PL109261B3 - Device for cleaning containers - Google Patents

Description

Patent specification published: 03/10/1981 109261 Int. Ol2. B08B 5/02 B08B 9/08 Inventor: Jan Pogonowski, Authorized by the patent: Research and Development Center for Electrotechnical and Mining Mechanization, Katowice (Poland) Automation Systems Device for cleaning tanks Prior to the patent no. 105691 jelst a device for cleaning tanks containing a biocides compressed gas, the outlet of which is terminated, a nozzle introduced into the interior of the bulk material container. The outlet of the reservoir is closed by a water plug with an actuator of the pneumatic cylinder. Between the fungus and the mouth of the reservoir the seal is attached to the fungus and the outer part of the seal is free. The device is controlled by a control valve and an auxiliary valve, which is silenced by an electric signal. The device has a separate control unit, actuated each time to generate single pulses of air blown into the tank: The purpose of the invention is to eliminate the above-mentioned inconvenience. This goal was achieved by the installation of the device with a throttle connecting the compressed gas tank with the cylinder of the pneumatic actuator, and (switching in parallel with the throttle of the non-return valve connecting the cylinder of the pneumatic actuator with the compressed gas tank, enabling the flow of the glaze from the cylinder to the engine. In order to improve the efficiency of cMailanla, 10 and 20 S0, to increase the speed of exposing the outlet of the compressed gas chamber between the plug and the actuator of the pneumatic actuator, there is a pneumatic pneumatic actuator. Thanks to this solution, the device according to the present invention works automatically, and the frequency of its purification can be regulated by means of a choke, while the construction and control method of the device have been significantly improved into a sitos, avoiding a known solution. 1 shows the device in an axial section with an arrangement of control elements, and FIG. 2 shows another embodiment of a device closing the outlet of a compressed gas filter. The device has a compressed gas tank 1. the outlet of which is terminated, the outlet nozzle t. The opening of the compressed gas tank 1 is closed by a plug 3 connected to the piston 4 of the pneumatic actuator by means of a rod 5. The plug 3 is pressed by a spring 6 against the outlet edge of the tank 1 of compressed gas. The compressed gas tank is connected by a throttle 7 to the cylinder 8 of the air cylinder. The device also has a non-return valve 9 connected in parallel with the throttle 7 in such a way that air can only flow through it in the direction from the cylinder 8 of the pneumatic cylinder to the compressed gas reservoir 109 2612. The throttle 7 and the non-return valve 9 are located in the cover 10 separating the tank 1 from the cylinder 8 of the air cylinder. The air is supplied through the line 11 directly to the compressed gas tank 1. The air flow to the cylinder 8 of the pneumatic cylinder from the tank 1 takes place through the plug 7. The throttle 7 is selected so that the air pressure in the cylinder 8 of the pneumatic cylinder reaches a value that causes The overload of the piston 4 only when the air pressure in the compressed gas tank 1 reaches the required value. Overhauling the piston 4 causes the plug 3 to shift and rapidly expose the outlet of the compressed gas tank 1. There is then a sudden outflow of air through the outlet nozzles 2. The pressure in the compressed gas tank 1 drops, which causes the air from the cylinder 8 of the pneumatic actuator to flow into the compressed gas tank 1 through the check valve 9 and partly through the throttle 7. The spring 6 moves the piston 4 to the position in which the plug 3 closes the outlet of the compressed gas tank 1. The duty cycle occurs automatically as long as compressed air is supplied to the device. The device, according to another embodiment, has a changed assembly closing the outlet nozzles (lig. 2). At the end of the rod 5 there is an elastic element 12 consisting of two pre-compressed springs, between which a tip is placed, which is part of the plug closing the outlet nozzles. The air is led through line 11 directly to the compressed gas reservoir 1. The air flow to the cylinder 8 of the pneumatic cylinder from the tank 1 takes place through the throttle 7. The throttle 7 is selected so that the air pressure in the cylinder 8 of the pneumatic cylinder reaches a value causing the piston 4 to override only when 2S1 and the air pressure in the tank 1 compressed branch reaches the required value. The friction 5 drifting in the icicle from the outlet nozzle first causes deformation of the spring element 12, while the plug held by the forces of air pressure in the tank 1 and continues to close the outlet. Further movement of the "drift 5" causes these forces to be exceeded, the plug 3 10 is torn from the edge of the outlet nozzle and under the influence of forces from the deformation of the spring element 12 it jumps back, revealing the opening of the nozzle and pilot 2. the action of the springs is very short, which significantly increases the effectiveness of the device. Patent Claims 20 1. The device for cleaning catkins containing a compressed gas tank, the outlet of which is closed by a plug connected to the actuator of the pneumatic actuator, according to the patent of pipes 105691, characterized in that it has an adapter (7) connecting the compressed gas reservoir (1) with the cylinder (8) of the air cylinder and a non-return valve (9) connected parallel thereto connecting the cylinder (8) of the air cylinder (8) with the reservoir (1) the compressed gas. 2. Device according to claim 1, characterized in that the throttle (7) and the non-return valve (9) are placed in the cover (10) separating the compressed gas chamber (1) from the cylinder <8) of the pneumatic lining. 3. Device for cleaning tanks, containing a compressed gas tank closed with a plug connected to an actuator of a pneumatic actuator according to patent No. 40 105691, characterized by the fact that it has an elastic element (12) placed between the plug (3) and the actuator (4) air cylinder, J10d 261 ffg. 2 PL

Claims (3)

Claims 20 1. A device for cleaning sandbugs containing a compressed gas tank, the outlet of which is closed by a plug connected to an actuator of a pneumatic actuator, according to the 105691 pipe patent, characterized by the fact that it has a socket (7) connecting the reservoir (1) of compressed gas with the cylinder (8) of the air actuator and a non-return valve (9) connected parallel to it connecting the cylinder (8) of the air actuator with the compressed gas reservoir (1). 2. Device according to the provisions of 3. The apparatus of claim 1, characterized in that the throttle (7) and the return valve (9) are housed in a cover (10) separating the compressed gas filter (1) from the pneumatic suction cylinder (8). 3. Device for cleaning tanks, containing a compressed gas tank closed with a plug connected to an actuator of a pneumatic actuator according to patent No. 40 105691, characterized by the fact that it has an elastic element (12) placed between the plug (3) and the actuator (4) air cylinder, J10d 261 ffg. 2 PL