SU1286344A1 - Radiation unit for soldering - Google Patents

Abstract

The invention relates to the field of soldering, in particular to the design of a radiation installation. The aim of the invention is to increase the efficiency of the installation by protecting quartz glasses from soiling during soldering. The radiation soldering unit contains a chamber with a vertical wall of quartz glass, irradiators located around the chamber, a cover and a bottom. It is equipped with ring-shaped heaters installed outside the chamber around the perimeter of the bottom and the cover. The vertical wall of quartz glass is installed with a gap relative to the bottom n of the lid. The gap is 1 to 0 mm. The gaps provide a flow of laminar air flow around the vertical walls and quartz glass and do not allow contamination of transparent walls. The location of the heaters around the perimeter of the bottom and the cover makes it possible to improve the air flow along the vertical walls due to the additional thrust of air. I zp f-ly, I ill. with (L

Description

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The invention relates to soldering, in particular, to the design of a radiation installation, and can be used for radiant heating for soldering and other operations associated with heating.

The purpose of the invention is to increase the efficiency of the installation by protecting quartz glasses from contamination when soldering.

The drawing shows schematically the radiation installation for soldering, a longitudinal section.

The radiation installation for soldering comprises a chamber 1 with a vertical wall 2 of quartz glass, irradiators 3 located around the chamber, a cover 4, a bottom 5 and heaters 6 in the form of rings mounted outside the chamber along the bottom of the bottom and the cap; a vertical quartz glass wall is installed with a clearance of the cover relative to the bottom and the cover.

Radiation installation works as follows.

The heating part 7 is placed in the heating zone inside the chamber 1. Then the heaters 6 and the irradiators 3 are turned on. After the heating process is completed, the irradiators 3 and the heaters 6 are turned off.

Gaps from 1 to 10 mm ensure 25 the flow of laminar air flow around the vertical walls of the chamber and thus prevent vapor fluxes (when using the unit for flux soldering) and other contaminants from penetrating to quartz glass transparent walls. If the gap is less than 1 mm, then the vertical walls are not protected against the ingress of vapors and contaminants. With a gap of more than 10 mm, the air moves with the air in the chamber.

The cold air entering through the gap in the lower part of the chamber disrupts the laminar near-wall air flow due to the additional convection due to the temperature difference. To avoid this, a heater is also installed around the bottom of the chamber at the bottom of the chamber.

The vertical walls of the installation are made of transparent quartz tube with a diameter of 200 mm. The cover and the bottom are made of 10 metal to provide a 4 mm gap in the lower and upper parts of the x-chamber. A nichrome spiral is used as heaters. The heating inside the chamber is carried out by centering irradiators arranged around the quartz tube.

When soldering, the walls of the chamber retain their transparency for 3 hours of conducting the experiment.

When soldering in an installation without gaps when using flux 34A for soldering aluminum alloy parts, the glass loses its transparency by 70% within 15 to 20 minutes of operation of the installation.

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To improve the air flow along the vertical walls of the chamber, a heater 40 is located around the perimeter of the lid in the upper part of the chamber.

Claims (2)

1. A radiation installation for soldering, containing a chamber with vertical walls of transparent quartz glass, a lid and a bottom and irradiators mounted around the chamber, characterized in that, in order to increase the efficiency of the installation by means of zapsed quartz glasses from soldering contamination, the installation equipped with heaters made in the form of rings and installed outside the chamber along the perimetry leads to ingress of flux vapor to the bottom and cover, and the vertical wall of quartz glass is installed with a gap relative to the bottom and cover. 2. Installation according to claim 16, stating that the gap between the inner surface of the vertical wall and the front surfaces of the bottom and lid of the chamber is 1-10 mm. 711 / The cold air entering through the gap in the lower part of the chamber disrupts the laminar near-wall air flow due to the additional convection due to the temperature difference. To avoid this, a heater is also installed around the bottom of the chamber at the bottom of the chamber. The vertical walls of the installation are made of transparent quartz tube with a diameter of 200 mm. The cover and the bottom are made of metal to provide a 4 mm gap in the lower and upper parts of the x-chamber. A nichrome spiral is used as heaters. The heating inside the chamber is carried out by centering irradiators arranged around the quartz tube. When soldering, the walls of the chamber retain their transparency for 3 hours of conducting the experiment. When soldering in an installation without gaps when using flux 34A for soldering aluminum alloy parts, the glass loses its transparency by 70% within 15 to 20 minutes of operation of the installation. Invention Formula 1. A radiation installation for soldering, containing a chamber with vertical walls of transparent quartz glass, a lid and a bottom and irradiators mounted around the chamber, characterized in that, in order to increase the efficiency of the installation by means of zapsed quartz glasses from soldering contamination, the installation equipped with heaters, made in the form of rings and installed outside the chamber along the perimeter of the bottom and the cover, and the vertical wall of quartz glass is installed with a gap relative to the bottom and the cover. 2. Installation according to claim 16, stating that the gap between the inner surface of the vertical wall and the front surfaces of the bottom and lid of the chamber is 1-10 mm. 711 / I 15