KR102076504B1 - brazing apparatus - Google Patents

Abstract

The present invention relates to a brazing device in which a continuous process is performed, and more particularly, an expansion chamber for internal observation is installed at an inlet of a collecting chamber gate to collect particles or molten flux at the brazing furnace inlet side of the brazing device. The present invention relates to a brazing device in which a continuous process is performed to prevent a transfer failure caused by a flux to be attached and to prevent movement of a conveyor due to the flux.

Description

Brazing apparatus with continuous process

The present invention relates to a brazing in which a continuous process is performed, and more particularly, an expansion chamber for internal observation is installed at an inlet of the collection chamber gate to be attached to a conveyor to collect particles or molten flux at the inlet of the brazing apparatus. The present invention relates to a brazing apparatus in which a continuous process is performed by removing fluxes to prevent transfer failure of the conveyor.

In general, brazing is a joining material to a base metal by a filler metal in which a brazing object is melted by a constant heat below a melting point, and the brazing is heated at a solidus temperature of the base metal and is heated to 450 ° C. Bonding the brazing object to the base material with a filler material having the above liquidus temperature (Liquidus Temperature).

As the filler metal melts to a certain temperature, it penetrates into the base material and the brazing object by the capillary phenomenon and joins. Here, the property of expressing the affinity between the base material and the brazing object is called wetting, and if the wetting of the base material to be brazed is bad, the bonding force is reduced, resulting in incomplete bonding.

Conventional continuous brazing automatic device is a supply unit for supplying the base material with the filler metal, a preheating unit for preheating the base material supplied from the supply base, a heating unit for heating to braze the base material preheated in the preheating unit with the filler metal, the A cooling unit for cooling the base material brazed in a heating unit, a discharge table for discharging the cooled base material to the cooling unit, a conveyor belt for continuously transferring the base material from the supply zone to the discharge zone, and a driving motor connected to drive the conveyor belt. It includes.

In addition, the preheating unit is provided with a preheating tube for transporting the base material, and the preheating tube has a built-in preheating heater to preheat the base material supplied from the supply table, and the atmosphere is formed to form the preheated base material in the reduced state by the preheating heater. The atmospheric gas to be formed is supplied to the preheating tube. The preheating unit is provided with a gas curtain to block outside air introduced through the supply pipe of the supply unit, and the heating unit consists of a plurality of zones in which a heating heater is built in order to sequentially increase the heating temperature for heating the base material. As it passes through, the base material gradually rises in temperature and is brazed into the filler metal, allowing mass production with continuity.

The brazing device is continuously conveyed by the conveyor belt while the workpiece with the filler metal is set to the jig, and is preheated while passing through the preheating unit, starting with the feeding table, and brazed while passing through the heating unit. As it passes through, it is cooled down and discharged to the exit.

A conventional brazing apparatus using a brazing method is disclosed in Korean Patent Laid-Open Publication No. 2003-28856, and its configuration is assembled by assembling a plurality of heat sinks at equal intervals by a conveyor 104 circulated and rotated by a transmission means 102. As the aluminum product moves forward and moves, FLUX is applied to the product by the oil dryer, the FLUX (solvent) sprayer, and the FLUX dryer installed above.

Removing the oil layer formed on the surface of the product by the oil dryer is for smooth adsorption because the powdered FLUX is sprayed mixed with water, and drying the FLUX sprayed and coated on the product by the FLUX dryer is FLUX. Is applied in a mixed state with water to remove moisture.

In the state where a certain amount of FLUX is applied to a product gap by an oil dryer, a FLUX (solvent) sprayer, and a FLUX dryer, the conveyor 104 heats and melts the molten metal in the brazing furnace 120 and joins them.

In the conventional brazing apparatus, the flux melted in the brazing furnace is accumulated in the conveyor while being cured in the cooling unit provided at one side of the brazing furnace, and when the flux is deposited for a long time, the conveyor is stopped by interference with the surroundings. Poor conveyance may damage the whole brazing system.

In addition, after stopping the brazing device, it is necessary to disassemble and remove the sediment, which makes the work cumbersome, and causes the accumulation of flux sediment to bring about poor transportation, etc., and reduces the reliability of brazing when the flux is deposited on the conveyor. It is difficult to periodically manage the sediment of the conveyor, there is a problem that requires a lot of manpower and work time according to the maintenance and management.

The present invention is an improvement of the conventional problem, the expansion chamber for the internal observation is installed at the inlet of the collection chamber gate to collect the flux of particles or molten state at the inlet side of the brazing furnace of the brazing apparatus by the flux attached to the conveyor It is an object of the present invention to provide a brazing or heat treatment apparatus in which a continuous process is performed by preventing transfer failure.

In the present invention, the expansion chamber 100 for internal observation is installed at the inlet of the gate 30, and the expansion chamber 100 has the top plate 10 coupled to the gate ceiling plate 34 with bolts 14 and 14 '. The side plates 20 and 20 'are connected to both sides of the upper plate 10 and penetrate through the fixing holes 25 of the lower fixing bars 24 and 24' to be fixed by bolts 22, respectively. It relates to a brazing device is a continuous process characterized in that the expansion chamber inlet 132 is adjusted as it moves in the vertical direction of 10).

According to the present invention, an expansion chamber for internal observation is installed at the inlet of the collecting chamber gate to collect the flux of particles or molten state at the inlet side of the brazing furnace for the internal observation brazing apparatus to remove the flux, which is unnecessary foreign matter attached to the conveyor. There is a very useful effect of preventing movement defects.

1 is a perspective view showing the whole brazing or heat treatment apparatus is a continuous process of the present invention.
Figure 2 is a perspective view of the inlet of the brazing or heat treatment apparatus is a continuous process of the present invention.
Figure 3 is a perspective view of the upper tank lowering the height of the inlet portion of the brazing or heat treatment apparatus is a continuous process of the present invention.
Figure 4 is an exploded perspective view showing a brazing or heat treatment apparatus is a continuous process of the present invention.
Figure 5 is a perspective view showing a brazing or heat treatment apparatus is a continuous process of the present invention.
Figure 6 is a perspective view showing a brazing or heat treatment apparatus is a continuous process of the present invention.
Figure 7 is a perspective view showing a brazing or heat treatment apparatus is a continuous process of the present invention.
Figure 8 is a perspective view showing a brazing or heat treatment apparatus is a continuous process of the present invention.
Figure 9 is a perspective view showing a brazing or heat treatment apparatus is a continuous process of the present invention.

Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below but may be embodied in various different forms, and only the embodiments allow the disclosure of the present invention to be complete and include those of ordinary skill in the art to which the present invention pertains. It is provided to fully inform the skilled person of the scope of the invention, which is defined only by the scope of the claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. As used herein, “comprises” and / or “comprising” does not exclude the presence or addition of one or more other components in addition to the mentioned components. Like reference numerals refer to like elements throughout, and "and / or" includes each and all combinations of one or more of the mentioned components. Although "first", "second", etc. are used to describe various components, these components are of course not limited by these terms. These terms are only used to distinguish one component from another. Therefore, of course, the first component mentioned below may be the second component within the technical spirit of the present invention.

Unless otherwise defined, all terms used in the present specification (including technical and scientific terms) may be used in a sense that can be commonly understood by those skilled in the art. In addition, terms that are defined in a commonly used dictionary are not ideally or excessively interpreted unless they are specifically defined clearly.

According to the present invention, in the brazing or heat treatment apparatus in which the solvent coating unit, the solvent drying unit, the brazing furnace, and the cooling unit are sequentially provided along the moving direction of the conveyor 104, the solvent drying unit 110 at the inlet of the brazing furnace 120. Is installed, the collecting chamber 112 is installed at the inlet of the solvent drying unit 110 to collect the flux of the particles or molten state, the gate at the inlet of the collecting chamber 112 to prevent sagging of the conveyor 104 30 is provided, the gate entrance hole 32 is formed in the gate 30, and the gate ceiling at the top of the gate entrance hole 32 in a state connected to the lower end of the gate door 40 in a right direction. A plate 34 is installed, and a gate door 40 moving upward and downward is installed on the rear surface of the gate 30 so as to adjust the size of the gate inlet hole 32, and at the entrance of the gate 30. Expansion chamber 100 for internal observation is installed In the expansion chamber 100, the top plate 10 is connected to the gate ceiling plate 34 by a coupling bolt 14, and the side plates 20 and 20 ′ are formed on both sides of the top plate 10. Continuous through the fixing hole 25 of the fixing bar (24, 24 ') is fixed to the bolt 22 and is moved in the vertical direction of the upper plate 10, characterized in that the expansion chamber inlet 132 is adjusted It is related with the brazing apparatus in which a process is performed.

Side plates 20 and 20 'on both sides of the top plate 10 and the top plate form a tempered heat glass that can withstand high temperatures so that the inside of the top plate 10 can be checked from the outside and can withstand high heat.

In the present invention, the gate door is connected to the cable (54) to the connecting ring (42, 42 ') of the gate door, the cable 54 is connected to the pulley (52) and the cable motor (60) of the holder 50 The connecting bracket 12 of the upper plate is connected to the cable (54-1, 54-2), the cable 54-1 is the pulley (52-1) of the holder 50-1 and the cable motor It is characterized in that connected to (60).

In the present invention, the collecting chamber is characterized in that the curtain is installed on the upper portion so that the size of the chamber is adjusted.

In the present invention, the top plate is characterized in that the plurality of top plate projections 18 are coupled in a state inserted into the guide 28 of the side plate.

1 to 9, the present invention provides a solvent drying unit at the inlet of the brazing furnace 120 in the brazing apparatus in which the solvent coating unit, the solvent drying unit, the brazing furnace, and the cooling unit are sequentially provided along the moving direction of the conveyor 104. The unit 110 is installed, the collecting chamber 112 is installed at the inlet of the solvent drying unit 110 to collect the flux of the particles or molten state, and the collecting chamber 112 to prevent sagging of the conveyor 104. The gate 30 is installed at the entrance of the gate 30, the gate entrance hole 32 is formed in the gate 30, and the gate entrance hole 32 is connected to the lower end of the gate door 40 in a right angle. A gate ceiling plate 34 is installed at an upper end thereof, and a gate door 40 moving upward and downward is installed at a rear surface of the gate 30 so as to adjust the size of the gate entrance hole 32. The gate 30 Expansion chamber 100 for internal observation at the entrance The expansion chamber 100 has a top plate 10 connected to the gate ceiling plate 34 by coupling bolts 14 and 14 ′, and transparent side plates 20 and 20 on both sides of the top plate 10. ') Is fixed to the bolt 22 through the fixing holes 25 of the lower fixing bars (24, 24') and is moved in the vertical direction of the transparent upper plate 10, the expansion chamber inlet 132 is adjusted To remove the flux on the product conveyed by the conveyor, and to remove the flux on the conveyor to prevent the transfer failure.

The present invention is provided with the expansion chamber 100 for the internal observation of the transparent material to enable the internal illumination without opening the door, it is possible to easily check the state of the accumulated flux inside.

In the present invention as shown in Figures 2 to 10, the cable 54 is connected to the connecting ring (42, 42 ') of the gate door, the cable 54 is the pulley 52 of the holder 50 And the cable motor 60, the connecting bracket 12 of the upper plate is connected to the cable 54-1, 54-2, the cable 54-1 is the pulley (50-1) of the pulley (50-1) 52-1) and the cable motor 60 is operated.

In the present invention, as shown in Figure 9, the collecting chamber is provided with a curtain at the top can be adjusted the size of the chamber.

In the present invention as shown in Figure 10 the upper plate of the expansion chamber 100 is coupled to the plurality of upper plate projections 18 is inserted into the guide groove 28 of the side plate when left and right when moving along the guide groove 28 It was formed so as not to shake in the direction.

Since the upper plate is not easy to move due to the high temperature, the upper plate protrusion 18 and the guide groove 28 are formed on the side to adjust the height of the inlet.

As described above, the expansion chamber is formed to move the thermal energy of the collection chamber to the expansion chamber 100 long, and the expansion chamber is formed to be interlocked with the size of the gate inlet hole 32.

 The heat energy of the brazing furnace 120 is formed to be drawn long, and the expansion chamber inlet 132 is enlarged, so that the heat energy is discharged toward the expansion chamber inlet 132, and the inlet is small (top plate). You can get

That is, the gate entrance hole 32 is lowered in order to lower the thermal energy to receive the adjacent heat by the conveyor, and the top plate 10 is lifted to form a large gate entry hole 32 to receive less thermal energy.

10: top plate 20, 20 ': side plate
30: gate 40: gate door

Claims (3)

In the brazing apparatus in which the continuous process provided with a solvent coating part, a solvent drying part, a brazing furnace, and a cooling part is provided along the moving direction of the conveyor 104,
The brazing apparatus is a solvent drying unit 110 is installed at the inlet of the brazing furnace 120, the collecting chamber 112 is installed at the inlet of the solvent drying unit 110 to collect the flux of the particles or molten state, The gate 30 is provided at the inlet of the collection chamber 112, the gate inlet hole 32 is formed in the gate 30, and the lower end of the gate door 40 to prevent the conveyor 104 from sagging. The gate ceiling plate 34 is installed at the upper end of the gate inlet hole 32 in a state connected to each other at right angles, and moved upward and downward on the rear surface of the gate 30 to adjust the size of the gate inlet hole 32. The gate door 40 is installed,
An expansion chamber 100 for internal observation is installed at the inlet of the gate 30, and the expansion chamber 100 has a top plate connected to the gate ceiling plate 34 by coupling bolts 14 and 14 ′. Side chambers are installed on both sides of the upper plate through the fixing holes 25 of both lower fixing bars 24 and 24 'and are fixed with bolts 22 and moved in the vertical direction of the upper plate 10. Is controlled,
The gate door is a cable 54 is connected to the connecting ring (42, 42 ') of the gate door, the cable 54 is connected to the pulley 52 and the cable motor 60 of the fixing table 50, The connecting brackets 12 and 12 'of the upper plate are connected with cables 54-1 and 54-2, and the cable 54-1 is connected to the pulley 52-1 and the cable motor of the holder 50-1. Connected to 60,
The top plate is a brazing device is a continuous process, characterized in that the plurality of connecting brackets 12 are coupled in the state inserted into the guide groove 28 of the side plate. delete delete

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