KR101448521B1 - Pipe Support Device - Google Patents

Abstract

There is provided a coaxial port device such as an inner pipe to be installed inside an outer pipe of a press-fitting pipe (propelling pipe) or other casing.
The tube support apparatus of the present invention comprises: a device body part mounted at least one to an inner tube to be installed inside an outer tube; And a tube support means provided on the apparatus body portion, wherein the tube support means includes a block type support means provided on the body provided on the apparatus body portion so as to be detachable from the body, And / or support means.
According to the present invention, the pipe member of the inner pipe, which is constructed by penetrating the inside of the outer pipe such as a press-fitting pipe press-fit into the ground or a casing (outer pipe) constructed by other methods, The inner pipe can be continuously formed to improve the workability in the outer appearance of the inner pipe. In addition, the inner pipe can be easily moved inside the outer pipe when the outer pipe is inserted, and the height (length) It is possible to obtain an improved effect such as facilitation.

Description

[0001] Pipe Support Device [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pipe member support apparatus such as an inner pipe that is installed inside an outer pipe of a press-fitting pipe (a propelling pipe) or other casing, and more particularly to a press- The outer tube is made to pass through the inside of the outer tube and the inner tube is appropriately positioned at the center or the desired position of the outer tube so that the continuous construction of the inner tube is enabled to improve the workability in the outer tube, And facilitates the adjustment of the height (length) corresponding to the inner diameter of the outer tube.

In general, a water pipe for transporting drinking water to each household in a water treatment plant is constructed as a pipeline buried in the ground, in particular, a large water pipe.

However, depending on the topography of such a water pipe construction, it may be constructed by a double pipe. For example, in a landform such as a mountain or a hill, it may be more advantageous in terms of cost and construction period to construct a water pipe through a mountain than to construct a water pipe along the ground surface.

In such a case, a double pipe structure may be employed in which a press-in pipe (a propelling pipe) is press-fitted and a pipe is buried in the ground, and an inner pipe is installed in the pipe as a water pipe.

Of course, the entire water pipe is not a double pipe structure, but a water pipe can be constructed with a double pipe structure only in a certain section according to a specific topography.

Or, in the case of a gas pipe or a pipeline in which gases other than water pipes communicate with the inside, poisonous gas or oil leaks out, it is harmful to the human body and seriously pollutes the surrounding environment. Therefore, In order to prevent external leakage, the exterior is constructed with a double pipe structure, which is an exterior pipe and an inner pipe to be installed inside.

However, when a single pipe is buried in the ground, the pipe itself may be buried in the ground while connecting the unit pipes. However, when the pipe is provided with a double pipe structure of an outer pipe and an inner pipe, Casing) is press-fitted into the ground, and an inner pipe (line) to connect the unit pipes to the inside of the outer pipe (casing) is inserted, so that it is difficult to construct the inner pipe.

In order to absorb the impact of the external impact in the space between the tubes, it is necessary to pass the center of the outer tube through which the inner tube can be made. For this purpose, conventionally, Most of the blocks made of wood or other synthetic resin were supported on the lower part of the inner tube, and these blocks were also fixed with wires.

Therefore, in the conventional case, when the inner pipe passes through the inside of the outer tube, the blocks may fall off due to friction or the like, or the inner tube may be disposed at the central portion of the outer tube because the block is not appropriately sized. There was a problem that made construction difficult.

Therefore, in the related art, a pipe member of an inner pipe, which is inserted through the inside of an outer pipe such as a press-fitting pipe or a casing, which is press-fitted into the ground, is appropriately positioned at a center or a desired position of the outer pipe, There is a demand for a tube support device which can improve workability.

In addition, there is a need in the art for a tube support device that facilitates movement of the inner tube inside the outer tube when the outer tube is inserted.

In addition, in the related art, there is a demand for a tube support device which can adjust the length of the spacer means to be variable (automatically) adjusted corresponding to the inner diameter of the outer tube.

As a technical aspect to achieve the above-described needs, the present invention provides a device body comprising: a device body part mounted at least one to an inner pipe to be installed inside an outer pipe; And a tube support means provided in the apparatus body portion,
Wherein the tube support means is provided as a block type support means detachably mounted on a body provided in the apparatus body portion,
Wherein the block type support means comprises multistage spacers provided to vary the height of the body,
The first spacer, which is detachably attached to the body of the multi-stage spacers, is provided with a horizontal insertion portion into which another second spacer is horizontally inserted. The first and second spacers contact with each other, And an elastic means is provided between the first and second spacers.

According to another technical aspect of the present invention, there is provided an apparatus comprising: a device body part mounted at least one to an inner pipe to be installed inside an outer pipe; And a tube support means provided in the apparatus body portion,
Wherein the tube support means is provided as a roller type support means provided so as to be detachable on a body provided in the apparatus body portion,
The roller type support means includes: a first roller support member provided to be detachable from the body; And a second roller support member, which is assembled to the first roller support member so as to be height-adjustable and to which the conveyance roller is assembled.

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According to the pipe support apparatus of the present invention, the pipe member of the inner pipe that is inserted through the inside of the outer pipe of the press-fitting pipe (propelling pipe) or the outer casing that is press-fit in the ground is appropriately positioned at the center or at a desired position Thereby making it possible to improve the appearance of the inner pipe.

In addition, the present invention facilitates the movement of the inner tube inside the outer tube when the outer tube is inserted, thus making the construction more convenient.

In addition, the present invention makes it possible to variably (automatically) adjust the length of the spacer means corresponding to the inner diameter of the outer tube.

As a result, the present invention is intended to improve the workability and workability of the inner pipe in a (large) water pipe or a gas pipe provided with a double pipe of an inner pipe and an outer pipe.

1 is a perspective view showing a tube support apparatus of a first embodiment including a block type support means according to the present invention.
Fig. 2 is a schematic view of the apparatus of the present invention shown in Fig.
Fig. 3 is a use state diagram of the inventive apparatus of Fig. 1
4A and 4B are an exploded view and a perspective view showing a modified example of the first pipe support device of the present invention
5A and 5B are an exploded view and another assembled view showing another modified example of the first tube support device of the present invention.
6 is a schematic view showing still another modification example of the first pipe support device of the present invention
7A and 7B are a state diagram and a side view showing the tube support apparatus of the second embodiment including the roller type support means according to the present invention
8A and 8B are a state diagram and a side view showing a modified example of the second tube support apparatus according to the present invention.
9 is a diagram showing another modification of the second tube support apparatus according to the present invention
10 is a diagram showing an apparatus having both block type and roller type tube support means according to the present invention

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

1 to 6 show a tube support device 1 of a first embodiment including a block type support means 230 according to the present invention. Figs. 7 to 9 show a roller type support 10 shows the tube support device 1 of the second embodiment including the means 330. The tube support device 1 of the third embodiment of the present invention in which all of the block type / roller type support means are used in combination 1).

In the following description, the outer tube 10 and the inner tube 30 provided with the inventive device are denoted by 10 units, the device body 110 is denoted by 100 units, the block type support means 230, A reference numeral of 200 units, and finally, the roller-type support means 330 is denoted by reference numerals of 300 units.

Therefore, basically, the tube support device 1 of the present invention includes an inner tube 30 in which constants, gas, etc. flow, and an outer tube 30 surrounding the outer tube 30 and the outer surface of a pressurized tube (propelling tube) 10, and are mounted at predetermined intervals in the inner tube, thereby facilitating the inner tube's inner tube construction.

Hereinafter, the tube support apparatus of the first embodiment of the present invention and modifications thereof, the tube support apparatus of the second embodiment, and modifications thereof will be described in detail with reference to the drawings.

1 and 7A, the tube support apparatus 1 of the present invention, that is, the tube support apparatus of the first and second embodiments of the present invention basically comprises an inner tube 10 installed inside the outer tube 10, A device body 110 mounted on the body 30, and a tube support means provided on the device body 110.

Thus, the tube support means of the present invention allows adjustment of the arrangement so that the inner tube is located at the center of the outer tube as possible, while being provided at least between the lower portion of the inner tube and the lower portion of the outer tube, and ultimately, The outer tube and the inner tube are tightly adhered to each other so that the external impact is prevented from being transmitted to the inner tube. Such a tube support apparatus of the present invention facilitates the inner tube inner tube construction and secures structural stability.

1 and 7A, the apparatus body portion 110 of the tube support device 1 of the present invention is basically composed of a body which is divided and assembled to the outer surface of the inner tube 30, (112).

The body 112 of the apparatus body 110 of the present invention may be a structure in which a semicircular steel pipe, in particular, a stainless steel plate not corroded, or a plate of a resin molded product is formed in a semicircular shape when viewed from the front, The flanges 116 are fastened to both ends of the inner tube 30 as fastening bolts 118 for easily assembling and mounting the body 112 at desired positions on the outer surface of the inner tube 30 at predetermined intervals.

It goes without saying that the shape and material of the body can be appropriately changed according to the size of the inner tube, the connected structure, and the like.

1 and 7A, in the tube support apparatus of the present invention, a pad member (not shown) made of rubber or resin is provided between the outer surface of the inner tube 30 and the inner side of the body 112 of the apparatus body unit 110, (114) may be provided.

That is, the pad member 114 may be made of a rubber or other resin, such as a steel or a stainless steel plate, to prevent a shock or other crack when the body 112 of the apparatus body is directly fixed to the inner tube. And may be provided as a semicircular plate.

Of course, although not specifically shown in the drawing, the pad member may be previously attached to the inner surface of the body 112 by adhesion or the like.

Next, as described above, the support means provided in the tube support device 1 of the present invention is a support means provided on the body 112 to be detachably mounted on the body 112, Type supporting means 230 or a roller type support means 330 for facilitating the movement of the inner tube in the outer tube (installation), or the like.

10, the block type support means and the roller type support means of the present invention are arranged such that the roller type support means 330 is arranged to facilitate the movement of the inner tube at the lower side to the outer side of one inner tube, There is no problem in that the block type support means 230 which is not necessarily in close contact with the inner surface is disposed,

Hereinafter, each of the block type and roller type support means 230 and 330 in the tube support apparatus according to the present invention will be described with reference to the drawings.

1 to 3, the block type support means 230 of the apparatus of the present invention includes a spacer (not shown) provided detachably to the body 112 via a fastening bolt 231 232).

The spacer 232 may be provided as a block of the resin molded product through which the fastening bolt 231 that passes through the body 112 and is covered with the pad member 114 is formed.

For example, as shown in FIGS. 1 and 2, a concave opening 233a for fastening a nut (not shown) of a fastening bolt 231 is formed on an upper portion of the spacer 232 provided in the block shape, Can be covered with a cover (233).

3, the block type support means 230 of the present invention may be arranged in an appropriate number in the inner tube 30, preferably in a cross shape as a whole, and at least in the lower portion of the inner tube, And the support means disposed on the upper portion of the inner tube does not necessarily have to be in close contact with the outer tube.

For example, when the spacers 232 of all the block-shaped support means 230 are provided in a length corresponding to the inner diameter of the outer tube and are in close contact with the inner surface of the outer tube, the inner tubes and the block- (10) becomes tight, the construction tolerance can not be ensured and construction can be made more difficult.

Therefore, in the case of the tube support device 1 of the present invention, as shown in Figs. 1 and 2, the body 112 of the apparatus body part 110, that is, the steel plate or the stainless steel plate, The length of the block-shaped spacers 232 is adjustable, and preferably at least the arrangement of the spacers and the length of the inner tube 30, as shown in FIG. 3, And so on.

Next, FIGS. 4 to 5 show various modifications of the block type support means 230 according to the present invention.

First, as shown in FIGS. 4A and 4B, the spacers of the block type support means 230 of the present invention may be provided as multi-stage spacers, so that the overall length adjustment of the spacers can be made corresponding to the inner diameter of the outer tube.

The first and second spacers 236 and 236 are provided with a fastening bolt 231 and a fastening bolt 231. The fastening bolt 231 includes first and second cantilevers 236 and 238, And a spacer insertion portion 240 into which the second spacer 238 is inserted.

Of course, such spacers are actually provided as resin moldings that are easy to make and shape and are not corroded, so that there is no problem in providing such an insert structure.

In addition, as shown in Figs. 4A and 4B, the first and second spacers may include grooves 244 through which fastening bolts 242 are fixed.

That is, the fastening bolt 242 passing through the groove is fastened as a nut (not shown) so that the first and second spacers are not separated, and the entire length of the support means is adjusted to the inner diameter of the outer appearance by adjusting the position of the second spacer Or you can easily adjust to the desired length.

Alternatively, the fixing pin 246 may further include an engagement groove 248 formed integrally with the groove (through which the fixing pin 246 passes).

For example, as shown in FIG. 4A, through the position of the fixing pin 246 inserted in the locking groove 248 provided in the first and second spacers of the present invention, Lt; / RTI >

In this case, preferably, the latching groove 248 may include a seat 248b having a protrusion 248a to which the fixing pin is constrained to move, and a seating portion 248b to which the fixing pin is seated and fixed.

Therefore, when the fixing pin is fitted into the locking groove 248 at a desired position through the groove, the height of the first and second spacers can be adjusted. In the case of the fixing pin, The pin through positions may be different.

Next, more preferably, the elastic means 250 is interposed between the first and second spacers 236 and 238 of the multi-stage. For example, a spring 252 fixed to the bottom of the insertion portion of the first spacer, The first and second spacers 236 and 238 can be elastically assembled through the support plate 254 and the support plate 254.

Such a spring enables buffering when the second spacer and the outer tube are in close contact with each other, enables fine flow of the second spacer, facilitates support of the inner tube when the outer tube is inserted, and more particularly, Thereby enabling adjustment of the position of the spacers corresponding to the inner diameter of the outer tube.

For example, when the fastening bolt 242 is passed through the groove 244 of the first and second spacers and tightened with a nut, the second spacer is lowered until it is not detached from the first spacer while being supported by the spring, (Or rising) to stably maintain the position control of the inner tube in the outer tube, and even if an impact is applied to the outer tube during the entire pipeline construction, the spring absorbs the shock to prevent the impact of the spacer from being transmitted to the inner tube something to do.

Next, as shown in FIGS. 5A and 5B, the length of the spacer can be adjusted using the elastic force without using a groove, a separate fastening bolt, or a fixing pin using the multi-stage spacers 236 and 238 shown in FIG. .

For example, as shown in FIG. 5, the first and second spacers 236 and 238, which are assembled as fastening bolts 231 to the body 112 of the device body 110, The spacer 236 is formed with a spacer horizontal insertion portion 251 in which another second spacer 238 is slidably inserted in the horizontal direction.

At this time, the fastening bolt passing through the body passes through the bottom side of the horizontal insertion portion of the first spacer and is fixed as a nut.

At the same time, the first and second spacers may each include tapered surfaces 236a, 238a that allow the second spacer to fall down with an elastic force while preventing the second spacer from tearing away.

A spring 256a fixed to the bottom of the horizontal insert of the first spacer and an elastic means 256 of the support plate 256b may be provided between the first and second spacers have.

Therefore, as shown in FIG. 5, when the second spacer is horizontally inserted into the horizontal insertion portion of the first spacer through the elastic means, the second spacer can flow in the radial direction of the outer tube, The rising of the second spacer is blocked at the position where the inclined contact surfaces 236a and 238a of the first and second spacers come into close contact with each other.

That is, if the length of the second spacer is set to be large, the spring of the elastic means is compressed when the inner diameter of the outer tube changes, so that even if the inner diameter of the outer tube changes, it can be easily compensated.

9, when the support rods and the support bars are assembled on both sides of the first spacer by bolting after the first spacer of the second spacer is inserted, The spacer can be completely shut off while the first spacer is resiliently moved.

Of course, such a support is not necessarily required because the second spacer receives substantially only a vertical force at the horizontal insertion portion of the first spacer.

Next, FIG. 6 shows another modified example. In the block type support means 230 having the spacer 232 of FIG. 1, the spacers 232 of the single block type or the first and second spacers 232 of the multi- The conveying roller 258 is provided on the outer side of the second spacer 238 among the first and second spacers 236 and 238.

6, the spacer may be provided with an insertion portion 260 into which a roller support portion 262 to which the conveyance roller 258 is to be inserted is inserted, and the body 112 The spacer and the roller support can be integrally fastened to each other.

More preferably, the roller support member 262 may further include a reinforcing plate 264 for supporting a load applied to the conveying roller.

Therefore, in the case of Fig. 6, the supporting device 1 of the present invention mounted on the inner tube is designed to fasten the conveying rollers to the spacers or the multi-stage spacers so that they can be easily moved by conveying the rollers in the inside of the outside. And the feed roller also make it possible to adjust the position of the inner pipe in the outer appearance.

Next, Figs. 7 to 9 show various embodiments of the tube support device 1 of the second embodiment of the present invention having the roller type support means 330 according to the present invention.

For example, as shown in FIGS. 7A and 7B, the roller type support means 330 of the present invention includes the body 112 and the pad member 114 described above and is mounted on the inner tube 30 A roller support 332 provided to the body 110 and assembled as a fastening bolt 231 and a conveying roller provided on the roller support 332 and capable of being supported on the inner surface of the outer tube 10 334).

At this time, the body 112, that is, the semicircular steel plate or the stainless steel plate body 112, has a flange 116 similar to the block type support means 230 including the block type spacer 232 of the first embodiment The device body portion 110 can be assembled to the outer surface of the inner tube 30 while being fixed as the fastening bolt 118. [

A fastening bolt 331 passing through the body 112 fixes the roller support 332 as a nut.

7A and 7B, since the conveying roller 334 is moved in close contact with the inner surface of the outer tube 10, the roller roller 334 of the present invention, which is provided at predetermined intervals in the longitudinal direction along the inner tube 30, The conveying rollers of the support means 330 make it possible to place the inner tube at the center portion of the outer tube while simultaneously facilitating the insertion of the inner tube.

At this time, the roller support 332 may be a bracket structure in which the conveying roller is smoothly idle through the bearing.

8A and 8B show a modification of the roller type support means 330 according to the present invention.

8 includes a first roller support 336 mounted as a fastening bolt to the body 112 and a second roller support 336 fixed to the first roller support 336, And a second roller support (340) which is adjustably assembled and on which a conveying roller (338) is mounted.

The first and second roller supports 336 and 340 include grooves 344 through which the fastening bolts 342 are inserted and fastened as a nut.

Accordingly, as shown in FIG. 8A, the roller type support means 330 including the multi-stage roller support according to the present invention can adjust the position of the conveying roller 338 by adjusting the position of the roller support section, It is possible to cope with the change in the inner diameter of the inner tube.

At this time, the first roller support 336 may be provided with a reinforcing plate 345 for supporting a load applied to the roller.

9 shows another modification of the roller type support means 330 of the present invention. For example, in the body 112 of the device body 110 mounted on the inner tube 30, And a second roller support member 340 inserted horizontally into the inside of the first roller support member 336 and mounted on the conveyance roller 338, The first and second roller support members 336 and 340 include slanting surfaces 346 and 348 that contact each other and become narrower toward one side to prevent the second roller support member 340 from being separated from the first roller support member 336. [

Thus, the second roller support 340 is inserted horizontally into the inner space of the first roller support 336, but its vertical deviation is prevented.

At the same time, an elastic means 350, for example, one end is fixed to the first roller support member 336 and a support plate 350b is fixed to the other end between the first roller support 336 and the second roller support 340, The elastic means 350 may be provided.

9, the roller-type support means 330 of the inventive device mounted on the inner tube 30 is provided such that the second roller support 340 is provided to be movable inside the first roller support 336 Even if the inner diameter of the outer tube 10 is varied, the height can be adjusted while compensating for the inner diameter.

9, since the second roller support 340 inserted in the first roller support 336 of the roller-type support means 330 of the present invention receives the elastic force or the load in the vertical direction, The support roller 352 is welded to both sides of the first roller support 336 and the second roller support 336 is fixed to the first roller support 336 The second roller support member can be adjusted from the inside of the first roller support member 336 to the support height (length) through the conveyance roller in accordance with the inner diameter of the outer roller without being detached in all directions.

10, the block type support means 230 of the present invention and the roller type support means 330 described above can be combined in a single inner tube 30. However, as shown in FIG. 10, Shaped supporting means 330 is disposed at the lower portion of the inner tube and the block type support means 230 is disposed at the upper side to facilitate movement of the inner tube into the outer tube.

1 ... tube support device 10 .... appearance
30 .... inner tube 110 .... device body part
112 .... body 114 .... pad member
230, 330 .... Support means 232, 236, 238 .... Spacer
240 .... spacer insertion portions 250, 350 .... elastic means
258 .... Rollers 332,336,340 .... Rollers
334 .... Feed roller

Claims (12)

At least one device body 110 mounted on an inner tube 30 installed inside the outer tube 10; And a tube support means provided on the apparatus body 110,
The tube support means is provided as block type support means 230 detachably mounted on a body 112 provided in the apparatus body portion 110,
The block type support means 230 includes multistage spacers 236 and 238 provided to vary the height of the body 112,
Among the multi-stage spacers 236 and 238, the first spacer 236 assembled to be detachable from the body is provided with a horizontal insertion portion 251 in which another second spacer 238 is horizontally inserted, Wherein the first and second spacers include an inclined contact surface (236a) (238a) that prevents the second spacer from coming off while being in contact with each other, wherein an elastic means (256) is provided between the first and second spacers Device. At least one device body 110 mounted on an inner tube 30 installed inside the outer tube 10; And a tube support means provided on the apparatus body 110,
The tube support means is provided in a roller type support means 330 provided to be detachable on a body 112 provided in the apparatus body portion 110,
The roller-type support means (330) includes a first roller support (336) detachably attached to the body; And a second roller support (340) assembled to the first roller support (336) so as to be adjustable in height and to which the conveyance roller (338) is assembled. 3. The method according to claim 1 or 2,
The apparatus body 110 includes: a body 112 divided and assembled to an outer surface of the inner tube 30; And
A pad member 114 provided between the body 112 and the inner tube;
Wherein the tube support device comprises: The method of claim 3,
Characterized in that the body (112) is provided as a steel, stainless steel or synthetic resin material which is joined together as a flange (116) on the inner tube. delete delete delete delete The method according to claim 1,
A conveying roller 258 provided on a roller support portion 262 provided on a second spacer 238 on the outer side of the multi-stage spacers 236 and 238;
Further comprising a plurality of tube support members. delete delete 3. The method of claim 2,
The first and second roller support members may be provided to be adjustable in height, including a groove (344) through which the fastening means (342)
The first and second roller support members include inclined contact surfaces 346 and 348 which are in contact with each other to prevent the second roller support member from being separated from the first and second roller support members. Characterized by a tube support device.

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