KR100324124B1 - Tube connecting device for metal tube body - Google Patents

Abstract

The present invention relates to a pipe connecting device of a metal pipe which simultaneously performs mechanical and chemical sealing joints suitable for copper pipe connection used as a fluid supply pipe such as cold and hot water, '-' shaped, 'L' shaped, ' A T'-shaped connector body, a tightening nut screwed into a male thread formed on the outer peripheral surface of each connecting end of the connector body, and an inclined inner peripheral surface formed at the end of the connecting end of the connector body by a screw tightening force of the tightening nut; In the pipe connecting device consisting of a packing for tightly contacting the outer circumferential surface of the copper tube and preventing the leakage of fluid and a pressing ring for pressing the outer circumferential surface of the copper tube while tightening toward the center of the copper tube, protruding toward the center inside the connector body. And a protruding inner diameter portion having an inner diameter smaller than the inner diameter of the connecting end, and an end portion of each of the protruding inner diameter portions and an inner end portion of the connecting end. The stepped portion formed therebetween is formed to be inclined backward toward the opening of the connecting end to form a reverse slope stepping into the insertion end of the copper tube, and also formed between the inner peripheral surface of each connection end of the connector body and the insertion end outer peripheral surface of the copper tube. The invention is characterized by having an excellent anaerobic sealing binder in filling the gap with an excellent effect on the prevention of fluid leakage.

Description

Tube connecting device for metal tube body

The present invention relates to a pipe connector for connecting the metal pipe used in the pipe line for transporting fluid, in particular to a metal pipe body that performs a mechanical and chemical sealing joint at the same time to be suitable for copper pipe connection used as a pipe for cold and hot water supply It relates to a pipe connecting device.

In general, as a connection method of a metal pipe for transporting fluid, a pipe is inserted into an inner diameter of a pipe and welded or a screw is machined at one end of a metal pipe and screwed with another connection member or a large diameter pipe is used. In connection with the high pressure pipe, a connection flange is used.

In case of copper pipe widely used for supplying cold and hot water among metal pipes, because the thickness is not thin and the material is not strong, the pipe can not be formed on the outer circumference of the copper pipe.

In the prior art, the most widely used pipe connecting device is a connector body of a '-' shape, an 'L' shape, a 'T' shape, and the like, and a screw thread is formed on a male screw formed on the outer peripheral surface of each connection end of the connector body. Consists of a fastening nut and a packing ring which is interposed between the connection end of the connector body and the fastening nut and a crimping ring for crimping the outer circumference of the copper pipe, and connecting the copper pipe with a conventional pipe connection device having such a configuration. Insert the copper tube into the inner circumferential surface of the main body, and then screw the tightening nut to press the packing when the pressing ring is forced into the connecting end of the connector body so that the packing is in close contact with the inner circumferential surface of the connecting end and the outer circumferential surface of the copper tube. On the other hand, while the compression ring is tightened toward the center of the copper tube is configured to strongly compress the outer periphery of the copper tube to hold the copper tube. It can control.

However, in the conventional pipe connection device as described above, since the insertion end of the copper pipe is simply inserted into the inner circumferential surface of the connector body intimately, the water pressure flowing through the inside of the copper pipe is formed in the gap formed between the insertion end of the copper pipe and the inner circumferential surface of the connector body. When water pressure is applied to the gap between the insertion end of the copper tube and the inner circumferential surface of the connector body, the insertion end of the copper tube contracts toward the center. Therefore, the outer end surface of the copper tube is inserted by the tightening force of the tightening nut. When the adhesive force of the packing is weakened, a gap is generated and water pressure is leaked. In addition, when the copper tube inserted into the inner circumferential surface of the connector body contracts or expands due to cold or hot water flowing therein. There is a problem in that the above-mentioned gap appears more large.

In addition, to solve the problems of the pipe connection device as described above is a pipe connection device for sealing by filling the anaerobic sealing binder between the inner peripheral surface of the connector body and the outer peripheral surface of the copper tube is disclosed in Korean Patent Laid-Open No. 2744 No. 98-3128 Although it was introduced as an arc, the disclosed patent also prevents the insertion end of the copper tube inserted into the connector body from contracting toward the center, so that the hydraulic pressure flowing inside the copper tube acts on the outer peripheral edge of the copper tube. When the insertion end of the copper tube contracts and expands due to the cold or hot water fluid, or the anaerobic sealing binder filled in the inner peripheral surface of the connector end and the outer peripheral surface of the insertion end of the copper tube is damaged, thereby preventing its function. In addition, in the case of the above-described published patent, the inside of the connection end inside the connector body The stopper structure, which has a smaller inner diameter and the insertion end of the copper tube is in close contact, and the machining work for forming the grooves for installing the packing on both sides of the stopper structure is very difficult and difficult, resulting in high processing cost of the connector body and high production cost of the connector body. It is pointed out as a problem, and when the metal tube is cut, the cutting surface becomes sharp, and when the metal tube is inserted into the connector body, the packing inserted in the grooves formed on both sides of the stopper structure is damaged. It is pointed out as a problem.

The present invention has been made in view of the above-described problems in the prior art, and forms a shrinkage preventing jaw that prevents the insertion end of the copper tube to be connected to the center of the connector body, which is the main body of the pipe connecting device, from contracting toward the center. The connector body prevents the pressure of the fluid flowing inside the copper tube from acting as an outer circumferential surface of the copper tube and prevents contraction or expansion of the entire insertion end of the copper tube inserted into the joint of the connector body. The invention was invented for the purpose of allowing the tube and tube to be initially connected for a long time.

The present invention as a means for achieving the above object,

A connector nut having a '-' shape, an 'L' shape, and a 'T' shape, a fastening nut screwed into a male screw formed on an outer circumferential surface of each connection end of the connector body, and the connector by a screw tightening force of the tightening nut. In the pipe connection device consisting of the inclined inner peripheral surface formed on the tip of the connection end of the main body and the packing to prevent the leakage of fluid while being in close contact with the outer peripheral surface of the copper tube and the pressing ring for pressing the outer peripheral surface of the copper tube while tightening toward the center of the copper tube,

A protruding inner diameter portion formed to protrude toward the center of the connector body and having an inner diameter smaller than the inner diameter of the connecting end;

An inclined stepped step formed between the end of each of the protruding inner diameter parts and the inner end of the connection end is inclined backward toward the opening of the connection end and entered into the insertion end of the copper tube;

The anaerobic sealing binder is filled in a gap formed between the inner peripheral surface of each connecting end of the connector body and the outer peripheral surface of the insertion end of the copper tube.

1 is a partial cross-sectional view of one embodiment for explaining the present invention.

2 to 3 is an enlarged view of a portion A of Figure 1,

2 is a state in which a metal tube is inserted into the connector body,

3 is a state in which the metal tube inserted into the connector body is fastened.

※ Explanation of code for main part of drawing

1 connector body 2 projecting inner diameter

3: copper tube 4: packing

5: crimping ring 6: tightening nut

11: connecting end 12: male thread

13: inner peripheral surface 14: inclined surface

21: reverse slope step 31: insertion end

51: ring projection 61: locking jaw

If described in detail according to the accompanying drawings an embodiment of the present invention.

1 is a partial cross-sectional view of an embodiment for explaining the present invention, Figure 2 is a state in which a metal tube is inserted into the connector body, Figure 3 is a view showing a state of fastening the metal tube inserted into the connector body,

Reference numeral 1 denotes a connector main body, and an external thread 12 is formed on an outer circumferential surface of each connection end 11 of the connector main body 1, and a tip of an inner circumferential surface 13 of the connection end 11 is external. It is formed with an inclined surface 14 which extends toward.

Inside the connector body 1, a protrusion inner diameter portion 2 is formed to have an inner diameter smaller than that of the inner circumferential surface 13 of the connection end 11, and the stepped portion is formed at each end of the protrusion inner diameter portion 2. Is formed as a reverse inclined step (21) protruding obliquely in reverse toward the outside from the end of the inner peripheral surface (13).

When the reverse slope step 21 is inserted into the connection end 11, the copper tube 3 is inserted into the insertion end 31 of the copper tube 3 to come into contact with the inner circumference of the insertion end 31. do.

At the tip of each connecting end 11 of the connector main body 1, a packing 4 which is in close contact with the inclined surface 14 and a crimping ring 5 which is partially cut off are assembled in sequence, and an outer circumferential surface of the crimping ring 5 is It is formed to be inclined at the same inclination angle as the inclined surface 14, and the ring-shaped protrusion 51 is formed on the inner circumferential surface to increase the pressing force of the outer circumferential surface of the copper tube 3.

A locking jaw 61 for pressing the pressing ring 5 is formed on the tightening nut 6 screwed to the male screw 12 formed on the outer circumferential surface of each connecting end 11 of the connector main body 1.

In addition, the gap t formed between the inner peripheral surface 13 of the connection end 11 of the connector main body 1 and the outer peripheral surface of the copper tube 3 is filled with an anaerobic sealing binder 7, wherein the gap t is 0.03 mm to 0.5 mm, and more preferably 0.04 mm to 0.2 mm, and the anaerobic sealing binder (7) has a property of curing by chemical reaction between metal and metal in an air-free space. As a material, the liquid is methacrylate resin (Methacrylate resin) as a main component to be applied or filled in liquid form alone or with an active initiator trichloride, wherein the application filling means of the anaerobic sealing binder (7) is It is permeated into the gap (t) by the capillary action for this purpose, the viscosity of the binder is 10 ~ 30cps is good. In addition, when the anaerobic sealing binder 7 is applied in advance to the outer circumferential surface of the copper tube 3, it is preferable to have a viscosity of about 400 to 550,000 cps.

In addition, when the gap (t) is too large than the set value, the air penetrates and it is difficult to expect anaerobic action. On the contrary, when the gap (t) is too small, the coating layer of the anaerobic sealing binder (7) becomes too thin to expect the desired purpose. Since it becomes difficult, the clearance t should be kept at the minute spacing as mentioned above.

Meanwhile, in the drawing, the connector main body 1 is configured in an '-' shape, but the same applies to the connector main body 1 configured in an 'L' shape or a 'T' shape.

Referring to the operation of the present invention configured as described above is as follows.

Loosen and remove the tightening nut (6) from each connecting end 11 of the connector body (1), and then the separated tightening nut (6), the pressing ring (5) and the packing (4) the copper pipe (3) The copper tube 3 is inserted into the connecting end 11 in a state of being fitted in advance on an outer circumference thereof (see FIG. 2).

As described above, the insertion end 31 of the copper tube 3 inserted into the connection end 11 of the connector body 1 is in close contact with the reverse slope step 21 of the protruding inner diameter part 2 formed therein. Since the inner diameter of the protruding inner diameter portion 2 is smaller than the inner diameter of the copper tube 3, the protruding end portion of the reverse slope step 21 enters the inside of the insertion end 31 of the copper tube 3. A fine gap t is formed between the inner circumferential surface 13 of the connection end 11 and the outer circumferential surface of the copper tube 3.

When the liquid anaerobic sealing binder 7 is injected into the outer circumference of the copper tube 3 in the above state, the anaerobic sealing binder 7 is filled in the gap t by capillary action, or the anaerobic sealing binder (7) is applied to the inner peripheral surface 14 of the connection end 11 of the connector main body 1 and the outer peripheral surface of the insertion end 31 of the copper tube 3, and the above-described copper tube 3 is connected to the connector main body 1 (11), and then the packing 4 is brought into close contact with the inclined surface 14 formed at the tip of the inner circumferential surface 13, and then the pressing ring 5 is brought into close contact with the packing 4, and the tightening nut ( 6) When the screw is tightened to the male screw 12 of the connecting end 11, when the locking jaw 61 presses the pressing ring 5, the pressing ring 5 is directed toward the center by the inclined surface 14. The packing 4 is compressed while tightening toward the outer surface of the inclined surface 14 and the copper tube 3 as the pointed tip of the packing 4 enters the gap t. Compressed to seal the gap (t) to be airtight, by the airtight action of the packing (4), the gap (t) is an air-free anaerobic atmosphere to harden the anaerobic sealing binder (7), In addition, the pressing ring 5 tightened in the center direction by the tightening force of the tightening nut 6 compresses the packing 4 and simultaneously compresses the outer circumferential surface of the copper tube 3 while protruding the inner tube 3. As it is pushed toward the) side, the insertion end 31 of the copper tube 3 is strongly pressed against the reverse slope step 21, and the effect of being expanded by the inclined surface of the reverse slope step 21 appears. As described above, the reverse sloping step prevents the action of the pressing ring 5 pressing the outer circumferential surface of the copper tube 3 and the insertion end 31 of the copper tube 3 from being pressed any further. By the action of (21) from the crimping ring (5) described above the inclined step (21) The part inserted between) becomes the compressive stress.

Therefore, when the fluid flowing inside the copper tube 3 is cold water or hot water, even if the copper tube 3 itself contracts or expands due to temperature change, the compressive stress is given as described above, that is, the connection end 11. The portion between the crimping ring 5 and the reverse slope step 21 is inserted therein so that contraction and expansion do not appear. Therefore, the portion connected to the connecting end 11 of the connector body 1 is connected to the copper tube 3. ) Is a feature that remains in the state of first connection.

In addition, the reverse inclined stepped jaw 21 formed between the protruding inner diameter part 2 formed in the connector main body 1 and the inner circumferential surface 13 of the connecting end 11 is inside the insertion end 31 of the copper tube 3. Since the insertion end 31 of the copper tube cannot be contracted toward the center because it is in a state of entering, the anaerobic sealing binder 7 filled and cured between the insertion end 31 of the copper tube and the inner circumferential surface 13 of the connecting end 7 ) Maintains the state of sealing the gap (t) as it is, so that the pressure does not penetrate into the gap (t) so that the connector body (1) and the copper tube (3) to maintain a long state of sealing connection It shows the characteristic to become.

According to the present invention as described above, when inserting the copper pipe to each connecting portion of the connector body, when the screw tightening the tightening nut, the pressing ring tightened toward the center presses the outer peripheral surface of the copper pipe while pushing the copper tube itself towards the connection end when the copper tube is inserted Since the end is not pushed further in the state of being in close contact with the reverse slope of the protruding inner diameter portion formed inside the connector body, the compressive stress is applied to the insertion end of the copper tube within the range between the crimping ring and the reverse slope. It is effective to prevent the phenomenon that the insertion end of the copper tube contracts or expands even when the temperature of the cold / hot water fluid flowing through the copper tube or the external temperature changes, and also the protrusion inner diameter formed inside the connector body. Reverse slope step enters the insertion end of the copper tube and the insertion end of the copper tube itself contraction toward the center Since the present invention has the effect of blocking the bar in advance, the present invention can maintain the state at the time of the first connection even after a long time after connecting the metal tube to each connecting end of the connector body to prevent the leakage of fluid It is the invention which shows the outstanding effect.

Claims (2)

A connector body 1 having a '-' shape, an 'L' shape, and a 'T' shape, and protrudes toward the center in the interior of the connector body to have an inner diameter smaller than the inner diameter of each connection end 11 of the connector body. A protruding inner diameter portion 2, a tightening nut 6 screwed to a male screw 12 formed on the outer circumferential surface of each connector end of the connector main body, and a screwing end of the connector nut Pipe connection consisting of a packing (4) to be in close contact with the inclined surface 14 and the outer peripheral surface of the copper tube (3) formed in the to prevent the leakage of fluid and a pressing ring (5) for pressing the outer peripheral surface of the copper tube while tightening toward the center of the copper tube In the apparatus, Each step formed between the end of each of the protruding inner diameter parts 2 formed in the connector main body 1 and the inner end of each of the connection ends 11 defines an opening of the connection end 11. It is formed to be inclined in the reverse direction to extend the insertion end 31 of the copper tube (3) inserted into each connection end to the outside while forming an inclined stepped jaw 21 to enter into the insertion end 31 Pipe jointing device for metal pipes. The method of claim 1, An anaerobic sealing binder is filled in the gap formed between the inner peripheral surface of each of the connector bodies and the outer peripheral surface of the insertion end of the copper tube.