SU1257454A1 - Transducer for leakage testing of articles with elastic shell - Google Patents

Abstract

The invention improves the performance and reliability of monitoring the tightness of products with an elastic shell by allowing the determination of large, medium and small leaks in one test cycle. The sensor includes a housing 1, a spring-loaded rod contact element (PKE) 2 with an insulated tip 3, a spring-loaded pusher rod (PST) 4, a power source 14, a signal lamp 15 and a timer device (TU) 16. PKE 2 is installed at the inner free end of 9 PST 4 telescopically, the middle part of the SCE 2 is made in the form of a cone 12, and a conical recess 10 is made at the free end 9 of ПСТ 4. Balls 13 are installed between the surfaces of the cone 12 and the cone cavity 10. The power supply is connected in series through the inputs 17, 18 and normally closed contacts of the relay 19 TU 16 to the tip 3 of the PKE 2 and TU 16 and the housing 1. Parallel to the inputs 17, 18 of the TU 16 an alarm lamp 15 is connected. The envelope of the product 7 in vacuum increases its size and lifts PST 4 and PKE 2, the Tip 3 § (L with to ate liU SP and IfOT

Description

The SCE 2, resting against the housing 1, closes the power supply circuit and turns on the signal lamp 15 and TU 16, pete 4 compresses the springs 5, 8 and moves relative to the SCE 2, the Balls 13 roll down the CES 2 cone, and the spring 5 clamps them between the cone 12 and the conical groove 10, rigidly fixing the PKE 2 relative to EAST 4. The electrical circuit of the power supply source is closed. In the presence of medium or small

The invention relates to a test technique and can be used to monitor the tightness of products with an elastic sheath, for example, electronic products in their manufacture.

The purpose of the invention is to increase the tightness control performance by making it possible to determine the presence of large, medium and small leaks in a single control cycle as well as to increase the control reliability by rigidly fixing the rod contact element relative to the rod pusher and performing a circuit with a timer device.

The drawing shows a sensor circuit for monitoring the tightness of products with an elastic shell.

The sensor consists of a housing 1, inside of which a rod contact element 2 is installed with a tip 3 electrically isolated from the housing 1. A contact element 2 is mounted inside the rod pusher 4 telescopically and is spring-loaded with respect to it by a spring 5. The tip 3 faces the opposite side of the working end 6 of the pusher 4 intended for contact with the surface of the test product 7 and for this purpose, preloaded by the spring 8 to the surface of the product 7. At the free end 9, the pusher 4 is made coaxially with the contact element 2 the conical recess 10, the middle part 11 koktaktnogo member 2 is formed as a cone 12, the cone coaxial ug-

57454

the leakage of the product shell 7 decreases in size and falls together with. Pet 4 and PKE 2, the electrical circuit is disconnected, the signal lamp 15 and TU 16 are switched off. According to the time recorded by TU 16, the magnitude of the leak is judged. With a large leak of an item 7, its envelope in vacuum does not change its dimensions and the signal lamp 15 and TU 16 do not turn on. I zp f-ly, 1 ill.

To the breaking of 10, the pusher 4, The angle оС of the cone 12 of the rod contact element 2 is less than the angle сХ. the cone of the recess 10 of the pusher 4, the tops of the cone 12 and the conical recess 10 face the tip 3 of the contact element 2. Balls 13 are placed between the surfaces of the cone 12 and the conical groove 10, Coriiyc 1 is connected to the power source 14 and the signal 15 and is normal open relative to tip 3 of the contact element 2, Timer 16 has inputs 17 and 18, Power supply 14 is connected to housing 1 via a signal lamp 15 and normally closed off relay 19 contacts, through a signal lamp 15 with the first terminals of the inputs power device 16 and directly -.the second terminal 1 and its inputs, the sensor operates as follows.

From the working position shown in the drawingJ, the sensor is turned on, 180 in the vertical plane and, pressing the working end 6, the rod pusher 4 is moved down to the stop and the contact element 2 is moved with it until it touches the housing 1, after by compressing the spring 8, the rod pusher 4 is moved relative to the contact element 2. A gap is formed between the surfaces of the cone 12 and the cone groove 10, and the balls 13 roll down the cone groove 10 to its top. The rod jroJlKaTenb 4 is released, the spring 5 clamps the balls 13 between the cone 12 and the conical recess 10, firmly fixing the contact element 2 relative to the rod pusher 4. Turning the sensor 180 times, return it to the working position.

The working end 6 of the rod pusher 4 is brought into contact with the casing of the tested product 7, the sensor with it is placed in a vacuum chamber and the pressure in it is lowered.

If the product has a large leak, its shell does not experience excessive pressure of the gas with which it was filled during manufacture and does not change its size. The pusher rod 4 and the contact element 2 remain stationary, and all elements of the electrical circuit do not change their initial state. The signal lamp 20 and 15 is not included, which indicates a large leakage of the product.

If the product does not have a large leak, its shell increases its size under the action of the overpressure of the gas 25 inside it and, overcoming the resistance of the spring 8, moves the rod pusher 4 with the contact element 2 to the top. B, therefore, the tip 3, reaching the surface of the housing 1, closes the circuit of the power source 14 (y is the change in the size of the product envelope). The signal lamp 15 is turned on. A control pulse 20 is applied to the inputs of the timer device 16. On the leading edge of the pulse 20, the timer switches on the countdown of the control time of the product at the input 17.

After contacting the tip 3 with the movable body 1, the izis shell continues to increase to its maximum size, so that the pusher 4, overcoming the force of the spring 5, rises relative to the contact element 2 and stops when the size of the product shell is greatest. A gap is formed between the surfaces of the bones of the cone 12 and the cone groove 10, and the balls 13 roll down along the cone 12 until they touch the surface of the cone groove 10. Spring 5 clamps 55 balls 13 between the cone 12 and the cone groove 10. In this position " the contact element 2 is rigidly fixed relative to the rod pusher 4; The power supply source 14 is closed. Thus, the balls 13, rolling down the cone 12 down, continuously compensate for the change in the gap between the cone 12 and the conical recess 10, caused by the sheath of the product 7 moving the pusher rod 4 relative to the core element 2 in contact with the body 1, over time the non-hermetic casing of the product 7 reduces its size, and the rod pusher 4, together with the contact element 2, is lowered behind the casing of the product 7. Tip 3 breaks the electrical circuit of power supply 14 and turns off the signal lamp 15, signaling the end of the leak test. On the trailing edge of the control pulse 20 at the input 18, the timer device 16 stops the timeout test and the shutdown relay 19 disconnects from the power source 14 the control circuit of the signal lamp 15 and the timer device 16, protecting the circuit from further false starts and reliably fixing the moment of the first opening of the tip 3 with the inactive: l: body 1. From the BpeMeHHj fixed by the timer device 16, the leakage rate of the product is determined (medium or small),

Claims (2)

1. Sensor for monitoring the tightness of products with an elastic sheath, comprising a housing, a spring-loaded rod pusher mounted in the housing, whose working end is designed to monitor contact with the product surface, a rod contact element with a tip electrically insulated from the housing, a power source and a signal lamp associated with the tip of the contact element, characterized in that, in order to increase productivity and reliability, the rod contact element is mounted at the free end with The push rod is telescopically and spring-loaded relative to it, and the tip faces the opposite side of the working end of the pusher; on the free end of the pusher, the tapered groove is coaxial with the contact element, and the middle part of the rod pin element is coaxial with a cone angle less than the depression , and the tops of the cone and the cone groove face the tip of the contact element, the housing is connected to the power source and the signal lamp and standards is open relative to the tip of the contact element, and Editor A. Ogar Compiled by O. Lanko Tehred I. Popovich Order 4907/38 Circulation 778. Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5  Production and printing company, Uzhgorod, st. Project, 4 the sensor is equipped with balls placed between the surfaces of the cone and the cone groove, 2. The sensor according to Clause D, is about the fact that it is equipped with a timer device with two inputs and a shutdown relay, the power source is connected to the housing via an alarm lamp and normally closed contacts. relay off, through the signal lamp - with the first terminals of the inputs of the timer device and directly - with the second terminals of its inputs. Proofreader V.Sinitska