CH701413B1 - Method of measuring the water-tightness of watches with compressed air or vacuum. - Google Patents

Abstract

The inventive method has the task of checking waterproof watches on their tightness. Watertight watches must be sealed in such a way that no moisture can penetrate them when used in water or in humid environments. With this method, individual watches can be tested for their watertightness without comparison with a structurally identical and dense reference clock. The advantage is that by measuring the air mass flow (air flow measurement), the clocks no longer have to be scanned with a complicated deformation measurement in a compressed air tank for a waiting time of over 300 seconds. The watertightness test of a watch is hereby greatly facilitated and achieved in a five-second test.

Description

The water resistance of watches is measured by the amount of air flowing into the watch case. In the patent DE 19 513 199 a method for measuring the watertightness of watches is described. This method according to the prior art provides that the housing to be tested and a reference housing are exposed in each case in identical measuring chambers a fluid with positive or negative pressure and from the difference of the recorded in the two chambers amount of fluid a measure of the tightness of the Housing is determined. The object of the method described below is to allow a density test for watches without a watertight reference clock. The test tool consists of a closable test chamber 1 with a cover 2 and a cylinder 3 and a piston 4 with a piston rod 5. A pressure line 6 with a pressure gauge 7 connects the container 1 with the cylinder 3. The clock 8 is located in the closed chamber. 1 For adjusting the end stop, a thread with a calibrating device 9, for example an adjusting nut, is mounted on the piston rod 5. The piston 4 is moved to the end stop, while the pressure gauge 7 displays a setpoint specific to the clock 8, for example 2.15 bar. The watch manufacturer passes on a table with the target values for his watches to the specialized trade. However, if the pressure gauge is lower than this set point and, for example, only 1.65 bar, then the clock is leaking. The existing internal air volume of the clock takes up a portion of the metered compressed air, which causes only a reduced pressure build-up in the chamber 1. If the setpoint of a clock is not known, this clock will first be tested with the open case back. The gauge reading is then noted. Then close the bottom of the watch and the test is repeated. If the reading is equal to the noted value, the clock would be leaking. However, if the reading is higher than the noted value, then no air has entered the watch and this watch is waterproof. Instead of overpressure, by pulling out the piston rod 5, the clock 8 can be exposed to a negative pressure. Thus, a differential pressure in the negative pressure range can be read.

Claims (4)

A method for leak testing watches using a measuring arrangement comprising a closable test chamber (1) for at least one o'clock (8), a manometer (7) and a cylinder (3) with a piston (4) arranged therein and one on the Piston (4) fixed piston rod (5), wherein the test chamber (1), the pressure gauge (7) and the cylinder (3) via a pressure line (6) are interconnected and form a closed volume of air, characterized in that the test clock (8) is inserted into the test chamber (1), the test chamber (1) is closed, the piston (4) in the cylinder (3) via the piston rod (5) is either moved up or down and thus the air pressure in the adjusted air volume is changed, the displacement of the piston (4) and an associated on the pressure gauge (7) read off value of the air pressure are compared with a previously determined setpoint and a deviation from the setpoint a conclusion on the seal the clock (8) is pulled. 2. The method according to claim 1, characterized in that on the piston rod (5) a calibration device (9) is mounted. 3. The method according to claim 2, characterized in that the calibration device (9) consists of a threaded rod and an adjusting nut in order to set an intended target pressure can. 4. The method according to any one of claims 1 to 3, characterized in that the piston rod (5) is equipped with an adjustable stop.