KR102276465B1 - Multilayer unwinding device for synthetic resin wave tube - Google Patents

Abstract

The present invention relates to a multi-row unwinding device for a synthetic resin corrugated pipe, and more particularly, to a base frame having a lift installation space in the longitudinal direction from the center of the bottom plate, and a pair of pillars installed on both sides of the upper surface of the bottom plate; a pair of cylinders for adjusting the distance between the drums, each having a shape installed on the upper surface of the column of the base frame, and adjusting the distance between the wheels; An open drum having a corrugated pipe support protrusion provided in the inner center of the left and right wheels in opposite directions, and a plurality of corrugated pipe drop prevention wings are installed rotatably through a hinge shaft on the front surface of the corrugated pipe support protrusion; The lower end of the body is each supported on the rear surface of the corrugated tube support protrusion of the wheel through a hinge shaft, and the free end of each rod is respectively axially supported on the rear surface of the extension of the corrugated tube drop prevention wing protruding to the outside of the hinge shaft. A plurality of anti-fall wing driving cylinders that allow the anti-falling wings to be unfolded within a predetermined angular range or folded toward the corrugated tube support protrusion; A corrugated pipe support plate disposed in the longitudinal direction at the upper center of the bottom plate, an "X"-shaped link for elevating or lowering the corrugated pipe support plate in response to the operating direction of the lifting cylinder, and a state installed on one side of the bottom plate of the bottom plate a lift for raising and lowering a corrugated tube operated in response to an output signal from a control panel and comprising a lifting cylinder that generates power required to elevate and lower the corrugated tubes mounted on the upper portion of the corrugated tube support plate; It is characterized in that it is composed of; a control panel having a form installed on one side of the column of the base frame and performing overall control functions of the device including driving each cylinder in response to a switch operation of an operator.
Therefore, when a roll-shaped corrugated pipe is to be installed in a digging groove, it is possible to install multiple (at least two) corrugated pipes more quickly, simply and accurately regardless of the diameter of the roll.

Description

Multilayer unwinding device for synthetic resin wave tube}

The present invention relates to a multi-row unwinding device for a synthetic resin corrugated pipe, and more particularly, when a roll-shaped corrugated pipe molded from synthetic resin is installed in a digging groove to install a power cable or electric wire, the multi-row (at least two) of It relates to a multi-row unwinding device for a synthetic resin corrugated pipe, which was invented so that the corrugated pipe can be installed quickly, simply and accurately regardless of the diameter of the roll.

In general, transmission and distribution lines for urban power supply are divided into overhead lines installed above ground and underground lines buried underground.

In the case of overhead lines, maintenance is convenient because the poles and cables are exposed outside, but they not only spoil the aesthetics of the city, but also have a problem of being vulnerable to natural disasters such as lightning strikes, typhoons, and heavy snow.

Accordingly, in new development complexes such as new towns, underground tracks are being installed as a way to fundamentally solve the urban environment beautification and traffic congestion and inconvenience of citizens due to overlapping excavation.

Among these underground line construction methods, a pipeline type construction method is used, which is relatively easy to expand and dismantle, repair and inspect, and has a relatively low risk of traumatic accidents.

In the pipeline construction method, a synthetic resin corrugated pipe (hereinafter referred to as "corrugated pipe") is buried in the ground to form an underground line for transmission and distribution lines.

At this time, the corrugated pipe is manufactured in the form of a corrugated pipe with a diameter of 100 to 200 mm. This corrugated pipe is free from bending deformation in the longitudinal direction, so it is easy to install according to the topography of the construction site, and it has the advantage of excellent structural strength against external pressure. .

The construction process of the underground line using the above-described corrugated pipe will be described as follows.

First, the corrugated pipe is temporarily stored at every predetermined distance along the construction section where the excavation work is completed.

At this time, the length of the corrugated tube may be formed in various ways, and is usually wound in a roll state having a length and diameter of a certain unit, and is transported and stored.

Therefore, the distance between the yards in which the corrugated pipes are temporarily stored is adjusted to the length of the corrugated pipes. In this case, when the underground line is formed in multiple layers (11 to 6 pieces), a plurality of corrugated pipes (11 to 6 pieces) are stacked at the same time. .

When the temporary piling operation of the corrugated pipe as described above is completed, the corrugated pipe wound in a roll state is unwound in a straight line and constructed in the buried part excavated to a predetermined depth from the ground.

At this time, when the corrugated tube that has been wound and stored in a roll state for a long time is unrolled and unfolded, the corrugated tube is bent in the direction in which it was wound instead of being unfolded in a straight line due to bending deformation.

As described above, since it is impossible to construct the corrugated pipe in a bent state, a separate operation is performed to straighten the corrugated pipe. In general, 3 to 5 workers are mobilized to spread the corrugated pipe using a burner or the like. It is heated and spread by hand.

When the corrugated pipe is spread in a straight line through the above operation, the corrugated pipe is constructed at the excavation site, and then the corrugated pipe is covered with soil and buried.

At this time, by connecting between the corrugated pipe and the corrugated pipe using a separate clamp, continuous extension of the pipe is possible.

However, in the corrugated pipe construction method of the prior art as described above, the following problems occur because the entire working process is performed manually.

First of all, conventionally, the corrugated pipe loaded in the freight vehicle is unloaded using the working manpower. Since the corrugated pipe has a large volume and heavy weight, several working personnel are required for the disembarking operation, and the disembarkation operation is caused by negligence or inexperience of the worker. As a result, the center of the corrugated tube collapsed and overturned, or there was a problem in that the operator was injured.

In addition, in the prior art, before the installation of the synthetic resin corrugated pipe in a circular state, it is necessary to mobilize a large number of working personnel (usually 3 to 5 people) on the ground to spread it one by one. At this time, if the corrugated pipe is bent and deformed, Since the bent part has to be straightened out again after heating using a burner by the operator, not only was manpower wasted, but also the work time was delayed and the construction period was extended.

In particular, in winter, the degree of bending and deformation of the corrugated pipe is severe, and not only the frequency and time of heating operation increase, but also, when the burner heating is not uniform, a specific part of the corrugated pipe is punctured or deformed.

In addition, in the prior art, most of the work of unfolding the corrugated pipe is performed on the ground, and since the worker has to drag the corrugated pipe to the excavation site, the working time is delayed while excessive work force is required, and the corrugated pipe is scratched or damaged on the ground. There was a problem with breakage.

On the other hand, the drum provided in most conventional synthetic resin corrugated pipe unwinding devices is configured to mount only one synthetic resin corrugated pipe wound with a predetermined diameter, so it is necessary to install several corrugated pipes in the dug groove, or to install corrugated pipes with different diameters. In case of installation, select any one of a plurality of corrugated pipes wound in a roll shape, mount it on the drum of the synthetic resin corrugated pipe unwinding device, perform annealing work on the corrugated pipe, and then mount another corrugated pipe on the drum to perform the unwinding operation. The action had to be repeated.

Therefore, when unwinding the corrugated tubes using the conventional synthetic resin corrugated tube unwinding device having a drum capable of mounting only one corrugated tube in this way, it takes a lot of time for the installation and unwinding of the corrugated tubes, causing a lot of inconvenience to citizens. Not only is it inevitable, but it causes civil complaints, and the complicated manual corrugated pipe installation procedure increases labor costs as well as increases the workload of each worker, and the risk of safety accidents is very high, especially in the case of repeated corrugated pipes. There is a problem such as the quality of the corrugated pipe itself is greatly deteriorated due to damage that occurs during mounting and loosening operations.

Domestic Registered Patent Publication No. 10-1436885 (August 27, 2014) Domestic Registered Patent Publication No. 10-0984007 (September 17, 2010) Domestic Registered Patent Publication No. 10-1352128 (January 08, 2014)

The present invention has been devised to solve the various problems of the prior art. In order to install cables or wires, a corrugated pipe molded from synthetic resin is cut to a predetermined length, wound in a roll shape, and then stored and installed. After transporting to a location, when installing in the excavation groove, multiple (at least two) corrugated pipes can be installed quickly, easily and accurately in one open drum regardless of the inner diameter of the roll so that the installation work can be started. By simplifying the installation and loosening of the corrugated pipe, it is possible to reduce the inconvenience of citizens and minimize the cause of civil complaints, and by minimizing the input manpower, the labor cost for installing the corrugated pipe can be reduced to the minimum, and the daily workload can be increased to the maximum In particular, it aims to provide a multi-row unwinding device for synthetic resin corrugated pipes that can minimize the safety accident rate of workers and significantly increase the quality of the installed corrugated pipe itself.

Other detailed objects of the present invention will be clearly grasped and understood by experts or researchers in the art through the detailed contents described below.

The present invention for achieving the above object is provided with a lift installation space in the longitudinal direction from the center of a rectangular enclosure-type floor plate having a predetermined width and thickness, and a pair of columns having a predetermined height on both sides of the upper surface of the floor plate. an installed base frame; It has a form installed on the upper surface of the column of the base frame, operates in response to the output signal of the control panel, and pushes or pulls both wheels of the open drum respectively installed inside the columns in opposite directions by the desired distance by the operator. a pair of cylinders for adjusting the drum spacing for adjusting the spacing between the wheels to have a width corresponding to the width of the corrugated tubes to be mounted; Corrugated pipe support protrusions are provided in the inner center of the left and right wheels having a predetermined diameter in opposite directions, as well as a plurality of corrugated pipe drop prevention wings at a predetermined angle on the front of the corrugated pipe support protrusion. An open drum that has a rear center point to maintain a state in which the corrugated pipes are mounted between the spaces formed between the wheels in a form in which the wheels are installed idly through hydraulic joints provided at the rod ends of the drum spacing adjustment cylinders, respectively; ; In a state in which the lower end of the body is axially supported on the rear surface of the corrugated pipe support protrusion of the wheel through a hinge shaft in a state that is arranged at an angle corresponding to the angle of the corrugated pipe drop prevention wings on the rear surface of the corrugated pipe support protrusion of the wheel, the free end of each rod is the In the form of being supported on the rear surface of the extension of the corrugated pipe drop prevention wing protruding to the outside of the hinge shaft, it is operated in response to the output signal of the control panel, and the corrugated pipe fall prevention wing is unfolded within a predetermined angular range or folded toward the corrugated pipe support protrusion. A plurality of drop prevention wing driving cylinders for generating necessary power; A corrugated pipe support plate having a wider width than the lift installation space formed in the bottom plate of the base frame and disposed in the longitudinal direction at the upper center of the bottom plate, and a lifting cylinder installed between the bottom surface of the corrugated pipe support plate and the bottom plate of the bottom plate The output of the control panel in a state in which the end of the "X"-shaped link and rod, which elevates or lowers the corrugated pipe support plate, is installed on one side of the bottom plate of the bottom plate so that the end of the rod is connected to one side of the "X"-shaped link in response to the operation direction of the a lift for elevating and lowering the corrugated pipe, which is operated in response to a signal and is composed of a lifting cylinder that generates power required to elevate and lower the corrugated pipe mounted on the upper part of the corrugated pipe support plate; A control panel having a manipulation unit having a plurality of switches and having a form installed on one side of the base frame and performing an overall control function of the device including driving each cylinder in response to a switch manipulation by an operator; characterized in that it is composed of do it with

At this time, the corrugated tube support protrusion provided on each wheel of the open drum is formed in the shape of a polygonal horn having a narrow center diameter and gradually increasing in diameter toward the outside, and has different diameters in the space between the wheels of the open drum. After roughly inserting the rolled corrugated pipe, when a pair of drum spacing adjusting cylinders are operated to adjust the spacing between the two wheels of the open drum corresponding to the width of the corrugated pipe to be mounted, the corrugated pipe support stone regardless of the inner diameter of the rolled corrugated pipe It is characterized in that the outer surface of the part is made to be in close contact with the inner surface of the roll-type corrugated tube.

In addition, the cylinders for driving the anti-fall wing, which are respectively axially supported on the rear surface of the corrugated pipe support protrusion of the wheel, are connected to hydraulic joints provided at the rod ends of the cylinders for adjusting the drum spacing through a hydraulic hose, regardless of the rotation of the open drum. It is characterized in that it can receive the hydraulic pressure required for driving.

As described above, according to the multi-row unwinding device for synthetic resin corrugated pipe of the present invention, the corrugated pipe molded from synthetic resin is cut to a predetermined length to install cables or wires, wound in a roll shape, and then stored and installed. After transporting to a location, when installing in the excavation groove, multiple (at least two) corrugated pipes can be installed quickly, easily and accurately in one open drum regardless of the inner diameter of the roll so that the installation work can be started. By simplifying the installation and loosening of the corrugated pipe, it is possible to reduce the inconvenience of citizens and minimize the cause of civil complaints, and by minimizing the input manpower, the labor cost for installing the corrugated pipe can be reduced to the minimum, and the daily workload can be increased to the maximum In particular, it is a very useful invention, such as being able to minimize the incidence of safety accidents for workers and significantly increase the quality of the corrugated pipe itself to be installed.

Other effects of the present invention will be clearly understood and understood by an expert or researcher in the art through the specific details described below, or during the process of carrying out the present invention.

1 is a front view of a multi-row unwinding device for a synthetic resin corrugated pipe to which the present invention is applied.
2 is a front view of a state in which two corrugated tubes having a roll shape are mounted on the apparatus of the present invention;
3 is an enlarged cross-sectional view of part A of FIG. 1 .
Figure 4 is a side view of one side of the wheel of the open bobbin of the device of the present invention.
5 is an enlarged cross-sectional view of a portion B of FIG. 1 .

Since the present invention can have various changes and can have various forms, specific embodiments are illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to the specific disclosed form, it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

Terms such as first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component.

The terminology used in the present application is only used to describe specific embodiments, and is not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification is present, and includes one or more other features or It should be understood that the existence or addition of numbers, steps, operations, components, parts, or combinations thereof does not preclude the possibility of addition.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. does not

With reference to the drawings below, preferred embodiments of the present invention will be described in more detail.

1 is a front view of a multi-row unwinding device for a synthetic resin corrugated pipe to which the present invention is applied, and FIG. 2 is a front view of a state in which two corrugated pipes having a roll shape are mounted on the device of the present invention.

3 is an enlarged cross-sectional view of part A in FIG. 1 , FIG. 4 is a side view of one wheel of an open bobbin of the present invention, and FIG. 5 is an enlarged cross-sectional view of part B in FIG. 1 .

According to this, the present invention

A lift installation space 112 is provided in the longitudinal direction from the center of the rectangular enclosure-type bottom plate 111 having a predetermined width and thickness, and a pair of posts 113 having a predetermined height on both sides of the upper surface of the bottom plate 111 . ) is installed base frame 110 and;

Both wheels of the open drum 130 respectively installed on the upper surface of the pillars 113 of the base frame 110 , operated in response to the output signal of the control panel 160 , and respectively installed inside the pillars 113 . As long as the operator pushes or pulls the 131 in opposite directions as much as a desired distance, and adjusts the gap between the wheels 131 of the open drum 130 to have a width corresponding to the width of the corrugated tubes 400 to be mounted A pair of cylinders for adjusting the drum spacing 120 and;

Corrugated pipe support protrusions 132 having a predetermined shape are provided in the inner center of both left and right wheels 131 having a predetermined diameter in opposite directions, as well as a plurality of corrugated pipe support protrusions 132 at a predetermined angle on the front surface. The corrugated pipe drop prevention wing 133 has a form rotatably installed through the hinge shaft 134, and the rear center point is the hydraulic joint 122 provided at the rod 121 end of the drum spacing adjustment cylinder 120, respectively. An open drum 130 for maintaining the corrugated tube 400 mounted between the spaces formed between the wheels 131 in a form in which the wheels 131 are installed so as to be able to rotate through the wheels;

In a state in which the corrugated pipe support protrusion 132 of the wheel 131 is disposed at an angle corresponding to the angle of the corrugated pipe drop prevention wings 133 on the rear surface of the wheel 131, the lower end of the body is connected to the wheel 131 through the hinge shaft 142. The corrugated pipe support protrusion 132 is supported on the rear surface, respectively, and the free end of each rod 141 is the extended portion of the corrugated pipe drop prevention wing 133 protruding to the outside of the hinge shaft 134 of the corrugated pipe drop prevention wing 133. A plurality of generating power required to make the corrugated pipe drop prevention wings 133 unfold within a predetermined angular range or fold toward the corrugated pipe support protrusion 132 in response to the output signal of the control panel 160, respectively a cylinder 140 for driving the fall prevention wing of;

A corrugated pipe support plate 151 having a wider width than the lift installation space 112 formed in the bottom plate 111 of the base frame 110 and disposed in the longitudinal direction at the upper center of the bottom plate 111; "X" installed between the bottom surface of the corrugated pipe support plate 151 and the upper surface of the bottom plate 111a of the bottom plate 111 to elevate or lower the corrugated pipe support plate 151 in response to the operating direction of the lifting cylinder 153 The output of the control panel 160 in a state in which the ends of the shaped link 152 and the rod 154 are installed on one side of the bottom plate 111a of the bottom plate 111 so that the ends of the “X”-shaped link 152 are connected to one side of the “X”-shaped link 152 . A corrugated pipe elevating lift 150 composed of a lifting cylinder 153 that operates in response to a signal and generates power required to elevate and lower the corrugated pipe 400 mounted on the upper part of the corrugated pipe support plate 151;

A device having a manipulation unit 161 having a plurality of switches and having a form installed on one side pillar 113 of the base frame 110 and including driving each cylinder in response to an operator's manipulation of the manipulation unit 161 switch It is characterized in that it consists of a control panel 160 that performs the overall control function of the.

At this time, the corrugated pipe support protrusion 132 provided on each wheel 131 of the open drum 130 is,

A multi-row roll-type corrugated tube 400 having different diameters is formed in a polygonal cone shape with a narrow center diameter and a gradually increasing diameter toward the outside, in the space 135 between the wheels 131 of the open drum 130. After approximately inserting, when adjusting the width of the corrugated pipe 400 to be mounted between the two wheels 131 of the open drum 130 by operating a pair of drum interval adjusting cylinder 120, the roll type corrugated pipe ( It is characterized in that the outer surface of the corrugated pipe support protrusion 132 is brought into close contact with the inner surface of the rolled corrugated pipe 400 regardless of the inner diameter of the corrugated pipe 400 .

In addition, the cylinders 140 for driving the fall prevention wing, each hinged on the rear surface of the corrugated pipe support protrusion 132 of the wheel 131, are the rods of the cylinders 120 for adjusting the drum spacing through the hydraulic hose 143 ( 121) It is characterized in that it is connected to the hydraulic joint 122 provided at each end to receive the hydraulic pressure required for self-driving regardless of the rotation of the open drum 130 .

The operation and effects of the multi-row unwinding device for a synthetic resin corrugated pipe of the present invention configured as described above will be described in detail with reference to the accompanying drawings.

First, as shown in FIGS. 1 to 5, the multi-row unwinding device for a synthetic resin corrugated pipe of the present invention is largely a base frame 110, a pair of drum spacing adjustment cylinders 120, an open drum 130, a plurality of drops The main technical components include a cylinder 140 for driving the prevention wing, a lift 150 for lifting and lowering the corrugated tube, and a control panel 160 .

At this time, the base frame 110 is provided with a lift installation space 112 in the longitudinal direction from the center of a rectangular enclosure-type bottom plate 111 manufactured to have a predetermined width and thickness using an iron plate, and the bottom plate ( 111) has a form in which a pair of pillars 113 having a predetermined height are installed on both sides of the upper surface.

In addition, the pair of cylinders for adjusting the drum spacing 120 have a form respectively installed on the upper surface of the pillar 113 of the base frame 110, and are operated in response to an output signal of the control panel 160 to be described later, and the pillar ( 113) pushes or pulls both wheels 131 of the open drum 130 respectively installed on the inside of the open drum 130 by the desired distance in opposite directions, and the distance between the wheels 131 of the open drum 130 is to be mounted. It performs a function of adjusting it to have a width corresponding to the width of the corrugated tubes 400 .

In addition, the open drum 130 is composed of a pair of left and right wheels 131 having a predetermined diameter, and the corrugated pipe support protrusion 132 having a polygonal shape is opposite to each other in the center of each wheel 131 . Of course, the corrugated pipe support protrusion 132 has a shape in which a plurality of corrugated pipe drop prevention wings 133 are rotatably installed on the front surface of the corrugated pipe support protrusion 132 through the hinge shaft 134 at a predetermined angle.

Such an open drum 130 is a corrugated pipe ( 400) performs a function to maintain a mounted state between the spaces formed between the wheels (131).

At this time, the corrugated pipe support protrusion 132 provided on each wheel 131 of the open drum 130 has a polygonal (Fig. It was formed in the shape of a cone of approximately 8 angles).

Therefore, the roll-type corrugated pipe 400 of multiple (for example, two) roll-type corrugated pipes 400 having different diameters is roughly inserted into the space 135 between the wheels 131 of the open drum 130 using a crane or the like, When adjusting the width of the corrugated pipe 400 to be mounted between the wheels 131 of the open drum 130 by operating a pair of drum spacing adjusting cylinder 120, the inner diameter of the rolled corrugated pipe 400 Regardless, the corrugated pipe support protrusion 132 is pushed toward the inner diameter side of the rolled corrugated pipe 400 so that the outer surface of the corrugated pipe supporting protrusion 132 is in close contact with the inner surface of the rolled corrugated pipe 400.

Therefore, a large frictional force is generated between the outer surface of the corrugated pipe support protrusion 132 and the inner surface of the rolled corrugated pipe 400, and when the corrugated pipes 400 are pulled by a corrugated pipe propulsion device, etc. (not shown), the wheel of the open drum 130 Corrugated tubes 400 do not slip in 131 and the corrugated tubes are automatically unwound in response to the rotation of the wheel 131 .

In addition, as shown in the enlarged view of FIG. 3 , the plurality of drop prevention blade driving cylinders 140 are the angles of the corrugated tube drop prevention blades 133 on the rear surface of the corrugated tube support protrusion 132 of the wheel 131 . The lower end of the body is supported on the rear surface of the corrugated tube support protrusion 132 of the wheel 131 through the hinge shaft 142 in a state disposed at an angle corresponding to the free end of each rod 141, and the free end of the corrugated tube falls The hinge shaft 134 of the prevention wing 133 has a shape supported on the rear surface of the extension of the corrugated pipe drop prevention wing 133 protruding outward, respectively.

In response to the output signal of the control panel 160, the plurality of drop-preventing blades driving cylinder 140 as such allows the corrugated tube drop-preventing blades 133 to spread within a predetermined angular range, or vice versa, the corrugated tube drop-preventing blades ( 133) performs a function of generating the power required to fold the corrugated pipe support protrusion 132 toward the front side.

At this time, the length of the corrugated pipe drop prevention wings 133 is preferably formed to be shorter than the distance to the center of the corrugated pipe support protrusion 132 when folded as shown in one side of FIG. 1, and such corrugated pipe fall prevention wings 133 When the hinge shaft 134 is the basis, the rod 141 of the cylinders 140 for driving the anti-fall wing is supported on a portion extending in the opposite direction to which the corrugated tube 400 is mounted.

Accordingly, the linear power transmitted from the cylinders 140 for driving the fall prevention blades is changed to a rotational motion about the hinge shaft 134, and rotates the corrugated tube drop prevention blades 133 to open or close them. can do.

The corrugated pipe drop prevention wings 133 may be installed at equal intervals of three or more so that they can be operated simultaneously, and the corrugated pipe 400 is placed between the open drum 130 in a state in which the corrugated pipe drop prevention wings 133 are unfolded. When attached, it is possible to prevent the corrugated pipe 400 from falling.

In addition, the lift 150 for elevating the corrugated pipe is composed of a corrugated pipe support plate 151, an "X"-shaped link 152 and a lifting cylinder 153, as shown in the enlarged view of FIG. 5, and among these components, the corrugated pipe support plate ( 151) has a wider width than the lift installation space 112 formed in the bottom plate 111 of the base frame 110, and is a relatively heavy body in the form arranged in the longitudinal direction at the upper center of the bottom plate 111 It performs a function of directly raising or lowering the corrugated tubes 400 .

In addition, the "X"-shaped link 152 has a form installed between the bottom surface of the corrugated pipe support plate 151 and the top surface of the bottom plate 111a of the bottom plate 111, and in the operating direction of the lifting cylinder 153 to be described later. Correspondingly, it performs a function of raising or lowering the corrugated tube support plate 151 .

In addition, the lifting cylinder 153 is installed on one side of the bottom plate 111a of the bottom plate 111 so that the end of the rod 154 is connected to one side of the “X”-shaped link 152 , and the control panel 160 ), and raises or lowers the corrugated tube support plate 151 through the "X"-shaped link 152, and is roughly mounted between both wheels 131 of the open drum 130. By elevating and lowering the corrugated pipe 400 , the center of the corrugated pipe 400 performs a function of generating power required to match the corrugated pipe support protrusion 132 .

Of course, by operating the lift 150 for elevating the corrugated pipe, the corrugated pipe 400, which is relatively heavy, is aligned with the center of the open drum 130, and the cylinder 120 for adjusting the drum interval is operated between both wheels 131. After the corrugated pipe support protrusions 132 are fitted to the inner diameter side of the corrugated pipes 400 through a method of narrowing the space 135 of the ) to the inside of the corrugated pipes 400 to prevent the corrugated pipes from falling, and then lower the corrugated pipe support plate 151 of the corrugated pipe elevating lift 150 using a corrugated pipe propulsion device not shown in the following to remove the corrugated pipes 400 It is preferable to prevent the loosening of the corrugated pipe from being inhibited by the contact with the corrugated pipe support plate 151 when forcibly loosened and propelled toward the excavation groove.

In addition, the control panel 160 includes a manipulation unit 161 having a plurality of switches (for example, switches necessary for driving the cylinders including a power on/off switch), and the base frame 110 . It has a form installed on one side of the pillar 113 and performs the overall control function of the device of the present invention, including driving each cylinder in response to the switch operation of the operation unit 161 operated by the operator.

On the other hand, the cylinders 140 for driving the fall prevention wing, which are respectively axially supported on the rear surface of the corrugated pipe support protrusion 132 of the wheel 131, are the rods 121 of the cylinders 120 for adjusting the drum spacing through the hydraulic hose 143. ) by connecting to the hydraulic joint 122 provided at each end, regardless of the rotation of the open drum 130 in response to the loosening of the corrugated tube 400 , it is necessary for driving the cylinders 140 for driving the anti-fall wing. Hydraulic pressure may be continuously supplied through the hydraulic joint 122 .

In the detailed description of the present invention described above, although it has been described with reference to preferred embodiments of the present invention, those skilled in the art or those having ordinary knowledge in the art will have the spirit of the present invention described in the claims to be described later. And it will be understood that various modifications and variations of the present invention can be made without departing from the technical scope.

110: base frame
111: bottom plate 111a: bottom plate
112: lift installation space 113: pillar
120: cylinder for adjusting drum spacing
121: rod 122: hydraulic joint
130: open drum 131: wheel
132: corrugated pipe support protrusion 133: corrugated pipe fall prevention wing
134: hinge shaft 135: space between the wheels
140: Cylinder for driving the fall prevention wing
141: rod 142: hinge axis
143: hydraulic hose
150: corrugated pipe elevating lift
151: corrugated tube support plate 152: "X" shaped link
153: lifting cylinder 154: rod
160: control panel 161: control panel
400: corrugated tube

Claims (3)

a base frame having a lift installation space in the longitudinal direction from the center of a rectangular enclosure-type floor plate having a predetermined width and thickness, and a pair of pillars having a predetermined height on both sides of an upper surface of the floor plate;
It has a form installed on the upper surface of the column of the base frame, operates in response to the output signal of the control panel, and pushes or pulls both wheels of the open drum respectively installed inside the columns in opposite directions by the desired distance by the operator. a pair of cylinders for adjusting the drum spacing for adjusting the spacing between the wheels to have a width corresponding to the width of the corrugated tubes to be mounted;
Corrugated pipe support protrusions are provided in the inner center of the left and right wheels having a predetermined diameter in opposite directions, as well as a plurality of corrugated pipe drop prevention wings at a predetermined angle on the front of the corrugated pipe support protrusion. An open drum that maintains a state in which the corrugated pipes are mounted between the spaces formed between the wheels in a form in which the wheels are installed idly through hydraulic joints provided at the rod ends of the drum spacing adjusting cylinders, respectively, at the rear center point; ;
In a state in which the lower end of the body is axially supported on the rear surface of the corrugated pipe support protrusion of the wheel through a hinge shaft in a state that is arranged at an angle corresponding to the angle of the corrugated pipe drop prevention wings on the rear surface of the corrugated pipe support protrusion of the wheel, the free end of each rod is the In the form of being supported on the rear surface of the extension part of the corrugated pipe drop prevention wing protruding to the outside of the hinge shaft, it is operated in response to the output signal of the control panel, and the corrugated pipe fall prevention wing is unfolded within a predetermined angular range or folded toward the corrugated pipe support protrusion. A plurality of drop-preventing wing driving cylinders for generating necessary power;
A corrugated pipe support plate having a width wider than the lift installation space formed in the bottom plate of the base frame and disposed in the longitudinal direction at the upper center of the bottom plate, and a lifting cylinder installed between the bottom surface of the corrugated pipe support plate and the bottom plate of the bottom plate The output of the control panel in a state in which the end of the "X"-shaped link and rod, which elevates or lowers the corrugated pipe support plate, is installed on one side of the bottom plate of the bottom plate so that the end of the rod is connected to one side of the “X”-shaped link in response to the operation direction of the a lift for elevating and lowering the corrugated pipe, which is operated in response to a signal and is composed of a lifting cylinder that generates power required to elevate and lower the corrugated pipe mounted on the upper part of the corrugated pipe support plate;
A control panel having a manipulation unit having a plurality of switches and having a form installed on one side of the base frame and performing an overall control function of the device including driving each cylinder in response to a switch manipulation by an operator; characterized in that it is composed of Multi-row annealing device for synthetic resin corrugated pipe.
The method according to claim 1,
Corrugated pipe support protrusions provided on each wheel of the open drum,
It is formed in the shape of a polygonal cone with a narrow diameter in the center and gradually increases in diameter toward the outside, and a plurality of roll-type corrugated pipes having different diameters are inserted into the space between the wheels of an open drum, and then a pair of drum spacing adjustment cylinders are installed. Synthetic resin, characterized in that the outer surface of the corrugated pipe support protrusion is made to be in close contact with the inner surface of the rolled corrugated pipe regardless of the inner diameter of the rolled corrugated pipe when operating it to adjust the width of the corrugated pipe to install the gap between the two wheels of the open drum Multiple unwinding device for corrugated pipe.
The method according to claim 1,
The cylinders for driving the fall prevention wing are,
A multi-row loosening device for a synthetic resin corrugated pipe, characterized in that it is connected to a hydraulic joint provided at the rod end of each of the cylinders for adjusting the drum spacing through a hydraulic hose so that the hydraulic pressure required for self-driving can be supplied regardless of the rotation of the open drum.

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