KR20100054315A - Jig for a water leakage test condenser - Google Patents

Abstract

PURPOSE: A condenser leakage inspection jig is provided to easily and accurately perform the leakage inspection by providing the leakage inspection jig in the structure of being able to insert a helium gas inspection probe. CONSTITUTION: A condenser leakage inspection jig(100) comprises a pair of sealing jigs(110), partition walls, an inspection window(130), a sealing membrane(140), a fixing unit(150) and a sealing gasket(160). The sealing jig is sealed before and after each of the upper structures of a header pipe(12), a heat-radiating tube(14) and a cooling water pipe(18), and the lower structures of the header pipe and the heat-radiating tube. The partition walls are installed at the inner side of the sealing jig at constant intervals. The partition wall divides the internal space of the sealing jig into a plurality of inspection spaces(112,114). The inspection window is projected to the front of the inspection space covering the cooling water pipe. The sealing membrane is installed at the inner side of each tip of the inspection window. The sealing membrane keeps the inspection space airtight. The fixing unit fixes the sealing membrane to the inner side of each tip of the inspection window. The sealing gasket is formed at the ends of the sealing jigs.

Description

Jig for a water leakage test condenser

The present invention relates to a leak inspection jig for inspecting a leak of a condenser, and more particularly, to constitute a pair of coupling part sealing jig that is coupled before and after a coupling part of a header pipe, a heat dissipation tube, and a cooling water pipe. By partitioning a certain space through the partition wall and inserting the helium gas probe rod through the metering window formed on each compartment, it detects the leak of helium gas injected into the cooling water pipe and detects the leak of the condenser. A condenser leak test jig.

In general, a heat exchanger refers to a device that performs heat exchange between two fluids having different temperatures and separated by solid walls. In the narrow sense, a heat exchanger is generally used between two process flows without phase change. Refers to a device for exchanging heat, and broadly includes a cooler, a condenser, and the like. Such heat exchangers are widely used for heating, air conditioning, power generation, cooling, and waste heat recovery.

The types of heat exchanger described above are classified according to the geometrical form, and are shell & tube heat exchangers, double pipe type heat exchangers, plate type heat exchangers, air coolers, and heating. There are Fired Heater and Coil Type Heat Exchanger, and according to the function, Heat Exchanger, Cooler, Condenser, Reboiler, Evaporator, Preheater (Preheater) and Two Phase Flow Heat Exchanger.

As one of the heat exchangers described above, a condenser is used for an air conditioner or a cooling system of a vehicle, and the condenser is installed upside down so that a tank pipe, a top and bottom header function for guiding the inlet and outlet of the coolant (or refrigerant) is provided. It is arranged between the header pipes at regular intervals and is arranged between each of the heat dissipation tube and the heat dissipation tube that radiates the cooling water (or the refrigerant) is made of a configuration of a heat dissipation fin to dissipate heat transferred from the heat dissipation tube into the atmosphere.

On the other hand, in order to deliver the final product of the condenser configured as described above, it is necessary to inspect whether there is a leak. There is a problem that it is not easy to find it in the case of minute leakage.

In addition, the use of non-destructive inspection equipment for the inspection of the leakage according to the prior art of the capacitor, in addition to the advantage that can be accurate inspection, the economic burden due to the problem of having expensive equipment and skilled to handle the doubler equipment skillfully Several problems are exposed by the need for qualified personnel.

The present invention has been made to solve the above-mentioned problems of the prior art, comprising a pair of coupling jig sealing jig which is coupled before and after the coupling portion of the header pipe and the heat dissipation tube and cooling water pipe constituting the condenser, but through a partition wall By dividing the space and providing a leak test jig that can insert the helium gas probe rod through the meter window into the meter space formed on each compartment, each meter window checks for leaks of helium gas injected into the coolant pipe. The purpose of the present invention is to provide a condenser leak test jig that can detect the leakage of the condenser by detecting through.

In addition, another object of the technology according to the present invention comprises a pair of coupling jig sealing jig which is coupled before and after the coupling portion of the header pipe and the heat dissipation tube and the cooling water pipe constituting the condenser, each partition by partitioning a predetermined space through the partition wall By providing a leak test jig of the structure that can insert the helium gas probe rod through the meter window in the metering space formed on the part, it is possible to minimize the defect rate of the condenser by making the leak test easier and more accurate .

The present invention configured to achieve the above object is as follows. That is, the condenser leak test jig according to the present invention is installed on both sides of the heat dissipation tube and the header pipe which are arranged at regular intervals between the upper and lower header pipes and the upper and lower header pipes of the tank function for guiding the cooling water in and out. In the configuration of the jig for inspecting the leakage of the condenser consisting of the configuration of the cooling water pipe to allow the inflow and outflow of the cooling water, the upper structure of the header pipe, the heat dissipation tube and the cooling water pipe and heat dissipation A pair of joint sealing jig to cover and cover the back and forth of each of the tube substructures; A partition wall installed at a predetermined interval inside the coupling part sealing jig to divide the inner space of the pair of coupling part sealing jig into a plurality of meter reading spaces; A front side coupling part sealing jig of the pair of coupling part sealing jig comprises: a pipe-shaped meter reading window protruding toward the front of each metering space and covering the front of each metering space covering the cooling water pipe; An airtight membrane installed inside the tip of each metering window to maintain the confidentiality of the metering space; Airtight film fixing means for fixing the airtight film when installed inside the front end of each meter reading window; And a hermetic gasket configured at the end of the pair of coupling part sealing jig to maintain hermeticity. At this time, the helium gas is filled and sealed through the coolant pipe during the leak test of the condenser through the leak test jig configured as described above, and each meter is inserted by inserting a helium gas metering rod through an airtight film formed in each meter window. Through the detection of helium gas leaking into the space consists of a configuration to check the leakage of each coupling portion.

On the other hand, in the configuration according to the present invention as described above, the airtight film fixing means is formed integrally with the tip portion of the metering window, but the airtight film seating tube formed with a nut portion on the airtight film seating jaw and the inner circumferential surface is seated at the end of the metering window; And an outer diameter corresponding to the inner diameter of the airtight film seating barrel, and a bolt portion corresponding to the nut portion of the airtight film seating tube is formed on the outer peripheral surface of the tip for fixing the airtight film seated on the airtight film seating jaw through screwing. It can be made of a configuration of the airtight membrane fixing cylinder.

In the configuration of the present invention as described above, the helium gas filled into the inside of the condenser is filled into the inside of the condenser through the cooling water pipe, but sealed in the inside of the condenser by the sealing of the cooling water pipe, so that each of the condenser portions of the condenser is filled. If there is a leak in the leaking helium gas is leaked into the metering space on the leaking coupling portion consists of a configuration that remains.

In addition, the material of the airtight membrane in the configuration according to the present invention is made of urethane leaking through each coupling portion of the condenser to insert the helium gas probe rod through the airtight membrane of the urethane material to check the helium gas remaining in the metering space When the membrane is torn by the helium gas probe rod, the torn section is in close contact with the outer circumferential surface of the helium gas probe rod inserted by the elastic force, so that the seal can be continuously made, and when the helium gas probe rod is removed from the urethane hermetic membrane, The torn sections may be in close contact with each other by the elastic force of the hermetic membrane and may be configured to seal.

According to the technique of the present invention configured as described above comprises a pair of coupling jig sealing jig which is coupled before and after the coupling portion of the header pipe and the heat dissipation tube and the cooling water pipe constituting the condenser, each partition by partitioning a certain space through the partition wall By providing a leak test jig that can insert a helium gas probe rod through the meter window into the meter reading space formed on the part, the leak of the condenser is detected by detecting the leak of helium gas injected into the coolant pipe through each meter window. It can be detected more easily.

In addition, the technology according to the present invention comprises a pair of coupling part sealing jig that is coupled to the front and rear coupling portion of the header pipe and the heat dissipation tube and the cooling water pipe constituting the condenser, and partitions a predetermined space through the partition wall on each partition. By providing a leak test jig having a structure in which a helium gas probe rod can be inserted into the formed metering space, the leak rate of the capacitor can be minimized by making the leak test easier and more accurate.

Hereinafter, a condenser leak test jig according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a front configuration diagram showing a structure in which a condenser leak test jig according to the present invention is installed in a condenser, and FIG. 2 is a front sectional configuration view showing a structure in which a condenser leak test jig according to the present invention is installed in a condenser. Fig. 4 is a side view showing the structure in which a condenser leak test jig according to the present invention is installed in a condenser, and Fig. 4 is a side cross-sectional view showing the structure in which the condenser leak test jig according to the present invention is provided in a condenser.

1 to 4, the structure of the condenser 10 will be described first before explaining the condenser leakage inspection jig 100 according to the present invention. As shown in Figs. Are arranged up and down to be arranged between the header pipe 12 having a tank function for guiding the entrance and exit of the cooling water (or the refrigerant) and the upper and lower header pipes 12 at regular intervals to dissipate the cooling water (or the refrigerant). Arranged between each of the heat dissipation tube 14 and the heat dissipation tube 14, the heat dissipation fin 16 and heat pipes 12 for dissipating heat transferred from the heat dissipation tube 14 into the atmosphere are installed in the cooling process and heated. It consists of a configuration of the cooling water pipe 18 to allow the inflow of the coolant and the outlet of the coolant heat exchanged.

In the constitution of the condenser 10 configured as described above, the header pipe 12, the heat dissipation tube 14, and the coolant pipe 18 are separately manufactured and combined through assembly to form the condenser 10. 12) and the coupling portion where the heat dissipation tube 14 and the coolant pipe 18 are coupled may generate a gap when the coupling is leaked. Since the leaked condenser 10 loses its value as a product, the leakage of the coupling portion where the header pipe 12, the heat dissipation tube 14, and the coolant pipe 18 are coupled is checked. The present invention is to check the leakage of the coupling portion that the header pipe 12, the heat dissipation tube 14 and the cooling water pipe 18 is coupled.

Meanwhile, the condenser leakage inspection jig 100 for inspecting whether the header pipe 12 constituting the condenser 10 as described above and the heat dissipation tube 14 and the cooling water pipe 18 are coupled or not is leaked. Looking at the configuration of the upper and lower structures of the header pipe 12 and the heat dissipation tube 14 and the coolant pipe 18 and the lower structure of the header pipe 12 and the heat dissipation tube 14 constituting the condenser 10, respectively, A couple of coupling part sealing jig 110 and a coupling part sealing jig 110 to be sealed at regular intervals to seal the plurality of metering spaces 112, The partition wall 120 partitioned by 114 and the front side coupling part sealing jig 110 of the pair of coupling part sealing jig 110 respectively cover the front of each metering space 112 and the cooling water pipe 18. Metering window 130, a metering window 130 in the form of a pipe protruding toward the meter reading space 114 Airtight film fixing means for fixing the airtight film 140, which is installed inside the front end of each tip to maintain the airtightness of the metering spaces 112 and 114, when the airtight film 140 is installed inside the front end of each of the metering windows 130 ( 150) and a pair of coupling part sealing jig 110 is configured to include a hermetic gasket 160 to maintain the airtight.

As shown in FIGS. 1 to 3, the condenser leakage inspection jig 100 is connected to the condenser leakage inspection jig 100 according to the present invention configured as described above. While the upper and lower structures of the header pipe 12, the heat dissipation tube 14, and the coolant pipe 18 are covered and fixed to each other, the substructure consisting of the header pipe 12 and the heat dissipation tube 14 is also provided. The helium gas is charged into the condenser 10 through the cooling water pipe 18 in a state of being fixed and covered back and forth. After filling the helium gas in the condenser 10 as described above, the cooling water pipe 18 is sealed to confine the helium gas in the condenser 10.

As described above, after filling and confining the helium gas inside the condenser 10, the helium gas metering rod 170 is inserted through the hermetic membrane 140 fixed to each metering window 130. The meter window 130 is inspected whether or not the helium gas leaks in the metering space (112, 114) configured to check the leakage of the condenser (10). That is, if any one of the many coupling sites of the condenser 10 is leaked, helium gas is leaked to the metering spaces 112 and 114 on the leaking coupling sites, and helium is leaked to the metering spaces 112 and 114. The gas metering rod 170 penetrates the airtight membrane 140 to read that leakage occurs at any coupling portion on the corresponding metering spaces 112 and 114 through the detection of helium gas.

Each component constituting the jig 100 for condenser leak inspection according to the present invention will be described in detail as follows. First, the pair of joint sealing jig 110 is to cover each of the upper structure of the condenser 10 and the lower structure of the condenser 10 back and forth to seal the inside, such a pair of joint sealing jig 1 through 4, the upper structure of the condenser 10 including the header pipe 12 constituting the condenser 10, the heat dissipation tube 14, and the coolant pipe 18, and the header pipe as shown in FIGS. Covered before and after the lower structure of the condenser 10 consisting of 12 and the heat dissipation tube 14 is coupled.

The pair of coupling part sealing jig 110 configured as described above has a structure capable of covering back and forth corresponding to each of the upper structure and the lower structure of the condenser 10. At this time, the coupling part sealing jig 110 is a pair of coupling parts for covering the front and rear of the upper structure of the condenser 10 a pair of coupling part sealing jig 110 and the lower structure of the condenser 10. It consists of two pairs, such as a sealing jig 110. In addition, the coupling part sealing jig 110 for covering the upper structure of the condenser 10 back and forth is formed to cover the cooling water pipe 18.

On the other hand, the rear side coupling portion sealing jig 110 installed and covered on the rear side of the condenser 10 of the pair of coupling portion sealing jig 110 configured as described above is in close contact with the rear side of the condenser 10. And the front coupling part sealing jig 110 installed at the front side of the condenser 10 and covering the cover 10 has a structure in which meter reading spaces 112 and 114 of a predetermined size are formed. At this time, the meter reading space 112 is formed on the coupling portion of the header pipe 12 and the heat dissipation tube 14, the meter reading space 114 is a coupling portion of the header pipe 12 and the coolant pipe 18. Is formed on the phase. As described above, the meter reading spaces 112 and 114 formed as described above may be referred to as a space where helium gas filled into the condenser 10 leaks and collects when there is a leak at the sea otter coupling site.

The partition wall 120 constituting the present invention is for partitioning the interior formed by the pair of joint sealing jig 110 into meter reading spaces 112 and 114 of a predetermined size. The inner space of the jig 110 is installed at regular intervals to partition the inner space of the pair of coupling part sealing jig 110 into a plurality of meter reading spaces 112 and 114. Therefore, a plurality of coupling portions of the header pipe 12 and the heat dissipation tube 14 are divided into a plurality of meter reading spaces 112 and 114 formed by the partition wall 120, while the header pipe 12 and the cooling water pipe ( The coupling part of 18) is divided into left and right.

As described above, by dividing the meter reading spaces 112 and 114 into a plurality of partition walls 120, it is easier to detect where the leakage of the coupling portion occurs. That is, when only the coupling portion of the header pipe 12 and the heat dissipation tube 14 or the coupling portion of the header pipe 12 and the coolant pipe 18 in the metering spaces 112 and 114 where helium gas is read is irradiated. Since it is possible to divide the plurality of metering spaces 112 and 114 by the partition wall 120 can be said to be a very useful means for metering the leakage of the condenser 10.

The metering window 130 constituting the present invention is to check whether the condenser 10 leaks through the leaking of helium gas through the insertion of the helium gas metering rod 170 to be described later, and the metering window 130 1 are formed on the meter reading spaces 112 and 114 respectively divided into a plurality of partition walls 120 as shown in FIGS. At this time, the meter reading window 130 is formed in the form of a hollow pipe protruding toward the front side on the front coupling portion sealing jig 110.

As described above, the metering window 130 having a hollow pipe shape projecting forward on the front coupling part sealing jig 110 is installed to be introduced into each of the metering spaces 112 and 114 to be metered into the metering space 112, 114, helium gas leaked to the metering window 130 is configured to remain.

The hermetic membrane 140 constituting the present invention is to seal the metering window 130 so that helium gas remaining in the metering spaces 112 and 114 and the metering window 130 is not leaked to outside air. The membrane 140 is installed inside the tip of each of the metering windows 130 as shown in FIGS. 1 to 4, and is fixed by the airtight membrane fixing means 150 to be described later. 130 will be confidential inside.

On the other hand, since the hermetic membrane 140 as described above should be made of a structure that is torn by the helium gas metering rod 170 to be described later, the material is made of urethane but leaks through each coupling portion of the condenser 10. In order to read the helium gas remaining in the spaces 112 and 114 and the metering window 130, when the helium gas metering rod 170 is inserted through the urethane hermetic membrane 140, the hermetic membrane 140 is helium gas. The torn cross section, which is torn by the metering rod 170, is in close contact with the outer circumferential surface of the helium gas metering rod 170 inserted by the elastic force so that the sealing is continuously performed, while the helium inserted from the airtight film 140 made of urethane When removing the gas metering rod 170 is made of a configuration that the sealing is made in close contact with each other torn cross-section by the elastic force of the airtight film 140.

The hermetic membrane fixing means 150 constituting the present invention is to fix the hermetic membrane 140 to the inside of the metering window 130 so that the internal hermeticity of the metering window 130 is maintained. 150 is integrally formed at the distal end of the metering window 130 as shown in FIG. 4, but the nut part 152b is formed on the inner circumferential surface of the airtight film seating jaw 152a in which the airtight film is seated at the end of the metering window 130. Is formed with an outer diameter corresponding to the inner diameter of the hermetic membrane seating tube 152 and the hermetic membrane seating cylinder 152, and a bolt portion corresponding to the nut part 152b of the hermetic membrane seating tube 152 is formed on the outer circumferential surface thereof. 154a is formed and consists of a hollow hermetic membrane fixing cylinder 154 for fixing the hermetic membrane 140 seated on the hermetic membrane seating jaw 152a through screwing.

In the configuration of the hermetic membrane fixing means 150 configured as described above, the hermetic membrane seating tube 152 has a larger inner diameter than the metering window 130, and the metering window 130 and the hermetic membrane seating tube 152 are integrally formed. At the end of the metering window 130, the airtight film seating jaw 152a is naturally formed, and the airtight film 140 having a diameter corresponding to the airtight seating tube 152 is formed on the airtight film seating jaw 152a. Supported. At this time, the hollow hermetic membrane fixing cylinder 154 is formed so that its outer diameter corresponds to the inner diameter of the hermetic membrane seating cylinder 152, thereby coupling the hermetic membrane fixing cylinder 154 to the hermetic membrane seating cylinder 152 through screwing. When the tip end surface of the airtight film fixing tube 154 is fixed while pressing the airtight film 140 supported on the airtight film seating jaw 152a to the airtight film seating jaw 152a to seal the metering window 130. To lose.

The hermetic gasket 160 constituting the present invention hermetically seals opposite ends of the coupling part sealing jig 110 and the cooling water pipe 18 side end of the condenser 10, which are joined to and cover each of the upper and lower structures of the condenser 10. For the purpose of this, the hermetic gasket 160 is shown in FIGS. 2 and 4, and the opposite end and the cooling water of the coupling part sealing jig 110 which are joined to and cover each of the upper structure and the lower structure of the condenser 10. It is installed at the end of the pipe 18 side to seal the internal space formed by the pair of coupling sealing jig 110.

When the leak check of the condenser 10 through the condenser leak test jig 100 according to the present invention configured as described above is filled with helium gas through the cooling water pipe 18 is sealed each meter reading window 130 The helium gas metering rod 170 is inserted through the hermetic membrane 140 configured to check leakage of each coupling part of the condenser 10 through the detection of helium gas leaked into each of the metering spaces 112 and 114. Done.

On the other hand, in the configuration of the present invention as described above helium gas meter reading bar 170 to read the helium gas is attached to the equipment for reading the presence of helium gas by the inflow of helium gas, such helium gas meter reading bar 170 It will be said that the condenser leakage inspection jig 100 according to the present invention can not be said.

As described above, the defect rate of the condenser 10 can be minimized by inspecting whether the condenser 10 leaks through the condenser leak inspection jig 100 according to the present invention.

The present invention is not limited to the above embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

1 is a front configuration diagram of a structure in which a condenser leak test jig according to the present invention is installed in a condenser.

Figure 2 is a front cross-sectional view showing a structure in which a condenser leak test jig according to the present invention is installed in a condenser.

Figure 3 is a side view showing a structure in which the condenser leak test jig according to the present invention installed in the condenser.

Figure 4 is a side cross-sectional view showing a structure in which a condenser leak test jig according to the present invention is installed in a condenser.

[Description of Symbols for Main Parts of Drawing]

10. Capacitor 12. Header pipe

14. Heat dissipation tube 16. Heat dissipation fin

18. Coolant pipe 100. Leak test jig

110. Sealing jig 112, 114. Metering space

120. Bulkhead 130. Meter reading

140. Airtight film 150. Airtight film fixing means

160. Airtight Gasket 170. Helium Gas Reading Rod

Claims (4)

Upper and lower header pipes having a tank function for guiding cooling water in and out, and arranged at regular intervals between the upper and lower header pipes, are installed on both sides of the heat dissipation tube for dissipating cooling water and the header pipes to allow inflow and outflow of cooling water. In constructing the jig for inspecting the leakage of the condenser composed of the configuration of the cooling water pipe, A pair of joint sealing jig for covering and sealing the upper structure of the header pipe, the heat dissipation tube, and the cooling water pipe, and the front and rear structures of the header pipe and the heat dissipation tube, respectively, constituting the condenser; A partition wall installed at a predetermined interval inside the coupling part sealing jig to partition the inner space of the pair of coupling part sealing jig into a plurality of meter reading spaces; A front side coupling part sealing jig of the pair of coupling part sealing jig is a pipe-shaped reading window protruding toward the front of each meter space and the front of each meter space covering the cooling water pipe; An airtight membrane installed inside the tip of each of the metering windows to maintain the airtightness of the metering space; Airtight film fixing means for fixing the airtight film when installed inside the front end of each of the metered window; And Consists of the airtight gasket configured to maintain the airtight is configured at the end of the coupling portion sealing jig, When the leak test of the condenser through the leak test jig helium gas is filled and sealed through the cooling water pipe is inserted into the respective meter reading space by inserting a helium gas metering rod through the hermetic membrane configured in each meter window Jig for leaking capacitors, characterized in that the leakage of each of the condenser coupling unit through the detection of leaking helium gas is configured. According to claim 1, The airtight film fixing means is formed integrally with the front end of the metering window, the airtight film seating tube is formed in the airtight film seating jaw and the inner peripheral surface of the airtight film seating seat is seated at the end of the metering window; And It is formed with an outer diameter corresponding to the inner diameter of the airtight film seating cylinder, the bolt portion corresponding to the nut portion of the airtight film seating cylinder is formed on the outer peripheral surface of the tip is fixed to the airtight film seated on the airtight film seating jaw through screwing Jig for condenser leak inspection, characterized in that the configuration of the hollow airtight film fixing cylinder. The method of claim 1, wherein the helium gas filled into the condenser is filled into the condenser through the cooling water pipe and sealed in the condenser by sealing the cooling water pipe, respectively. If there is a leakage on the coupling portion of the leaking helium gas is leaking into the meter reading space on the leakage coupling portion condenser leakage inspection jig, characterized in that the remaining. The method of claim 3, wherein the airtight film is made of urethane, and leaks through each coupling part of the condenser to insert the helium gas probe through the urethane film to check the helium gas remaining in the metering space. In this case, the hermetic membrane is torn by the helium gas metering rod while the torn cross section is in close contact with the outer circumferential surface of the helium gas metering rod inserted by the elastic force, so that the sealing is continuously performed, while the helium gas meter inserted from the urethane membrane is sealed. When the rod is removed, the jig for condenser leakage inspection, characterized in that the seal is made in close contact with each other torn cross-section by the elastic force of the hermetic membrane.

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