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PET Bottle Blowing Systems

NHN offers most flexible and compact blowing systems, which can be easily installed in a filling plant. The compact modules require minimum floor space and adapt effortlessly to various layout requirements.

Our machines provide outstanding production flexibility and versatility for a wide range of applications. These machines are supplied fully equipped and are directly ready for production, when air, electricity and water supply has been connected. NHN's technical expertise is also in layout designing according to each customer specifications.

Conveyors and connections are adapted to the requirement of the premises with most cost effective designs.

Specific equipment packages are available for the production of single way use PET bottles and 'hot fill' bottles.


Process Description

Preforms from Hopper are transported by loading conveyor to fill to the blowing machine. They are subjected to heating by infrared lamps in the oven to attain precise blowing temperature. Heated Preforms are then pre-blown and stretched before final blowing by high-pressure air. Blown bottles are cooled by chilled water in circulation within the mould, before discharge to out feed conveyor.

  1. Preform storage hopper
  2. Preform loading conveyor
  3. Modular Preform conveyor belt (one belt section including driver for each module)
  4. Neck up Preform positioning and feeding into pre-distribution ramp.
  5. After automatic detection and elimination of oval Preforms, the Preforms are returned neck down and dropped into pipes.
  6. The Preforms are securely positioned onto mandrels by guides and pistons.
  7. The Preforms are driven through the ovens on a central band carrying all the mandrels, which are virtually maintenance free (no O-ring seals). This central band is common to all the molecules for the entire machine.
  8. The high capacity, digitally controlled, infrared heating system (3 or 4 heater boxes and 9 to 12 heating zones) ensures optimized heat distribution and provides excellent processing characteristics for lightweight bottles and complex bottle shapes.
  9. The Preforms are transferred by grippers to the transfer wheel. A safety device ejects the defective Preforms automatically. Once the Preforms are loaded onto the transfer wheel, their temperature is measured by means of a highly accurate Infra- red sensor. A closed loop system allows a very precise temperature control.
  10. The clamps of the blowing unit are operated by a brush-less servo motor (very accurate and almost maintenance free).
  11. The bottles are checked for correct blowing (i.e. bottle height) and grippers feed the bottles neck up not a buffer. A safety device rejects badly blown bottles.
  12. When a buffer is full (approximately 8 bottles), the bottles are moved into an elevator, which lifts the bottles into the central air conveyor common to all the modules for the entire machine.
  13. Air conveyor system
  14. Link with neighbour modules.
  15. Module control and power cabinet.
Standard Features

Automatic Operation

The main functions of start-up and operation are combined on the machine- integrated control panel.

Bottle Weight Reduction

Optimization of material distribution based on precision of heat controlling and stretch motions.

Proportional hydraulic stretching

The stretching stroke and speed can be chosen among 5 set of parameters to ensure correct container form and wall thickness and to achieve complex or a symmetrical bottle shapes.

Simple, Reliable transport of preforms

A simple, robust preform loader ensures constant feeding of the transport pallets. Adjusting to the various preform types is extremely easy. The preforms are displaced by pallets, sized according to the selected option, and moved by a linear pneumatic conveying system.
High-performance infra-red oven

Four heating elements, each with 10 lamps (option12 lamps) can be easily moved and tilted which together with a closed loop process ensures that each preform type receives exactly the right heat. The temperature in each zone is individually programmed and controlled by a systems micro- computer.
Fast replacement of blow moulds

Replacement time is kept to the minimum, while changing from one container to the other. This operation is easy and operator friendly. Saving of time in replacement is available for operation, thus achieving high productivity of the machine. The appropriate stroke and speed for the various bottle dimensions optimizes press opening and closing times.
Power plus user friendliness

The systems controlled device is the most advanced of its kind. A powerful microprocessor automatically controls the whole process. For e.g. , it ensures fast, reliable changing from one container type to another by memorizing every value of the production parameters for each bottle type and by controlling the strokes, hydraulics, stretching etc. The control device is also extremely user-friendly, a new man-machine interface allows to program all pertinent parameters very easily.
ADVANTAGES
  • Buy only the equipment you need to start with upgrading as you go along.
  • Acquire new options as further market opportunities emerge
  • Produce containers of various sizes and weight on the same machine.
  • Easy adjust production to market fluctuations and factory capacity.
  • Reduce tooling cost through the interchangeability of moulds.
  • Keep maintenance cost to a minimum because of its simple design and high standards of reliability Cut training time due to ease of operation.
  • Achieve complete operator safety. The machine can only be started if all doors are closed, opening them during operation will stop the machine immediately.
  • Get accurate and reproducible quality product.
  • High performance heating system, 9-12 individually adjustable heating zones.
  • Precise and constant stretch motions resulting in optimized bi-axial orientation and lower bottle weights.
  • Cover wide range of applications like, hot fill, multilayer, PET bottles
  • Lower inventory costs for moulds. The moulds are especially designed with the feature of interchangeability to suit all machine models
  • Optimize machine performance, our engineering department is at your service to optimize also your PET bottle design.
  • Increase productive performance of your plant. Blowing machines are reliable with their robustness and long lasting service of components protected by electrical and mechanical safety systems. Few expendable parts. Transfer and mold open/close motions are controlled by unique design developed by engineers in- house.
  • Save productive hours, minimum breakdowns, trouble-free smooth operations, ease of availability of spare parts, minimum response time to attend machine problems by our after sales service team of engineers. Service centers access to all over the world.
NHN / 3.1 / PB / 1800 - 10,000
MODEL
 
NHN/3.1/PB/1800
NHN/3.1/PB/2800
NHN/3.1/PB/3600
NHN/3.1/PB/10000
Number of moulds
 
2
2
4
8
Bottle capacity
lts
0.1 - 2.0
0.2 - 2.0(opt.3)
0.1 - 2.0
0.2 - 2.0(opt.3)
Bottle height (maximum)
mm
350
370(1)
350
350(1)
Bottle diameter (maximum)
mm
110
130
110
110(option 130)
Proform neck dia. (min.int/max.ext.)
mm
19/30
18/50
19/30
14/42
Perform neck ring dia. (maximum)
mm
50
50
50
50
Production output (nominal)
b/h
1800
2000(2)
3600
10000(2)
Air low pressure - 7 to 10 bar
m3/h
80
70
62
270
Air high pressure - 40 bar
m3/h
45-111
60 to 250
90 - 197
208 to 928(3)
Heater electric power - 9 lamps
kW
44
54
90
162
(option 12 lamps)
 
 
 
 
 
Number of ovens per module
 
4
4
8
3(option4)
Number of heating zones per oven
lamps
9 (12 opt)
9 (12 opt)
9 (12 opt)
9(option12)
Total electric power (9 lamps/3 lamps)
kW
62
62
116
190
Average power load - 9 lamps
kW
22-33
22 to 33
45-72
77 to 125(3)
Refrigeration capacity
kcal/h
9000
15000
18000
20000
Refrigeration temperature
0C
5-10.
5-10.
5-10.
5-10.
Refrigeration pressure
bar
5-6.
5-6.
5-6.
5-6.
Refrigeration flow
m3/h
2.4
2.4
5
7
Machine floor space
m2/h
2.4
27
24
37
Machine height
m
2.5
3
2.5
3.9
Total machine weight
t
5
5
8
25
  1. Over the height / diameter, please contact NHN Water Technologies Pvt. Ltd.
  2. Depends on the bottel volume, shape and weight. output rate given for cylindrical shaped petbottel 1.0 lit of gms weight.
  3. Depends on compressor, site location and bottel specification
Premier Range Blowing Machine

These machines are with Rotary Blow wheel design for continuous simple harmonic operation. Moulds rotate on the Blow wheel during machine in operation.

Operations of Preblow, Preforms stretching, final blowing and bottle ejection are conducted serially for individual cavities during rotation.
Blow Wheel
Compressed air
Height
2.75m
Supplied Pressure range
from 7 to 35 bars
Number of Moulds
4
Pressure (for machine operations)
7 bars
Closing Force
10 t
Flow rate (according to item)
30 to 60 Nm3/h
Item height (underneck) at outfeed
1.4 m approx.
Blow pressure
filtered air
Machine DC drive motor power
4 kW
Spherical base:      Pressure
up to 25 bars
Flow rate (acc. to item)
70 to 325 Nm3/h
Heat conditioning
Free-standing base: Pressure
up to 35 bars
Height
2 m
Flow rate (acc. to item)
95 to 415 Nm3/h
Number of heat units
6
Chilled water
Max. power
96 kW
Temperature
10 to 12 C
Number of heating zones
8
Pressure
5 to 6 bars
Flow rate
up to 5m3/h
Electricity
kcal to be removed
up to 11,000 kcal/h
Max. supplied power
132 kW
Voltage adaptation possible for
415 V threephase
Weight
other voltages with transformer + neutral + earth Blow wheel (with moulds) 7 t
Frequency
50/60 Hz
Heat conditioning unit
1.6 t
Average Consumption
75 to 10 kW/h
according to item
Preform feeder
0.65 t
  Electrical cabinet integrated into
the blow wheel
capacity in 1
0.25
0.5
1
1.5
2
3
dia. in mm
58
73
87
96
105
127
h in mm
152
190
245
290
330
330
weight in g
14
16
22
30
30
39
38
51
42
58
73
84
instantaneous
output rate
 4,000 b/h
To be confirmed with our technical department, figure depends on bottle capacity and preform wall thickness

3.2 Non-lubricated Air Compressor 7-8 Bar

NHN Corporation offers Air Compressors of reputed manufacturers like Ingersoll-Rand who have experience in technical know-how in reciprocating compressor design and application that is second to none. These range Compressor Packages are self-contained compressed air power plants, engineered into an unusually compact skid mounted unit that has everything you need, to generate dependable low-cost air power. There is nothing more to buy or install.

The completely assembled unit with interconnecting piping and cabling is factory tested and eliminates costly start-up delays due to elaborate installation and commissioning at site, incorrectly placed accessories, easy to install, occupies less floor space and is equipped so as to offer a single point water inlet / outlet connection and air outlet connection.

Available in both lubricated and non-lubricated construction, these plants are economical to use on account of its lower installation costs, lower maintenance as well as operating costs. The standard package includes a compressor, Vee belt drive & belt guard, electric motor, vertical after cooler & air receiver with standard fittings, starter and control panel with adequate safety shutdown systems, necessary piping, hardware and with optional air dryer and compressed air filters.

Standard ESV Range Air Compressor Package

  • Air Compressor with Vee belt drive and Belt guard.
  • Vertical after cooler
  • Vertical Air receiver with standard fittings
  • Control panel and Starter
  • Piping, Hardware and Skid

Optional Equipment

  • Air Dryer (Refrigerated type)
  • Compressed Air Filters
  • Moisture separator
  • Oil filter
  • Bacterial filters
  • Mechanical safety
Non-lubricated Air Compressor 7-8 Bar

Features

All NHN units pre-engineered or packaged, are available with non-lubricated cylinders for oil-free air. They give you double life because all wear points are protected against friction by optimized self-lubricating materials with improved mechanized reciprocating compressor design water-cooled systems.

NL Channel Valves

Metal-to-metal sliding contact has been completely eliminated with strips of self-lubricating material between valve springs, channels and self-lubricating valve guide inserts. These valves operate without oil, yet have field-tested life approaching that of standard oil-lubricated Channel Valves.

NL Rings

These NL piston rings and wear rings, of the most durable self-lubricating materials are free-floating within their ring grooves. They require no expanders or other metal parts and are free to rotate, distributing load evenly and assuring longer life.
NL Packing

Three pairs of full-floating, self-lubricating rings seal the piston rod with no metal contact. They require no adjustment, keep leakage to a minimum and operate for long periods without attention or replacement.

NL Distance Piece

An additional distance piece is provided on all NL machines to accommodate an oil stop plate on the piston rod, which prevents the travel on frame oil up the rod to the cylinder.

Crankshaft/Connection Rod

Special large diameter closed die-forged steel construction. Precision machined and ground - for longer life. Balanced design to assure maximum stability. Integral drilled oil passages.

NHN / 3.2 / AC / 4 - 15 SERIES
Single Stage
Compressor
Model ESV
Piston Displacement
Speed
rpm
Max. Working Pressure
Dimensions (Inches)
Weight
(kgs)
m3/min.
cfm
kg/cm2g
psig
Length
Width
Height
Lub/NI
NHN/3.2/AC/4
4.65
164
750
8.80
125
90
50
80
1400
NHN/3.2/AC/6
6.10
215
750
7.00
100
90
50
80
1500
NHN/3.2/AC/7
7.36
260
650
9.50
135
110
55
105
2000
NHN/3.2/AC/9
9.33
330
650
7.70
110
110
55
105
2100
NHN/3.2/AC/14
14.10
498
650
7.00
100
120
65
105
2500

3.3 Non-lubricated Air Compressor 40 Bar

High Pressure Compressor has very important application for blowing of PET Preforms to make bottles. The stages of air compression are increased to satisfy the desired high-pressure requirements.
Multi -stage compressors are designed for 3 stages for achieving the output of air discharge at 40 bar. The systems are reciprocating compressor designs and are water-cooled type for efficient operations.
Compressors that give you more

Whether you choose the vertical or horizontal models, NHN ESV/H compressors give you the most for your money.

Lower Installation Costs

NHN gives you packaged ESV/H units that are simple, easy and quick to hook up and they take less floor space; thanks to their compact design.

Lower Operating Costs

The ESV/H's low power consumption makes a big difference in your energy bills. Lube oil is conserved as well; thanks to the sealed crankcase construction and low frame oil capacities because oil is used for frame lubrication only. A separate cylinder lubricator reservoir is provided on lubricated units.

Lower Maintenance Costs

The totally sealed crankcase also keeps out dirt-the major cause of wear, not so provided by other manufacturers. The only daily maintenance these machines normally require is a check of the oil pressure. Otherwise, all running gear parts are aligned for life and never need adjustment.

Non-Lubricated Units

When you need air that's oil-free, the ESV/H units are supplied with non-lubricated materials that require no oil. These NHN NL compressors, use the latest in self-lubricating valve, ring and packaging materials, each of which is matched to its particular environment. As an added benefit, valving with these NL channel valves reduces air friction for quiet, efficient operation and longer life.

Non-lubricated Air Compressor 40 Bar

Gives you more flexibility
NHN's compressor line-up gives more options than any other available.

  • You can get:
  • Electric motor/engine or dual Drive
  • Single step / two step Regulation
  • Pneumatic or electro pneumatic control
  • Constant speed or automatic dual control
  • Skid mounted package or bare unit with a wide range of optional accessories
Features
HIGH QUALITY AIR
The Oil free technique of the NHN Compressor
NHN compressors are perfectly designed for the oil free technique
  • Non-lubricated cylinders with extra long distance pieces
  • Piston rods with deflectors and oil stop collars.
  • Teflon or polyamide piston rings
  • Stainless steel or peek valves

Filtration

For food-quality air, NHN installs suitable filtration by means of a sub-micron grade “S” coalescent filter, which eliminates aerosols down to 0.01 micron.

To obtain an air whose quality complies with the PNEUROP 6611/1984 standard, NHN proposes an activated carbon filter as an option, capable of purifying aerosols and odors.

FLOW FLEXIBILITY

Regulation

On most of the models, the airflow may vary either by very precise regulation, variable in levels of 0-50-100%, or by a change of transmission. In this way, you can adapt the compressor to several types of bottle capacities.

Change of Speed

To keep up with the compressed air requirements, the speed of the compressor can be modified within its operational limits.

Non-lubricated Air Compressor 40 Bar
PRESSURE FLEXIBILITY
The compressors can be designed for several pressure ranges by mounting, at the conceptual stage, all necessary equipment (pressure switches, sensors, selectors).

High Performance Instrumentation

The instrumentation of NHN compressors is complete and is capable of supplying maximum operational safety.

Additional benefits also includes:

  • 1 thermostat per cylinder
  • 1 dryer output alarm indicator light
  • 1 test purge button
  • 1 alarm horn

The management logic controller offers particularly high performance because it not only manages the compressor but also the cooling system and the dryer, supplying all information relative to maintenance.

DURABILITY
Mechanical Design
Derived from the “process range”, all the NHN compressors are designed for intensive 24 hours a day industrial operations. References worldwide are proof of this reliability.

Double Bearing Flywheel Side

This bearing ensures better distribution of tensile forces while maintaining a perfect shaft alignment.

Rings

The ring design is particularly elaborate and stabilized by self-lapping enabling it to run. “Teflon on Teflon” or “polyamide on special treatment”, to ensure maximum reliability.

A Complete Product Line
  • Up to 42 bar Absolute in the standard version
  • Higher pressures above 42 bar in the special version available.
  • Possibility of an output at 7 bars
  • Range of boosters from 7 to 42 bars
  • NHN Compressors can operate in the Arctic or in the tropics (with temperature adaptation kits) and at any altitude.
NHN Packaging
As a specialist in the field, NHN has designed complete systems for you, including
  • The compressor
  • The dryer
  • The air tank
  • The electricity cabinet
  • The horizontal or vertical closed circuit cooling plant.

Non-lubricated Air Compressor 40 Bar

Just three simple connections are required:
  • Electricity: All of the connections are connected to the electricity cabinet with a single output.
  • Compressed air : 1 flange / counter-flange output.
  • Water : 1 water inlet and outlet for the entire skid.
All the purges are connected at the same place.
This range is packaged so as to group together as many elements as possible on a rigid baseplate. This arrangement can also be modulated and the elements arranged separately according to your needs.

After sales Service

All the NHN compressors are followed up by experts for commissioning and maintenance.
They operate immediately anywhere in the world. They also provide technical assistance to train your personnel on the spot.

Training
Training can be:

  • On your site.
  • In our approved training center.

Tests

All compressors are tested on computerized, APAVE approved, test-department.
NHN / 3.3 / HAC / 172-1920 SERIES
MODEL
COMPRESSOR
TYPE
FLUID
TYPE
INLET
PRESSURE
COOLING
FLUID
CAPACITY
DISCHARGE
PRESSURE
CONTROL
PANEL WITH
SAFETY
 
 
 
 
 
Nm3/h(CFM)
bar G
 
NHN/3.3/HAC/172
Reciprocating
Air
Atmospheric
Water
172(102)
39
Provided
NHN/3.3/HAC/421
Reciprocating
Air
Atmospheric
Water
421(248)
37
Provided
NHN/3.3/HAC/740
Reciprocating
Air
Atmospheric
Water
740(435.5)
37
Provided
NHN/3.3/HAC/168
Reciprocating
Air
Atmospheric
Water
168(99)
40
Provided
NHN/3.3/HAC/1000
Reciprocating
Air
Atmospheric
Water
1000(588.3)
42
Provided
NHN/3.3/HAC/1190
Reciprocating
Air
Atmospheric
Water
1190(700)
39
Provided
NHN/3.3/HAC/1920
Reciprocating
Air
Atmospheric
Water
1920(1230)
42
Provided


3.4 Refrigerated Air Dryer
Moisture can harm products and processes
Compressed air always carries some moisture. An aftercooler linked up with a water separator will remove most of the water, but not all of it. This water can cause considerable damage to your compressed air system.

Corrosion of the air net will cause leakage, particularly at joints. This leads to pressure drops and higher power consumption.

Tools are air-driven, Equipment can be damaged, both by corrosion and because the water washes away the lubrication oil and the quality of your end products can be spoiled by the presence of water in the compressed air. Dry compressed air is therefore vital.

Refrigerated Air Dryer

Dry air for better end products and a cost-effective compressed air system
The FD compressed air dryer reduces the air temperature to +2 / +30C. The major part of the water vapour is condensed and drained away before the compressed air enters the air net. Leaks, pressure drops and corrosion of the air net will be prevented, and the life of the tools and control instruments extended.

Dry air will keep pneumatic systems running smoothly and production lines rolling. They will save maintenance and repair costs, by reducing the risk of leaks and pressure drops, dry air increases the overall efficiency of your compressed air system and you will have better quality end products.

Reliable, fully automatic operation

FD dryers have an efficient capacity regulation system ensuring reliable, fully automatic operation. They are delivered complete with water separator and automatic condensate drain. The FD heat exchangers, constructed entirely in copper, provide excellent heat transfer efficiency.

Freon22

Freon R22 is used. It is 40 times less of a pollutant than other refrigerants.

Easy to install as part of a new or existing system

Installation of an FD dryer is simple. The light, compact design means that a minimum of floor space is required, and no foundations are needed.
The concept of a “dry” compressed air system is simple and saves a lot of installation costs.
The FD dryer can easily be integrated into an existing compressed air net. Simply connect the air inlet and outlet and the drain connections, plug the dryer into the electricity circuit and switch on.
NHN has a wide range of FD refrigerant dryers to perfectly match your installation and applications.

Minimum and easy maintenance

FD dryers were designed and built to give you reliable operation, and to keep your system at peak efficiency. Maintenance is minimal and when a service is required, all components are easy to reach. This makes servicing simple and straightforward.

PRINCIPLES OF OPERATION

The principle of drying compressed air by refrigerant drier is the one of the most cost effective and efficient methods in compressed air treatment. Warm and saturated air from the air compressor is cooled down by heat exchanger and a refrigerant compressor to give a dewpoint of 2O C.

Firstly the incoming warm air is precooled in the air to air heat exchanger by the out going cold air.
The precooled air then passes into refrigerant to air section where it is cooled to its dewpoint temperature and the air becomes cold and saturated. The cold saturated air passes into the separator where condensate drain trap. Finally the cold dry air passes into the air heat exchanger where it is reheated and leaves the drier warm and dry.

The refrigerant circuit is hermetically sealed and operates as follows.
The refrigerant compressor takes in evaporated refrigerant and increases its pressure to a preset condensing level. The air cooled condenser liquefies the compressed refrigerant gas by removing the heat from it. By means of a thermostatic expansion valve or capillary tube on the small units, the liquid refrigerant to air exchanger and then in to the refrigerant compressor. A hot gas bypass valve controls the refrigerant capacity automatically enabling the drier to operate between zero and 100% of its rated capacity.

Refrigerated Air Dryer

FEATURES

1.   Instrument Panel

The instrument panel permits simple, reliable monitoring of dryer performance. Easy-to-read displays indicate pressure dewpoint, voltage on, and standby/run.

2.  Dewpoint temperature sensor

Senses the coldest compressed air temperature, thereby accurately measuring the degree of drying taking place.

3.  Compressed air inlet

Simple to connect and install, saturated air enters from the compressor's after cooler. A cleanable inlet strainer protects the separator and heat exchangers from contamination by large particles, thereby eliminating fouled elements from pipe rust and scale.

4.  Dry air outlet

Easy to connect to your air net.

Refrigerated Air Dryer

5.  Refrigerant receiver

Contains the refrigerant at standby. The FD dryer works with the smallest amount of refrigerant possible.

6.   Air-to-refrigerant heat exchanger

The evaporator is designed with extended surface spiral finned tubes to maximize heat transfer. It draws heat from the compressed air and cools it down to +2 / +3oC.

7.  Water Separator

The unique NHN water separator design removes all the condensed liquids from the compressed air. It contains the automatic drain which drains awat this condensate prior to the air entering the air-to-air heat exchanger.

8.  Air-to-air heat exchanger/economiser

Designed for maximum heat transfer with minimum pressure drop. The extended surface area, spiral finned design, results in optimum heat transfer in a compact package. The discharge air is reheated well above dewpoint to prevent condensation downstream of the dryer.

9.  Condenser

Cooling water or a high volume cooling fan ensures that the refrigerant is adequately cooled in the condenser.

10. Refrigeration compressor

The FD dryers have a compact, reliable gas cooling rotary refrigerant compressor. The bigger units are equipped with a piston-type refrigerant compressor. The entire refrigeration system is designed to provide full compressed air capacity, using R-22.

11. Liquid separator

The patented liquid separator provides refrigerant gas under all compressed air flow conditions, thereby eliminating any need for a troublesome hot-gas by-pass valve. Unlike other systems this arrangement provides a constant dewpoint under all load conditions.

12. Expansion valve

The unique refrigerant pressure regulated expansion valve is the unique way to ensure a constant dewpoint of +2 / +3oC at all load conditions.

NHN / 3.4 / AD / 574 - 3395 SERIES

50 HZ
Outlet Pressure Dewpoint
airflow in CFM

max. eff.
Working
pressure
bar(e)/psig

Power
Consumption

Kw

Freon
compr.
Size
Dimensions

Mass

Kg
Air in
and out
connect.
2/3deg.C
cfm
6 deg.C
cfm
50 deg.C
cfm
A mm
B mm
C mm
NHN/3.4/AD/574
574
712
827
10.0/145
2.9
3.25
1504
862
1130
390
R3
NHN/3.4/AD/680
680
843
979
10.0/145
3.8
4
1504
862
1130
420
R3
NHN/3.4/AD/795
795
985
1144
10.0/145
4.7
5
1504
1072
1130
490
R3
NHN/3.4/AD/989
989
1227
1424
10.0/145
4.9
5
1970
1126
1160
800
NW100
NHN/3.4/AD/1131
1131
1403
1629
10.0/145
5.4
6
1970
1250
1600
950
NW100
NHN/3.4/AD/1271
1271
157
1830
10.0/145
5.9
6.5
1970
1374
1600
1050
NW100
NHN/3.4/AD/1694
1694
2101
2440
10.0/145
9.3
10
2260
1374
1600
1250
NW100
NHN/3.4/AD/1976
1976
2460
2846
10.0/145
9.6
10
2260
1374
2280
1700
NW150
NHN/3.4/AD/2542