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5.3 Dismantling the Venturi insert

Loosen the cylinder screw on the profile clip (132) and remove it. Separate the induction elbow (133) from the mixer body (130).

Carefully separate the parts from one another in order to prevent damage to the

pin (105) by bending, etc.

Now the Venturi insert with the pin and torpedo unit (126) (Figure 9) can be pulled out of the mixer body.

)

(

)

(

Caution

The torpedo unit (126) is dismantled after unscrewing the pan head screw (125). The venturi insert (101) and the pin

are adhered to one another and may not be separated from one another. If the parts can be easily separated by hand,

the assembly must be repaired (adhered) or replaced.

Fig 9:

Unit with venturi insert and pin

Torpedo (126)

Pan head screw (125)

5.4 Replacing the guide belts

The next step is the removal of the guide body (102) from the mixer body (130). Remove and dispose of the used guide

belts (129 and 131). Carefully clean the sliding surfaces on the venturi insert (101) and groove for the guide belts with

adjacent surfaces and allow to dry. Fit new guide belts.

The guide belts (129 and 131) and sliding surfaces may not be lubricated.

The lubrication of the parts can negatively influence the operating behaviour of the device.

Caution

5.5 Installing the venturi insert

Move the mixer body (130) up to the vertical position with the connection side facing the induction elbow (133).

Mount the torpedo unit (126) on the venturi insert (101). In the process, the pan head screw must be secured with

low-strength thread locker (e.g. LOCTITE 221). Slide the guide body (102) into the mixer body up to the mechanical stop.

Insert the venturi insert with the small diameter forward into the guide body and check the ease of movement of the

venturi insert.

however, only to the extent that the venturi insert does not fall through under the force of its own weight. Otherwise,

the play between the venturi insert and the guide belts is too great.

5.6 Mounting the induction elbow

After the adjustment of the guide belts (129 and 131), the induction elbow (133) is mounted on the mixer body (130).

The mixer body remains vertically aligned. Prior to mounting the induction elbow, make sure that the O-ring (104) is greased

and does not twist out of the groove. Carefully place the elbow on the mixer body so that the pin (105) goes in through the

hole in the induction elbow provided for this purpose. Place the profile clip (132) on the angles of the two flanges (on the

housing and the induction elbow) and connect the two parts in the correct spatial arrangement by tightening the cylinder

screw. Observe the tightening torques in Table 4 (page 8).

985.29-2 p.10

Summary of Contents for HON 985A

Page 1: ...Gas Mixer HON 985A 985 29 2 Serving the Gas Industry Worldwide OPERATING AND MAINTENANCE INSTRUCTIONS SPARE PARTS EDITION 01 2017 ...

Page 2: ...d l a n o i s n e m i D 4 3 4 Specific maintenance instructions 8 8 s n o i t c u r t s n i e c n a n e t n i a m r o f s l a v r e t n I 1 4 4 2 Tightening torques MA 8 4 3 Lubricants 8 4 4 Adhesives 8 5 Maintenance 9 9 s r o s n e s y t i m i x o r p e h t g n i l t n a m s i D 1 5 5 2 Dismantling the drive unit 9 0 1 t r e s n i i r u t n e V e h t g n i l t n a m s i D 3 5 0 1 s t l e b e d i ...

Page 3: ...not been any unusual observations during operation and or functional testing The check must include in particular seals all moving parts such as parts with transmission thread and the venturi insert Any and all defective parts must be replaced with new ones The same applies to o rings removed during dismantling Do not use any spare wear parts and or oils lubricants not specifically recommended in ...

Page 4: ...mixing gap reduce the mixing gap 1 4 Structure and mode of operation gas 2 fuel gas flowing in through an upstream gas pressure control section to the same pressure as gas 1 air With the reduction of the cross section there is an acceleration of gas 1 air flowing in Acceleration means the pressure of the gas For the mixture of the gases a torpedo designed for maximum flow rates of the gas mixture ...

Page 5: ...M R B N s l a e S Max operating and environmental temperature 10 C to 80 C SEP design in accordance with PED Table 1 Technical features of the mixer 3 2 Dimensions and technical features of the stepper motor Fig 2 Dimensional drawing of the stepper motor Connection plug Caution Cable and connection plug must be fastened properly so that a cable break does not occur Note max r o t o m r e p p e t s...

Page 6: ... r f e c a f r u s e v i t c A V 3 0 d e r e v o c e c a f r u s e v i t c A Interference voltage permissible voltage peaks max 1 000 V 10 ms Ω k 0 1 e c n a t s i s e r l a n r e t n I e e r f s i e c a f r u s e v i t c a n e h w t h g i l w o l l e y D E L s u t a t s g n i h c t i w S 3 1 W S t u n r e t n u o c d n a g n i t s u j d A Note A straight socket compatible with the proximity senso...

Page 7: ... gas Gas connection 1 305 approx 52 to 65 Fastening clamp Locking screw Inspection glass Proximity sensor lean Comments 985 29 2 p 07 Fig 6 Mixer and gas connection dimensional drawing Flange type second rich proximity sensor optional Type 1 Type 2 Type 3 Type 4 Rp 1 266 to 279 Flow direction I Variable torpedo diameter see spare parts list Induction elbow can be installed at any angle position in...

Page 8: ...tely after the discovery of the deviation in operating behaviour Note 2 3 1 3 2 1 0 2 1 2 1 1 o n s o P Tightening torque in Nm 8 2 8 12 212 Table 4 Tightening torques MA 4 3 Lubricants o n t r a p HON s t n a c i r b u L s t n e n o p m o C e s a e r g e n o c i l i S s g n i r O l l A e t s a p y l b m e s s A s w e r c s g n i n e t s a f l l A Transmission thread and conical washer on the thre...

Page 9: ...nsert 101 is first pushed to the mechanical stop on the mixer body 130 and then unscrewed from the threaded rod with additional rotation of spindle of the stepper motor 113 Caution The next step is the removal of the threaded rod 111 from the device For this purpose unscrew the inspection glass 109 from the induction elbow 133 and loosen the clamp connection between the threaded rod and the pin 10...

Page 10: ...ng behaviour of the device Caution 5 5 Installing the venturi insert Move the mixer body 130 up to the vertical position with the connection side facing the induction elbow 133 Mount the torpedo unit 126 on the venturi insert 101 In the process the pan head screw must be secured with low strength thread locker e g LOCTITE 221 Slide the guide body 102 into the mixer body up to the mechanical stop I...

Page 11: ... 109 with seal in the induction elbow 5 8 Adjusting the proximity sensors limit switches Connect the stepper motor 113 of the mixer to the stepper motor control Adjust a mixing gap of 0 5 0 1 mm by moving the stepper motor An adjustment of 0 5 mm takes place with a control frequency of 20 Hz in full step operation in 5 seconds With a change to the control frequency by a factor K the adjusting time...

Page 12: ...d rotated through 90 pictured rotated through 145 pictured rotated through 90 6 Spare parts 985 29 2 p 12 6 1 Spare Parts Drawing HON 985A 100 50 ZW N NI M A Be sure to comply with torque figures in table 4 on page 8 W Parts should be held in stock for maintenance purposes Use adhesive connection in accordance with table 6 page 8 A A M A 10 Nm M A M A M A M A ...

Page 13: ...1 4 2 K 1 t e k c o S 8 1 1 9 8 2 6 2 0 0 1 M L 1 e n o c r e h s a W 9 1 1 4 1 4 5 t S 1 t u n n o g a x e H 0 2 1 0 7 0 6 2 K 1 p a C 1 2 1 6 5 1 4 1 t S 4 r e h s a W 2 2 1 0 2 3 0 1 t S 4 w e r c s r e d n i l y C 3 2 1 124 Flange DN 40 alternatively 5 3 7 0 2 0 0 1 t S 1 1 e p y t e g n a l F 4 2 1 4 3 7 0 2 0 0 1 t S 1 2 e p y t e g n a l F 4 2 1 3 3 7 0 2 0 0 1 t S 1 3 e p y t e g n a l F 4...

Page 14: ... r o T 6 2 1 7 9 4 0 3 0 0 1 K 1 6 3 ø o d e p r o T 6 2 1 5 7 1 6 2 t S 1 w e r c s g n i k c o L 7 2 1 2 4 8 8 1 M L 1 g n i r l a e S 8 2 1 6 5 2 6 2 0 0 1 K W 1 t l e b e d i u G 9 2 1 1 6 2 6 2 0 0 1 M L 1 y d o b r e x i M 0 3 1 7 5 2 6 2 0 0 1 K W 1 t l e b e d i u G 1 3 1 7 2 2 8 2 t S N 1 p i l c e l fi o r P 2 3 1 7 9 2 6 2 0 0 1 M L G 1 w o b l e n o i t c u d n I 3 3 1 7 7 2 7 1 t S 1 ...

Page 15: ... 1 g n i r a e b t c a t n o c g n i d i l S 7 0 1 6 5 2 6 2 0 0 1 1 t l e b e d i u G 9 2 1 7 5 2 6 2 0 0 1 1 t l e b e d i u G 1 3 1 8 8 6 6 2 1 r e k c o l d a e r h T 1 8 0 7 2 1 e s a e r g e n o c i l i S 1 9 0 7 2 1 e t s a p y l b m e s s A 4 0 7 7 2 1 t n e g a p i l S 0 9 6 6 2 1 e v i s e h d A 6 3 Parts for maintenance purposes 985 29 2 p 15 ...

Page 16: ...visit www honeywellprocess com or contact your Honeywell account manager GERMANY Honeywell Process Solutions Honeywell Gas Technologies GmbH Osterholzstrasse 45 34123 Kassel Germany Tel 49 0 561 5007 0 Fax 49 0 561 5007 107 HON 985 29_2 2017 01 2017 Honeywell International Inc ...

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Honeywell HON 985A, Manual, Page: 10 / 16

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