Cleaning & Servicing the RV Refrigerator

The common term, "preventive maintenance," is applicable in any number of industries today, the RV industry included. Unfortunately, the wisdom of the concept behind the phrase is often recognized after the fact. For instance, when it comes time to repair, or even replace, the absorption refrigerator in a motorhome, all too often RVers obtain their education the hard way, through trial and error, and mostly by error. How many RVers have been known to exclaim, "I sure didn't realize that refrigerators for RVs were that expensive," or "You mean there is something that has to be maintained on an RV refrigerator?" Contrary to the belief that since absorption refrigerators have no moving parts they require neither attention nor service is the very real fact that many RVers are paying for repairs that could have been avoided had "preventive maintenance" been employed. Most RVers understand that roof seams, vents, storage pods, and antennas must be sealed or coated periodically to keep the rain from pouring in. It is also common knowledge that RV holding tanks must be flushed out occasionally to prevent blockage. Likewise, all LPG-fueled appliances must be serviced periodically in order to avoid costly repairs and to insure that they operate at peak performance. It is likely that the absorption refrigerator is the most visible, most used, and yet least understood of these appliances. For most RVers, the fact that absorption refrigerators require heat to produce cold is baffling enough in and of itself. This article is not intended as a treatise regarding the principles of absorption refrigeration; rather, it is intended as a discussion of the technical methods used by RV service organizations today in performing the maintenance task traditionally known as the refrigerator "clean and service." In many cases, coach owners who possess a bit of technical know-how can perform this task. The sophisticated systems found in motor coaches today can be intimidating for the do-it-yourself type unless he or she is equipped with the proper tools, time, and attitude. Also, the possible incorporation of printed circuitry, electronically controlled gas valves, 120 volts AC, and LPG in one appliance can be somewhat puzzling unless you possess a degree of understanding regarding the operation of such an appliance. Therefore, performing your own RV refrigerator clean and service will require more than just a mechanical inclination; it will also be beneficial to possess an understanding of the operation of your particular unit as well as of the theory of absorption refrigeration. In addition, the do-it-yourselfer must always make safety the No. 1 priority. With this in mind, always be sure that the LPG tank has been completely shut off before performing maintenance on any of your RV's LPG-burning appliances. What tools will be necessary? Aside from the normal assortment of basic hand tools (those every RVer should carry anyway), several specialty tools will be required to perform a thorough clean and service on your RV refrigerator. These special tools include a manometer, a thermocouple tester, a polarity tester, a volt-ohm meter, and a flue brush, all of which are relatively inexpensive items that can be ordered or purchased locally. Once obtained, these tools cold, theoretically, pay for themselves within a short time. The manometer will be used to measure the line pressure of your LPG system. A vapor pressure of between 10 and 14 inches of water column must be maintained in order for every LPG appliance designed for use in a recreational vehicle to function at its maximum efficiency level. The manometer is used to monitor the regulator setting to insure that the pressure is set correctly. The industry standard for the pressure is 11 inches of water column (w.c.) But isn't pressure measured in pounds per square inch (psi)? Yes, but the pressure required by your LPG system is so low that a smaller unit of measurement must be used. Translated, 11 inches of water column is equal to 0.4 psi. In other words, the amount of pressure required to raise a column of water 11 inches is 0.4 psi. The common "U"-tube manometer is 100 percent accurate in that it is an actual tube filled with water and marked off in inch increments. Every RVer should own a manometer and should periodically check the pressure in his or her LPG system. This check is relatively simple, and it would apply to all LPG appliances in your coach. More expensive (but less accurate) gauge-type manometers are available, but the simple tube type will suffice. Actual use of the manometer will be discussed later in this article. The thermocouple tester is used to check the effectiveness of the thermocouple on your refrigerator. The tester can also be used in testing any of your coach's LP-gas appliances that rely on pilot ignition. This tester can be ordered through any reputable RV parts store or service facility. Note: the thermocouple on your refrigerator might not have the same threads as are on the tester; however, the device will still test the thermocouple effectively. This process also will be explained in detail later. The polarity tester is useful any time you plug your coach into shore power. The tester will assure that the campground wiring is correct. (Of course, this is assuming that your coach wiring is correct to begin with.) The polarity tester simply plugs into any 120-volt AC receptacle inside your motorhome. For the purposes of this article, it should be plugged into the same receptacle as the refrigerator is ordinarily plugged into. A series of three lights (light-emitting diodes, or LEDs) will indicate whether the circuit is correctly wired; if it is not, the tester will identify exactly how it is mis-wired. A small, inexpensive volt-ohm meter should be included in every RVer's tool kit, especially those of full-timers. This meter has so many uses that it is not possible to list them here. For the purposes of this article, the device is used to measure voltage at the refrigerator’s receptacle and also to check the battery voltage at the fridge should your unit be so equipped. These tests take only minutes but could save you the frustration of downtime during a trip. The last specialty tool that you will need to buy is a flue brush, which is used to clean the flue assembly of the boiler portion of the cooling unit at the rear of the refrigerator. This brush can be obtained from most automotive supply stores and parts houses. Although you won't likely find this tool specifically labeled as a "flue" brush, it is a round, cylindrical brush with a long wire handle, and it has a diameter of approximately ¾-inch. Unlike the other specialty tools, this one will be applicable only for servicing the refrigerator. How much time will it take to perform the refrigerator clean and service? Allow yourself two to three hours to do a thorough job. Be advised, however, that this process may take longer with some refrigerators, especially the first time you do it, but this is usually mandated by the manner in which the refrigerator has been installed. As a general rule, refrigerators that have been installed correctly, without obstructions, will keep you occupied for two hours or so. Your refrigerator should be cleaned and serviced at least once each RVing season, as should your other LPG appliances, the furnace, the water heater, and the range. If you travel extensively in dusty or sandy areas, or if you store your coach in such an area, then it will be necessary to clean your refrigerator more often. At times, lack of use can be more harmful to LPG appliances than abuse. The three most common causes of LPG-related problems with correctly operated absorption refrigerators are dirt, spider webs, and inactivity. Notice the stipulation "correctly operated." We are all aware that correct leveling and efficient ventilation are essential in the proper performances of the refrigerator. An entire series of problems could develop when these areas are neglected, but that's a different story altogether. So, how do you perform a clean and service? With tools in hand and a positive "can do" attitude, are you ready to begin? Not quite. Now is the time to study the operator's manual, user's guide, parts breakdown book, and/or service manual for your particular brand and model refrigerator. Try to familiarize yourself with as much literature pertaining to your particular unit as possible. One of the biggest mistakes that many professional RV technicians make is rushing into a job without enough product knowledge to support their efforts. Don't make the same mistake. When you are confident that you are able to recognize and locate such components as flue baffles, burner orifices, and heating elements, and when the LPG tank has been completely shut off, then you can proceed. Cleaning and servicing your refrigerator will involve some degree of disassembly and/or partial removal of the unit, which will usually be mandated by the factory installation method. For instance, if the gray water holding tank pipe extends upward through the roof and is situated against the burner box at the rear of your refrigerator (which happens), then it will be necessary to partially remove the refrigerator to gain access to the components. If it is necessary to partially remove the unit, disconnect the flare fitting for the gas line at the rear of the fridge and remove all of the screws that secure the unit in the compartment. At this time, one would be wise to install a flare plug in the gas line, for two reasons: as a safety measure, in case someone inadvertently turns the LPG back on, and also to keep dirt and dust from entering the open end of the gas line. Ordinarily, a 3/8-inch flare plug will be required. You'll also likely need to remove the mounting screws that run through the face of the fridge into the cabinet inside the coach; these screws will be covered by plugs or decorative trim. In some cases it will be necessary to remove the doors of the refrigerator to gain access to these screws. Once the refrigerator is loosened, it can be slid into the coach hallway by pushing from the outside. Slide the unit only far enough to allow for access to the burner area components. If the burner area is readily accessible without moving the refrigerator, the time required to complete the job will be greatly reduced. Most of the time, the latter will be the case. The burner assembly should be completely removed for inspection and cleaning. Remove the burner orifice and allow it to soak in carburetor cleaner, alcohol, or a like substance. Inspect the burner carefully. Look for cracks or warping, especially at or near the primary inlet holes if the burner is so equipped. Overheating caused some earlier model burners to warp, thus interfering with the normal process of mixing air with LPG and resulting in improper combustion. This particular phenomenon has been all but eliminated by virtue of newer units' designs. At various times during the clean and service you will need compressed air. The air will be required in order to remove blockages discovered during the burner inspection, as well as to blow-dry the burner orifice after it has soaked in the cleaning solution. After you have blown it dry, inspect the orifice carefully, preferably through a magnifying glass. The fact that the orifice has been soaked and blown out does not guarantee that it is clean and free from obstructions. The spider webs that are commonly found in burner orifices can be incredibly strong and stubborn. Their presence will be detected only with the aid of a magnifying glass. UNDER NO CIRCUMSTANCES should you insert any object, drill bits, broaches, paper clips, needles, etc., into the orifice opening. Because these orifices are made primarily of brass or aluminum, they are fairly soft, and the opening could easily be distorted. Were this to happen, the Btu rating and gas flow rates would be affected, and unusual flame characteristics could develop. It cannot be understated that under no circumstances should any object be inserted into the orifice. If the orifice cannot be cleaned, it should be replaced with one of identical size or with an identical part number. Should you determine that you need to replace the orifice, it is recommended that you consult a professional RV technician. The spiral flue baffle also must be removed and cleaned. It is situated directly above the burner and is located inside the flue tube. The baffle is installed from the top of the refrigerator, and the method used to secure it will vary from model to model. You will notice that the baffle is suspended by a wire to a predetermined height. This baffle height is critical to your particular refrigerator, and care should be taken not to bend or otherwise alter this dimension. Once the baffle is removed, the next step is to run the flue brush through the empty flue tube to dislodge any carbon deposits and rust that might be clinging to the side of the tube. These deposits could hinder the flue in its task of evenly distributing heat and drawing the flame into the tube. This step can usually be accomplished through the roof vent, or by partially removing the refrigerator as discussed earlier. In some instances, especially when working with coaches that have curved sidewalls, it might be necessary to remove the entire refrigerator. Before performing the next step, you must determine which type of unit you have. If your refrigerator is one of the electronic ignition types with an automatic reignite feature then it will be necessary to clean both the electrode and the thermocouple, which are situated directly above the burner and positioned in the flame. This electrode is the flame sense probe, which through normal use can become coated with a deposit of carbon, thus preventing the printed circuit board from doing its job. Clean the probe and the thermocouple by brushing them lightly with a fine-grade steel wool pad. When properly cleaned the probe and thermocouple will appear brighter. If your refrigerator has a thermo-electric safety valve, only a thermocouple will be positioned in the flame. This thermocouple is designed for use with the flame failure safety valve. Should the flame be blown out accidentally, the flow of LPG will stop. It is a good idea to clean the tip of this thermocouple, as described above, to insure proper operation. When heated, the thermocouple actually produces voltage that energizes an electromagnet situated in the safety valve. At this point you should check your thermocouple. Insert the thermocouple into the tester. Remember, the threads are of different sizes, so it will be necessary to hold the connection tight to maintain continuity through the tester. Being that the connection could be somewhat loose, it would be a good idea to connect a jumper wire with alligator clips to the outer casing of the thermocouple and to the tester itself while holding the main connection tight to the tester. Heat the tip of the end of the thermocouple that you just brightened by holding it in a flame, and make sure that it holds the magnet of the tester. Thermocouples do fatigue and can weaken; so, if you doubt its effectiveness, replace it. The next step is not so technical, but it is equally important, as it can have a direct effect on the proper ventilation of the cooling unit. Clean the rear of the refrigerator through the access door on the outside of the coach and possibly through the roof vent. You can either blow the area clean with compressed air or vacuum away the dust and dirt. At this time, conduct an overall visual inspection of the cooling unit area, paying special attention to the condenser fins situated at the uppermost portion of the cooling unit. If the roof vent opening is not protected by a screen, birds and other critters have a tendency to construct their nests on the condenser fins where it is nice and warm. This will restrict the airflow over the condenser, causing an overheating situation that could eventually ruin the cooling unit. In addition to the LPG components, one must also check the electrical operation of the refrigerator. Now that you have the refrigerator partially removed and the rear of the unit clean, insert the polarity tester into the 120-volt AC receptacle used by the refrigerator. Plug the coach into shore power to determine whether the polarity is correct at the receptacle. If the tester indicates anything other than the correct polarity it will be necessary to isolate the discrepancy. Disconnect the shoreline and contact a qualified electrician or technician to troubleshoot the problem; unless you have adequate training for dealing with alternating current, please leave the troubleshooting to a qualified individual. You can also check for proper voltage at this receptacle by using the volt-ohm meter. (An absorption refrigerator will not operate properly in the AC mode during a low voltage situation.) Likewise, measure the amount of battery voltage present at the electrical connection at the rear of the unit. Servicing the new refrigerators that utilize printed circuit boards involves an added maintenance step. First you will have to gain access to the board where it connects to the multi-plug. Remove the connector and clean the board contacts with a common pencil eraser. This will remove any corrosion or residue that could possibly cause a poor connection and result in erratic performance and improper cooling. (Editor's note: some experts are of the opinion that if the circuit board is working properly it should be left alone.) It is now time to reassemble everything. Insert the flue baffle into the flue tube, and make sure that the flue extension is secured properly if so equipped. Reassemble the burner orifice, the burner tube, and any other portion of the burner area that you removed, doing so in the reverse order in which you disassembled them. If the refrigerator was partially or completely removed during the procedure, now is the time to reinstall it. Be sure to replace all of the screws that were removed. Reconnect the gas line (which will usually necessitate the use of two wrenches), taking care not to twist any portion except the flare nut itself. Now mix up a solution of dish detergent and water. (Do not use detergent that contains ammonia, however, as it has a detrimental effect on copper tubing.) Now, turn the valve on at the LPG tank and brush or spray this soapy solution onto the flare connection at the back of the unit to check for leaks. Before you go on to the next step, determine that no leaks exist. The final step in completing your refrigerator clean and service will benefit all of your LP-burning appliances. The LPG pressure regulator must be set at 11 inches of water column. (Review the section at the beginning of this article concerning manometers.) The easiest point at which to measure the pressure of your LPG system is usually a stovetop burner. Fill the manometer with water and set the scale exactly to the zero mark. Add a drop of food coloring to the water to facilitate reading the scale. Remove one of the burners on the stove and connect the manometer to it. Light another stove burner to insure that propane is indeed flowing. Take care that the manometer hose is not near the lighted burner. Slowly open the burner valve to which the manometer is connected. You will notice the water being forced up one side of the manometer and down the other side. Take a reading for each side. The sum of these two measurements indicated the actual pressure setting. To alter the pressure reading, it will be necessary to remove the dust cover on the regulator located at or near your LPG tank, exposing the adjusting screw. If the measurement is less than 11 inches of water column, you will have to increase the pressure. To do so, turn the adjustment screw clockwise until the manometer measures 5-1/2 inches of water column on both sides, for a total of 11 inches. If the pressure reading exceeds 11 inches, turn the adjustment screw counterclockwise. Make your adjustments slowly, so that the regulator can compensate for the change in spring tension. Remember to keep a burner lit while making these adjustments. After the manometer has stabilized at 11 inches, turn off the lit burner. Then turn off the burner to which the manometer is connected and remove the manometer hose. Reassemble the stove burners. Let's review the primary steps performed during a refrigerator clean and service. Doing so will enable you to double-check your work and to insure its completeness without sacrificing the safety factor. If you have any doubts at any time during the procedure, stop and review. Consult the literature to confirm the location of any of the components mentioned for your particular brand and model. Step 1: Completely turn off the LPG at the tank. Step 2: Partially or totally remove the refrigerator as necessary to gain access to the components. Step 3: Remove, disassemble, and clean the burner assembly and orifice. Blow dry with compressed air. Step 4: Remove the flue baffle. Clean the baffle and the flue tube while the burner is removed. Step 5: Clean and brighten the thermocouple and the flame sense probe or igniter probe, depending on how your unit is equipped. Step 6: Test the thermocouple if so equipped. Step 7: Inspect and clean the rear of the cooing unit, especially the condenser fins. Step 8: Check for the proper polarity of the 120-volt AC receptacle used for the refrigerator. Step 9: If so equipped, clean the printed circuit board contacts using a pencil eraser. Step 10: Reassemble and reinstall all components and the refrigerator itself. Step 11: Turn on the LPG tank and check for leaks. Step 12: Set the LPG pressure to 11 inches water column. The final test will be to light the refrigerator in the LPG mode and observe the burner flame as it is pulled into the bottom of the flue tube. The flame should be a bright blue with a possible tinge of orange at the very top. It should also be centered directly under the bottom of the flue tube. Congratulations. You have successfully completed a professional refrigerator clean and service. Aside from the money savings, you have gained an insight into the importance of preventive maintenance, as well as the satisfaction of knowing that your refrigerator will be operating at peak performance. And remember your refrigerator will last longer if this periodic maintenance procedure is performed every RVing season.