SU1355397A1 - Arrangement for tinning wire ends - Google Patents

Abstract

The invention relates to soldering and can be used in the electrical, instrument-making and other industries in the industry for tinning the ends of wires during installation and manufacture of electronic equipment. The purpose of the invention is to improve the quality of tinning by providing metered fluxing. The flux bath is installed above the bath The invention relates to soldering and can be used in the electrical, instrument-making and other industries for tinning the ends of the wires in the installation and manufacture of electronic equipment. The aim of the invention is to improve the quality of tinning by providing metered fluxing. Fig, 1 shows the device, a general view; in fig. 2 - flux bath. The device for tinning the ends of the wires comprises a housing 1 with a crush 2, two holes 3 and 4 are filled in the lid 2, and an opening 3 is intended to supply flux from a tinning dosing container rotatably and filled in the form of a centrifugal conical dispenser with a helical trench. on the inner surface, with a central hole in the bottom and an inner collar in the upper part. This eliminates the gap between fluxing and tinning operations. A dose of flux is placed in a predetermined fluxing zone on the box surface of the bath. The case cover has two openings eccentrically located with respect to the vertical axis of the device for the delivery of the product and the flux. The distance between the axis and the center of the product feed hole is greater than the distance between the same axis and the center of the hole for feeding the flux. This ensures that the wire gets into the fluxing zone. 1 hp f-ly, 2 ill. o (L 5, and hole 4 - for feeding stranded wire 6 into the device. With an atom, distance 1 from the center of the hole 3 to the axis of the device is less than distance 1h from the center of the hole 4 to the specified axis. an electric heater 8 and molten solder 9; A bath of a flux 10 is arranged coaxially above the bath; it is made in the form of a centrifugal conical metering unit with a pneumatic fan, including a choke 1 and a blade 12, the angle of inclination of the wall of the flux bath to its base is within 30 -60. Bath 10 fluxing in the upper part has a flange 13, and at the base - the central hole oo JV sd sd with

Description

14dl wire 6 in the molten solder 9. On the inner surface of the bath is made helical groove 15.

After melting and heating to the required temperature from the electric heater 8, the solder 9 turns on the drive of the rotation of the flux bath 10. To do this, compressed air is supplied through the fitting 1I, which, acting on the blades 12, causes the bath 10. The flux is fed from the container 5 through the opening 3 of the cover 2 onto the inner surface of the flux pool 10. The flux under the action of centrifugal forces fills the groove 15 and covers the surface area inside the flux bath from point A up to the side of flange 13 with a thin layer. Insert the insulated stripped wire 6 inserted into the opening 4 of the cover 2. The end of the wire 6 is bent along the inside bath surface, slides along the helical groove 15 and enters the cylindrical hole 14. At the same time, at the end of the wire from the groove

15 it carries the required (limited) amount of flux. After passing the end of the wire 6 through the opening 14, the wire is immersed in the molten solder 9 of the bath 7 and serviced. The laid end of the wire is removed from the device.

Placing a flux bath over a tinning bath ensures the operation of fluxing and tinning of wires in one device and during one movement of the wire, thereby eliminating the gap between fluxing and tinning operations.

Performing a flux bath in a conical metering device with a given (30-60) angle of inclination of its wall to the base ensures that the flux dose hits its side surface, and in combination with a certain location of the flux supply hole during rotation of the flux bath, the flux dose is placed in a given fluxing zone on the side surface of the bath, i.e. at a certain number of revolutions of the crucible, a band is formed on its side surface, evenly covered with flux, which leads to a high-quality fluxing of the end of the wire when it is inserted into the device.

Q

Q

5 Q s

five

In addition, the selected angle of inclination of the wall of the bath to the base allows, when the end of the flexible wire is fed through the hole in the cap, to give it the direction needed to enter the central hole and then to the tinning bath.

The presence of a helical groove on the inner side surface of the flux bath when moving the end of the wire to the central hole and further into the tinning bath ensures the oriented passage of the flexible end of the wire along a predetermined flux zone formed by the rotation of the bath.

The location of the flux supply hole from the device axis at a distance, less than the distance from the axis to the wire supply hole, ensures that the end of the wire necessarily enters the flux zone, since the flux zone is rotating upwards from the flux point C () A FIG. 2) on the side surface of the bath to the point of initial contact with the end of the wire side surface, i.e. located between points A and B located on the side surface at a distance from the axis of rotation equal to 1 and l, respectively. In the case when 1 is greater than or equal to 1, the wire will not get into the fluxing zone, since the flux will be located above the point of initial contact with the end of the wire of the side surface of the bath.

Performing a flux bath with a shoulder eliminates the possibility of flux falling on the device lid and rotation assembly, which increases the reliability of the device in operation and reduces the flux consumption, and removing the wire through the cylindrical opening of the rotating flux bath prevents the wire being unwound.

In addition, the application of a limited amount of flux ensures high quality of the tinning, eliminates the ingress of flux residues under the insulation, and also allows the elastic section of the wire to be kept behind the trimmed part.

Claims (2)

Invention Formula 1, A device for tinning the ends of the wires, comprising a housing with a tongue and coaxially mounted baths therein tinning and fluxing, characterized in that, in order to improve the quality of tinning by providing dosed fluxing, the fluxing bath is installed rotatably above the tinning bathtub and made in the form of a centrifugal conical metering device with a helical groove on the inner surface, a central hole in the bottom and an inner collar in the upper part, and the housing cover is made, in turn, with two eccentric The holes for supplying the workpiece and the flux, relative to the vertical axis of the device, the distance between the said axis and the center of the opening for supplying the product to be processed is greater than the distance between the same axis and the center of the hole for supplying the flux. 2. The device of clause I, of which is that the rotational drive of the flux bath is pneumatic. U / j 1 Phys .2 Redadstor O. Filitove Tehred L. Oliynyk Order 152 Circulation 650 Subscription VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and Publishing Combine Patent, Uzhgorod, st. Gagarin, 101 Proofreader L. Patay