CS240191B1 - Sealing element for gas-tight closing of openings - Google Patents

Abstract

The purpose of the solution is to perfectly close and blind the holes after defective tubes in the tube sheets of low-temperature coiled heat exchangers. The sealing element is made of a tubular sleeve (1), into which is inserted a 3-bolt (2) terminated on one side by a heating cone (3) and on the opposite side by a thread (4) with a nut (5)» on which a sliding heating cone (7) is placed, while the thread (4) is secured by a square (6).

Description

The invention solves a sealing element for gas-tight closing of openings _from, in particular, defective tubes in the tube plates of low-temperature coiled heat exchangers operating at temperatures up to 73 K.

In the event of a pipe rupture or other leakage due to faulty rolling or loose dilatation during plant shutdowns (which is part of the heat exchanger heat exchanger surface), it is necessary to disable such a pipe and plug the hole.

At present, the blind holes are solved by drilling both ends of the defective tube and punching the holes into the holes _from which they are welded to the tube plate along its periphery.

The disadvantage of this solution is the possibility of loosening the surrounding tubes in the tube sheet and considerable production losses (which are due to the preparation of the equipment for repair due to the removal of the explosive environment in the equipment insulation). and to create an inert atmosphere with n ₂ in the plant block insulation.

The above-mentioned disadvantages are eliminated by the sealing element according to the invention formed from a tubular sleeve / into which a bolt terminated on the one side terminated by the cone is inserted, on the other side the bolt is threaded with a nut / before which the sliding cone is placed. The bolt thread is terminated by a square. The tubular sleeve is so long that it exceeds the thickness of the tubesheet on both sides and its diameter corresponds to the outer diameter of the defective tube. The small diameter of the stud cone is equal to the diameter of the bolt and its large diameter is equal to the diameter of the defective pipe bore, the diameter of the bolt

240 191 is smaller than the inner diameter of the tubular sleeve.

The sealing element according to the invention ensures a perfect gas-tight blind hole opening on the defective pipe without the risk of loosening adjacent pipes. When it comes to repairing the equipment due to pipe leakage, the shutdown time is considerably reduced by using a sealing element. In addition, the risk of fire of the device is eliminated because the sealing element does not boil to the tube sheet. For the same reason, the detected leak can be repaired even in the undercooled state of the device. The sealing element is simple and easy to manufacture in the user's own workshops.

An example of an embodiment of the sealing element is shown in the accompanying drawing, in which Fig. 1 is a cross-section of the heat exchanger tubesheet, where the defective tube opening is closed by the sealing element prior to unfolding, and Fig. 2 shows the sealing element after withdrawing and unfolding the tubular sleeve.

The sealing element is formed from a tubular sleeve 6 into which a stud 2 terminated on one side is inserted. ^{and on the} opposite side, the bolt 8 is terminated by a thread 8 with a nut 8. A sliding cone 7 is placed in front of the nut. The tubular sleeve 8 is long enough to exceed on both sides the thickness of the tube sheet 8 and its diameter corresponds to the diameter of the defective tube drilled. The small cone diameter je is equal to the diameter of the bolt 2 and the diameter of the bolt 2 is smaller than the inner diameter of the tubular sleeve.. The large diameter of the cone £ of the bolt rov is equal to the diameter of the hole of the drilled tube in the tube sheet and is made against it with a minus tolerance. The conicity of the cone 6 is given by the mathematical relationship of the length and the outer diameter of the tubular sleeve 6. The thread 4 is terminated by a square 4 which allows an easy gripping of the bolt 2. The sliding cone 4 can form an integral part of the nut 6 or can be separated from the nut 6. The sliding cone 6 may be internally threaded or non-threaded. If the sliding cone 7 is threaded, then the nut 6 is without a thread and serves only to fasten and tighten the sliding cone with a wrench and is pre-welded to the sliding cone. Internal

240

- the diameter of the sliding thread cone bez without the thread of the drape is a sentence 51 / than the outside diameter of the thread £ of the bolt.. The sliding tern cl con 7 has the dimensions of cone-3. The sealing element is mounted in the hole in the tube sheet 8 so that the tubular sleeve 8 equally exceeds the thickness of the tube sheet 5 on both sides. By tightening the nut 6, the sliding cone 7 approaches the fixed cone 3 of the bolt 8, thereby pushing the two conical parts into the tubular sleeve 6. The tubular sleeve 8 is rolled into the hole in the tubesheet 8. The tubular sleeve 8 is rolled into the hole in the tubesheet & as long as possible / which helps to properly rotate the bolt by means of the square 6 while tightening the nut 2. the connection of the tube sheet 8 and the tubular sleeve

If necessary, the protruding part of the element above the bottom of the tube sheet can be cut just above the neck of the sealing edge of the sealing element tube.

The sealing element according to the invention can be used, in particular, in low-temperature devices (where, due to the temperature and the expansion coefficients, the sealing of the connection is increased). The solution according to the invention also applies to lightweight tube sheets. The length of the tubular sleeve 6 is then equal to the length of the smaller diameter hole with the overlap.

Claims (4)

OBJECT OF THE INVENTION 240 191 1. A sealing element for the gas-tight opening of openings, characterized in that it is made of a tubular sleeve (1), into which a bolt (2) is inserted on one side terminated by a cone (3) and on the other side (4) with a nut (5), in front of which a sliding cone (7) is placed, the thread (4) being terminated by a square (6). 2. A sealing element according to claim 1, wherein the tubular sleeve /? / Is so long that it extends from both sides of the tubesheet thickness / 8 / and its diameter corresponds to the defective · trubkyJrubktMrHCtfofa -řrohbt ⁷ tféairťmny οήτεΓ ¹ '. 3. Sealing element according to claim 1, characterized in that the small diameter of the cone (3) of the bolt (2) is equal to the diameter of the bolt (2) and its large diameter is equal to the diameter of the defective tube bore. inner diameter of the tubular sleeve (1). 4. Sealing element according to claim 1, characterized in that the inner diameter of the sliding cone (7) is larger than the outer diameter of the thread (4) of the bolt (2), the sliding cone (7) having the same dimensions as the cone (3). .