JP2006000906A - Reflow device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a reflow device where the reduction in work temperature between a preheat zone and a reflow zone can be prevented. <P>SOLUTION: A hot blast is fed to the space between a preheat zone 3P for work preheating formed along a work conveying passage in a furnace body 1 and a reflow zone 3R for reflow heating from a temperature-controllable hot blast generator 41 installed in the outside of the furnace body 1 through a duct 42. A rectification box 43 for rectifying the hot blast is installed at the inside of the furnace body 1 connected with the duct 42. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a reflow apparatus for soldering.

There is a reflow apparatus for soldering in which a plurality of hot air heating type work heating zones are formed along a work transfer path in a furnace body. The plurality of workpiece heating zones are configured by a plurality of preheating zones for workpiece preheating and a plurality of reflow zones for reflow heating (see, for example, Patent Document 1).
JP 2001-198671 A (page 3-4, FIG. 2)

  In such a reflow apparatus, there is a space such as a width adjustment mechanism of a work transfer conveyor between the preheat zone and the reflow zone, and hot air is not supplied to this space, so the work temperature heated in the preheat zone is Is causing a problem to decline.

  The present invention has been made in view of the above points, and an object of the present invention is to provide a reflow apparatus capable of preventing a decrease in workpiece temperature between a preheat zone and a reflow zone.

  The invention described in claim 1 includes a furnace body, a preheating zone for reheating the workpiece and a reflow zone for reflow heating formed along the workpiece conveyance path in the furnace body, and the preheating zone and the reflow zone. A reflow device comprising a temperature-adjustable hot air generator for supplying hot air from the outside of the furnace body, and a preheat zone and a reflow zone from the outside of the furnace body by a temperature-adjustable hot air generator By supplying hot air whose temperature is adjusted between the two, a decrease in the workpiece temperature between the preheat zone and the reflow zone is prevented.

  The invention according to claim 2 is the reflow apparatus according to claim 1, wherein the hot air generator installed outside the furnace body is connected to the furnace body, and the duct is installed inside the furnace body to which the duct is connected. And a rectifying box that rectifies the hot air supplied from the outside, and rectifies the hot air supplied from the duct with the rectifying box, thereby uniformly diffusing the hot air in a limited range in the duct. And supply it to the furnace.

  According to the first aspect of the present invention, the temperature-adjusted hot air generator supplies hot air whose temperature is adjusted between the preheat zone and the reflow zone from the outside of the furnace body. It is possible to prevent a decrease in workpiece temperature between the zone.

  According to the second aspect of the present invention, the hot air supplied from the duct is rectified by the rectification box, so that the limited range of hot air in the duct can be uniformly diffused and supplied to the furnace body.

  The present invention will be described below with reference to one embodiment shown in FIGS.

  FIG. 5 shows the entire reflow apparatus, and a conveyor 2 for transporting a workpiece W such as a substrate on which components are mounted is provided so as to penetrate the furnace body 1. The conveyor 2 transports the workpiece in the furnace body 1. A plurality of hot air heating type work heating zones 3 are formed along the path. A work cooling zone 4 is provided on the work carry-out side of the furnace body 1.

  The plurality of workpiece heating zones 3 are constituted by a plurality of preheating zones 3P for workpiece preheating and a plurality of reflow zones 3R for reflow heating.

  The plurality of preheat zones 3P includes a first zone 11, a second zone 12, a third zone 13, a fourth zone 14, and a fifth zone 15, and the plurality of reflow zones 3R It consists of six zones 16 and a seventh zone 17.

  In each workpiece heating zone 3, as shown in FIGS. 1 and 2, a fan 22 rotated by a motor 21 attached to the upper side and the lower side of the furnace body 1 is arranged up and down, and air is blown from these fans 22. Heaters 23 that heat the generated atmosphere and generate hot air are arranged above and below.

  Further, a radiation panel 24 that is heated by these heaters 23 and radiates far-infrared rays to the workpiece W is disposed above and below. As shown in FIG. 3, these radiation panels 24 have a large number of evenly drilled hot air transmission holes 25 and function as rectifying plates.

  As shown in FIG. 5, in the work cooling zone 4, work cooling fans 28 are arranged vertically or on one side of the conveyor 2.

  Moreover, although the path | route through which a wind circulates in the furnace body 1 is formed symmetrically up and down via the conveyor 2 as shown in FIG. 1, when only the upper side is demonstrated, as shown in FIG. A discharge chamber 31 that discharges air around the fan 22 is provided, and the discharge chamber 31 communicates with the heating chamber 33 through the discharge port 32. The heating chamber 33 also sends air to the center of the heating chamber 33. A guide plate 34 for feeding is provided. Further, as shown in FIG. 1, recovery ports 35 are opened at the workpiece carry-in side end and the workpiece carry-out side end of the radiation panel 24, and these collection ports 35 are heated. A passage 36 formed on the work carry-in side and the work carry-out side of the chamber 33 is communicated with the central passage 37 shown in FIG. 2, and the fan is passed through the suction port 38 opened at the center of the central passage 37. It is connected to the center of 22.

  As shown in FIGS. 1 and 2, the temperature can be adjusted by supplying hot air from the outside of the furnace body 1 between the fifth zone 15 of the preheating zone 3P and the sixth zone 16 of the reflow zone 3R. A hot air generator 41 is installed outside the furnace body 1.

  The hot air generator 41 and the furnace body 1 are connected by a duct 42, and a rectifying box 43 for rectifying hot air supplied from the outside is installed inside the furnace body 1 to which the duct 42 is connected. . The rectifying box 43 is provided with a large number of hot air ejection holes 44, and the pressure is made uniform throughout the entire rectifying box 43 due to the resistance of the hot air ejection holes 44.

  As shown in FIG. 1, a conveyor width adjusting mechanism 45 that variably adjusts the frame width of the conveyor 2 according to the workpiece width is provided on the upper side of the rectifying box 43.

  Next, the function and effect of this embodiment will be described.

  The atmosphere discharged to the heating chamber 33 by the fan 22 is heated by the heater 23 and blown to the work W through the radiation panel 24. In the first zone 11 to the fifth zone 15, the work W is preheated, and the sixth In the zone 16 and the seventh zone 17, the work W is reflow heated.

  At that time, hot air whose temperature is adjusted according to the temperature set value of the fifth zone 15 is supplied between the fifth zone 15 and the sixth zone 16 via the duct 42 from the hot air generator 41 whose temperature can be adjusted. By doing so, the workpiece temperature change when there is no heating by the hot air generator 41 shown by the dotted line a in FIG. 4 can be corrected as shown by the solid line, and between the preheating zone 3P and the reflow zone 3R. It is possible to prevent a drop in the workpiece temperature that is likely to occur in the workpiece W or the portion having a small heat capacity, and to improve the heating efficiency.

  At this time, the hot air supplied through the duct 42 is rectified and supplied by the rectifying box 43, so that the limited range of hot air in the duct 42 can be uniformly diffused and supplied into the furnace body 1, and the work W Heating unevenness can be prevented.

  Although the hot air generator 41 is connected to the lower side of the furnace body 1 by the duct 42, it may be connected to the upper side of the furnace body 1 or both the upper and lower sides.

It is sectional drawing of the workpiece conveyance direction which shows one Embodiment of the reflow apparatus which concerns on this invention. It is sectional drawing of the workpiece | work width direction of a reflow apparatus same as the above. It is sectional drawing to which a part of reflow apparatus same as the above was expanded. It is a characteristic view which shows the temperature profile of the workpiece | work heated by the reflow apparatus same as the above. It is sectional drawing which shows the outline | summary of a reflow apparatus same as the above.

Explanation of symbols

1 Furnace
3P preheat zone
3R reflow zone
41 Hot air generator
42 Duct
43 Rectifier box

Claims (2)

A furnace body;
A preheating zone for workpiece preheating and a reflow zone for reflow heating formed along the workpiece transfer path in the furnace body;
A reflow apparatus comprising: a hot air generator capable of adjusting temperature to supply hot air from outside the furnace body between the preheat zone and the reflow zone. A duct connecting the hot air generator and the furnace body installed outside the furnace body;
The reflow apparatus according to claim 1, further comprising: a rectifying box installed inside the furnace body to which the duct is connected and rectifying hot air supplied from the outside.

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