RU2017834C1 - Induction heating device - Google Patents

Abstract

FIELD: electrical engineering; induction heating of parts to be soldered. SUBSTANCE: device has slotted inductor 1 with U-shaped jumpers 2 on ends. Transporting member 3 with devices 4 for holding parts 5 is placed inside inductor 1 within height of jumpers 2. Devices 4 are pointed to slot of inductor 1. Induction heater provides heating both of short and long-cut parts with zone of heating located near part holding device. EFFECT: enlarged operating capabilities. 3 dwg

Description

 The invention relates to induction heating and can be used to automatically heat parts for soldering, for example, a water mixer.

 A known installation for soldering a water mixer of the company (Switzerland) model AM216 with a rotary transport table and a two-position inductor. The inductor of this installation carries out zone heating of parts, and when changing parts, the inductor idles, which complicates the design of the installation and reduces its productivity (see Industrial Catalog N 35-21, Switzerland, UDC 621.791.3).

 Induction heating devices are known in which parts mounted on a rotary table are heated in slotted inductors. This heating device cannot be used to heat long workpieces, for example, such as a faucet mixer.

 The closest is a device for automatic soldering with a continuous supply of parts in a passage inductor. The device is a slot inductor through which parts are conveyed using a conveyor belt or a rotating disk.

 This inductor is suitable only for heating small parts and is not suitable for machining long ones, in which the heating place is located near the device for installing parts, due to the fact that an increase in the height of the U-shaped jumper of the inductor leads to a sharp decrease in the efficiency of the inductor.

 The aim of the invention is to expand the technological capabilities of the device while maintaining a high efficiency of the inductor.

 This goal is achieved by the fact that in the device for induction heating, containing a slotted inductor with U-shaped jumpers at the ends and a conveying element with devices for installing parts directed towards the slit of the inductor, the conveying element is placed inside the slotted inductor within the height of the U-shaped jumper .

 The conveying element can be made in the form of a moving reciprocating rack, a rotating ring and a conveyor belt.

 When viewing the scientific, technical and patent literature, no technical solutions were found containing the claimed essential features.

 In FIG. 1 shows a device with a conveying element in the form of a reciprocating rail; in FIG. 2 - a device with a conveying element in the form of a rotating ring; in FIG. 3 - a device with a conveying element in the form of a conveyor belt.

 The device contains a slotted inductor 1, at the ends of which U-shaped jumpers are made 2. Inside the slotted inductor 1, within the height of the U-shaped jumpers 2, a transporting element 3 with devices 4 for installing parts 5 is placed. The devices 4 are mounted on the transporting element 3 from the slot side inductor 1. The conveying element 3 can be made, for example, in the form of a rail, making a reciprocating motion, in the form of a closed rotating ring, in the form of a conveyor belt.

 The device operates as follows.

 When the conveying element 3 in the form of a rail, it moves in one of the extreme positions and in the area outside the inductor 1, one or two heated parts, for example, a water mixer, are installed on devices 4. Then the rail 3 moves to another extreme position. Installed parts fall into the inductor 1 and heat up. While the parts 5 are heating, the parts are installed on the free end of the rail 3, located outside the inductor 1. Upon reaching the set temperature, the rail 3 with parts moves to its original position, while the heated parts exit the inductor 1, and the newly installed devices 4 enter the inductor 1 and heat up. At this time, parts outside the inductor 1 are replaced with new ones. After the heating of the parts located in the inductor 1, the rail 3 again moves. The cold parts enter the inductor 1, the cold parts leave the inductor and they are replaced. So, there is a periodic heating of parts. If the heating time is longer than the replacement time for parts, the inductor does not turn off.

 When the conveying element 3 in the form of a closed rotating ring or conveyor belt, parts 5 are installed in the fixture 4 in the area in front of the inductor 1. When continuously moving through the inductor 1, the parts 5 are heated and, after exiting the inductor 1, are removed from the fixture 4 of the conveying element 3.

 If the proposed device is used to heat parts for soldering, for example, a water mixer, then the part is removed from the device 4 only after the hardening of the solder. If a rail is used as the conveying element 3, then the inductor is turned off after heating the parts, and the rail moves only when the solder solidifies. When performing the conveying element 3 in the form of a continuously rotating ring or conveyor belt, the parts are also removed from the device after solidification of the solder, while the inductor does not turn off.

 Thus, the device can be used to heat both small and long parts and can be easily integrated into automatic lines, in particular rotary ones.

Claims (1)

 DEVICE FOR INDUCTION HEATING, mainly of solder parts, containing a slotted inductor with U-shaped jumpers at the ends and a transporting element, on which devices for installing parts are mounted, directed towards the inductor slit, characterized in that, for the purpose of expanding technological capabilities, transporting the element is placed inside the slotted inductor within the height of the jumpers.

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