KR200155895Y1 - Hole detector for heat transfer - Google Patents

Abstract

The present invention relates to a device for detecting a hole in the tube mounted inside the heat exchanger, more specifically, if a small size of the hole formed in the tube is difficult to detect it, it is possible to accurately detect it to solve the difficulty of identification It relates to a tube wave hole detector for a heat exchanger.

The present invention provides a device for detecting whether a pore portion occurs in a plurality of tubes mounted on a heat exchanger, the apparatus comprising: a first plug blocking one end of the tube; A second stopper for blocking the other end of the tube; A tube pressure detection unit communicating with a space inside the tube through a through hole formed in the second stopper, and having a manometer connected to one side of the through hole to detect a pressure in the tube; And a plurality of metal pieces for detecting pressure when the pressure is changed in the manometer of the tube pressure detector, and the metal pieces are electrically connected to an external power amplifier and an alarm device, and the pressure change is detected inside the manometer. A pore signal output unit for outputting it to the outside when it is; It provides a tube wave hole detector for heat exchangers characterized in that it comprises a.

Description

Tube hole hole detector for heat exchanger

1 is an exploded perspective view of a tube-hole pore detector for a heat exchanger according to the present invention.

2 is a cross-sectional view of a tube wave hole detector for a heat exchanger according to the present invention.

3 is a state of use of the tube-hole pore detector for heat exchangers according to the present invention.

4 is a block diagram of a general heat exchanger.

* Explanation of symbols for main parts of the drawings

5a, 5b: first and second stoppers 10: tube pressure detection unit

12 through hole 15 manometer

18: seal packing 22: cover

30: hole signal detection unit 32a, 32b: metal piece

35 power supply 37 amplifier

40: alarm device 100: heat exchanger

The present invention relates to a device for detecting a hole in the tube mounted inside the heat exchanger, more specifically, if a small size of the hole formed in the tube is difficult to detect it, it is possible to accurately detect it to solve the difficulty of identification It relates to a tube wave hole detector for a heat exchanger.

In general, as shown in FIG. 4, the heat exchanger 100 includes a plurality of tubes 112 mounted inside the hollow casing 110, and flow paths 120 flowing outside the tubes 112. The flow path 130 flowing through the inside of the tube 112 is formed to achieve heat exchange between two different liquids.

The heat exchanger as described above generates holes due to corrosion of the tube over time, and the two liquids are mixed with each other through these holes to promote corrosion of various equipment to which the liquid is supplied, as well as to improve the life of the equipment. It is shortened.

For this reason, the tube of the heat exchanger should always be inspected to check whether there is a pore. If a small pore size is formed on the tube, it is very difficult to detect it. In this case, conventionally, a window paper or the like is attached to the outer diameter portion of the tube 112, and a vacuum pressure is formed in the tube to detect the hole in the window paper to determine whether the hole is in the tube, but this method takes a long time. Due to the air permeability, the small pore area has a problem that cannot be identified.

The present invention is devised to solve the conventional problems as described above, the purpose is to improve the productivity of work by performing the identification of the perforation part quickly and accurately, the stable operation of the equipment according to the early maintenance is possible, The present invention provides an improved tube hole pore detector for heat exchanger as well as corrosion prevention of various devices.

As a technical means for achieving the above object, the present invention, an apparatus for detecting whether a pore portion occurs in a plurality of tubes mounted on the heat exchanger, comprising: a first stopper for blocking one end of the tube; A second stopper for blocking the other end of the tube; A tube pressure detection unit communicating with a space inside the tube through a through hole formed in the second stopper, and having a manometer connected to one side of the through hole to detect a pressure in the tube; And a plurality of metal pieces for detecting pressure when the pressure is changed in the manometer of the tube pressure detector, and the metal pieces are electrically connected to an external power amplifier and an alarm device, and the pressure change is detected inside the manometer. A pore signal output unit for outputting it to the outside when it is; By providing a tube-hole pore detector for the heat exchanger characterized in that it comprises a.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, a tube stopper detector opening 1 for a heat exchanger according to the present invention has a second plug 5a that blocks one end of the tube 112 mounted inside the heat exchanger. And a second stopper 5b for blocking the other end of the tube 112, and the tube pressure detector 10 is mounted adjacent to the second stopper 5b.

In addition, the tube pressure detection unit 10 communicates with a space inside the tube 112 through the through hole 12 formed in the second plug 5b, and is connected to one side of the through hole 12 to connect the tube 112 to the tube 112. A manometer 15 for detecting the pressure inside the) is provided, and when the pressure is changed in the manometer of the tube pressure detector 10, a pore signal output unit 30 for detecting it and outputting it to the outside is provided.

The tube pressure detector 10 includes an induction pipe 13 fitted into the front side of the through hole 12 of the second plug 5b and a three-way valve 14 mounted to the rear side of the through hole 12. And a manometer 15 mounted on the rear end side of the three-way valve 14, and both side inlets of the three-way valve 14 are connected to the through-hole 12 and the manometer 15, respectively. The sealing packing 18 is positioned to prevent the inflow.

In addition, the cover 22 which surrounds the manometer 15 from the outside is mounted on the rear side of the second plug 5b.

On the other hand, the hole signal detection unit 30 is provided with a plurality of metal pieces 32a, 32b penetrating one side of the U-shaped conduit 15a of the manometer 15, and the metal pieces 32a, 32b are each U-shaped. A plurality of upper and lower sides are disposed on both sides of the conduit 15a, and electrical conductors 33 are connected to the metal pieces 32a and 32b to supply a power supply 35, an amplification device 37, and an alarm device 40. Is electrically connected to the Here, the upper and lower metal pieces 32a and 32b respectively have a liquid inside the manometer 15 so as to lock both the upper and lower sides, so that the metal pieces 32a and 32b conduct current through the liquid. In this case, the amplifying device 37 and the alarm device 40 electrically connected to the metal pieces 32a and 32b transmit an alarm to the outside.

However, if either of the upper and lower metal pieces 32a and 32b is not immersed in the liquid, no current flows between the metal pieces 32a and 32b, so that the amplifying device 37 and the alarm device 40 have no alarm. It is also configured to not send.

Referring to the effect of the present invention made in this configuration as follows.

Tube tube hole detection device 1 for the heat exchanger of the present invention, when inspecting the tube 112 inside the heat exchanger 100, as shown in Figure 3, the first stopper (5a) on one side of the tube (112) To form a sealed state, the other end of the tube 112 is fitted with a second stopper (5b) equipped with an induction tube (13) and the inside of the manometer (15) containing a conductive liquid (L) The level of the liquid L is maintained between the lower metal pieces 32a and 32b, and then the three-way valve 14 mounted on the front side of the manometer 15 is opened to open the manometer 15. The inside is maintained at the same state as the atmospheric pressure, and in this state, the fluid flows out of the tube 112 of the heat exchanger 100 to observe the pressure change inside the tube 112. In this case, when no holes are formed in the tube 112 in which the inspection is made, no pressure change occurs in the tube 112, and the liquid L in the manometer 15 is maintained at atmospheric pressure. No change occurs at the initial level.

However, when even small holes exist on the tube 112, the fluid flowing outside the tube 112 flows into the tube 112 (in this case, the pressure outside the tube 112 is high). Or the air inside the tube 112 is drawn out of the tube 112 through the holes (in this case, when the pressure outside the tube is low), causing a pressure variation inside the tube 112. In such a case, the liquid L level of the manometer 15 communicating with the space in the tube 112 is changed, and when the liquid is submerged in the liquid in the metal pieces 32a and 32b according to the level change of the liquid, an alarm device is provided. At 40, the alarm is immediately sent to the outside, and the operator can determine that the tube 112 has a hole formed.

As described above, according to the tube-hole pore detector device 1 for heat exchangers according to the present invention, the productivity of work is improved by quickly and accurately identifying the pore area, and accordingly, the equipment is prepared by early maintenance of the hole in the tube 112. It is possible to operate stably, and the improved practical effect can be obtained to prevent corrosion of various devices as well as to extend the life of the equipment.

Claims (1)

An apparatus for detecting whether a pore portion occurs in a plurality of tubes (112) mounted on a heat exchanger (100), comprising: a first stopper (5a) for blocking one end of the tube (112); A second stopper (5b) blocking the other end of the tube (112); A manometer 15 which communicates with a space inside the tube 112 through the through hole 12 formed in the second plug 5b and is connected to one side of the through hole 12 to detect the pressure in the tube 112. A tube pressure detector (10) having a); And a plurality of metal pieces 32a and 32b for detecting a change in pressure in the manometer 15 of the tube pressure detection unit 10, and the metal pieces 32a and 32b are external power supplies. 35, an amplifying device 37, and an alarm device 40 is electrically connected to the pore signal output unit 30 for outputting a change in pressure when the inside of the manometer 15 is detected; Tube-hole pore detector for heat exchangers comprising a.