KR20210080131A - Fixing parts for separation-proof restraint of pipe joint - Google Patents

Abstract

The present invention relates to a fixing unit for a separation-proof press wheel, which is a part attached to the separation-proof press wheel used for connecting pipes, and which is able to fix an insertion pipe inserted into a central hole of the separation-proof press wheel from being separated from the central hole, comprising: a presser bolt which includes a protruding head formed on one end to be held and rotated, a hemispherical press head with a convex center formed on the other end, a screw unit formed on the middle part to be supported by the press wheel, and a hanging bump formed between the press head and the screw unit, whose thickness is changed; and a presser which has a circular arc-shaped contact surface to come in contact with an outer surface of the insertion pipe, and in which the contact surface has a press blade formed by being extended in a circumferential direction of the insertion pipe, and which has a press surface formed on the opposite surface to the contact surface, on which the press head is pressed, and in which the press surface is inclined in a longitudinal direction of the insertion pipe, and which has a hanging unit formed at the position overlapped with the position of the hanging bump to allow the hanging bump to move in the longitudinal direction of the insertion pipe while being hung. As the presser moves in the longitudinal direction of the insertion pipe, the degree of the presser of being pressed on the insertion pipe can be changed. According to the present invention, the use of the fixing unit for the separation-proof press wheel is able to greatly improve the separation-proof function which prevents the insertion pipe from being separated from the press wheel.

Description

{Fixing parts for separation-proof restraint of pipe joint}

The present invention relates to a pipe connecting device that requires separation prevention, and more particularly, to a stopper for a separation prevention pressure wheel for fixing a pipe to be connected by being inserted into a socket. The locking member for the separation prevention pressure wheel is attached to the separation prevention wheel, and serves to fix the insertion tube so that the insertion tube inserted into the central hole of the separation prevention pressure wheel does not escape from the separation prevention pressure wheel.

The most commonly used connection method for connecting cast iron pipes, synthetic resin pipes, and coated steel pipes is the socket connection method. In the socket connection method, a socket is formed on one end of the two tubes that meet and are connected, and a spigot is formed on the other end to be inserted into the socket. A fastener is attached to the release prevention pressure wheel to hold and fix the insertion tube with the insertion hole.

A pipe connection structure using a separation prevention pressure wheel will be described with reference to FIG. 1 attached thereto. The socket 11 is formed at one end of the socket tube 1, and one end of the insertion tube 2 to be connected is inserted into the socket. A sealing ring (3) fills the gap between the socket and the cannula. The release prevention pressure wheel 4 applies pressure to the sealing ring to secure airtightness in the tube connection part, and serves to prevent the insertion tube from being separated from the socket. The insertion tube inserted into the central hole 40 of the separation prevention pressure wheel is prevented from being separated by the fixing member made of the indenter bolt 5 and the indenter 6 . The spike formed on the indenter penetrates the outer surface of the cannula and fixes the cannula. However, in the conventional case, there is a problem in that the cannula can be detached as the spike is damaged or the outer surface of the cannulated with the spike is damaged. In the case of a plastic tube or a coated steel tube with a weak surface of the tube, the problem of deviation of the inserted tube may become more serious.

The present invention has been devised to solve the above problems, and provides a structure of a fixture that can more firmly hold the insertion tube inserted into the central sphere of the anti-separation pressure wheel. By improving the structure of the fixing member made of the indenter bolt and the indenter, the structure in which the indenter can hold the insertion tube with greater force is provided as the insertion tube moves in the direction of withdrawal from the pressure wheel. It is an object of the present invention to provide a structure of a fixture for fixing the insertion tube with greater force by the indenter holding the insertion tube according to the movement of the insertion tube.

The fixing member for the separation prevention pressure wheel according to the present invention for realizing the above object is a part attached to the separation prevention pressure wheel used for connection of the pipe, and the insertion tube inserted into the central hole of the separation prevention pressure wheel does not fall out from the central opening by fixing it so as not to; A screw portion capable of being supported by the pressure wheel is formed in the middle portion, a protruding head capable of being held and rotated is formed at one end, and a hemispherical pressure contact head with a convex center is formed at the other end, and the screw portion and the pressure contact an indenter bolt having a locking jaw whose thickness is changed between the heads; An arc-shaped contact surface that can be in close contact with the outer surface of the insertion tube is formed, and a compression blade extending in the circumferential direction of the insertion tube is formed on the contact surface, and on the opposite side where the contact surface is formed A pressure contact surface to which the pressure contact head is pressed is formed, and the pressure contact surface is inclined in the longitudinal direction of the insertion tube, and the locking jaw of the indenter bolt may be caught at a position overlapping the pressure contact surface, and the locking jaw is The locking jaw is formed to include an indenter having a locking portion that can move in the longitudinal direction of the insertion tube in the hooked state; As the indenter moves in the longitudinal direction of the insertion tube, the degree to which the indenter is pressed against the insertion tube may change.

In addition, the pressure contact surface may be formed such that a concave groove in the center is formed in the longitudinal direction of the insertion tube so that the center of the pressure contact head does not touch the pressure contact surface.

Also, in the indenter bolt, an outer diameter of the screw portion may be larger than an outer diameter of the protruding head.

In addition, the cross-section of the compression blade may have a triangular shape having a compression surface as a base, and the triangular shape may not be an isosceles triangle.

Also, the diameter of the locking jaw may be gradually changed at the point where it meets the locking part.

The main problem solving means of the present invention as described above will be described more specifically and clearly through examples such as 'specific contents for the implementation of the invention' or the accompanying 'drawings' to be described below, at this time In addition to the main problem solving means as described above, various problem solving means according to the present invention will be further presented and described.

According to an embodiment of the present invention, as the insertion tube inserted into the release prevention pressure wheel is about to fall back, the indenter holding the insertion tube holds the insertion tube with greater force, thereby preventing the removal of the insertion tube. Whereas the conventional method puts a spike on the surface of the tube and the embedded spike holds the tube, in the present invention, the compressed surface of the indenter in close contact with the outer surface of the tube wraps around the tube and holds the tube. If the conventional method fixes the tube by line contact, in the embodiment of the present invention, the tube is fixed by surface contact. The stopper for the anti-separation pressure wheel of the present invention is very effective in preventing the separation of the pipe in the connection between the plastic pipe and the coated steel pipe, the outer surface of the pipe is easily damaged.

1 is a cross-sectional view showing a pipe connection structure using a separation prevention pressure wheel.
Figure 2 is a conceptual view showing a stopper for the separation prevention pressure wheel according to the present invention.
3 is a cross-sectional view showing an indenter bolt according to the present invention.
4 is a front view, a plan view, and a cross-sectional view showing an indenter according to the present invention.
5 is a cross-sectional view showing the connection of the indenter bolt and the indenter according to the present invention.
6 is a cross-sectional view and a partially enlarged view showing the compression blade of the indenter according to the present invention.

A preferred embodiment of the present invention will be described with reference to the accompanying drawings.

In a preferred embodiment of the present invention to be described below, the inserted tube and the socket tube include not only a synthetic resin tube and a coated steel tube having a smooth surface, but also a metal tube such as a steel tube, a cast iron tube, an aluminum tube, and a stainless steel tube. In addition, the shape of the tube is not limited to the straight tube, and may include any connecting tube including a deformed tube having various shapes including a joint tube, a curved tube, a T-type tube, and the like. In an embodiment of the present invention, several embodiments of the locking member for the anti-separation pressure wheel for connecting the pipes as described above in a socket connection method will be described.

1 is a cross-sectional view showing a pipe connection structure using a separation prevention pressure wheel. In the pipe connection structure, the pressure wheel 4 presses the sealing ring 3 and fills the gap between the socket 11 and the insertion tube 2, and is connected with the socket flange 12 and the connection bolt 42 to the socket. It serves to secure the tube. The separation prevention pressure wheel 4 has a fixing member attached to it to fix the insertion tube inserted into the center hole of the pressure ring so that the insertion tube cannot escape from the center hole of the pressure ring and the socket of the socket tube. The fixing member is configured to include an indenter 6 that is closely attached to the outer surface of the insertion tube to hold the insertion tube, and an indenter bolt 5 that fixes the indenter to the pressure wheel. In general, connecting bolts are arranged at equal intervals around the central sphere of the press wheel, and indenter bolts are arranged between the connecting bolts.

Figure 2 is a conceptual view showing a stopper for the separation prevention pressure wheel according to the present invention. The fixture consists of an indenter bolt and an indenter. The position of the indenter bolt 5 is fixed by a female screw formed on the pressure wheel, and the indenter 6 is fixed to the outer surface of the insertion tube by a compression blade 62 . Figure 2 (a) shows a state in which the fixture is mounted. The compression bolt is tightened, and the indenter is sufficiently compressed on the outer surface of the insertion tube, so that the compression blade is embedded in the outer surface of the insertion tube. Figure 2 (b) shows a state in which the insertion tube is moved in the direction to exit from the central sphere of the pressure wheel by an external force. The indenter moving together with the insertion tube moved to the right based on the compression bolt, and at the same time, the indenter pushed by the compression bolt also moved downward. That is, the indenter moves in the direction in which the compression blade is formed and holds the insertion tube while tightening it with greater force. The existing fixture used for the release prevention pressure wheel has a structure in which the insertion tube is fixed to the spike formed on the indenter, and the insertion tube is easily detached if the spike is damaged or the surface of the insertion tube is damaged. In contrast, the structure proposed in the present invention is a structure in which when the insertion tube moves to escape, the indenter moves as much as the insertion tube moves, and the entire compression surface formed on the indenter grabs and fixes the tube with greater force. Compared to the conventional fasteners that hold the tube with a line contact called a spike, in the present invention, the entire pressing surface of the indenter fixes the tube with a surface contact that holds the tube. In addition, the compression blade in the present invention serves to fix the indenter to the insertion tube so that the indenter can move with the insertion tube rather than the role of holding and fixing the insertion tube.

3 is a cross-sectional view showing an indenter bolt according to the present invention. A threaded portion 54 is formed in the middle portion of the indenter bolt. A female screw corresponding to the screw portion is formed on the pressure wheel 4, so that the indenter bolt can be fixed to the pressure ring by the screw portion. A protruding head 55 is formed at one end of the indenter bolt. The protruding head may have a polygonal outer surface so that it can be gripped and rotated, or a hexagonal wrench groove may be formed in the center. At the opposite end of the protruding head, a hemispherical pressure contact head 51 with a convex center is formed. The pressure welding head serves to press the pressure contact surface formed on the indenter. Since the pressure contact head rotates in a state in contact with the pressure contact surface, it is preferable to have a hemispherical shape with a convex center. A locking jaw 52 having a change in thickness is formed in a portion adjacent to the pressure welding head. The locking jaw is caught by the locking portion 67 formed on the indenter and serves to catch the indenter so that it cannot escape downward.

In order to match the center of the pressure welding head and the locking portion, it is preferable to have a structure in which the outer diameter of the locking jaw portion caught on the locking portion is gradually increased. In the locking jaw having a point symmetrical shape with respect to the center and gradually increasing the outer diameter, the locking part is naturally located at the center of the pressure welding head.

The indenter bolt presses the indenter, and the indenter must be strongly pressed against the insertion tube. In order to withstand the force applied in this process, it is better to form the indenter bolt thick. When the indenter head receives a force eccentrically, there is a possibility that the place where the indenter bolt is thinned may be deformed in (a) of FIG. 3 . On the other hand, in the structure as shown in Fig. 3 (b), there is no place where the indenter bolt is thinned, so it can withstand a large force.

In a structure in which the indenter bolt is mounted in a direction in which the indenter head passes through the female screw hole to which the screw is fixed, the length of the indenter bolt can be greatly reduced. It is preferable to make the outer diameter of the indenter head portion smaller than the outer diameter of the threaded portion so that the indenter head can pass through the female screw hole. Considering the convenience of the process of forming the thread on the indenter bolt, it is better to make the outer diameter of the thread the largest compared to both ends of the indenter bolt.

4 is a front view, a plan view, and a cross-sectional view showing an indenter according to the present invention. The indenter 6 is pressed against the surface of the insertion tube by the indenter bolt 5 to hold the insertion tube. The lower surface of the indenter is formed with an arc-shaped contact surface 61 that can be in close contact with the outer surface of the insertion tube. A long compression blade 62 is formed on the contact surface in the circumferential direction of the insertion tube. When the indenter bolt is tightened, the compression blade is initially pressed against the surface of the cannula. When the compression blade is embedded in the surface of the insertion tube, the contact surface on which the compression blade is formed may be in close contact with the surface of the insertion tube. A pressure-contacting surface 65 to which the pressure-contacting head is press-contacted is formed on the upper surface opposite to which the contact surface is formed. At this time, the pressure contact surface is formed not to be parallel to the insertion tube. The pressure contact surface is inclined in the longitudinal direction of the insertion tube. When the indenter is moved by the inclination of the pressure contact surface, the indenter may be further pressed against the insertion tube. The greater the inclination of the inclination of the indentation surface, the greater the tightening of the indenter in proportion to the moving distance of the indenter. At a position overlapping with the pressure contact surface, a locking portion 67 capable of engaging the locking jaw of the indenter bolt is formed. The locking part is formed to be long in the longitudinal direction of the insertion tube, and the locking part is movable in the longitudinal direction of the insertion tube while being caught on the locking jaw of the indenter bolt. It has a structure in which the indenter is caught in the locking part and cannot escape in the direction perpendicular to the longitudinal direction of the insertion tube. On the other hand, the locking jaw may be inserted into the locking part in the longitudinal direction of the insertion tube. When the indenter is integrated with the insertion tube and moves in the longitudinal direction of the insertion tube, the locking part is not obstructed.

5 is a cross-sectional view showing a fixing member for a separation prevention pressure wheel according to the present invention. Compared to (a) of FIG. 5, (b) of FIG. 5 is a form in which the locking jaw, the locking part, and the pressing surface are improved. In (b) of FIG. 5, the locking jaw 52 is formed in a structure in which the outer diameter is gradually changed. Due to this, the center of the indenter applied to the locking part 67 may coincide with the indenter bolt 5 . In Figure 5 (b), the locking portion corresponding to the locking jaw with a change in outer diameter also has a shape that gradually increases downward, so that the positions of the indenter and the indenter bolt can be better aligned. In Figure 5 (b), the pressure contact surface 65 is formed with a concave center. The concave groove formed in the center of the pressure contact surface is preferably formed to be long in the longitudinal direction of the insertion tube. Basically, since the pressure contact surface is inclined not parallel to the insertion tube, the pressure contact surface and the pressure contact head do not meet vertically. That is, a portion slightly deviated from the center of the pressure welding head formed as a convex hemisphere and the pressure contact surface meet. In addition, the center of the pressure contact surface is concave, and when the pressure contact surface is inclined at a certain angle toward the center, the pressure contact head meets the pressure contact surface at two places off center. And the center of the indenter bolt coincides with the center of the indenter due to the indentation surface inclined toward the center. Due to the pressure contact surface inclined toward the middle part, as the pressure contact bolt is tightened or the indenter moves and the pressure contact surface is strongly pressed against the pressure contact head, the pressure contact bolt is at the center of the indenter. Both the pressure welding bolt and the indenter require considerable rigidity, and their shape is complicated, so it is desirable to form them through a cast iron process.

6 is a partial enlarged view of a cross-sectional view showing the compression blade of the indenter according to the present invention. The cross section of the compression blade 62 has a triangular shape with the contact surface 61 as the base. The angles on both sides of a triangle are different, so it is not an isosceles triangle. Since the indenter should not be able to move toward the end of the insertion tube by the compression blade, the angle a is preferably close to 90°. On the other hand, it is preferable that the indenter can move toward the end of the cannula during the process in which the indenter is closely attached to the cannula. Therefore, the angle b is preferably 60 degrees or less. That is, one side needs a near-vertical angle and the other side needs a gentle angle. As a result, it is preferable that the cross section of the compression blade is not an isosceles triangle.

As described above, the technical ideas described in the embodiments of the present invention may be implemented independently, or may be implemented in combination with each other. In addition, although the present invention has been described through the embodiments described in the drawings and detailed description of the invention, these are merely exemplary, and those of ordinary skill in the art to which the present invention pertains may make various modifications and equivalent other embodiments therefrom. It is possible. Accordingly, the technical protection scope of the present invention should be defined by the appended claims.

1: Socket tube 2: Insertion tube
3: sealing ring 4: pressure ring
5: Indenter bolt 6: Indenter
11: socket 40: central ball
51: pressure welding head 52: locking jaw
54: threaded portion 55: protruding head
61: contact surface 62: compression blade
65: pressure contact surface 67: engaging portion

Claims (5)

As a part attached to the separation prevention pressure wheel used for the connection of the tube, the insertion tube inserted into the central hole of the separation prevention pressure ring is fixed so that it does not fall out from the central hole;
A protrusion head that can be grasped and rotated is formed at one end, a hemispherical pressure welding head with a convex center is formed at the other end, and a screw portion is formed in the middle portion, and the thickness is changed between the pressure welding head and the screw portion an indenter bolt having a locking jaw formed thereon;
An arc-shaped contact surface that can be in close contact with the outer surface of the insertion tube is formed, and a compression blade extending long in the circumferential direction of the insertion tube is formed on the contact surface, and on the opposite surface where the contact surface is formed A pressure-contacting surface to which the pressure-contacting head is pressed is formed to be inclined in the longitudinal direction of the insertion tube, and a locking portion capable of moving in the longitudinal direction of the insertion tube in a state in which the locking jaw is engaged overlaps the pressure-contacting surface. formed including an indenter formed in position;
As the indenter moves in the longitudinal direction of the insertion tube, the locking member for preventing separation of the pressure wheel, characterized in that the degree to which the indenter is pressed against the insertion tube may change. The method according to claim 1,
A retaining member for preventing separation of the pressure wheel, characterized in that a concave groove is formed in the longitudinal direction of the insertion tube in the center of the pressure contact surface. The method according to claim 1,
In the indenter bolt, an outer diameter of the screw portion is larger than the outer diameter of the protruding head. The method according to claim 1,
The cross-section of the compression blade has a triangular shape having the compression surface as the base, and the triangular shape is not an isosceles triangle. The method according to claim 1,
The locking jaw is a locking member for preventing separation, characterized in that the diameter is gradually changed at the point where it meets the locking part.

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