Not recommened that's true. But here's what I know. There are no signs of damage to either plug or socket after 3 years of service 7 days a week. About 3,300 wash cycles. The plug has a 13A fuse in it that is in tact and has never needed to replaced. That's not to say that the current doesn't rise above 13A. I posted a John ward video earlier that show John destroying a power cable. The socket, plug and fuse that John uses in his experiment are all 13A and don't appear to suffer even though the current gets as high as 23A over a period of about 30 minutes. Theoretically the fuse should have blown at 21A.
No. It's not what I am there to do. I don't think I need to tbh. It's going to me more than 13A. This is purely an observation. I will make a recommendation but I doubt it will be followed up. There are no signs of damage to either plug or socket after 3 years of service 7 days a week. About 3,300 wash cycles. The plug has a 13A fuse in it that is in tact and has never needed to replaced. That's not to say that the current doesn't rise above 13A. I posted a John ward video earlier that show John destroying a power cable. The socket, plug and fuse that John uses in his experiment are all 13A and don't appear to suffer even though the current gets as high as 23A over a period of about 30 minutes. Theoretically the fuse should have blown at 21A. Finally, the circuit is supported by a B32 so the only weak link, so to speak, is the actual plug and socket. From the owner's perpective there doesn't appear to be any real incentive to go to the expense of installing a dedicated circuit.