KR101262806B1 - The corrugate pipe auto supplying apparatus for installation underground - Google Patents

Abstract

PURPOSE: A corrugate pipe auto supplying apparatus for underground installation is provided to reduce work force by using a mechanical device for automatically supplying a corrugate pipe with constant speed. CONSTITUTION: A first, a second, and a third base plate(1,1a,1b) are separated from each other and are moved. A main post(5) is arranged on the second base plate in a vertical direction. A corrugate pipe supplying part(2) and a corrugate pipe pulling unit(3) are vertically protruded to the main post. The corrugate pipe supplying part includes a rotator(21) rotated by power. The rotator is formed in a rotator supporting part(23) moving up and down along the main post. A first and a second lateral support roller(4,4a) rotatably support a corrugate pipe with.

Description

The corrugate pipe auto supplying apparatus for installation underground}

The present invention relates to a corrugated pipe automatic supply device for underground laying, more specifically, it is possible to automatically supply a corrugated pipe to a work site using a mechanical device at a constant speed to reduce the work force and shorten the work time and ease of work The present invention relates to a corrugated pipe automatic supply device for underground installation, which can prevent damage caused by the transportation of corrugated pipes.

In general, underground laying method of power supply line includes direct sales, pipelines, culverts, mainly pipelines, synthetic corrugated pipes, synthetic pipes, steel pipes, etc., mainly used corrugated pipes. The corrugated pipe is usually shipped in a rolled bundle, and in the field, the bundle band is unwound and lifted by a crane as described in Korean Patent Application Publication No. 10-2012-0036461 (published on April 18, 2012). Several workers or cranes are to be transported and laid while dragging the ends to the ground. Therefore, not only the efficiency of the work is lowered, but also the inconvenience and inconvenience of the work, and the economical deterioration due to the input of a lot of manpower and equipment, damage to the corrugated pipe and the workability deterioration due to the delay of work time .

Accordingly, the present invention has been made to solve the conventional problems as described above, the purpose of which is to supply the corrugated pipe to the work site automatically using a mechanical device at a constant speed to reduce the work force and work time It is to provide a corrugated pipe automatic supply device for underground laying, which can shorten, simplify the work, and prevent damage caused by the transportation of corrugated pipe.

In order to achieve the object of the present invention, a form of the underground pipe corrugated pipe automatic supply apparatus according to the present invention comprises: first, second, and third base plates separated in multiple stages and provided to be movable back and forth; A rotating body rotating by power in a direction perpendicular to the main post provided in a vertical direction on the second base plate protrudes in all directions, and the rotating body is driven up and down along the main post. A corrugated pipe supply portion arranged on the support portion; A corrugated pipe traction unit for pulling the extended corrugated pipe by releasing the bundle band in an inward direction of the rotating body of the corrugated pipe supply unit; And first and second side support rollers rotatably supporting the corrugated pipe that is supplied at a constant speed by the rotation of the rotating body.

In addition, the first, second and third base plates may be connected between the first base plate and the second base plate by a first driving cylinder, and the second base plate and the third base plate may be connected by a second driving cylinder. By connecting between, the first and second drive cylinders are characterized in that the second and third base plate is configured to be moved in the front and rear direction.

In addition, the main post further includes a sub-post having a rotating body support therein, and the sub-post is configured to be movable up and down by a lift drive cylinder provided in a vertical direction on both sides of the main post. The rotating body support portion is coupled to a vertical spiral shaft connected to the electric motor, characterized in that configured to drive up and down inside the sub-post by the forward and reverse rotation of the spiral shaft.

In addition, the corrugated pipe traction unit, the lower support plate one side is arranged on the front side of the rotating body so as to rotatably support the lower portion of the rotating body, the other side is integrally connected and formed on the rotating body support; A feed shaft integrally provided on a bottom surface of the lower support plate in parallel with the lower support plate and rotated forward and backward by a transfer motor; A spiral coupler coupled to the feed shaft and performing a linear reciprocating motion by forward and reverse rotation of the feed shaft; A link member connected to the spiral coupler by a rotational central shaft and the other side connected to a roller driving cylinder in a horizontal direction by a connecting shaft; An end connected to one side of the link member and a towing roller that rotates together; And a roller driving cylinder connected to the other side of the link member to rotate the traction roller and the link member about a rotation center axis.

The rotating body may be formed of a conical wire mesh structure formed by successively forming a first inclined surface that forms a steep slope from the front to the rear side and a second inclined surface that forms a gentle inclination from the rear side to the front side. Is a plurality of upper support rollers protruding in an omnidirectional direction perpendicular to the main post on the upper side, a first rear support roller perpendicular to the main post, and a second inclined to the left and right with respect to the front surface of the main post; It characterized in that it further comprises a back support roller.

As described above, the present invention enables the automatic supply of the corrugated pipe to the work site using a mechanical device at a constant speed, thereby ensuring economic feasibility according to the reduction of the work force and improving the workability according to the shortening of the working time. It is possible to secure the simplicity and safety of the work, and has the effect of preventing damage to the corrugated pipe due to transportation in advance.

1 is a side view showing the overall configuration of the present invention.
2 is a partially enlarged view showing the main portion of the present invention.
Figure 3 is a rear view showing the structure of the main and sub supporter of the present invention.
Figure 4 is a side view showing a base plate structure of the present invention.
5a to 5f sequentially show the operating state of the present invention,
Figure 5a is a side view showing a second, third base plate moving state on the first base plate.
Figure 5b is a side view showing a state in which the corrugated pipe roll is mounted on the third base plate by a crane.
Fig. 5C is a side view showing a state in which the center of the corrugated pipe roll is inserted outside the corrugated pipe supply part by returning the third base plate.
Fig. 5D is a side view showing a state in which the corrugated pipe roll raises the corrugated pipe supply portion to be spaced apart from the third base plate.
Fig. 5E is a side view showing a state in which the corrugated pipe is expanded by loosening the bundle band of the corrugated pipe roll.
Fig. 5F is a side view showing a state in which the expanded corrugated pipe is pushed and positioned inside the rotor of the corrugated pipe supply unit;

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

1 is a side view showing the overall configuration of the present invention, as shown in the present invention, the first, second and third base plates (1) (1a) (1b) is provided, the second base plate (1a) The main post 5 is provided in the vertical direction on the top, and the corrugated pipe supply part 2 and the corrugated pipe traction part 3 are provided to protrude in a direction perpendicular to the main post 5, and the corrugated pipe supply part 2 and the corrugated pipe are provided. A pair of first and second side support rollers 4 and 4a are provided on both sides of the pull section 3 vertically.

The first, second and third base plates (1) (1a) and (1b) have a second base plate (1a) on the first base plate (1) in contact with the ground, the second base plate (1a) 3 Base plate (1b) is formed separately formed in a multi-stage position. The first base plate 1 and the second base plate 1a are connected by the first drive cylinder 1c, and the second base plate 1a and the third base plate 1b are the second drive cylinder 1d. The first, second and third base plates (1) (1a) and (1b) are naturally supported to be moved back and forth by a rolling contact device such as a roller (not shown).

The corrugated pipe supply part 2 is formed such that the rotating body 21 which rotates by power in a direction perpendicular to the main post 5 provided in the vertical direction on the second base plate 1a protrudes in all directions. The whole 21 is rotatably arranged in the rotor support 23 which is driven up and down along the main post 5, and chains power from the rotor motor 24 provided above the rotor support 23. Received by the rotation (27), the drive motor 22 and the driven sprocket 25 and the driven sprocket 26 is installed on the drive shaft 22 of the rotary motor 24 and the rotating body 21 for the chain transmission.

The main post 5 is formed in a columnar shape using a plurality of frames. The main post 5 includes a sub post 51 having a rotor support 23 therein, and the rotor support 23 is connected to the electric motor 53. Coupled to the vertical spiral shaft 54 and configured to drive up and down inside the sub-post 51 by the forward and reverse rotation of the spiral shaft 54, the sub-post 51 and the rotating body support 23 is moved up and down It further comprises a plurality of traveling rollers 55 to be made smoothly.

In addition, the main post 5 has a plurality of upper support rollers 56 formed on the upper side so as to protrude in a forward direction perpendicular to the main post 5, and a first rear surface perpendicular to the main post 5. The support roller 57 and the second back support roller 57a inclined left and right with respect to the front surface of the main post 5 are provided.

As shown in FIG. 2, one side of the corrugated pipe traction part 3 is rotatably supported on the front side of the rotating body 21 so that the lower part of the rotating body 21 can be rotatably supported, and the other side of the rotating body supporting part 23. ) Is provided with a lower support plate 31 integrally connected and formed.

In addition, the lower surface of the lower support plate 31 is provided with a feed shaft 33 in parallel with the lower support plate 31, the feed shaft 33 is a feed motor formed integrally on the lower surface of the lower support plate 31 ( In addition to being coupled to 32, the helix coupler 34 is coupled so that the helix coupler 34 is linearly reciprocated by the forward and reverse rotation of the feed shaft 33.

Then, one side of the link member 35 is connected to the spiral coupling hole 34 by the central axis of rotation 35a, and the roller driving cylinder 37 parallel to the lower support plate 31 on the other side of the link member 35. Is connected to the cylinder rod 37a of the tow roller 36 is integrally connected to the link member 35 on the rotation center shaft 35a by the advance of the cylinder rod 37a is configured to move up and down in the vertical direction.

The rotating body 21 is steeply inclined from the front of the rotating body 21 to the rear side so that a corrugated pipe (not shown) located in front of the rotating body 21 can move more easily inside the rotating body 21. The first inclined surface 21a is formed, and the second inclined surface 21b forms a gentle inclination from the rear side to the front side of the rotating body 21 and is formed in succession to the first inclined surface 21a. 21a) and the second inclined surface 21b moves toward the central portion of the rotating body 21, and as the rotating body 21 is formed in a conical wire mesh structure, the corrugated pipe can be rotated with frictional force.

3 is a rear view illustrating the structure of the main and sub supporters of the present invention, and as shown therein, the main post 5 further includes a sub post 51 having a rotor support 23 therein. A pair of lifting drive cylinders 42 are provided on both sides of the main post 5 in the vertical direction, and the cylinder rods 42a of the lifting drive cylinders 42 are supported on the support 51a on both sides of the subpost 51. It is connected and it is comprised so that the subpost 51 may drive up and down by forward and backward of the cylinder rod 42a.

In addition, the rotor support 23 inside the sub post 51 is helically coupled to the spiral shaft 54 provided in the vertical direction inside the sub post 51 so that the rotation of the spiral shaft 54 by the electric motor 53 is performed. It is configured to move up and down by forward and reverse rotation. This configuration is for moving the rotary body 21 and the corrugated pipe traction part 3 which are built up in the rotary body support part 23 up and down, and are rotated by the both side elevating drive cylinders 42 of the main post 5. 21) and the up and down large height adjustment of the corrugated pipe traction part 3 is made, and the height of the rotor 21 and the corrugated pipe traction part 3 is made small by the spiral shaft 54 of the sub-post 51. To lose.

4 is a side view showing the structure of the base plate of the present invention. As described above, the first, second and third base plates 1, 1a and 1b of the present invention are driven by the first drive cylinder 1c. The connection between the first base plate 1 and the second base plate 1a is connected between the second base plate 1a and the third base plate 1b by the second driving cylinder 1d. The second and third base plates 1a and 1b may be sequentially moved in the front and rear directions by the first and second driving cylinders 1c and 1d.

Next will be described in detail with reference to the accompanying drawings the operating state of the present invention configured as described above. At this time, the corrugated pipe supply unit 2, the corrugated pipe traction unit 3, the first, second, third base plate (1) (1a) (1b) will be omitted for the description of the specific operation relationship to avoid duplication.

First, the present invention sequentially advances the second base plate 1a and the third base plate 1b on the first base plate 1 as shown in FIG. 5A. Then, after placing the corrugated pipe roll 100 on the third base plate 1b by using the crane 120, the corrugated pipe so that the rotor 21 of the corrugated pipe supply unit 2 coincides with the center of the corrugated pipe roll 100. The supply part 2 is lowered.

Then, when the third base plate 1b is reversed again, as shown in FIG. 5C, the center portion of the corrugated pipe roll 100 is inserted outside the rotating body 21 of the corrugated pipe supply part 2, and the corrugated pipe supply part 2 is provided. As the rotor 21 rises, the corrugated pipe roll 100 inserted outside the rotor 21 is spaced apart from the third base plate 1b as shown in FIG. 5D.

In this state, when the bundle band of the corrugated pipe roll 100 is released, as shown in FIG. 5E, the corrugated pipe 110 wound on the corrugated pipe roll 100 is expanded, and the corrugated pipe 110 is connected to the third base plate 1b. The rotary body 21 of the corrugated pipe supply part 2 is raised again so as not to touch the bottom surface of the back plate.

Next, as shown in FIG. 5F, the puller roller 36 of the corrugated pipe traction part 3 is erected in a vertical direction, and the extended corrugated pipe 110 is pulled in the inward direction of the rotor 21 to rotate the rotor 21. The corrugated pipe 110 is fixed on the upper surface, and the extended corrugated pipe 110 on the rotating body 21 has the upper support roller 56 and the first and second side support rollers 4 (4a) and the first and second. It is rotatably supported by the back support rollers 57 and 57a.

After drawing the end of the corrugated pipe 110 between the first and second side support rollers 4 and 4a, the corrugated pipe 110 is operated at a constant rotational speed by rotating the rotor 21 of the corrugated pipe supply unit 2. It will be available to the site. Then, in the state where the corrugated pipe 110 is supplied through the first and second side support rollers 4 and 4a by the rotation of the rotating body 21, the third base plate 1b is advanced again. It is repeated to wait for the next corrugated pipe roll 100 to be settled.

As described above, the present invention can automatically supply the corrugated pipe to the work site using a mechanical device at a constant speed, thereby reducing workforce, reducing work time, and simplifying work, and preventing damage due to the transport of the corrugated pipe. Will be.

In the above, the automatic supply apparatus of the corrugated pipe for underground installation according to the present invention has been described in detail, but this is only for describing the most preferred embodiment of the present invention, and the present invention is not limited thereto. The range is determined and defined. It will be apparent to those skilled in the art that various changes and modifications can be made by those skilled in the art without departing from the scope of the present invention.

1,1a1b: 1st, 2nd, 3rd base plate 1c, 1d: 1st, 2nd driving cylinder
2: corrugated pipe supply
21: rotating body 21a, 21b: first, second slope
22: drive shaft 23: rotating body support
24: rotating motor 25: prime sprocket
26: driven sprocket 27: chain
3: corrugated pipe traction
31: lower support plate 32: feed motor
33: feed shaft 34: helical coupling
35: link member 35a: center of rotation axis
35b: Connecting shaft 36: Towing roller
37: roller drive cylinder 37a: cylinder rod
4,4a: 1st, 2nd side support roller
5: main post
51: subpost 51a: support
52: lifting drive cylinder 52a: cylinder rod
53: electric motor 54: spiral shaft
55: running roller 56: upper support roller
57, 57a: 1st, 2nd back support roller 100: Corrugated pipe roll

Claims (6)

First, second and third base plates (1) (1a) (1b) separated in multiple stages and provided to be movable back and forth;
A rotating body 21 rotating by power in a direction perpendicular to the main post 5 provided in the vertical direction on the second base plate 1a is formed to protrude in all directions, and the rotating body 21 The corrugated pipe supply part 2 arranged in the rotating body support part 23 which is driven up and down along the main post 5;
A corrugated pipe traction part 3 which pulls the corrugated pipe 110 extended by releasing a bundle band in an inner direction of the rotating body 21 of the corrugated pipe supplying part 2;
First and second side support rollers (4) (4a) rotatably supporting the corrugated pipe (110) to be released at a constant speed by the rotation of the rotating body (21); Auto Feeder.
The method of claim 1,
The first, second and third base plates 1, 1a and 1b are connected between the first base plate 1 and the second base plate 1a by a first driving cylinder 1c. The second base plate 1a and the third base plate 1b are connected by the second drive cylinder 1d, and the second and third bases are formed by the first and second drive cylinders 1c and 1d. Corrugated pipe automatic supply device for underground installation, characterized in that the plate (1a) (1b) is configured to be moved in the front and rear directions. The method of claim 1,
The main post 5 further includes a sub post 51 having a rotating body support 23 therein, and the sub post 51 is provided in a vertical direction on both sides of the main post 5. It is configured to be movable up and down by the drive cylinder 42, the rotor support 23 is coupled to the vertical spiral shaft 54 connected to the electric motor 53 to the forward and reverse rotation of the spiral shaft 54 And a corrugated pipe automatic supplying device for underground installation, characterized in that it is configured to drive up and down inside the sub-post 51.
The method of claim 1,
The corrugated pipe traction part 3, one side is arranged on the front side of the rotating body 21 so as to support the lower portion of the rotating body 21 rotatably, the other side is integrally connected to the rotating body support 23 And a lower support plate 31 formed thereon;
A feed shaft 33 integrally provided on a bottom surface of the lower support plate 31 in parallel with the lower support plate 31 and rotated forward and backward by the transfer motor 32;
A helical coupler (34) coupled to the feed shaft (33) for linear reciprocating motion by forward and reverse rotation of the feed shaft (33);
A link member 35 connected to the helical coupler 34 with one side connected to the center of rotation shaft 35a and the other side connected to the roller driving cylinder 37 in a horizontal direction by the connecting shaft 35b;
An end is connected to one side of the link member 35 and the towing roller rotates together to rotate together;
A roller drive cylinder 37 connected to the other side of the link member 35 to rotate the traction roller 36 and the link member 35 about the rotation center axis 35a; Corrugated pipe auto feeder.
The method of claim 1,
The rotating body 21 has a conical wire mesh structure formed by successively forming a first inclined surface 21a which forms a steep slope from the front to the rear side and a second inclined surface 21b which forms a gentle inclination from the rear side to the front side. Corrugated pipe automatic feeding device for underground installation.
The method of claim 1,
The main post 5 includes a plurality of upper support rollers 56 formed on the upper side so as to protrude in a forward direction perpendicular to the main post 5, and a first rear support perpendicular to the main post 5. And a second back support roller (57a) inclined left and right with respect to the front surface of the main post (5).

Images