RU145776U1 - DEVICE FOR REMOVING TIN-LEAD SANDS FROM ELECTRONIC PRINTED BOARDS WITH THE CENTRIFUGAL FORCES ON ELECTRONIC PRESSED WATER SUNGEN IS UNDERGROUND - Google Patents

Abstract

A device for extracting tin-lead solders from scrap electronic printed circuit boards by centrifugal forces on scrap electronic printed circuit boards in a liquid heat carrier heated above the melting point of tin-lead solder in the range from 150 ° C to 320 ° C, characterized in that it contains a perforated drum for loading electronic printed circuit boards into it, made with the possibility of rotation and located inside a tank with a liquid heat carrier heated above the melting point of tin-lead solder in the mentioned range C.

Description

The utility model is designed to extract tin-lead solders from scrap of electronic printed circuit boards by the action of centrifugal forces on the scrap of electronic printed circuit boards in a liquid heat medium heated above the melting temperature of tin-lead solder in the range from 150 ° C to 320 ° C.

The utility model relates to the field of recycling.

The prior art:

The advantages of this device are: simplicity and low cost in manufacturing; short technological cycle, as chemical and electrochemical reactions are not used; environmental friendliness, for the same reason; high efficiency in the output of the extracted product from a unit of raw materials, because the extraction process takes place in a liquid coolant medium without access of atmospheric oxygen with its oxidizing properties; lack of need for expensive expendables and reagents.

Known and applied at industrial enterprises is a method for multi-stage extraction of solders from scrap of printed circuit boards, which includes: grinding of printed circuit boards to particles about 1 mm in size; electrostatic separation of the metal fraction from non-metal; magnetic separation of the magnetic fraction from non-magnetic; electrochemical refining of lead and tin in electroplating baths.

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The mentioned method includes significant disadvantages: complexity, multi-stage process; the high cost of equipment and its low productivity; a large need for expensive chemicals due to their rapid contamination, a large amount of environmentally hazardous chemical waste per unit of output.

The well-known "Method for the regeneration of products with solder-connected parts and a device for its implementation." RF patent No. 2089632. http://www.freepatent.ru/patents/2089632

The specified method involves the extraction of tin-lead solders by the action of centrifugal forces on the scrap of electronic printed circuit boards. The difference between this method is the mandatory placement of electronic printed circuit boards at an equal distance from the heating element located in the center of the rotating drum, the fixation of printed circuit boards on the walls of the drum, the mandatory orientation of the printed circuit boards in space - with the parts facing out.

The disadvantage of this method is the small performance. Incomplete loading of the useful volume of the drum and a large share of manual labor in the production cycle.

A significant difference between the principle of operation of this device from the above method is the use of a liquid coolant in the production cycle. The basis of electronic printed circuit boards made of fiberglass and getinax is a good heat insulator, so it is impossible to uniformly heat any volume of printed circuit boards only with the help of thermal radiation and air convection, as the above method suggests. In this case, foci of overheating and, as a result, pyrolysis of organic substances and oxidation of metals will necessarily occur. The implementation of the functions of this device is free from these disadvantages, because thanks to the liquid heat carrier, thermal energy is evenly distributed in the scrap volume of electronic printed circuit boards, and the access of air oxygen to the extracted metals is also blocked. In the production cycle, organized according to the principle of operation of this device, the scrap of printed circuit boards can fill the entire useful volume of the rotating drum. As processed raw materials, you can use scrap electronic printed circuit boards, both in whole form and in shredded form.

This utility model simplifies the technology for extracting tin-lead solders from scrap electronic printed circuit boards, reduces the number of process steps, reduces the time of the production cycle, and reduces the total cost of finished products.

The principle of operation of the device is shown in FIG. 1, FIG. 2, FIG. 3 Scrap of electronic printed circuit boards is loaded into the perforated drum 2, which is located inside the tank 1. In the tank 1 through the valve 5 is poured coolant heated above the melting point of tin-lead solder, in the range of 150-320 ° C. The heat carrier can be polyethylene glycol, glycerin or another liquid with a boiling point at atmospheric pressure in a predetermined temperature range of 150-320 ° C. The coolant is poured in the amount necessary to fill the tank 1. The protrusion of part of the scrap electronic circuit boards above the surface of the filled coolant is not allowed. Next, the drain valve 6 is opened and a rotational force is applied by the motor 7 to the drum shaft. Under the influence of the centrifugal force created by the rotating drum, the molten solder is disconnected from the scrap of the electronic printed circuit boards and flows out together with the coolant through the open valve 6. To suppress the vibration that occurs during the rotation time of the drum, the device is located on vibration mounts 3. The coolant in the tank can be filled with cold. In this case, the coolant is heated to the desired temperature by the heating element 4. The vertical walls of the tank are made with an inclination towards the center from 0 ° to 45 ° and form, in the case of an angle of inclination greater than 0 °, a truncated cone with an apex at the top of the device. The inclination of the walls of the tank gives, carried away by the rotation of the drum to the liquid coolant, the total force vector directed downward. The valve 6 can be installed tangentially to the circumference formed by the walls of the tank (tangentially) so that the effect of a water pump does not occur, preventing the flow of liquid coolant.

The result of this device is the mechanical separation of tin-lead solder from the scrap of printed circuit boards.

Claims (1)

A device for extracting tin-lead solders from scrap electronic printed circuit boards by the action of centrifugal forces on the scrap of electronic printed circuit boards in a liquid heat medium heated above the melting point of tin-lead solder in the range from 150 ° C to 320 ° C, characterized in that it contains a perforated drum for loading electronic printed circuit boards into it, made for rotation and located inside the tank with a liquid coolant heated above the melting point of tin-lead solder in said range C.