KR100381992B1 - Pipe for rubber sleeve's diameter expansion and - Google Patents

Abstract

In order to expand the diameter of the rubber sleeve, the expansion pipe consisting of the conical head portion and the cylindrical body portion is pushed into the sleeve and the high pressure air is injected through the air hole formed on the surface so that the sleeve can be expanded by the blowing force of the air. A double pipe and expansion method for rubber sleeve expansion has been disclosed.

The present invention provides a pipe for expanding the diameter of the rubber sleeve, the outer circumferential surface of the expansion pipe is formed with a plurality of air holes for discharging high-pressure air to the outside when the air pipe is formed on the surface when the expansion pipe is fitted to the sleeve It is configured to blow at a high pressure through the air hole, it has the effect of expanding the inner diameter of the sleeve while preventing the inner surface of the sleeve and the outer surface of the pipe by the blowing pressure of the air.

Description

Pipe for rubber sleeve's diameter expansion and}

TECHNICAL FIELD The present invention relates to a sleep expansion pipe, in particular a surface of a high pressure air injected from the outside by inserting the expansion pipe into the sleeve instead of the conventional method of forcibly expanding the expansion of the rubber sleeve by pushing the conical head portion into the sleeve. It relates to a double pipe and expansion method for expanding the rubber sleeve so that the sleeve can be expanded by the blowing force of the air to be injected.

When connecting cables used to transmit power having an ultra high voltage, the connection part uses a rubber sleeve in consideration of insulation and waterproof.

FIG. 1 is a cross-sectional view of a general rubber sleeve 1 in which a through hole 2 penetrating the sleeve in the longitudinal direction is formed in the inner center of the rubber sleeve 1.

Cables are inserted in both directions of the through hole 2 of the rubber sleeve 1 to be fixed to each other. In this case, when the diameter of the cable inserted into the through hole 2 is larger than the diameter of the through hole 2, the through hole 2 needs to be expanded because it cannot be inserted into the through hole 2.

FIG. 2 is a side view showing the shape of a general sleeve expansion pipe, which is composed of a cylindrical body portion 6 and a conical head portion 7 formed to be divided with the body portion 6. have. The expansion pipe is a double pipe structure designed to join two thin pipes together and allow air to pass through the gap. In addition, the pipe 5 for sleeve expansion is comprised from a high molecular compound or a metal material.

When the sleeve expansion pipe 5 is inserted at one side of the through hole 2 of the sleeve 1, the head portion 7 of the sleeve expansion pipe 5 is fitted into the through hole 2, and the body portion 6 ) Is continuously inserted into the through hole 2, the sleeve 1 is expanded by the diameter of the body portion (6).

The expansion of the sleeve diameter in this manner damages the inner surface of the sleeve, depending on the surface condition of the expansion pipe because the inner wall of the sleeve directly contacts the expansion pipe. Damage to the inner wall of the through-hole of the sleeve generates a gap when the cable is connected to the sleeve, there is a problem that the adhesion between the inner surface of the cable and the sleeve is lowered and the insulation strength falls.

It also caused a separate need for a power unit to push the sleeve into the expansion pipe.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and the double pipe for expanding the rubber sleeve to expand the sleeve pipe without damaging the inner wall of the through-hole of the sleeve pipe by spraying high pressure air to the surface when expanding the sleeve pipe And to provide a means of expansion.

The present invention for achieving the above object in the expansion pipe for expanding the diameter of the rubber sleeve, the outer peripheral surface of the expansion pipe is formed with a plurality of air holes for discharging the high-pressure air to the outside to fit the expansion pipe to the sleeve In this case, it is characterized in that it is configured to expand the diameter of the sleeve while preventing the inner surface of the sleeve and the outer surface of the pipe from contacting by the ejection pressure of the air by ejecting the high pressure air through the air hole formed in the surface.

1 is a cross-sectional view of a typical rubber sleeve.

Figure 2 is a side view showing the shape of a typical sleeve expansion pipe.

3 is a partial cross-sectional view showing a configuration of a double pipe for expanding a sleeve pipe according to the present invention.

4 is an enlarged cross-sectional view of a portion A of FIG. 3.

<Brief description of symbols for the main parts of the drawings>

10: Pipe for expansion 20: Head part

30: air hall 40: main body

41: outer pipe 42: inner pipe

45: Teflon coating 50: coupling shaft

Figure 3 is a partial cross-sectional view showing the configuration of the sleeve pipe expansion pipe according to the present invention, the present invention is a conical shape in which the nut 55 is fixed to the inner center of the bottom and the air hole 30 is formed at a predetermined interval on the surface Head portion 20, the same diameter as the maximum diameter of the head portion 20, the double structure of the outer pipe 41 and the inner pipe 42, the air hole 30 for blowing air to the surface at regular intervals It is formed on the main body portion 40, the first nipple 25 to supply air to the inside of the head portion 20, the lower side of the main body portion 40 is formed The second nipple 45 for supplying air to the main body portion 40, the flange 60 is inserted into the lower end of the main body portion 40, the through hole 65 is formed in the center, the threads are formed at both ends And the head part 20, the main body part 40 and the flange 60 are connected by screwing. It shows that it is comprised by the coupling shaft 50 to bind.

Looking at the configuration of the present invention in detail with reference to the drawings as follows.

The conical head portion 20 has a space formed therein, the upper and lower portions are sealed, respectively, the upper center is formed with a first nipple 25 for receiving high-pressure air from the outside, the lower center The inner side of the nut 55 is fixed so that it can be screwed with the coupling shaft to be described later.

The air hole 30 is formed on the surface of the head portion 20 at regular intervals so that the interior space and air can flow, and the spiral teflon coating layer 35 is formed.

The lower portion of the cone portion of the head portion 20 is coupled to the body portion described later.

The main body portion 40 is formed in a cylindrical shape having a diameter equal to the maximum diameter of the head portion 20, and consists of an outer pipe 41 and an inner pipe 42, and includes an outer pipe 41 and an inner pipe ( An air distribution part 43 through which air can be distributed is formed between 42, so that air supplied from outside is distributed.

On the surface of the main body 40, air holes 30 are formed at regular intervals so that air is uniformly ejected, and a spiral teflon coating layer 35 is formed.

FIG. 4 is an enlarged cross-sectional view of the portion A of FIG. 3, in the form of a second nipple 45 attached to the outside of the portion where the main body 40 and the head 20 are coupled to receive high pressure air from the outside. It is shown.

The lowermost part of the main body 40 is provided with a flange 60 in which a through hole 65 is formed so that the coupling shaft 50 can pass therethrough.

Threads are formed at both ends of the coupling shaft 50 and are formed to have a length such that the threads at both ends of the shaft when the flange 60 and the main body portion 40 are protruded.

When connecting the head part 20, the main body part 40, and the flange 60, first, the coupling shaft 50 is inserted into the through hole 65 of the flange 60, and then the main body part 40 is penetrated. When screwed into the nut at the bottom of the head 20, the main body 40 and the head 20 is tightly fixed to each other.

After the body portion 40 and the head portion 20 are fixed, the nut portion 55 is coupled to the thread of the coupling shaft 50 protruding to the rear portion of the flange 60 so that the head portion 20 and the body portion 40, the flange 60 is completely fixed, and the expansion pipe 10 is completed.

Looking at the operation of the present invention configured as described above are as follows.

The head portion 20 of the expansion pipe 10 configured as described above is inserted into the through hole 2 of the sleeve pipe 1 as shown in FIG. 1, and then inserted into the insertable range.

After the head portion 20 is inserted into the insertable range, the high pressure air is introduced into the head portion 20 through the first nipple 25 when the head portion 20 is no longer inserted. Air introduced into the head portion 20 is blown out into the air hole 30 formed on the surface of the head portion 20. At this time, since the air blown out of the air hole 30 is a high pressure and continuously blown out, the diameter of the through hole 2 is expanded.

When the diameter of the through hole 2 is expanded by the blown air pressure, the expansion pipe 10 is continuously pushed into the sleeve. In addition, the air supplied through the second nipple 45 passes through the air distribution part 43 formed between the outer pipe 41 and the inner pipe 42 forming the body part 40. It is ejected to outside through).

Teflon coating layer 35 is formed on the surface of the head portion 20 and the body portion 40 to facilitate the insertion of the expansion pipe 10.

Even when the expansion pipe 10 is in contact with the through hole 65 and the insertion stops, the air continues to be supplied, so that the inner diameter of the through hole 2 is further expanded, so that the expansion pipe 10 is passed through the through hole 2. It can be inserted completely inside the.

The present invention configured as described above is to supply the high-pressure air to the expansion pipe and to supply the high-pressure air through the air hole formed on the surface of the supply pipe, so that the diameter of the sleeve is expanded by the blowing pressure of the air It is possible to prevent internal damage to the sleeve which may occur when the diameter of the sleeve is expanded.

Claims (5)

A rubber sleeve expansion method for inserting an expansion pipe into an inner side of a rubber sleeve to expand the diameter of the sleeve, wherein the expansion pipe having a plurality of air holes formed on the outer circumferential surface is inserted into the inner side of the rubber sleeve, A method of expanding a rubber sleeve, wherein the air is blown out so that the diameter of the rubber sleeve is expanded without contacting the inner surface of the sleeve and the outer surface of the expansion pipe. The nut 55 is fixed to the inner center of the lower end and has a diameter equal to the maximum diameter of the conical head portion 20 and the head portion 20 in which the air holes 30 are formed at predetermined intervals on the surface thereof. 41 and the inner pipe 42, the surface of the main body portion 40 is formed in the air hole 30 for blowing air at a predetermined interval, the upper portion of the head portion 20 is formed in the head portion ( 20) the first nipple 25 for supplying air into the inside, the second nipple 45 for supplying air to the main body portion 40 is mounted on the lower side surface portion of the main body portion 40, the main body portion 40 It is fitted to the lower end of the flange 60 is formed in the through hole 65 in the center, the screw thread is formed at both ends and the head portion 20, the main body portion 40 and the flange 60 by screwing Double pipe for expanding the rubber sleeve, characterized in that consisting of a coupling shaft (50) for connecting. 3. The double pipe for expanding a rubber sleeve according to claim 2, wherein a spiral teflon coating layer (35) is formed on the surface of the head (20). 3. The double pipe for expanding a rubber sleeve according to claim 2, wherein a spiral Teflon coating layer (35) is formed on the surface of the main body (40). According to claim 2, Between the outer pipe 41 and the inner pipe 42 of the main body portion 40, the air distribution unit 43 through which the air supplied through the second nipple 45 can flow Double pipe for expanding the rubber sleeve, characterized in that is formed.