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C7061M MINIATURE DYNAMIC SELF-CHECK ULTRAVIOLET FLAME DETECTOR

5

65-0304—05

Parallel Flame Detectors

Shifting flame patterns, commonly encountered on burners 

with high turndown ratios, can require two parallel detectors to 

prove the flame at the highest and lowest firing rates and for 

modulation in between. In this case, one detector supervises 

the pilot (interrupted) and both detectors supervise the main 

burner flame. During the main burner run period, either 

detector is capable of maintaining system operation. A 

maximum of two C7061 Detectors can be connected in 

parallel.

In addition to assuring more reliable flame detection, parallel 

detectors facilitate maintenance during burner operation. Each 

detector can be removed, in turn, without shutting down the 

supervised burner. However, a flame simulating failure 

occurring in the flame signal amplifier or in either detector will 

cause a shutdown.

Screening Effects

Smoke, oil mist, dirt and dust are masking agents that 

attenuate the ultraviolet radiation that the flame emits. If they 

absorb too much radiation, the amount of ultraviolet radiation 

reaching the detector is reduced. The flame signal can then 

become too low to hold in the flame relay, resulting in burner 

shutdown.

The problem can be eliminated by diluting the contaminants. A 

strong flow of air through the sight pipe will clear a viewing path 

through the attenuating material. Refer to the Sight Pipe 

Ventilation section.

It is also desirable to sight the detector at an area containing 

fewer masking agents such as near the burner nozzle or near 

the entrance of the combustion air. Increasing the viewing area 

of the detector by shortening the sight pipe or by increasing the 

diameter of the sight pipe also reduces the attenuating effects 

of masking agents.

Multiburner Requirements

(Flame Discrimination)

In addition to meeting the requirements for a single burner, a 

multiburner installation requires discrimination between flames. 

Flame discrimination can be defined as locating all flame 

detectors so that each detector responds only to the flame of 

the burner it is supervising.

In multiple burner systems, not every detector can be 

positioned so its line-of-sight does not intercept flames from 

other burners. For example, this situation occurs in front-fired 

boiler-furnaces having more than one row of burners, or in 

multilevel opposed-fired furnaces where the burners face each 

other.

When planning such an installation, locate each flame detector 

so that it has the best possible view of the first 30 percent 

closest to the burner nozzle (the flame root) it is supervising, 

and the worst possible view of all other flames.

Fig. 3 illustrates a critical detector application problem that 

requires flame discrimination. Flame discrimination is 

accomplished for Detector A by repositioning it until the flame 

relay (or Flame LED in the flame safeguard control) does not 

respond to Flame B. Note that Detector A is aimed at the first 

30 percent of Flame A where the ultraviolet radiation is most 

intense. It sights the tip of Flame B, but it is not aimed at the 

first 30 percent of Flame B where UV is intense. Detector A is 

repositioned to assure maximum response to Flame A while 

rejecting Flame B. Similarly, Detector B is positioned to assure 

maximum response to Flame B while rejecting Flame A.

If you reposition a detector and still cannot achieve flame 

discrimination, try reducing the viewing area by increasing the 

length or decreasing the diameter of the sight pipe, or adding 

an orifice plate.

Fig. 3. Example of flame discrimination

problem (opposed fired burners).

Install the Sight Pipe (Fig. 4)

After you have determined the location and sighting angle, 

select the sight pipe. A black iron pipe with a diameter of at 

least 1-1/2 in. (38 mm) is recommended. Do not use stainless 

steel or galvanized pipe because they reflect ultraviolet 

radiation internally and complicate aiming the pipe.

Sight pipes with diameters 2 to 3 in. (51 to 76 mm) produce 

better results for horizontal rotary burners, which require wide 

viewing angles. A wide viewing angle can also be obtained by 

using a short sight pipe.

DETECTOR A

FLAME A

FLAME B

DETECTOR B

M1957A

Summary of Contents for C7061M

Page 1: ...ing tube is field replaceable Threaded conduit fitting and color coded leadwires allow rapid electrical installation C7061M1016 uses Molex Woodhead 1R5006A20A120 formerly Brad Harrison Type 41310 connector Two flame detectors can be wired in parallel to reduce nuisance shutdowns in difficult flame sighting applications 4 F 20 C to 175 F 80 C ambient temperature Incorporates UV sensor tube checking...

Page 2: ... unit that delivers the necessary voltages to operate the tube and shutter Ambient Operating Temperature Ratings Outside the Case 4 F to 175 F 20 C to 80 C using part no 129464N UV Sensing Tube Storage Temperature Ratings 4 F to 158 F 20 C to 70 C Housing Violet plastic cover Housing protection is IP66 Similar to Nema 4 indoor outdoor protection rain tight dust tight hose directed water pro tectio...

Page 3: ...nditions could result 2 All wiring must be NEC Class 1 line voltage 3 The C7061 is powered from the Flame Safeguard unit that delivers the necessary voltages to operate the sensing tube and shutter 4 Sight the detector so it does not respond to ignition spark 5 On multiburner installations each detector must respond only to the flame of the burner it is supervising 6 Do not connect more than two C...

Page 4: ...field of view If the temperature of the hot refractory causes the flame relay in the flame safeguard control to pull in re aim the sight pipe so the detector views a cooler area of the refractory Ignition spark is an intense source of ultraviolet radiation When installing the detector make sure it does not respond to ignition spark by following the Ignition Spark Response Test listed on page 9 Sin...

Page 5: ...e defined as locating all flame detectors so that each detector responds only to the flame of the burner it is supervising In multiple burner systems not every detector can be positioned so its line of sight does not intercept flames from other burners For example this situation occurs in front fired boiler furnaces having more than one row of burners or in multilevel opposed fired furnaces where ...

Page 6: ...tilate the sight pipe to cool the detector or to clear a viewing path through UV radiation attenuating material For a negative pressure combustion chamber drilling a few holes in the section of the sight pipe outside of the combustion chamber allows air at atmospheric pressure to flow through the sight pipe and into the chamber A perforated pipe nipple between the sight pipe and the detector can a...

Page 7: ...on source in the event of a seal leakage or diaphragm failure 1 All wiring must comply with applicable local electrical codes ordinances and regulations Use NEC Class 1 wiring 2 Keep the flame signal leadwires as short as possible from the flame detector to the terminal strip or wiring subbase Capacitance increases with leadwire length reducing the signal strength The maximum permissible leadwire ...

Page 8: ...the sighting position of the detector for optimum flame signal It is suggested that a volt ohm meter with a minimum sensitivity of one megohm volt and a zero to five or ten Vdc scale be used for R7861 Amplifier flame signal measurements Measure the flame signal as illustrated in Fig 8 Be careful to make the proper connections of positive red meter lead to positive control jack and negative black m...

Page 9: ...iew Continue adjustments until the flame signal due to ignition spark is less than the flame signal values indicated in step 2 Response to other Ultraviolet Radiation Sources Some sources of artificial light produce small amounts of ultraviolet radiation Under certain conditions an ultraviolet detector responds as if it is sensing a flame Do not use an artificial light source to check the response...

Page 10: ...e the plug in amplifier Then recheck the flame signal 7 Replace the ultraviolet sensing tube see Service on page 10 Then recheck the flame signal 8 Remove detector from the sight pipe and sight it on a UV source and note the flame LED on the 7800 Series device 9 If you cannot yet obtain a meter reading replace the detector IMPORTANT At the completion of Troubleshooting be sure to perform the Adjus...

Page 11: ...f ultraviolet rays with an orifice ring or the like If there is too much ultraviolet radiation it can penetrate the tube unit even when the shutter is closed causing faulty operation Inspection and Adjustment After replacing the UV sensing tube perform a pilot turndown test an ignition spark response test and a safety shutoff test to verify proper functioning of the tube unit IMPORTANT Do not put ...

Page 12: ...AME DETECTOR Automation and Control Solutions Honeywell International Inc 1985 Douglas Drive North Golden Valley MN 55422 customer honeywell com U S Registered Trademark 2013 Honeywell International Inc 65 0304 05 M S Rev 07 13 Printed in United States ...

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