Hello. I have a Scotsman C0322 machine that has a damaged compressor. The current compressor model aka9438zxd works in a temperature range -20ºC to +10Cº... However, this compressor is not available in Brazil... Can I replace one that works in the temperature range -40ºC to -10ºC?
Your depth of knowledge is evident and inspires your audience to tackle this assignment independently. Keep up the great work! When you need genuine Hoshizaki ice machines and spare parts, look no further than our shop.
Cool. Can you explain more? What are the pros and cons of smaller vs larger ice cubes? For instance, If you select larger cubes, does that mean the time to make a batch of cubes increases? Because if the time does not increase then the largest setting would increase production if desired. What needs/industries prefer larger cubes and which smaller? Thanks PS I found this online answered some of my Q: Hoshizaki Producing Smaller Ice Cubes Due to Float Switch Issues Finally, when looking at the float switch, you will see that it can be adjusted. The higher you adjust the switch, the smaller the cubes will become because the switch will tell the machine to stop freezing sooner. If you move the switch lower, the cubes will be larger because the switch will tell it to stop freezing later. Be careful playing with this adjustment because if you make the cubes too large, they may bridge (i.e. start freezing to one another), have large dimples/ridges which will give you all kinds of trouble with long harvesting times, freeze-ups, etc. - From video "ice types / making the right choice: Cubed ice for beverages(crescent, or square, or ), flaked ice for seafood display,
Seems best to set at the thickest setting unless the cubes are coming out dropping too connected, then reduce some. This should make the machine more efficient and the cubes should last longer in storage or a customer’s glass. Also reduce your water supply valve to the ice maker to reduce the water overflow sediment dumping with each ice production so that not very-so much water comes out the drain pipe, but some. Otherwise you’re wasting LOTS of water! Take care
excellent video Charles. I'm 7 years too late, but it still is a great teaching tool. Thank you for sharing your knowledge. This is so very well displayed. Thank you!
please use the word Neutral instead L2, because L2 in UK is associated with 3phase power supply and can be confusing for some technichans has just starting HVAC works
Charles nice video and much appreciated. I went through an HVAC course after being laid off. It was a free course designed to get people back into the work force, but had it's limitations. We didn't have any working commercial equipment. Just mainly residential stuff. Thank goodness for YT and people like you willing to share some knowledge.
Ok you showed one way to know if the solenoid is getting energized by the resultant magnetic field on the screwdriver. Now my question is can the valve stick or get stuck even if the solenoid is energized? IE: valve not getting thrown... And if you use the meter ( check for voltage coming from the thermostat ) then check for magnetic field. No magnetic field means an open coil in the solenoid and then deduce "bad solenoid", yes? Lol how much voltage would you get across the coil if its good? Sitting here im thinking you'd get a pretty low voltage reading across a conducting coil...whats the resistance of the coil? Notes I'd put on my schematic maybe, X volts if open and Y volts if not open. I'm guessing the refrigerant is the lubricant for the valve? If the valve is opened and closed too many times when refrigerant has leaked out, can the valve get stuck? I guess you'd get an idea the valve is stuck if the evaporator doesn't get cold?
F = Freeze cycle F flashes = Freeze cycle is pending H = Harvest cycle H flashes = Manual harvest b = Bin is full C = Clean cycle L = Locked board d = Test mode - = Manual purge 0 = Off E = Self test failure 1 flashes = Max freeze - Retrying 1 = Max freeze time shutdown 2 flashes = Max harvest - Retrying 2 = Max harvest time shutdown 3 = Slow water fill 4 = High discharge temperature 5 = Sump temperature sensor failure 6 = Reserved 7 = Discharge temperature sensor failure 8 flashes = Short freeze - Retrying 8 = Short freeze - Thin ice
Hi, for some time clocks I have seen defrost heater resistor receiving power directly from the time clock. In other cases, there is a separate contactor for defrost heater, and the time clock is connected to the coil of the defrost contactor. What determines this difference in wiring? Thanks.
