KR100428865B1 - A return-band connection method of freezing device - Google Patents

Abstract

The present invention relates to a method for joining a return band of a refrigerating device, by joining a refrigerating device in which a return band is coupled to a zinc bath that is ultrasonically vibrated by an ultrasonic vibrator, and thus joining is performed by penetration of molten zinc. It is to be made quickly.

Therefore, the present invention is not performed by joining the refrigerant pipe and the return band by a method such as inert gas welding, but rather by bathing in the ultrasonically vibrated zinc melt, the operation is performed quickly, and the zinc melt is ultrasonically vibrated by ultrasonic vibration. Since it is evenly filled between the refrigerant pipe and the return band, the junction is made firm.

Description

A return-band connection method of freezing device

The present invention relates to a method for joining a return band of a refrigerating device, and more particularly, to bathe a refrigerating device in which a return band is coupled to a zinc bath that is ultrasonically vibrated by an ultrasonic vibrator so that bonding is performed by penetration of molten zinc. The purpose is to make the joining process clear and fast.

In general, the manufacture of refrigeration equipment, such as an evaporator and a condenser, is to form the refrigerant pipe in a multi-tiered multi-row array, by inserting the cooling fins in the arranged tube body, as described above the refrigerant pipe is arranged in a multi-layered multi-row cooling fins According to the coupling method of the continuous conduit is formed by bending repeatedly, or each of the independent conduits are arranged and then continuously coupled to the return band bent in the "U" shape.

As described above, the conventional refrigerators in which the refrigerant pipes are formed by independent pipes and connected to each other by a return band are connected to each other by inert gas welding such as argon welding or the like. There was a problem such that the work cost is increased due to this decrease.

Accordingly, the present invention has been made to solve the above-mentioned problems, by bathing a refrigeration machine coupled with a return band to a zinc bath ultrasonically vibrated by an ultrasonic vibrator to be bonded by the penetration of molten zinc.

1 is a perspective view showing an assembly process of the return band according to the present invention.

Figure 2 is a side view showing a zinc bathing state of the refrigerator according to the present invention.

Figure 3 is a side view showing a process of removing the binding protrusion of the freezer according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: freezer

11: refrigerant pipe 12: return band 12a: guide groove

21: zinc bath 22: ultrasonic vibrator

23: heating device 24: molten zinc

Hereinafter, described in detail by the accompanying drawings as follows.

In the present invention, the return band to be joined to the refrigerant pipe can be quickly and easily carried out. In the refrigerator 10 having the refrigerant pipe 11 as an independent tube, the independent refrigerant pipes 11 are mutually connected. The return band 12 bent in communication with the letter "U" is inserted and combined, and the return band 12 coupling part of the refrigerator 10 is bathed in a zinc bath 21 in which zinc is molten for a predetermined time. 24 is introduced between the refrigerant pipe (11) and the return band (12), and after a certain period of time takes out the refrigeration unit (10) bathed in the zinc bath (21) and cools the condensation formed on the return band (12) Since the protrusions are removed, the joining of the return band 12 is completed.

Here, the plurality of induction grooves 12a for smooth penetration of the molten zinc 24 and discharge of air may be formed in the return band 12 in which the plurality of refrigerant pipes 11 are connected to each other. In addition, the molten zinc 24 of the zinc bath 21 may be ultrasonically vibrated to the ultrasonic vibrator 22 so as to smoothly flow between the refrigerant pipe 11 and the return band 12.

Hereinafter, the bonding apparatus according to the present invention will be described.

The bonding apparatus of the present invention is provided with a zinc bath 21 made of a container of a fireproof material, a heating device 23 for heating the zinc bath 21, and a molten zinc 24 provided in the zinc bath 21. Ultrasonic vibrating is composed of an ultrasonic vibrator (22).

Hereinafter, the return band bonding process of the refrigerator according to the present invention will be described.

As described above, the present invention in which the return band 12 is bonded by the zinc bath is coupled to the plurality of refrigerant pipes 11 through the entire process.

In addition, induction grooves 12a for smooth penetration of molten zinc 24 in the zinc bathing process and gas discharge of the refrigerant pipe are formed at both bent ends of the return band 12 in which the tubular body is bent into a “U” shape. do.

As described above, after the manufacture of the refrigerant pipe 11 and the return band 12 is completed, the return band 12 is fitted into the refrigerant pipe 11 to be combined, and then in the zinc bath 21 in which zinc is melted, the refrigerating device. The return band 12 engaging portion (10) is bathed. At this time, the zinc bath 21 is in a state of ultrasonic vibration by the ultrasonic vibrator 22.

As described above, when the return band 12 coupling part side of the refrigerating device 10 is bathed in the zinc bath 21 that is ultrasonically vibrated for a predetermined time, the molten zinc 24 is interposed between the refrigerant pipe 11 and the return band 12. Infiltrate evenly.

As described above, when the freezing device 10 bathed in the zinc bath 21 is cooled and then cooled, zinc is formed in the return band 12 to form a binding protrusion. The binding protrusion formed as described above is returned by grinding and removing with a grinding machine. Bonding of the band 12 is complete.

Therefore, the present invention is not performed by joining the refrigerant pipe and the return band by a method such as inert gas welding, but rather by bathing in the ultrasonically vibrated zinc melt, the operation is performed quickly, and the zinc melt is ultrasonically vibrated by ultrasonic vibration. Since it is evenly filled between the refrigerant pipe and the return band, the junction is very useful.

Claims (3)

In the refrigerating device (10) consisting of an independent pipe of the refrigerant pipe (11), the independent refrigerant pipe (11) is inserted into the return band (12) bent to the "U" to communicate with each other, the freezing device (10) Of the return band 12 is bathed in the zinc bath 21 in which zinc is molten for a predetermined time so that the molten zinc 24 flows between the refrigerant pipe 11 and the return band 12. In the return band bonding method of the refrigeration machine to take out the refrigeration machine (10) bathed in the zinc bath (21) to cool and then remove the condensed projection formed in the return band (12) to join the return band (12); A plurality of guide grooves 12a are formed in the return band 12 in which a plurality of refrigerant pipes 11 are connected to each other to facilitate penetration of the molten zinc 24 and discharge of air, and the zinc bath 21 The molten zinc (24) of the return band bonding method of the refrigerating machine, characterized in that the ultrasonic vibration to the ultrasonic vibrator 22 so as to smoothly flow between the refrigerant pipe (11) and the return band (12). delete delete