SU1229622A1 - Tightness indicator - Google Patents

Abstract

The invention relates to mechanical engineering, namely to crimping devices, and can be used to monitor the tightness of hollow articles. The purpose of the invention is to increase productivity. Through the nipple into the cavity of the body serves the working environment. The indicator is installed into the opening of the test article with an elastic tip and is compacted with axial force, while the body moves relative to the stepped stem, compressing the spring. A hollow pusher rests on the inlet valve stem and, overcoming the force of the spring, opens it. After the product is filled, the axial force is removed from the body, the force is not removed from the handle; Under the action of the spring body moves to its original position, the plunger moves away from the valve, the valve cuts off the body cavity from the working fluid supply line. The tightness of the product is evaluated by the indications of the indicator communicated through the opening, the channels of the cavity of the housing and the tip with the cavity of the product. I s.n. f-ly, 1 ill. S (L to to SP) ISO

Description

The invention relates to mechanical engineering, in particular to crimping devices, and can be used to ensure the integrity of hollow products.

The purpose of the invention is to increase productivity.

The drawing shows the indicator of tightness, the overall appearance.

The tightness indicator comprises a hollow body 1 with a nipple 2 connected to its cavity for supplying the working medium to the test product and a hollow tip 3 for connecting to the test product made of an elastic material. In the cavity of the housing between the nipple 2 and the tip 3, the inlet valve 4 is located, pressed against the seat by the spring 5. The pressure indicator 6 is connected to the cavity of the housing 1 between the inlet valve 4 and the tip 3.

The stepped rod 7 is made with an axial channel 8 and a larger step is placed in the housing 1, and a smaller one is attached to the tip 3. The sealing ring 9 is installed in the cavity of the housing I between the end of the larger step of the rod 7 and the inner end surface of the housing 1 and covers the smaller step rod 7. Sealing ring 10 also covers a smaller stage of rod 7 and is attached to the outer end surface of housing 1. A spring 11 covering the lower stage of the rod 7 is installed between the sealing ring 10 and tip 3, the pusher 12 is made with The axial channel 13 is attached to the rod 7 and enters the valve seat 4 opening. Between the end of the pusher 12 and valve 4, there is a gap for reliable operation of the valve 4. The axial channel 13 of the pusher 12 is connected to the cavity of the housing 1 through the opening 14. In addition, The outer surface of the tip 3 is attached to the handle 15.

The pressure indicator works as follows.

A working medium, such as compressed air, is supplied through the nipple 2 into the cavity of the housing 1. The indicator is placed with an elastic tip 3 into the opening of the test product and sealed by the operator’s axial force. In this case, under the action of axial force, the body 1 moves relative to the stem 7, compressing the spring 11. The hollow pusher 12 rests on the stem of the intake valve 4 and, overcoming the force of the spring 5, Opens the valve 4, The working medium begins to flow into the cavity of the test product. Upon reaching

set pressure test, determined by the indications of the pressure indicator 6, the axial force from the housing 1 is removed, continuing to press the indicator using the handle 15. Under the action of the spring 11, the housing 1 returns to its original position, the pusher 12 moves away from the valve 4, and it cuts off the cavity of the housing 1 from the line supplying the working environment.

The tightness of the product is evaluated by the indications of the indicator 6, communicated through the opening 14, the channels 13 and 8, and the cavities of the body 1 and the tip 3 with the cavity of the test product. The depressurization of the working medium in the product cavity is accomplished by relieving the axial force from the tip. 3

The invention makes it possible to improve the performance of leak tests by reducing the time for which the indicator is attached to the product under test and for reducing the time for controlling the indicator by simplifying the locking mechanism.

Claims (2)

1. Tightness indicator, comprising a hollow body with a nipple for supplying a working medium to the test product and a hollow tip for connection to the tested product, placed in the body cavity between the nipple and the tip is a spring-loaded inlet valve connected to the valve body, and a pressure indicator connected to the body cavity between the inlet valve and the handpiece, which is different in that it is equipped with a stepped stem with an axial bore to increase productivity; The upper part of which is located in the housing, and the smaller one is attached to the tip, covering the smaller stem of the rod with sealing rings The first of which is installed in the cavity of the housing between the end of a larger stem step and the inner end surface of the housing, and the second is attached to the outer end surface of the housing, and the spring covering the smaller step of the stem mounted between the second sealing ring and the tip, the plunger attached to the stem and has an axial the channel connected to the cavity of the body, and the tip is made of elastic material. 2. The indicator according to claim 1, characterized in that it is provided with a handle attached to the outer surface of the tip.