SU933601A1 - Method of securing suction chambers of article surface - Google Patents

Description

(54) METHOD FOR FIXING VACUUM PUMPING CHAMBERS ON THE SURFACE OF PRODUCTS

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The invention relates to a lifting and transport equipment and can be applied mainly in the event of a shortage of electricity.

A known method of securing vacuum attachment chambers on the surface of products for lifting and transporting them, includes installing the camera on the product and creating a vacuum in its cavity 1.

The discharge in the cavity of the suction chamber is performed by evacuating the air from the chambers using a vacuum pump or using an ejector of compressed air. In these cases, the pressure drop in the suction chambers mounted on the product is created by pumping out air with a vacuum pump or ejector. A vacuum pump drive uses an electric motor that requires expensive electric power to operate. In the second example, an electrically driven compressor is used to create compressed air — again, electric power is required.

The purpose of the invention is to reduce energy consumption for the process of vacuum lifting products due to the use of water

steam, which is much more than electricity.

This goal is achieved by the fact that the discharge in the cavity is performed by passing water vapor through it, followed by cooling and condensation.

The drawing shows a diagram of the suction chamber of the load gripping device for carrying out the proposed method.

The suction chamber 1 is provided with a valve 10 2 connected to the steam line and a valve 3 connecting the chamber with air. Ribs 4 are welded to the camera body.

The proposed method is carried out as follows.

A load gripping device is installed by a suction chamber 1 on the product 5, between which a sealed volume is formed, filled with air. The following operations are performed to create a discharge in the cavity J of the instrument and capture the product. The air valve 3 and the steam valve 2 are opened. Chamber 1 is blown with water vapor, the pressure of which is higher than atmospheric, and thus replaces the air in it with water vapor. Steam movement and

air in the drawing is indicated by arrows. When water vapor displaces the entire volume of air from the chamber, both valves 2 and 3 close, and the water vapor in the hermetic volume begins to cool. This is produced by the release of heat to the ribbed case of the chamber 1 and the product 5, and from the ribbed case to the environment. The water vapor condenses and the water that forms is deposited on the inner walls of the body of the chamber 1 and on the surface of the product 5. In this case, the chamber is evacuated and a pressure drop is formed in relation to the air pressure outside the chamber. The pressure of atmospheric air presses the chamber 1 tightly to the product, and a rigid connection is formed between them, which ensures lifting the product, transporting it and placing it in its designated place. After installation of the product, the suction chamber 1 is vacuumized by opening the air valve 3 and by letting atmospheric air into the suction chamber 1. The pressure in chamber 1 is equalized with the pressure of the surrounding air, and the product 5 is released.

The use of the proposed method provides, in comparison with known methods, a reduction in costs, since in industry there are often leaks of steam energy, and electric power is limited. You can use waste steam with low parameters, i.e. waste of steam energy of a certain technological process, without the use of electricity.

Claims (1)

Invention Formula A method of securing vacuum suction chambers on the surface of products, including installing the camera on the product and creating a discharge in its cavity, characterized in that, in order to reduce energy costs, the discharge in the cavity is carried out by passing water vapor through it, followed by cooling and condensation . Sources of information taken into account in the examination 1. Weinson A. A., Andreev A. F. Specialized crane load grippers for piece goods. M., 1972, p. 104 (prototype).