lump when entering the cylindrical drum 6.

  Although a detailed drawing is omitted, the disk type cutter 16 is a metal cutter in which cutting teeth are formed on the outer periphery of a circular disk having a radius of about 60 cm and a thickness of about 1 cm, and has been conventionally used for cutting a road surface. It is the same as a disk type cutter. As with the cylindrical cutter 6, the disk cutter 16 is rotated by hydraulic pressure to cut the road.

  The base 29 is supported by four support rods 33 protruding from the front surface of the cutter machine body.

The cutter support portion 30 is attached to a base 29, and is a stretchable horizontal member 31 extending in the excavation groove forming direction (X direction), and a support member (first support member 37a, first member) extending in the vertical direction (Z direction). And a driving body 8 that is rotated by hydraulic pressure is attached to the first supporting body 37a.
The driving body 8 engages the other opening end 1b (opening end opposite to the opening end provided with the cutting teeth) of the outer drum 2a, and the cylindrical cutter 6 has its central axis in the direction of the excavation groove (X Direction).
The second support body 37b includes a propulsion guide 39 that supports the outer drum 2a and the inner drum 2b so as to avoid the cutting teeth 4 and rotatably support the upper end of the opening end 1a, and an auxiliary wheel 41 is attached to the lower end thereof. It has been.
The first support 37a is attached to the base 29, and can be moved up and down by the lifting means 34 with respect to the base 29 by hydraulic pressure. That is, the cylindrical cutter 6 attached to the driving body 8 of the cutter support portion 30 can be lifted and lowered integrally with the cutter support portion 30 by the lifting and lowering means 34, and about half of it is below the road surface when cutting the road, When it is done, the whole is positioned higher than the road surface.
Here, the auxiliary wheel 41 of the second support body 37b is always in contact with the paved surface of the road 12 regardless of whether the cylindrical cutter 6 is raised or lowered, and the propulsion guide 39 supports the opening end 1a of the cylindrical cutter, thereby driving the driving body. The cylindrical cutter 6 attached to 8 is prevented from being overhanged.
In addition, a disk-type cutter 16 that cuts the road 12 in a direction perpendicular to the formation direction of the excavation groove (Y direction) is attached to the second support 37b. The disk-type cutter 16 is attached to a hydraulically driven rotary lift mechanism 43 that rotates the disk-type cutter and moves it up and down with respect to the second support 37b.

  The cylindrical cutter 6 is attached to the drive body 8 in such a manner that the cylindrical cutter is laterally oriented with its axial direction as the X direction, and the disk-shaped cutter has its radial direction perpendicular to the axial direction of the cylindrical cutter. It is attached to the second support 37b.

  In addition, in order to extend the length of the cylindrical cutter 6 to the other opening end 1b of the cylindrical cutter 6, an extension cylinder 32 attached between the driving body 8 and the cylindrical cutter 6 (see FIG. 6). Can be attached. Both open ends of the extension cylinder 32 have the same structure as the attachment structure of the drive body 8 and the cylindrical cutter 6. The extension cylinder 32 is attached after the horizontal member 31 of the cutter support 30 is extended.

  Next, the process of the excavation work using the cutter machine provided with the above-mentioned cylindrical cutter will be described with reference to the drawings. 4 to 8 are image diagrams showing the work procedure of the excavation work from the side.

[Cutter arrangement process (FIG. 4)]
This step is a step of arranging the cylindrical cutter 6 attached to the driving body 8 of the cutter machine 10 in the starting hole 45 formed for installing the cylindrical cutter 6 at the starting position.
First, in order to install the cylindrical cutter 6, a hole (starting hole) having a length of about 100 cm, a width of about 120 cm, and a depth of about 60 cm is formed on the road, and the cutter machine 10 is advanced on this. After that, the cylindrical cutter 6 is installed by the elevating means 34 so that its axial direction is horizontal with the road surface, and almost half of it is below the pavement surface. In general, the cylindrical cutter 6 is arranged so that half of the cylindrical cutter 6 is below the pavement surface, but the depth may be a depth shallower than the radial length. However, it is not desirable that more than half of it comes under the pavement surface.

[Cutting process (FIG. 5)]
This step is a step of cutting the road with the cylindrical cutter 6 and the disk cutter 16.
The cylindrical cutter 6 attached to the cutter machine 10 is rotated by the driving body 8 and the cutter machine 10 is pushed out in the axial direction so that the cutting teeth 4 cut through the earth and sand 14 including the pavement surface 11. To do. Cutting is performed to a length substantially the same as the length of the cylindrical cutter 6, and the cut soil lump 14 'is accommodated in the lower half of the space inside the cylindrical cutter. That is, the earth and sand lump is cut without changing its position and shape even when the cylindrical cutter 6 rotates while in contact with the inner peripheral surface of the cylindrical cutter 6.
The earth and sand cutting is performed while reducing friction between the earth and sand and the cylindrical cutter 6 and supplying a lubricant / coagulant, for example, cement milk, for maintaining the shape of the earth and sand lump from the ejection port 18 of the cutting teeth 4. .
At this time, the outer drum 2a and the inner drum 2b can slide smoothly, and cutting is performed in a state where the earth and sand lump is pressed from above by the pressing plate 23 attached to the biasing means 22. The earth and sand lump accommodated in the cylindrical cutter hardly collapses.
After the cylindrical cutter 6 completes the cutting of the length substantially the same as the length of the cylindrical cutter 6, the cutter machine 10 is pulled back slightly, and the tip of the earth and sand lump 14 ′ is attached to the rotary lift mechanism 43. The earth and sand 14 including the pavement surface 11 is cut by the cutter 16 perpendicular to the traveling direction of the cylindrical cutter 6, and the semi-cylindrical earth and sand lump 14 ′ is separated from the road 13. Thereafter, the cylindrical cutter 6 is pushed out again, and the earth and sand lump 14 ′ separated from the road is completely enclosed in the cylindrical cutter 6. The first step of cutting earth and sand including the paved surface is completed by the above operation.
The earth and sand can be cut with the disk cutter before the cutting with the cylindrical cutter 6. In this case, a plurality of parallel cuts are made in the road in which the excavation groove 27 is formed in advance at substantially the same interval as the length of the cylindrical cutter.

[Extension process (Fig. 6)]
This step is a step of continuing the cutting by the cylindrical cutter 6 and extending the excavation groove 27 step by step.
First, the cylindrical cutter 6 that encloses the earth and sand lump separated from the road in the cutting process is lifted by the lifting means 34 and then removed from the driving body 8 (see FIG. 4). The cylindrical cutter 6 enclosing the removed earth and sand lump moves to the side of the formed excavation groove 27 and is placed on the road surface. Subsequently, the cylindrical cutter 6 is replaced with a new cylindrical cutter, and the excavation groove 27 is extended by repeating the cutter placement step, the cutting step, and the movement / exchange of the cylindrical cutter 6 described above.
Here, when taking out the cylindrical cutter 6 including the earth and sand lump 14 ′, it is preferable to close the opening end 1 a with the cover plate 26 in order to prevent the earth and sand lump from collapsing. The lid plate 26 is attached by inserting the lid plate 26 from above in the radial direction of the cylindrical cutter and engaging a projection of the lid plate (not shown) with the insertion hole 23 of the cylindrical cutter.
As shown in the drawing, the extension cylinder 32 can be appropriately attached between the cylindrical cutter 6 and the driving body 8 for cutting. By attaching the extension cylinder 32, the entire length of the cylindrical cutter is extended to perform cutting, and when the lower half is filled with a lump of earth and sand, it is replaced with a new cylindrical cutter and cutting is continued. The work efficiency of extension can also be improved.

[Laying process (Fig. 7)]
This step is a step of forming a small groove having a size necessary for installing the pipe line 15 or the like at the bottom of the excavation groove 27 and installing the pipe line or the like there.
At the stage where the excavation groove 27 is extended to some extent in the extension process, a small groove 47 necessary for installing the pipe line 15 or the like at the bottom of the excavation groove is formed by manual digging. After installing the pipe line 15 or the like in the formed small groove 47, only the small groove is backfilled using sandy soil having a small particle diameter. This backfilling is performed so that the excavation groove formed in the cutting process has almost the original shape.

[Backfill process (Figure 8)]
This step is a step of restoring the road 12 by installing the pipes and the like in the ground, and then returning the earth and sand lump 14 ′ punched in the cutting step to the original position.
In this step, first, a filler having the thickness of the cutting teeth 4, that is, the thickness of the earth and sand scraped by the cutting teeth 4 is disposed between the excavation groove and the earth and sand lump that has been cut through, and It is preferable that the paved surface and the paved surface of the road be flush with each other.
Therefore, first, earth and sand or ready-mixed concrete is arranged on the surface of the excavation groove at an appropriate interval, and then a jack or the like is used so that the earth and sand lump 14 'which has been punched through the groove is approximately at the original position. Then, the cylindrical cutter 6 containing the earth and sand lump that has been placed on the road surface on the side of the excavation groove is moved.
Thereafter, only the earth and sand lump 14 'in the cylindrical cutter 6 is energized and the cylindrical cutter 6 is pulled out to return the earth and sand lump to its original position. After this operation is performed for all the cylindrical cutters 6, the starting holes 45 are backfilled by a conventional procedure. Finally, pressure is applied to the earth and sand lump that has been returned to its original position to stabilize it, and a notch made in the road 12 by the disk cutter 16, that is, a filler such as pitch in the space where the refilled earth and sand lump is adjacent. I will repair it using Further, even when a slight gap or a step is generated between the pavement surface of the backfilled earth and sand lump 14 'and the pavement surface of the road, this is repaired using a pitch or the like. In this way, the laying work such as the pipeline is completed.

  The excavation cutter machine provided with the cylindrical cutter of the present invention is a shape of earth and sand using a cylindrical cutter when laying a conduit of a wire, a gas pipe, an optical fiber cable, etc. in a relatively shallow position under a paved road. As long as the excavation groove is formed by piercing the road from the ground while maintaining the above, it is of course possible to make various changes without departing from the scope of the present invention. .

As described above, the excavation cutter machine equipped with the cylindrical cutter of the present invention enables labor saving in excavation and backfilling processes, and enables excavation and backfilling work in a short time, thereby preventing traffic obstacles. The generation period can be shortened and the construction cost can be reduced. In addition, excavation work using a cylindrical cutter requires less space than conventional excavation work using heavy machinery, and traffic obstacles due to lane restrictions can be minimized. Furthermore, since almost all of the excavated earth and sand is used for backfilling, it is possible to reduce the residual soil generated by the work, thereby reducing the load on the environment. In addition, since the use time of the rock drill and the point pressure machine can be reduced, it is possible to reduce unpleasant striking sound and reduce construction noise.
As described above, if the excavation work is performed using the open cutter machine equipped with the cylindrical cutter of the present invention, problems such as deterioration of traffic conditions of the conventional excavation work are improved, and the progress of undergrounding of electric wires is represented. It will be possible to satisfy the growing need for underground structures.

It is sectional drawing showing composition, such as a paved road and a pipe line. It is a block diagram of the cutting cutter machine of a present Example. It is a perspective view of the cylindrical cutter used for this invention. It is an image figure showing the cutter arrangement process of a present Example. It is an image figure showing the cutting process of a present Example. It is an image figure showing the extension process of a present Example. It is an image figure showing the laying process of a present Example. It is an image figure showing the backfilling process of a present Example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1a One opening end 1b The other opening end 2 Drum 2a Outer drum 2b Inner drum 4 Cutting tooth 6 Cylindrical cutter 8 Driver 10 Cutting cutter 11 Surface layer (paving surface)
DESCRIPTION OF SYMBOLS 12 Road 13 Subbase 14 Earth and sand 14 'Earth and sand lump 15 Pipe line 16 etc. Disc type cutter 17 Sandy soil 18 Jet outlet 21 Cutter body 22 Energizing means 23 Insertion hole 24 Push plate 25 Tire 26 Cover plate 27 Excavation groove 29 Base Table 30 Cutter support portion 31 Horizontal member 32 Extension cylinder 33 Support rod 34 Lifting means 35 Through hole 37a First support 37b Second support 39 Propulsion guide 41 Auxiliary wheel 43 Rotating lift mechanism 45 Starting hole 47 Small groove

Claims (8)

A cylindrical cylindrical cutter (6) having a predetermined length provided with cutting teeth (4) at one open end of the cylindrical drum (2);
A drive body (8) for detachably fixing the other open end of the cylindrical cutter,
The driving body rotates the cylindrical cutter to cut the earth and sand (14) including the pavement surface of the road (12), and maintains the original shape of the earth and sand while maintaining the original shape (14) ') An open-cut cutter machine equipped with a cylindrical cutter, characterized by cutting.   A disc-shaped cutter (16) for cutting the earth and sand (14) perpendicularly to the traveling direction of the cylindrical cutter (6) to separate the semi-cylindrical earth and sand block (14 ') from the road is provided. An open-cut cutter machine comprising the cylindrical cutter according to claim 1.   The cutting teeth (4) are sprayed with a lubricant and coagulant to reduce friction between the axially rotating cylindrical cutter (6) and the earth and sand (14) and to maintain the shape of the earth and sand lump (14 '). The opening cutter (18) is formed, The cutting cutter machine provided with the cylindrical cutter of Claim 1 or 2 characterized by the above-mentioned. The cylindrical cutter (6) comprises a double cylinder of an outer drum (2a) to which cutting teeth (4) are attached and an inner drum (2b) located inside the outer drum,
The open cutter machine provided with the cylindrical cutter according to any one of claims 1 to 3, wherein the inner drum smoothly slides with respect to an outer drum that rotates on a shaft. Inside the cylindrical cutter (6), a plate-like pressing plate (24) attached to the urging means (22) is provided, and the pressing plate is paved of the earth and sand lump (14 ′) by the urging means. The cutting cutter machine provided with the cylindrical cutter according to any one of claims 1 to 4, wherein the surface is biased downward to suppress rotation of the earth and sand lump in the cylindrical cutter. The cylinder according to any one of claims 1 to 5, wherein the cylindrical cutter (6) has an attachment structure for attaching a lid plate (26) which forms a lid at one or both open ends. Open-cut cutter machine equipped with a die cutter. The extension cylinder (32) for extending the length of the cylindrical cutter is detachably connected to the other open end of the cylindrical cutter (6) . A cutting cutter machine comprising the cylindrical cutter according to any one of the above. The cutting cutter machine provided with the cylindrical cutter according to any one of claims 1 to 7 , further comprising lifting means (34) for lifting and lowering the cylindrical cutter (6).

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