DE10145597A1 - Testing of the sealing of work gloves used in manipulating dangerous or radioactive items within an isolated work chamber using a sealing disk with an onboard processor and memory that can be used for recording pressure behavior - Google Patents

Abstract

Method for testing the sealing of and around a work glove used to manipulate items within a work chamber. The glove is inserted through an opening in the side of a chamber and is sealed off using a sealing disk. According to the method the internal chamber is filled with a gaseous medium up to a predetermined gas pressure and then sealed off. The static pressure in the chamber is then measured over time with the resulting values stored in a microprocessor in the sealing disk.

Description

The invention relates to a method for leak testing for Manipulations in a work glove serving in a work chamber a wall of the working chamber in an opening in this wall is used, partially by means of a work glove overlaid sealing washer, a circumferential, by means of an integrated Inflatable air pump, apply the work glove to the breakthrough Has hose and a provided in the sealing washer Power supply to operate the air pump and a pressure sensor for measurement the pressure in the between the sealing washer and the inside of the Work glove formed interior.

A sealing washer suitable for such a method is known from the Publication DE 199 38 667 A1 is already known. she will for example in working chambers hermetically shielded from the environment needed in which under conditions of high purity and by means of Work gloves computer components are manufactured or processed. Also in so-called isolators, in which with constant negative pressure radioactive contaminated parts are manipulated is such a shield desired to ensure that neither the operating personnel nor the Environment in an unacceptable manner.

Such sealing washers essentially fulfill two tasks. On the one hand, they serve this purpose, even when replacing one Working glove the inside of the working chamber from the environment to keep fluidically separate; on the other hand, with their help tightness of a work glove are checked. This exam will be easier Way performed barometrically. After that from the sealing washer completed interior of the work glove under one opposite the Increased pressure is placed inside the working chamber, for example by means of the air pump, or, in the case of an isolator, by temporary fluidic connection with the atmosphere of the environment a pressure gauge integrated into the sealing disc for the interior of the Working glove read the pressure as a function of time. That pressure reached when the elastic work glove is on the pressure equivalent volume, a steady-state value that matches the Time changed little when the work glove is tight; otherwise the pressure drops further and the associated time Pressure course is an indication of the tightness of the work glove. This measurement and test procedure is somewhat cumbersome.

The invention has set itself the task of a to be designed in such a way that a simple and as automatic as possible to check a work glove Further usability can take place if the sealing washer is in one Breakthrough of the working chamber is arranged.

According to the invention the object is achieved in that the Interior with a gaseous medium up to a predetermined pressure Setpoint is filled and then completed that the Time behavior of the stationary actual pressure value is measured, that the associated measurement values in a located in the sealing washer Microprocessor can be saved and that before removing the sealing washer the pressure curve is evaluated. To do this, the microprocessor with the Pressure sensor interconnected, the pressure curve in a simple manner an interface provided in the sealing disk can be evaluable.

In this way, all measured values and their temporal History taken ("read") and transferred to a computer where by comparing the stationary actual pressure value inside the Work gloves with a permissible setpoint interval of this pressure immediately can be displayed or printed out whether the work glove the has the required tightness. Reading of time and pressure is eliminated or at most take place for control purposes; In addition, the processing and Storage of the measurement data in the computer at the same time as the documentation of the Leakage test, so that misconduct of the staff can be proven and can therefore be largely excluded.

With isolators, it is particularly advantageous if the sealing washer when operating the working chamber with negative pressure permanently in the Breakthrough is used when the work glove is not in use. On In this way, the sealing washer is immediately ready for a leak test Work gloves are available if you want to work with them and does not have to, together with the work glove, in which Breakthrough to be installed. As a result, it is a speedy workflow guaranteed, which only has to be interrupted if the tightness of the Work glove no longer meets the requirements and this needs to be replaced.

Overall, the method according to the invention offers a very rational and reliable assessment of the tightness of the Work gloves, the respective test steps are largely automatic and manipulation of the measured values is excluded.

The invention is described below with the aid of a drawing Embodiment explained in more detail. Show it

Fig. 1 and 2 suitable for the inventive method gasket in front view and plan view,

Fig. 3 shows the inside of a cover of the sealing washer according to FIGS. 1 and 2 and

Fig. 4, the sealing washer of FIG. 2 with the cover removed, all in a schematic, simplified representation.

The sealing disk 1 according to the invention has a front disk 3 and a rear disk 4 spaced therefrom.

An inflatable tube 2 is attached between the two panes in the region of the edges of the panes. The front disc 3 has a concentric recess, which is closed by a cover 5 . The cover and the rear disc have a concentric bore 14 . This hole is used to attach a handle 6 . A switch 7 and a vent valve 13 are also used for the cover 5 . A battery block 9 , which consists of three series-connected individual batteries, is fitted between the front and the rear window. The negative and positive poles of the battery block 9 are each connected to an electrical distributor 11 via electrical lines 10 . The positive pole of the electrical distributor 11 is first connected via further electrical lines to the switch 7 , then to a pump 8 arranged between the disks 3 , 4 . The negative pole of the electrical distributor 11 , however, is connected directly to the pump 8 . By actuating the switch 7 , an electrical circuit between the battery block 9 and the electrical pump 8 can thus be closed and opened. A pressure line 21 is also connected to the electric pump 8 , which on the one hand has a connection to the vent valve 13 and on the other hand is connected to a connection piece 12 of the inflatable tube 2 .

The sealing washer described so far is suitable for closing openings in the chamber of a glove work station. For this purpose, the sealing washer is inserted from the outside, enclosing the opening of the chamber, and is aligned at right angles to the wall of the sleeve. Then the switch 7 is operated. This closes the circuit and the pump 8 is started. Since the vent valve 13 is blocked in the normal state, the pump 8 presses air via the pressure line 21 into the hose 2 , which inflates as a result. The hose 2 lies sealingly against the wall of the sleeve and the opening in the chamber is closed.

Likewise, the sealing washer 1 according to the invention is suitable for changing gloves at the glove work station. For this purpose, the glove to be replaced must be pulled over the sealing disc 1 inside or outside the chamber, the free end of the cuff of the glove overlapping the sealing disc. Then at the latest the sealing washer and the glove to be replaced must be brought into the interior of the chamber. From the outside, the operator with the glove to be replaced can now grip the sealing washer and the glove to be replaced and pull it into the sleeve. The sealing disc 1 is aligned approximately at right angles to the wall in the sleeve, and the switch 7 is actuated, whereupon the hose 2 fills with air and presses the glove to be replaced against the wall of the sleeve. The two sides are then closed off from each other. Now the operator can remove the glove to be replaced from the sleeve and dispose of it. The overlapping free end of the glove to be replaced is now sealed to the sleeve. Then the hose 2 can be vented by means of the vent valve 13 and the sealing disk 1 can be removed from the sleeve.

The sealing disc 1 can also be used for leak testing of gloves. For this purpose, the sealing washer is inserted into a sleeve equipped with a glove, the external compressed air supply is connected to the hose connector 12 and the hose 2 is inflated. The external compressed air supply is then connected to the valve 18 and the space behind the sealing disk 1 is filled with compressed air. This will inflate the glove. When a minimum pressure is reached, the valve 18 is closed and the external compressed air supply is removed. If one now observes on the manometer 17 that the pressure behind the disc 4 drops, then this can only happen because of a defect in the glove, since the sealing disc 1 itself seals the sleeve. The glove must then be changed. However, if the pressure remains constant, the glove is still suitable for use. After completion of the test, the valve 18 is now opened again and the space behind the sealing disk 1 is vented. Then the sealing disc 1 can be removed from the sleeve in the manner described.

The manometer 17 is designed as a digital measuring and indicating device, the measured values taken from the pressure sensor 20 are fed to a microprocessor 22 and can be read out by the latter via the interface 23 ; all of these devices are operated with the batteries 9 . List of reference symbols 1 sealing washer
2 hose
3 front window
4 rear window
5 lids
6 handle
7 switches
8 pump, air pump
9 batteries
10 electrical wire
11 electrical distributors
12 hose connector
13 vent valve
14 hole
15 hole for switch
16 hole for vent valve
17 manometers
18 valve, outlet
19 cover screw
20 pressure sensor
21 pressure line
22 microprocessor
23 interface

Claims (2)

1. Method for leak testing of a work glove used for manipulations in a work chamber, which is used in a wall of the work chamber in an opening in this wall, by means of a sealing disk partially covered by the work glove, which has a circumferential, inflatable by means of an integrated air pump, the work glove has the breakthrough hose and an energy supply provided in the sealing washer for operating the air pump and a pressure sensor for measuring the pressure in the interior formed between the sealing washer and the interior of the work glove, characterized in that the interior is predetermined with a gaseous medium Pressure setpoint is filled and then completed, that the time behavior of the stationary actual pressure value is then measured, that the associated measured values are saved in a microprocessor ( 22 ) located in the sealing disc ( 1 ) and that the pressure curve is evaluated before removing the sealing washer ( 1 ). 2. The method according to claim 1, characterized in that the sealing washer ( 1 ) is permanently used in the opening in the operation of the working chamber when the work glove is not used.