SU905676A1 - Device for checking can fluid tightness - Google Patents

Description

one

The invention relates to an instrumentation 11 technique and can be used to monitor the tightness of cans.

A device for checking the tightness of cans is known, comprising a bed, a swivel wheel mounted on it with detachable can chambers, a source of compressed air, a compressed air supply system with slide valves, a leak meter communicating with the cameras, a rejecting device and tlD canister loading and unloading mechanisms.

This device does not provide high control performance due to the significant ineoionic character of the compressed air supply system with spool valves.

The closest in technical essence to the invention is a device for checking the tightness of cans, comprising a frame, a rotating wheel mounted on it with

a hollow axis communicated with a source of air intake, evenly spaced around the periphery of the wheel glasses with mounting elements for cans, glass lids with seals and through holes, clamping mechanisms of the lids, system for program air supply from the cavity to the holes in the lids, blocks measuring leakage from glasses, an electromagnetically pusher rejecting mechanism with a pusher controlled from a leak measurement unit, and conveyors for feeding and removing t23 cans.

However, this device does not provide high quality control at high device performance due to unreliable operation of the compressed air supply system.

The aim of the invention is to improve the quality of control.

Claims (2)

The goal is achieved by the fact that the air supply system is installed on the rotary wheel and is 9, filled in the form of an air distribution manifold with track valves according to the number of glasses and with electrical moving contacts for switching on the track valves. At the same time, the leakage measuring unit is fixed on the rotary wheel and contains gauges and pneumatic transducers according to the number of tanks and electrical moving contacts for activating the electromagnetic rejecting mechanism. FIG. 1 shows the proposed device; in fig. 2 is a section A-A in FIG. 1. A device for checking the tightness of cans comprises a frame (not shown), a pivot wheel 1 mounted thereon with a hollow axis 2, cavity 3 of which communicates with a source of compressed air (not shown) evenly spaced periphery 4 wheels 1 glasses 5 with mounting elements 6 for cans 7, covers 8 glasses with seals 9 and through holes 10, clamping mechanisms 11 covers, system 12 for programmatically supplying air from cavity 3 of axis 2 to through holes 10 in covers 8, made in the form of air distribution A collector 13 with track valves 14 for the number of cups 5 and with electrical moving contacts 15 for switching on the track valves T and mounted on the rotary wheel 1, air leakage measurement units 16 communicated with a cavity of 17 cups 5, an electromagnetic rejecting mechanism (not shown) with a pusher (not shown) controlled from the leakage measurement unit 16, the feed conveyor 18 of the cans 7 and the conveyor 19 for removing the cans 7. The air leakage measurement units 16 may consist of gauges 20 and pneumatic-electric converters 21 a number of cup 3 and the movable electrical contact 22 for energizing the electromagnetic marriage mechanism (not shown) and to be fixed on the rotary wheel 1. The apparatus operates as follows. Banks 7 are fed by means of a conveyor 18 to a glass 5 mounted at the periphery C of the movable wheel 1. When the wheel 1 on the hollow axis 2 is rotated relative to the frame (not shown), the banks 7 are mounted on the mounting elements 6 of the glasses 5, fixed by covers 8 mechanisms 11 and are sealed with seals 9- Upon further rotation of the wheel 1, the electric movable contacts 15 of the system 12 of the program air supply include the corresponding traveling valves Il, compressed air from a source (not shown) is supplied to the banks 7 through From cavity 3, axis 2, air distribution manifold 13 and through holes 10 in lids 8. In the case of leaks of cans 7, the air pressure in cavity 17 of cup 5 rises and is recorded by meter 20 of air leakage measurement unit 16. If the leakage is higher than the allowable one, then the pneumatic signal, transformed into an electrical one in the converter 21, passes through the movable electrical contacts 22 and. includes an electromagnetic rejecting mechanism (not shown), a pusher (not shown) of which ensures the separation of unsealed cans 7. After the end of the tightness check, the covers 8 are opened, the suitable cans 7 are pushed out of the set-. These spring-loaded elements 6 from the glasses 5 and are removed by the conveyor 19. The use of the invention improves the quality of control of cans with high performance and reliability of the device. Claim 1. Device for monitoring the tightness of cans, comprising a frame, a rotating wheel mounted on it with a hollow axis communicating with a source of compressed air, glasses evenly spaced around the periphery of the wheel with mounting elements for cans, cup covers with seals and through holes, lid clamping mechanisms, a system for programmatically supplying air from the axle cavity to the holes in the lids, measuring blocks for leakage from glasses, an electromagnetic rejecting mechanism with a pusher, controlled by Lok measuring leakage, and conveyors for supplying and removing cans, characterized in that, with In order to improve the quality of control, the air supply system is installed on the swivel wheel and is made of 6 air distribution manifolds with traveling valves in the number of glasses and with electrical moving contacts for switching on the traveling valves. 2. The device according to claim 1, characterized in that the leakage measuring unit is fixed on the rotary wheel and contains gauges and pneumatic transducers according to the number of glasses and electrical moving contacts for activating the electromagnetic rejecting mechanism. Sources of information taken into account in the examination 1. Published in the Federal Republic of Germany No. 2160695, cl. By 36/01, 1973. 2. USSR author's certificate №, cl. G 01 M 3/00, 1967 (npoTotMn).