CS252399B1 - Apparatus for removing components from the tempering chambers of the drive rotor - Google Patents

Abstract

The essence of the solution is that a groove is formed around the circumference of the driving rotor between the tempering chambers. At the point of removal of the parts, an ejector is mounted above the driving rotor in a pivoting and spring-loaded manner. The ejector reaches through the groove into the tempering chamber.

Description

The present invention relates to a device for removing components from the temperature chambers of a drive rotor.

In previously known temperature chambers, the components are housed in the rotor temperature chambers one by one in the vertical position. During one revolution of the rotor, the components are brought to an elevated or reduced setpoint temperature. When the temperature is lowered below the freezing point, it often happens, especially in the case of the lighter parts, that they accentuate the walls of the tempering chamber. Therefore, it is necessary to forcibly separate the components from the tempering chambers. Until now, an electromagnet is used for detaching the components and for pushing them out of the tempering chamber, which in the removal position is mounted above the tempering chamber, from which it detaches the component by means of a rod. The disadvantages of this solution lie in the energy, management and solution requirements, which makes it difficult.

The above-mentioned disadvantages are overcome and a technical problem is solved by a device for removing components from the temperature chambers of the driving rotor according to the invention, which is based on the fact that a groove leading to the temperature chambers is formed around the circumference of the driving rotor between the temperature chambers. The part ejector is pivoted and sprung above the driving rotor at the component removal point. The ejector extends through the groove into the tempering chamber above the discharge chute.

The device for removing components from the tempering chambers of the entraining rotor provides a simple and energy-efficient removal of the component from the tempering chamber by a simple solution.

The attached drawing shows an exemplary solution of a part removal device in a particular solution of integrated circuits from the tempering chambers of the driving rotor, where in FIG. 1 is an axial sectional view, and FIG. 2 is a cross-sectional view taken along line A-A in FIG. First

The device for removing components from the driving chambers of the driving rotor consists of a driving rotor 11, on the circumference of which there are formed the passages of the heating chamber 9. At the point of loading there is an inlet chute 13 above the driving rotor 11. ab 12. A groove 7 is formed around the circumference of the entrainment rotor 11 between the tempering chambers 9 and extends through the annealing chambers 9. At the point of removal of the components, an ejector 1 of the components 10 is pivotably mounted on the pin 2. The lower arm 5 in the extreme lower position abuts against the stop 6. The upper arm 3 of the ejector 1 is mounted on the tension spring 4.

The components 10 are fed individually via an inlet chute 13 to the annealing chambers of the entrainment rotor 11, which steps by the spacing of two adjacent annealing chambers 9. During rotation, the entrainers 11 are tempered to the desired temperature and a technological operation is performed. After one rotation of the driving rotor 11, the component in the tempered chamber 9 runs under the lower arm 5 of the ejector 1, which is forced, even if it is adhered to the wall of the tempering chamber 9, by pushing it from the tempering chamber 9 into the discharge trough 12.

Claims (1)

OBJECTIVE A device for removing components from the tempering chambers of the drive rotor, above which the feed chute opens at the point of loading of the components, and a discharge chute is arranged below the tempering chambers at the withdrawal chamber, characterized in that the circumference of the driving rotor (li) between the tempering chambers (9) the invention comprises a groove (7) extending into the tempering chambers (9), wherein an ejector (1) of the parts (10) extending over the groove (7) into the tempering chamber (10) is located above the entraining rotor (11) and the sprung suspension spring (11). the chamber (9) above the discharge chute (12). 1 sheet of drawings