KR20200043091A - Connecting device for corrugated pipe - Google Patents

Abstract

According to the present invention, in a corrugated pipe connecting device, a clamping ring is interposed between a nut and a socket to primarily secure the nut and the socket, one end portion of a corrugated pipe having valleys and ridges alternately formed thereon is inserted into the nut, and the nut and the socket are secondarily secured so that an inner portion of the clamping ring is inserted into the valleys of the corrugated pipe and an end portion of the corrugated pipe is compressed, thereby completing the coupling. The socket includes: a fastening portion secured with the nut; and an exposure portion facing the clamping ring from the fastening portion. The inner circumferential surface of the exposure portion is formed to be recessed in a radially outward direction than the inner circumferential surface of the fastening portion, so that the corrugated pipe connecting device can be easily coupled and can achieve an excellent sealing effect.

Description

Connecting device for corrugated pipe

The present invention relates to a corrugated pipe connecting device, and more particularly, to a corrugated pipe connecting device capable of connecting a socket and a nut to one end of a corrugated pipe and connecting a corrugated pipe and other fluid moving means or an opening / closing valve.

A connection device for corrugated pipes according to the prior art is disclosed in KR2014-0025124. 1 and 3, the corrugated pipe connecting device is a corrugated pipe 1, a nut 2 that is extrapolated to surround the outer peripheral surface of one side of the corrugated pipe 1, and one end of the corrugated pipe 1 The inner ring is inserted into the formed bone to clamp one side of the nut 2 and the clamping ring 3 and the end portion 5 of the corrugated pipe 1 in the process of being screwed to the nut 2 clamping ring 3 It consists of a socket (4) squeezed to the side.

Meanwhile, as shown in FIG. 2, the clamping ring 3 is formed in a ring shape in which one end is cut so that both ends 6 and 7 are separated by a predetermined separation distance D, so that the clamping ring 3 is When squeezed toward the center of the radius, the separation distance D decreases while the inner diameter of the clamping ring 3 decreases. On the contrary, when the both ends 6 and 7 of the clamping ring 3 are pulled outward, the separation distance ( As D) increases, the inner diameter of the clamping ring 3 increases.

When the coupling method of the above-described corrugated pipe connecting device is described, the nut 2 and the clamping ring 3 are sequentially inserted around the outer circumferential surface of one side of the corrugated pipe 1 and then clamped to the bone of the corrugated pipe 1 ) Tighten the clamping ring (3) to insert the inner part.

Then, after moving the nut 2 inserted into the corrugated pipe in the direction of the clamping ring 3 as shown in Fig. 3A, tighten the nut so that the socket 4 is screwed to the nut 2, to Fig. 3B As shown, the corrugated pipe 1 and the clamping ring 3 are moved toward the socket 4 so that the tip portion 8 of the socket 4 squeezes the end portion 5 of the corrugated pipe while pressing the clamping ring 3 It is pushed into the seat portion 9, and the end portion 5 of the corrugated pipe is further compressed between the clamping ring 3 and the socket 4 to seal between the clamping ring 3 and the socket 4.

However, the above-mentioned corrugated pipe connection device according to the prior art is such that the inner portion of the clamping ring 3 is inserted into the bone formed at one side of the corrugated pipe before the nut 2 and the socket 4 are screwed in the process of coupling. Clamping ring (3) is coupled to the corrugated pipe (1), because the inner diameter of the clamping ring (3) is usually formed significantly smaller than the outer diameter of the corrugated pipe (3) of the clamping ring (3) made of a metal with high rigidity by the operator The both ends 6 and 7 are pulled outwardly, respectively, so that the inner diameter of the clamping ring 3 is enlarged, and then a difficult operation is required to insert the clamping ring 3 into the bone of the corrugated pipe 1.

In addition, when an external force is applied so that the inner diameter of the clamping ring 3 is excessively enlarged, the limit of the elastic force of the clamping ring 3 is exceeded, so that even when the external force is resolved, the shape of the clamping ring 3 is not restored. Problems occur in sealing.

In addition, a slight distortion of the clamping ring 3 occurs during the joining process, so that the clamping ring 3 is eccentrically contacted with the corrugated pipe 1, thereby reducing the sealing effect.

To solve this, the clamping ring 3 may be manufactured and used so that the inner diameter of the clamping ring 3 is large, but in this case, the clamping ring 3 is in close contact with the bone formed at one end of the corrugated pipe 1 (3) should be tightened with the shape of the circle maintained, but in the process of clamping ring (3) being tightened in the radially inward direction, there is an inadequate coupling part that is not in close contact between the clamping ring (3) and the corrugated pipe (1). If it occurs, or if the tightening force of the nut is excessive, deformation occurs in the shape of the clamping ring 3, the clamping ring 3 is detached from the corrugated pipe, or the nut 2, the clamping ring 3 and the socket ( 4) Due to the fact that the corrugated pipe 1 is not eccentrically coupled, such as eccentrically, a problem occurs in sealing.

Moreover, the problem that the clamping ring 3 is lost in the process of the worker coupling the corrugated pipe connecting device often occurs.

In addition, in the corrugated pipe connecting device according to the prior art, a gap is generated between the outer circumferential surface of the clamping ring 3 and the seat portion 9 of the nut, or a local gap is generated between the valley of the corrugated pipe 1 and the clamping ring 3. Therefore, the problem of fluid leakage occurs.

In addition, since the end portion 5 of the corrugated pipe is pressed while being in surface contact with the front end portion 8 of the socket, the area of the pressing surface for sealing becomes large, so that a large tightening force is required for the pressing operation.

In addition, the clamping ring 3 and the end face 5b of the corrugated pipe are compressed because the pressing force of the predetermined size by the socket is distributed over the entire surface of the end portion 5 of the corrugated pipe in surface contact with the end portion 8 of the socket. , And a local gap between the sockets 4 to cause fluid leakage.

An object of the present invention is to provide a corrugated pipe connecting device in which a sealing component such as a clamping ring or packing is disposed inside a corrugated pipe connecting device, temporarily coupled to a nut, and a corrugated pipe is inserted, and then, simply tightening the nut is completed.

Another object of the present invention is to provide a corrugated pipe connecting device in which parts such as a socket, a clamping ring, a packing, and a nut are automatically and suitably combined through organic contact with each other, thereby achieving an excellent sealing effect.

Another object of the present invention is to prevent the clamping ring from being eccentrically coupled to the corrugated pipe or the sealing component from the corrugated pipe connecting device, being deformed, displaced, or lost in the coupling step of the corrugated pipe connecting device.

Another object of the present invention is that the sealing part is deformed even when the corrugated pipe connection operation is completed or when a strong impact is applied to the corrugated pipe connecting device from outside, or when the position of the corrugated pipe is changed to up, down, left, or right. This is to keep the fluid from leaking and prevent leakage of the fluid.

Another object of the present invention is to prevent leakage of the fluid through a simple maintenance work that is installed on the site and in use, in the event of fluid leakage, tightening only the nut without disassembling or replacing parts of the corrugated pipe connecting device. It is to provide a corrugated pipe connection device.

Corrugated pipe connection device according to the present invention includes a corrugated pipe, a nut through which one side of the corrugated pipe is inserted, a clamping ring through which an inner portion is inserted into a bone formed on one side of the corrugated pipe, and a socket screwed to the nut, On the front side, the outer protrusions protrude in the longitudinal direction of the socket, and when the nut and socket are first screwed, one side of the clamping ring contacts the tip of the outer protrusion, and when the nut and the socket are screwed secondly, the outer protrusions It is inserted between the inner circumferential surface of the nut and the outer circumferential surface of the clamping ring, and the clamping ring is pressed in the radially inner direction to insert the inner portion of the clamping ring into the valley of the corrugated pipe, and the end of the corrugated pipe is pressed between the front surface of the socket and the clamping ring. do.

    The socket includes a fastening portion screwed with the nut, and an exposed portion extending in a direction opposite to the clamping ring from the fastening portion to be exposed to the outside, and the inner circumferential surface of the exposed portion enters a radially outward direction than the inner circumferential surface of the fastening portion. Is formed.

In addition, the corrugated pipe connecting device according to the present invention, a corrugated pipe in which bone and acid are alternately formed continuously, a nut into which one side of the corrugated pipe is inserted, and a clamping ring into which an inner portion is inserted into the bone formed in one side of the corrugated pipe. , It includes a socket screwed to the nut, the outer projection is formed protruding in the longitudinal direction toward the clamping ring on the front surface of the socket, the outer projection is the inner peripheral surface of the nut and the screw when screwing the nut and the socket It is inserted between the outer peripheral surfaces of the clamping ring.

Corrugated pipe connecting device according to the present invention, through a clamping ring between the nut and the socket and tighten the nut to first screw the nut and socket, then insert one side of the corrugated pipe into the nut and further tighten the nut to further tighten the nut and socket By screwing, the corrugated pipe connection device can be easily and easily combined.

In addition, the corrugated pipe connecting device and the coupling method according to the present invention can be coupled by interposing the clamping ring between the nut and the socket as it was when manufacturing the clamping ring without the need for the operator to apply an external force to expand the clamping ring. The bonding and sealing effects are improved.

In addition, the corrugated pipe connecting device and the coupling method according to the present invention are accommodated in at least one side of the clamping ring in the recess formed between the outer protrusion and the inner protrusion formed on the front surface of the socket, and the end of the corrugated pipe is formed in the inner protrusion Since the corner portion is pressed in contact with the edge portion in a line contact, the end portion of the clamping ring can be easily brought into close contact with the socket and the clamping ring with little force.

In addition, the corrugated pipe connecting device according to the present invention protrudes while the inner protrusion is rounded at an obtuse angle of a considerable size in the radially inner direction from the inner circumferential surface of the socket, and the inner circumferential surface of the nut is a corrugated pipe located on the opposite side of the socket from the clamping ring. Since it is in contact with at least two acid sites, even when the external impact or the position of the corrugated pipe is changed, the sealing area is maintained so that fluid leakage is prevented.

In addition, the corrugated pipe connecting device and the coupling method according to the present invention are sealed while the packing member inserted into the recess between the inner and outer protrusions formed on the front surface of the socket and the end portion of the clamping ring and the end portion of the corrugated pipe are pressed and brought into close contact. Is improved.

In addition, the corrugated pipe connecting device according to the present invention improves the sealing effect because the outer protrusion formed on the front surface of the socket is inserted between the inner circumferential surface of the nut and the outer circumferential surface of the clamping ring.

In addition, the corrugated pipe connecting device according to the present invention can further enhance the sealing effect by tightening only the nut in the corrugated pipe connecting device in use so that the outer protrusion formed in the socket further enters between the inner circumferential surface of the nut and the outer circumferential surface of the clamping ring. The repair work of the corrugated pipe connection device can be easily performed without dismantling or replacement.

    In addition, the corrugated pipe connecting device according to the present invention is formed so that the inner circumferential surface of the exposed portion of the socket enters the radially outward direction than the inner circumferential surface of the fastening portion, so that an annular space portion capable of absorbing shock is formed on the inner circumferential surface of the socket, so even when an impact occurs The effect is maintained.

1 is an exploded cross-sectional view of a corrugated pipe connecting device according to the prior art,
Figure 2 is a front view of the clamping ring of Figure 1,
3a and 3b is a partial cross-sectional view showing the coupling sequence of the corrugated pipe connecting device of Figure 1,
Figure 4 is an exploded view of the first embodiment of the corrugated pipe connection device according to the present invention, the upper half is a cross-sectional view, the lower half is a view showing a front view,
5 is a cross-sectional view showing a state in which the combination of the first embodiment of the present invention is completed,
6 is a cross-sectional view taken along line AA of FIG. 4,
7 is a cross-sectional view taken along line BB in FIG. 4,
8A to 8F are cross-sectional views sequentially showing a coupling step of the first embodiment of the present invention,
9 and 10 is a front view showing the clamping ring used in the first embodiment of the present invention, Figure 9 is a view showing the shape before the clamping ring is coupled to the corrugated pipe connecting device, Figure 10 is after the bonding is completed It is a drawing with a shape,
11 is a cross-sectional view of a second embodiment of a corrugated pipe connection device according to the present invention, and is a view in which the bonding is completed,
12 is an exploded cross-sectional view of a socket and packing member according to a second embodiment of the present invention,
13A to 13F are cross-sectional views sequentially showing coupling steps of a second embodiment of the present invention.

The expressions referring to the directions of the front surface, one side, the end, and the front end mentioned below are defined as indicated in the drawings, but this is for the purpose of explaining the present invention to be clearly understood. Of course, each direction can be defined differently depending on whether it is placed.

In addition, the term 'first, second', etc., in which the expressions such as 'first' and 'second' are added in front of the components mentioned below are only to avoid confusion of the components to refer to, and the order, importance or master / slave relations between components, etc. Irrelevant. For example, an invention including only the second component without the first component can be implemented.

Hereinafter, a first embodiment of a corrugated pipe connecting device according to the present invention will be described with reference to FIGS. 4 to 7.

The first embodiment of the connecting device of the corrugated pipe according to the present invention, as shown in FIGS. 4 and 5, the corrugated pipe 10 is formed with a continuous corrugated corrugation 12, 13 around the tube, The nut 20 is inserted into the outer side of the corrugated pipe 10 so as to surround the outer circumferential surface of the corrugated pipe 10, and the clamping ring 30 coupled to the corrugated pipe 10 to prevent movement of the nut 20 in one direction, And a socket 40 that is screwed with the nut 20.

Here, the corrugated folds 12 and 13 formed in the corrugated pipe 50 are continuously formed around the circumference of the pipe. ) ".

The nut 20 is formed in the direction of the socket 40, a flange portion 21 having an inner diameter significantly larger than the outer diameter of the mountain 13 of the corrugated pipe 10, and the flange portion 21 on the other side of the nut 20 ) A cylindrical portion 22 with a smaller inner diameter is formed.

The flange portion 21 is formed with a female thread 23 on the inner circumferential surface of one side of the socket 40 facing the socket 40, on the inner circumferential surface between the flange portion 21 and the cylindrical portion 22, one side surface of the clamping ring 30 The stepped portion 24 in contact with the 34 is formed to protrude in the radially inner direction.

The stepped portion 24 is such that when the coupling of the corrugated pipe connecting device is completed, as shown in FIG. 5, the inner peripheral surface 24a of the stepped portion 24 contacts at least two acids 13a, 13b of the corrugated pipe It extends in the longitudinal direction of the nut.

In addition, referring to FIGS. 4 and 5, the nut 20 is from the portion where the female screw 23 is formed toward the portion where the stepped portion 24 is formed, the inclined surface 25 for compressing the clamping ring 30 in the radially inner direction And the first sheet portion 28 on which the clamping ring 30 is seated is sequentially formed.

The inclined surface 25 may be formed of first and second inclined surfaces 25a. 25b spaced apart from each other, and a second sheet portion 27 may be formed between the first inclined surface 25a and the second inclined surface 25b. have.

The inclined surface 25 is formed to gradually decrease in diameter toward the first sheet portion 28, and as the nut is moved toward the clamping ring 30, the inclined surface 25 is formed in the upper corner portion of the clamping ring 30. In contact with the edge 35, the clamping ring 30 is guided to the first sheet portion 28 while being squeezed in the radially inner direction to easily force the first sheet portion 28 to be pressed. This will be described in more detail later.

The clamping ring 30 is preferably formed of a metal material such as stainless steel material, and is formed in a ring shape, as shown in FIG. 7, at least partially cut away at both ends to enable contraction and expansion in the radial direction. , 37) are spaced to have a predetermined separation distance d1.

In addition, the clamping ring 30 is a cross-sectional view, as shown in Figures 4 and 5, located in the radially inner direction and inserted into the bone 12a of the corrugated tube 31 and the radially located corrugated tube ( 10) includes an outer portion 32 protruding outward, wherein the inner portion 31 is formed as a curved portion with a convex central portion in a radially inner direction, and the outer portion 32 has an outer peripheral surface 36 and both side surfaces 33, 34. It is formed in a quadrangular shape.

4 to 8, the socket 40 is disposed on one side of the socket, and a male screw 42 is formed on the outer circumferential surface and screwed with the female screw 23 of the nut 20 to form a fastening part to which the nut is fastened ( 40a), a connection portion 40c disposed on the other side of the socket opposite to the fastening portion and having a screw 43 that is screwed with an unshown joint such as piping on the outer circumferential surface, and a position between the fastening portion and the connecting portion The outer circumferential surface is formed in a hexagonal shape like a bolt head portion and includes an exposed portion 40b exposed to the outside.

In the above, the screw 43 formed on the connecting portion 40c may not be formed on the outer circumferential surface of the connecting portion, but may be formed on the inner circumferential surface of the connecting portion.

The exposed portion 40b is a portion extending in a direction opposite to the clamping ring 30 from the fastening portion 40a of the socket 40 covered with the nut 21, in the embodiment of the present invention The outer peripheral surface is formed in a hexagonal shape, but may be formed in a different shape.

5 to 7, the exposed portion 40b is formed such that its outer circumferential surface protrudes in a radially outer direction than the fastening portion 40a and the connecting portion 40c located on both sides of the exposed portion 40b.

On the other hand, the inner circumferential surface 41a of the exposed portion 40b is formed to enter the radially outward direction than the inner circumferential surface 42a of the fastening portion 41b and the inner circumferential surface 43a of the connecting portion 40c, so that the inner circumferential surface of the fastening portion and the connecting portion An annular space portion C1 is formed therebetween.

Therefore, when an external shock is applied to the socket 40, the shock can be absorbed and relieved by the annular space C1.

6 and 7, the shortest thickness t1 of the exposed portion 40b is formed equal to or smaller than the thickness t2 of the fastening portion 40b, so that the external impact is applied to the socket. As the portion 40b is deformed, the shock can be absorbed.

Therefore, even when an external shock is directly applied to the socket 40 or the nut 20, since the impact is absorbed and relaxed by the exposed portion 40b and the annular space portion C1, deformation around the clamping ring 30 is reduced. It can be prevented or reduced to maintain the sealing effect.

On the other hand, as shown in FIG. 4, the front surface 49 of the socket 40 corresponding to the right side of the socket 40 has a ring shape protruding in the longitudinal direction of the socket toward the clamping ring 30 at the edge positioned in the radially outward direction. The outer protruding portion 44 is formed, and when the socket 40 and the nut 20 are first screwed, one side 33 of the clamping ring 30 contacts the front end portion of the outer protruding portion 44, and the outer side A space portion 47 is formed in the radially inner direction of the protruding portion 44. Further, on the front surface of the socket 40, a ring-shaped inner protrusion 45 for pressing the end portion 14 of the corrugated pipe 10 to the edge positioned in the radially inner direction protrudes and is formed in the longitudinal direction of the socket. .

Between the inner and outer protrusions 44 and 45, an annular recess 46 formed in the hexagonal head 41 is formed, and the recess 46 forms a part of the space 47. The inner protruding portion 45 has a smaller protruding length than the outer protruding portion 44, and the upper edge 45a contacting the recess 46 is formed in a square shape, and the upper edge is approximately viewed to achieve a 90 ° angle. Is formed.

The upper edge 45a of the inner protruding portion is in contact with the end portion 14 of the corrugated pipe formed so as to face the inner portion 31 of the clamping ring 30 upon completion of the coupling of the corrugated pipe connecting device, and the end portion 14 is brought into contact. It is strongly pressed to the inner side 31 side of the clamp ring.

In addition, the inner protrusion 45 protrudes and is formed in the radially inner direction from the inner circumferential surface of the socket 40, while protruding in the radially inner direction while being rounded to an obtuse curved portion from the inner circumferential surface of the socket 40, the inner side A thick reinforcing portion 45b is formed on the connecting portion of the inner circumferential surface of the protruding portion 45 and the socket 40 so that the inner protruding portion 45 is the reinforcing portion 45b even when a significant external impact is applied to the corrugated pipe connecting device. By preventing bending in the opposite direction of the corrugated pipe 10, the sealing effect is maintained.

In addition, as illustrated in FIG. 5, the space portion C2 is formed to slightly enter the radially outward direction inside the female screw 23 of the nut 20 screwed to the male screw 42 of the socket 40. , When an external impact is applied to the nut or socket, since the impact is absorbed by the space portion C2, deformation around the clamping ring 20 is prevented or reduced to maintain the sealing effect.

The coupling sequence of the corrugated pipe connecting device according to the first embodiment of the present invention configured as described above will be described with reference to FIGS. 8A to 8F.

First, as shown in Figure 8a, before the corrugated pipe connecting device according to the present invention is installed in the field, first interposed a clamping ring 30 between the nut 20 and the socket 40, and then the nut 20 and By tightening (rotating) at least one of the sockets 40 to rotate the nut 20 and the socket 40 first, one side 33 of the clamping ring 30 is attached to the outer protrusion 44 of the socket. It is in contact with the front end, and the upper edge 35 located above the other side of the clamping ring 30 is in contact with the first inclined surface 25a of the nut.

At this time, the clamping ring 30 is not compressed or expanded in the radial direction, as shown in Figure 9, both ends (36, 37) of the clamping ring 30 maintain the separation distance (d1) at the time of manufacture . Therefore, the operator can easily be placed between the nut 20 and the socket 40 without having to expand the clamping ring 30 in order to insert it into the bone of the spiral tube.

That is, in the first defect step of the nut and the socket shown in FIG. 8A, the clamping ring 30 is maintained without change during manufacturing.

Then, as shown in 8b, the primary screw-coupled nut 20 and at least a portion of the outer circumferential surface of the socket 40 are adhered to the tape 60 to seal the seal between the nut 20 and the socket 40 As possible.

In the above, the tape 60 may be adhered so as to completely or partially wrap the boundary between the nut 20 and the socket 40 along the circumferential direction, and the longitudinal direction of the nut 20 and the socket 40 may be applied. Therefore, it may be adhered to cover the outer circumferential surface locally.

Meanwhile, a cut line 61 is formed on the tape 60 along a boundary line between the outer circumferential surfaces of the nut 20 and the socket 40, and when the nut 20 and the socket 40 are tightened, the cut line 61 Since it is easily ruptured, the nut 20 and the socket 40 can be tightened relatively easily, and the perforation line 61 can be formed by a plurality of small pores.

As shown in Figure 8c, when the operator pushes one side of the corrugated pipe 10 into the nut 20 toward the socket 30, the inner side 31 of the clamping ring 30 has a bottom face of the corrugated pipe 14 ), And the end portion 14 of the corrugated pipe is close to the inner protrusion 45 of the socket.

On the other hand, the clamping ring 30 is formed so that the inner diameter of the bottom surface of the inner portion 31 is slightly smaller than the outer diameter of the mountain 14 'of the corrugated pipe, so that a slight force is applied to the corrugated pipe 10 to be inserted into the clamping interior. .

As shown in FIG. 8D in this state, when the nut 20 and / or the socket 40 are rotated to further tighten both, the clamping ring 30 is a second seat portion along the first inclined surface 25a of the nut. The inner portion of the clamping ring 30 starts to be inserted into the bone 12a formed on one side of the corrugated pipe while being compressed in the radially inner direction until reaching (27), and the end portion 14 of the corrugated pipe is the socket 40 As it comes into contact with the inner protruding portion 45, it starts to be compressed, and the tape 60 starts to rupture along the perforation line 61.

8A to 8D, one side 33 of the clamping ring 30 remains in contact with the front end of the outer protrusion 44 of the socket 40.

When the nut 20 and the socket 40 are further tightened in the state of FIG. 8D, as shown in FIG. 8E, the tape 60 completely ruptures along the perforation line 61, and the clamping ring 30 is the second While being guided to the first sheet portion 28 via the sheet portion 27 and the second inclined surface 25b, it is further compressed in the radially inner direction along the second inclined surface 25b to the bone 12a formed at one side of the corrugated pipe. Is inserted. At this time, the clamping ring 30 starts to enter the space portion 47 formed in the radially inner direction of the outer protruding portion 44, and the outer protruding portion 44 is between the clamping ring 30 and the second sheet portion 27. It begins to enter the niche.

In addition, the end portion 14 of the corrugated pipe is compressed in the direction of the clamping ring 30 by the inner protrusion 45.

When the nut 20 and the socket 40 are further tightened in the state of FIG. 8E, as shown in FIG. 8F, the clamping ring 30 is compressed to the socket 40 side by the stepped portion 24 of the nut, thereby clamping the ring At least one side 33 of 30 enters the recess 46 of the socket.

In addition, the outer protruding portion 44 of the socket is seated on the second sheet portion 27, and the upper edge 45a of the inner protruding portion further presses the end portion 14 of the spiral tube toward the clamping ring 30, and the nut ( The inner circumferential surface of 20) and the outer circumferential surface of the clamping ring 30 and the upper edge 45a of the inner protrusion of the socket and the inner portion 31 of the clamping ring 30 are completely sealed.

On the other hand, as described above, the upper edge 45a of the inner protruding portion 45 is formed in an angle of approximately 90 °, and the inner portion 31 of the clamping ring opposite thereto is formed as a curved portion, so that the upper edge 45a is a corrugated pipe By contacting the end portion 14 of the line, the pressing force is concentrated at the line contacting portion, so that the end portion 14 of the corrugated pipe can be pressed more strongly with less force, thereby improving the sealing effect.

The screwing of the socket 40 and the nut 20 from the state of FIG. 8E to the completion of the coupling of FIG. 8F is referred to as a secondary screwing, and when the secondary screwing, the clamping ring 30 is connected to the inner protrusion 45 The contact is released, and the groove 46 corresponding to the space is entered.

On the other hand, the clamping ring 30 is compressed in the radially inner direction by the first and second inclined surfaces 25a and 25b in the bonding process, as shown in FIGS. 9 and 10, the separation of both ends 36 and 37 The distance is reduced from d1 to d2, and the separation distance d2 is almost zero when the bonding is completed.

In addition, the coupling state of FIG. 8f is a state in which the screwing of the nut 20 and the socket 40 is completed, and a corrugated pipe connection device of the state shown in FIG. 8f is installed and used in the field, and the outer protrusion 44 of the socket is used. Since there is a slight space portion 27 'between the end of the end and the second inclined surface 25b, disassembling or replacing parts of the corrugated pipe connecting device when there is a risk of fluid leakage while using the corrugated pipe connecting device Without simply tightening the nut 20 further, the outer projecting portion 44 is moved to the second inclined surface 25b side and inserted into the space portion 27 ', so that the sealing effect can be further improved.

In addition, the thickness of the outer protrusion 44 and / or the inner diameter of the second sheet portion 27 is formed to be inclined to gradually decrease toward the movement direction of the outer protrusion 44, the outer protrusion 44 is the second sheet In addition to being easily inserted between the portion 27 and the outer circumferential surface 36 of the clamping ring, the clamping ring 30 is arranged in a vertical direction with respect to the central axis of the corrugated pipe 11, so that the sealing effect can be increased.

On the other hand, in the corrugated pipe connecting device according to the present invention, when the coupling is completed, the inner face 24a of the nut is at least two acids 13a of the at least two corrugated pipes in the opposite direction from the clamping ring 30 to the socket 40, Since it extends in the longitudinal direction so as to contact 13b), even if an external impact or installation location of the corrugated pipe is changed to the corrugated pipe connecting device, the sealing portion around the clamping ring 30 remains deformed even if bending occurs in the corrugated pipe. This is prevented. In addition, since a predetermined space portion 27 ′ is formed between the end of the outer protruding portion 44 and the second inclined surface 25b, an impact is absorbed by the space portion when an external impact occurs. In addition, since the clamping rings 30, inner and outer protrusions 45 and 44 having a large influence on the sealing are disposed to one side toward the corrugated pipe 10 in the nut 20 body, external impact is applied to the center of the nut body. Even when applied directly, the clamping ring, the inner and outer protrusions, etc. are less deformed, and the sealing effect is maintained.

11 to 13f shows a second embodiment of a corrugated pipe connection device according to the present invention.

Referring to FIG. 11, a second embodiment of a corrugated pipe connecting device according to the present invention includes a corrugated pipe 10, a nut 20, a clamping ring 30, and a socket 40 as in the first embodiment.

If the second embodiment of the present invention is different from the first embodiment, it will be described as follows.

9 and 10, the inner projecting portion 45 'formed on the front surface of the socket 40 does not contact the end portion 14 of the corrugated pipe. It is formed in the radially inner direction than the inner protrusion 45.

In addition, a ring-shaped packing member 50 not included in the first embodiment is inserted into the groove 46 'formed between the outer protrusion 44 of the socket and the inner protrusion 45', and the socket 40 When the second screw of the nut and the second screw is engaged, one side surface 33 of the clamping ring 30 and the end portion 14 of the corrugated pipe are brought into contact with the packing member 50, so that the clamping ring 30 is a packing member 50 ) And the packing member 50 compresses the end portion 14 of the corrugated pipe to the clamping ring 30 side.

On the other hand, the packing member 50 is preferably made of a synthetic resin or soft metal having excellent heat resistance, high mechanical strength, and excellent corrosion resistance and abrasion resistance.

In addition, a protrusion 46a is formed on the surface of one side of the socket forming the recess 46 'of the socket into which the packing member 50 is inserted, so that the packing member 50 is compressed or corrugated by the packing member 50 When the end portion 14 of the crimping is compressed, the packing member 50 is prevented from flowing in place by the protrusion.

In particular, in the second embodiment of the present invention, since the front surface of the packing member 50 is in close contact with not only one side 33 of the clamping ring 30 but also the end portion 14 of the corrugated pipe, the sealing effect is obtained. Improves.

The second embodiment of the present invention is the same as that of the first embodiment except for the formation positions of the packing member 50 and the inwardly projecting portion 45 ', so that further description of the configuration of the second embodiment is omitted.

13A to 13F are views showing a method of combining the second embodiment of the present invention, respectively, corresponding to FIGS. 8A to 8F of the first embodiment, and the combining order of the second embodiment is the same as the first embodiment. Here, further explanation is omitted.

The embodiments of the corrugated pipe connection device according to the present invention have been described above in detail with reference to the accompanying drawings. However, the present invention is not limited by the above-described embodiments, and it is natural that various modifications and equivalent implementations by a person skilled in the art to which the present invention pertains are possible.

10: corrugated tube 14: end
20: nut 25a: first slope
25b: second slope 28: first sheet portion
30: clamping ring 40: socket
44: outer protrusion 45: inner protrusion
46: recess groove 47: space
50: packing member 60: tape
61: perforation

Claims (5)

A corrugated tube in which bones and mountains are alternately formed,
A nut into which one side of the corrugated pipe is inserted,
A clamping ring through which an inner part is inserted into the bone of the corrugated tube,
It includes a socket screwed to the nut,
The outer protrusion is formed on the front surface of the socket,
When the primary screwing of the nut and the socket, one side of the clamping ring is in contact with the front end of the outer protrusion,
When the second screwing of the nut and the socket is screwed, the outer protruding portion is inserted between the inner circumferential surface of the nut and the outer circumferential surface of the clamping ring, and the clamping ring is compressed in a radially inner direction so that the inner portion of the clamping ring is a valley of the corrugated pipe Inserted into, the end of the corrugated pipe is pressed between the front surface of the socket and the clamping ring,
The socket includes a fastening part screwed with the nut and an exposed part extending in a direction opposite to the clamping ring from the fastening part, and the inner circumferential surface of the exposed part is formed to enter a radially outer direction than the inner circumferential surface of the fastening part. Corrugated pipe connector. According to claim 1,
The shortest thickness of the exposed portion is a corrugated pipe connecting device that is less than or equal to the thickness of the fastening portion According to claim 1,
The socket is a corrugated pipe connecting device extending from one side of the exposed portion in a direction opposite to the fastening portion to be connected to a predetermined joint. According to claim 3,
The inner circumferential surface of the exposed portion is formed to enter the radially outward direction than the inner circumferential surface of the extension portion, so that a ring-shaped space portion is formed between the fastening portion and the inner circumferential surface of the extension portion. A corrugated tube in which bones and mountains are alternately formed,
A nut into which one side of the corrugated pipe is inserted,
A clamping ring through which an inner part is inserted into the bone of the corrugated tube,
It includes a socket screwed to the nut,
The projecting in the direction of the clamping ring on the front surface of the socket, the outer projection is formed to be inserted between the inner peripheral surface of the nut and the outer peripheral surface of the clamping ring,
The socket includes a fastening part screwed with the nut and an exposed part extending in a direction opposite to the clamping ring from the fastening part, and the inner circumferential surface of the exposed part is formed to enter a radially outer direction than the inner circumferential surface of the fastening part. Corrugated pipe connector.

Images