Shown as follows, here are several better practical examples of the invention and in accommodation with figures to further describe in details as follows:
As show in
At one end of the valve body 12 there is set up with a hollow receiving room 22; at the other end there is set up with a first flow field 24 linked with the receiving room 22, wherein is set up with a control mouth 26 at the joint between the receiving room 22 and first flow field 24.
The fitting 14 is set up in the receiving room 22 and a second flow field 28 is linked with the control mouth 26 in an expected distance.
The magnet 16 is set up in an interval between the fitting 14 and the control mouth 26. The slippery metal ball 18 is absorbed by the magnetism of the magnet 16, which outer diameter is larger than the bore of the control mouth 26.
Thus, the fluid flow in the first and second flow field 24 and 28 in the control valve 10 can be provided for the gas (or fuel) flowing within. When there is no fluid (gas) flowing in the control valve 10 or flowing in standard, the ball 18 is absorbed by the magnetism of the magnet 16. The first and second flow field 24 and 28 keep flowing freely. When the fluid flow suddenly increases (super fluid) and the absorbing force generated overcome the magnetic absorbing force generated from the magnet 16 against the ball 18, then the ball 18 can be absorbed and stick the control mouth 26 as shown in
As shown in
Besides, the magnet of the control valve of the invention can also used as a conventional temperature memory magnet that the magnetism can be restored so that when the temperature of the control valve rises to the set value due to unusual condition, the magnet shall be then demagnetized so that the control valve can be shut even under a gas flow condition to keep safe. However, after the control valve is shut to decrease the temperature under the set value, the magnetism of the magnet will restore so as to form a overheat safety device with an automatic restoration. Certainly, the magnet can be a conventional non-restored temperature memory magnet so that after the control valve is shut due to overheat, the magnet is permanently demagnetized and the magnetism will not restore so as to form a overheat safety device with function of temperature fuse.