Description
SCOPE OF PRODUCTION
PET Still Water filling Line 12000BPH (500ml)
PET Still filling Line Complete
(Spring Water) Ozone and Filtration Spec for Natural Water)
350ml x 15000 BPH,
500ml x 12000 BPH,
750ml x 10000 UPH,
1500ml x 7000 UPH
Bottle Blow Moulding | 350ml, 500ml, 750ml and 1500ml. (28mm Neck) |
Bottle Un-Scrambler | 350ml, 500ml, 750ml and 1500ml. |
Uni-bloc Rinse/Fill/Cap | 350ml, 500ml, 750ml and 1500ml. (28mm Neck) |
Bottle Drying | Bottle Drying Machine |
OPP Labelling | 350ml, 500ml, 750ml and 1500ml. |
Batch/Date Coding | Lazer Type |
Automatic Shrink-Wrapper | 2×3 (Six Pack), 3×4 (Twelve Pack) and 4×6 (Twenty-Four Pack) |
Pallet Wrapping | 1 x Pallet Wrapping Machine |
Commercial Offer:
No | Name | Model | Output | Qty | Unit price
(ZAR) |
Total price
(ZAR) |
Info |
(1) Bottle Making System, 12000BPH | |||||||
1 | Automatic 6cavities Blow Molding Machine
(Servo type) |
PL-CS6-38 | 12000BPH | 1set | ※German BeckHoff PLC
※Taiwan HTC HMI ※BeckHoff DIGIT MOLDULUS OUPUT CONTROLLER ※Festo Pneumatic cylinder ※Taiwan Delta Servo system ※Schneider low voltage electric components ※Low pressure air recycling system |
||
2 | Preform unscrambler | 1set | |||||
3 | Blowing mould | 300ML | 12000BPH | 1set | ※Airline aluminum 7075# | ||
500ML | 12000BPH | 1set | |||||
1000ML | 12000BPH | 1set | |||||
2000ML | 12000BPH | 1set | |||||
4 | HP Air Compressor | MC(A)W-090 | 8.0m3/min40Kg | 1set | ※8.0 m3/min, 40 Bar
※Screw type(Low maintenance in future) ※Siemens motor ※SKF bearing ※German NIEMANN main Compressor ※USA Donaldson oil filter ※Italian CEME solenoid valve |
||
Air dryer and air filter | 8.0m3/min40Kg | 1set | |||||
Cooling tower | 25t/hr | 1set | |||||
Air Tank | 1.0m3/min 40Kg | 1set | |||||
5 | Water chiller | SIB15A | 15HP | 1set | ※Water chilling machine | ||
Part 2: Bottle Filling and Packing, 12000BPH | |||||||
1 | Rinsing filling capping tri-block | XGF 24-24-8 | 12000BPH | 1set | ※Siemens PLC+HMI
※Siemens VFD speed regulation ※Autonics Sensors ※SKF bearing ※IGUS sliding sleeve ※Schneider electric components ※SUS304, 3mm supplied bu POSCO, S.Korea ※24 rinsing heads ※24 filling heads ※8 capping heads |
||
1.1 | Cap elevator | SG | 12000CPH | 1set | ※with cap sorting ability | ||
1.2 | Cap sterilizer | XDJ | 12000CPH | ※SUS304
※Three stage sterilizing, rinsing, drying ※Observing windows |
|||
2 | Light checker | DJ | 12000BPH | 1set | ※Energy-saving lamp | ||
3 | Bottle dryer | CGJ | 12000BPH | 1set | ※with 5 kW power fan
※Dust proof |
||
4 | Laser printer | JGJ | 12000BPH | 1set | ※Including smoke handling unit | ||
5 | Hot melt glue labeling machine | TB250R | 12000BPH | 1set | ※Mitsubishi PLC+HMI
※VFD speed regulation ※Panasonic Servo motor control ※Schneider electric components ※Autonics Sensors |
||
5.1 | Changeover parts | 3sets | |||||
6 | High-speed PE film wrapper | YCBS20 | 20 packs per minute | 1set | ※Siemens PLC+HMI
※Siemens VFD speed regulation ※Airtac Pneumatic components ※Schneider electric components ※Autonics Sensors |
||
7 | Drum conveyor | 6m | |||||
8 | Cartoning machine
(Hot glue type) |
YCZX25 | 20-30 packs per minute | 1set | ※INNOVANCE Servo system
※Siemens PLC + HMI ※Danfoss VFD ※SICK sensor ※Festo cylinder |
||
9 | Air conveyor with air fans | FC-1 | 12000BPH | 8m | ※SUS304, 3mm, supplied by POSCO, S.Korea
※SUS304 cable sorting sink ※2.2 kW with air filter ※Including conveyor converging system |
||
Air fan | 2sets | ||||||
10 | Flat conveyor with motors | SC-1 | 12000BPH | 100m | ※SUS304, 3mm, supplied by POSCO, S.Korea
※SUS304 cable sorting sink ※Water collecting tray ※Speed adjusting motor ※Subject to the final confirmation of the line’s layout |
||
ABB motors + Danfoss VFD | 10 sets | ||||||
90 degree turn | 4 sets | ||||||
Bottle Blowing Machine
- Blow molding machine, 6 cavity
Description:
R series linear full-electric PET bottle blow molding machine is a high-speed automatic PET blower designed and developed with the most advanced bottle blowing technology at present, the advantages of which can be described as speedy, stable, simple, general purposed and environmental safety. It is mainly applicable to blow molding PET containers for water, beverage, juice, etc. The machine yields abundantly with high efficiency. The capacity of each cavity has been increased to 2600~2000bph when the bottle size is equal to or less than 0.55L respectively, which can meet the high-end customer’s requirements. Equipped with a preform auto-loading system, the machine works fully automatically with consistent performance and high speed, without an operator’s interference during the whole process. Accordingly, the chance of contamination can be reduced manifestly, which assures the quality of products.
Features:
The innovation of mold locking system
Servo Motor is adopted to drive the movement of the 4-piece mold holder and the high-pressure supercharged mold locking mechanism is equipped. This mold clamping and opening mechanism have been developed successfully by ourselves upon dozens of years’ practice which is now the most efficient clamping and opening mechanism applied on the domestic linear blow molding machines. The mold movement cycle time is only 0.3~0.5 seconds. Meanwhile, the whole movement is accurate, stable and speedy while the impact between the mold plates have been amortized, which can effectively protect the molds and reduce the visibility of parting lines on the finished bottles.
Application of the motion controller system
Using Omron motion controller system (integration module type), using the PTO (servo positioning module) system for high-speed positioning, looking for track the target location, proximity sensor switch to the servo system is a high-speed signal, by servo motor built-in high inside track the location of the precision rotary encoder online detection, information feedback to the control system, and finally by the positioning module in high-speed positioning work.
Application of the servo motor
The mold movement mechanism: the servo motor reducer synchronical transmission system is adopted to fulfill the reciprocating up and down motion of the two hinge mechanisms on both sides of the mold hauled by two linkage rods respectively. In this way, the two mold holding plates in the middle move oppositely or towards each other, which is generally known as mold opening and closing. The hauling wheel driven by the servo motor makes clockwise rounds continuously. Each round leads to a complete cycle of mold holding plates movement——open and close. Also, the high-pressure air supercharged mold locking mechanism is applied which buffs the impact between mold plates and effectively protects molds. Besides, it does help to reduce the visibility of parting lines on finished bottles. The servo motor driven mold movement mechanism is designed and created upon rigid engineering simulation analysis, which ensures that the series of the mold motions are simple, accurate, consistent and speedy, making cycle time 0.2~0.4 seconds.
The stepping and heating mechanism: Servo motor is driven stepping motion for preform rotary heating system, the preform heating stepping is controlled by variable frequency motor, preforms (preform neck is upwards) are 360 degrees uninterruptedly rotary heating,38mm Preform heating pitch, more preforms are uninterruptedly heated within the same distance, which improves the efficiency and energy saving above 50%.Servo motor driven the steeping motion makes it much speedy and stably, shorten the production cycle time, greatly improve production efficiency. The preform transfer system with the grippers and variable pitch system are both driven by the servo motors to ensure high speed and accurately perform handling between the two mechanisms.
The perform variable pitch system: This mechanism has adopted the screw to change the cavity pitch from 38mm to 105mm driven by the servo motors, to ensure high speed and accurately perform handling between the two mechanisms.
Preform transfer system with the grippers and bottle outfeed mechanism: Heated preforms delivering into the blow mold and the finished bottles out-feed driven by the same servo motor and the synchronous belt, to ensure the high speed and accuracy for these two motions.
The stretching mechanism (down stretching): the stretching rods are driven by a servo motor all at once, which ensures the synchronicity of the motion of the rods and makes it easier to do adjustment prior to production.
(After interchanging the blow mold, makes it much easier to adjust the height of stretching rods, just need to input the data on the touch screen, instead of doing the adjustment by manual.)
Energy-efficient heating system
The paratactic collocation of the preform heater shortens the heating pitch between preforms, making good use of the heater’s space and energy efficiently, which decreases the energy consumption and the area for installing the machine. Each lamp pipe in the heater can be controlled individually. Moreover, the heaters are equipped with a controlled circulating air cooling system that can keep the temperature constant inside the heater and preforms heated consistently, which makes high good part rate. Additionally, the homo-thermal heater works excellently in the condition where the temperature fluctuates greatly(10℃~30℃). The positioning of the heating stepping system is conducted by the servo motor, swift and stable. The machine is equipped with the preform temperature detection at the last heaters if the preform temperature does not reach the blowing temperature, the preforms going into the blow mold but no blowing, saving the air.
Performance and Advantages:
-
- The man-machine interface is easy to operate. Everything is computerized, including temperature adjustment and preform distribution.
-
- Preform unscrambling, loading, bottle handling, and order are all operated by stainless steel manipulator automatically without second contamination.
- The circulating chilling water system, as well as the fan with converter controlled, can protect the bottleneck against deformation when the preform is being heated.
- The homo-thermal heater adopts auto reflection and closed-loop adjusting system which has the power supplied constantly in proportion, not affected by the fluctuation of voltage. The conveying chain is short-pitched and paratactic, which helps to realize slow heating and low power consumption. As a result, the preform can be heated evenly and easy to blow.
- The positioned installation of molds makes it possible to change molds easily within one hour.
- All the critical parts we use for the machines, such as the electrical, pneumatic components, servo motor, etc, are famous branded parts imported from Japan, USA and Europe,which ensures the stability and long life of our equipment.
- Easy Maintenance
Since the machine is connected to the programmable logic controller (PLC) via particular communicating cables, the user can manage all the actions of the machine through the PLC, which will send warning signals and the problem diagnosis report to the operators when there is something wrong with the machine. Accordingly, the operators can easily find out the causes that lead to the problems through the indications shown and fix them quickly.
- Safety
R series is equipped with following mechanic and electric protecting devices in order to assure the safety of operators and durable stable operation of the machine.
- The safety of operators
The machine is totally enclosed with a perfect reliable safety door and also equipped with an aluminum antislip plate on the principal surface, which can assure operators’ safety to the largest degree.
- The safety of the machine
The multiple points detection technique is adopted to ensure the safe running of the positioning system, the clamping system, and the stretching system to the largest degree.
Technical parameters:
Model PL-CS6-38 Blowing part Mold clamping force 60000 Kg Side mols stroke 130 mm Blowing rod stroke 320 mm Bottom mold stroke 50 mm Bottles’ distance 120 mm Cavity 6 cavities Bottle specification Bottle max volume 1.5 L Bottle mouth size 18-30 mm Max body diameter 105 mm Max body height 320 mm Preform 3 mm Actual capacity 12000 BPH (500ml) Power consumption Heating oven 4 pieces Heating tubes 36 pieces Nominal power consumption 50 kW Actual power consumption 25-35 kW High pressure air compressor Blowing pressure 35-45 Kg Compressed air consumption 10 m³/min Chilling water Operating pressure Over 4 Kg/cm² Temperature range 5-20 ℃ Cooling capacity 21000 kcal/hour Cooling water flow 70 m³/hour Machine specification Dimension 5530*1750*2600 mm Weight 8000 Kg Electric components
Items Supplier, Origin PLC HTC, Taiwan HMI BeckHoff, Germany Servo motors (Servo motor driven the stretching system, the stepping system, the mold clamping system, the preform transfer system, the variable pitch system)
Delta, Taiwan Speed reducer Siemens, Germany High pressure blowing valve (With compressed air recycling system)
Parker, USA Pneumatic components FESTO, Germany Control button, intermediate relay Schneider, France Contactor, thermo relay Schneider, France Silicon controlled rectifier Semikron, Germany Infrared tungsten tube Lianggu, China VFD Taian, Taiwan 1.1 Air chilling machine
Description:
After the SIC-A series chiller is turned on, the compressor 1 starts to work, turning the refrigerant into a high-temperature compressed gas. The gas circulates in the direction to BC, enters the condenser 3 and exchanges heat with the air, and changes from a gaseous state to a liquid state. while the heat is taken away by the air.
In the CDEF process, the liquid condensing agent coming out of the condenser passes through the liquid storage device 4, passes through the drying filter 5, get dried and filtered, passes through the liquid pipe solenoid valve 6, and the liquid crystal mirror 7 then reaches the expansion valve 8.
During the FG process, the high-pressure liquid refrigerant is throttled and depressurized by the thermal expansion valve, and the temperature is lowered.
During the GA process, the low-temperature & low-pressure refrigerant exchanges heat with the chilled water through the evaporator 9 to cool the chilled water to the preset temperature; the low-temperature gas refrigerant that comes out after the evaporator returns to the compressor, and finishes the recycle.
Technical parameters:
Model | SIB-15A | |
Cooling ability: | 38 kW | |
32,680 kcal/hr | ||
Compressor(output power): | 12.15 kW | |
15 HP | ||
Refrigerate agent: | Weight: | 13 Kg |
Controlling method: | thermal expansion valve control | |
Type: | R22 | |
Evaporator: | Shell type | |
Condenser: | Type: | Finned condenser |
Fan power: | 1.6 kW | |
Water tank volume: | 230L | |
Water pump: | Power: | 2.2 kW |
Water flow: | 133 L/min | |
Working pressure: | 4.2 kgf/cm² | |
Total power: | 19.92 kW | |
Actual power consumption: | 40-70% | |
Pipe fitting: | Water inlet diameter: | 2 inches |
Water outlet diameter: | 2 inches | |
Water tank discharging hole diameter: | 0.5 inch | |
Water tank overflow hole diameter: | 0.5 inch | |
Protection devices: | Compressor: | Overload relay |
Pump: | Overload relay | |
Chilling circuit: | High/low voltage switch / anti-frost switch | |
Water loop: | Bypass valve | |
Power supply: | 380V 50 Hz |
Component list:
Items | Supplier, Origin |
Contactor | Schneider, France |
Thermal relay | Schneider, France |
Thermal temperature table | Schneider, France |
1.2. High pressure air compressor
Technical parameters:
Model | MC(A)W-090 |
Capacity: | 8 Nm³/min |
Pressure: | 4Mpa |
Cooling method: | Air cooling |
Compressing stage: | 2 |
Main motor: | 90 kW, IP54 |
Noise: | ≤ 68±2dB(A) |
Oil content(ppm): | ≤ 1 |
Safety valve set pressure Mpa | DISCHRGE PRESSURE+0.1 |
Dimension: | 3000*1800*2000mm |
Weight: | 2300 Kg |
2.1 Compressed air cooling drying filtering system
Technical parameters:
Model | NTLN-8.0 |
Capacity: | 8 Nm³/min |
Working pressure: | 4.0 Mpa |
Water filtering capability: | 99% |
Cooling ability: | 1.5 HP |
Dew point: | 2-10°C |
Stroke: | 146 mm |
Cooling agent: | R22 |
Initial filter: | Oil ≤ 5mg/m³, Granule dia. ≤ 3um |
First stage precision filter: | 8 m³, 4.0 Mpa,
Oil ≤ 1 ppm Granule dia. ≤ 0.3 um |
Second stage precision filter: | 8 m³, 4.0 Mpa,
Oil ≤ 0.01 ppm Granule dia. ≤ 0.01um |
Filling & Post-Packaging Machine
- Washing-filling-capping Tri-block
Features:
- Welded with SUS304, the product contact surface is SUS304 food-grade (SUS316 optional).
- High-efficiency rinsing nozzles can spray water to any part inside the bottle.
- Corrosion-resistant bearings from NSK or SKF are used.
- Multiple filling options are available: mechanical valve filling, flow meter filling, weighing filling, or laser positioning filling.
- The gear transmission system has an open design.
- The bottle transporting system is designed to hold the neck securely.
- Equipped with VFD control for increased energy efficiency.
- Features a PLC control system.
- All electrical components are supplied by world-renowned companies.
- Utilizes French “ZALKIN” capping technology for enhanced performance.
- Capping torque can be adjusted as needed.
- Cap absence can be detected, and upside-down caps can be sorted out.
- An online cap sterilizer option is available.
Technical parameters:
Model: | XGF24-24-8 |
Capacity: | 12000 B/H (500ml) |
Bottle height: | 120-310 mm |
Bottle diameter: | 50-96 mm |
Bottle mouth diameter: | 26-40 mm |
Bottle type: | PET bottle |
Cap type: | Flat cap |
Material of the water dispenser: | Poly tetra fluoroethylene |
Rinsing heads: | 24 |
Rinsing time: | over 2 seconds |
Filling heads: | 24 |
Filling temperature: | normal temperature |
Filling pressure: | 0.2-0.4 Mpa |
Flow velocity of the valve: | 120-150 ml/s |
Filling valve: | SUS304 |
Product reservoir tank: | SUS304 |
Capping heads: | 8 |
Capping torque: | 0.6-2.8 Nm (adjustable) |
Main motor power: | 2.2 kW AC 380V 50Hz IP55 |
Installation power: | 8 kW |
Power supply: | 380V, 50HZ |
Consumption of compressed air: | 0.8 m³/min (0.6MPa/H) |
Consumption of aseptic water: | 0.4 m³/min (0.2-0.25Mpa) |
Dimension: | 3550*2250*2600 mm |
Weight: | 5500 Kg |
Component list:
Items | Supplier, Origin |
PLC | Siemens, Germany |
Touch screen | |
Contactor | Schneider, France |
Thermal relay | |
Switches | |
Photoelectric electric sensor | Omron, Japan |
Pneumatic components | SMC, Japan |
Bearing | SKF, Sweden |
Detailed description
- Rinsing part:
Features:
- Rotating design suitable for rinsing containers used in alcohol, beverage, pure, and mineral water applications.
- Neck-holding catchers invert bottles, allowing rinsing with aseptic water.
- Primary structure, as well as contact parts with aseptic water and the cover, are constructed from stainless steel.
- Bottle sensor installed to prevent the introduction of improperly positioned bottles.
- Water inlet pipe equipped with a pressure gauge and valve stabilizer.
- Adjustable height to accommodate bottles of different sizes, with maximum and minimum height protection.
- Optional aseptic water recycling system.
- Automatic cessation of rinsing in the absence of bottles, restarting upon detection of bottle presence.
2 .Filling part
Features:
- Designed and manufactured based on German technology.
- Utilizes an isobaric mechanical filling valve for precise filling.
- Neck-holding design ensures seamless contact between the bottle mouth and the filling valve.
- Equipped with a bottle-explosion-proof device; the filling valve can automatically shut off.
- Adjustable filler height to accommodate bottles of different heights, with maximum and minimum height protection.
- Open-style gear transmission for high efficiency, low noise, long service life, and easy maintenance.
- Motor adjusted by the inverter, allowing for stepless frequency conversion speed regulation.
- Bottle transporting system features a simple structure and short changeover time to accommodate different bottles. Uses a bottom-holding method for transportation.
- PLC system controlled, displaying errors on the screen, such as bottle jams or cap absence.
- Adheres to a “no bottle, no fill” principle.
- Liquid level inside the filling tank is monitored by a sensor, ensuring stable filling.
- Key electric components sourced from world-famous companies.
- Sealing rings on the filler are manufactured in Europe.
3.Capping Part
Features:
- Caps are unscrambled in the silo, and the quantity is actively monitored.
- Adjustable capping torque to meet specific requirements.
- Flip-over adjuster installed on the slide to prevent the insertion of upside-down caps.
- Two photoelectric sensors on the slide provide cap-absence alarms.
- The capper can adjust its height to accommodate bottles of varying heights, with both maximum and minimum height protection.
2.1 Cap hopper
Features:
-
- Gentle handling to prevent any damage to plastic caps.
- Transparent PC board facilitates efficient cap sorting.
- Equipped with an AC motor and speed reducer for reliable performance.
- Includes an indicator light to signal cap absence.
- Automatically identifies and removes upside-down caps, redirecting them to the hopper for reuse.
Technical parameters:
Model: | SG |
Cap type: | Flat cap |
Material: | SUS 304 |
Conveying capacity: | 10000 caps/h |
Power: | 0.37 kW |
2.2. Cap online sterilizer
Features:
- Utilizes a highly efficient centrifugal cap-unscrambling method with low wear.
- Cap detecting system provides signals to control the cap lifter.
- Special design on the cap unscrambler’s guide rail prevents the passage of upside-down caps.
- Caps undergo a comprehensive cleaning process, including spraying with disinfecting solution, rinsing with aseptic water, and drying with aseptic compressed air.
- Disinfecting solution tank features maximum and minimum liquid levels, allowing for convenient replenishment.
Technical parameters:
Model: | ZPXDJ |
Disinfectant solution sterilizing time: | 15s |
Aseptic water spraying time: | 5s |
Aseptic compressed air drying time: | 3s |
Consumption of the aseptic water: | 1 Ton/H (0.2 MPa) |
Consumption of compressed aseptic air: | 1000 L/Min (0.6-0.7 MPa) |
Consumption of the normal air: | 800 L/Min (0.6-0.7 MPa) |
Power: | 4 kW |
Weight: | 900 Kg |
Length: | 3500 mm |
3. Bottle drying machine
Description:
- The blower adopts a fan as the air source.
- An air knife type structure, and the size of the sealing can be adjusted.
- The top side and the two vertical sides of bottles can be blown to dry thoroughly.
- Easy for labeling, printing, packing operations.
Technical parameters:
Model: | WCP-2 |
Capacity: | 20000 B/H |
Length: | 800 mm |
Dimension of the blower: | 40*40 mm |
Power: | 7.5 kW * 2 |
Material: | Stainless steel 304 |
Dimension: | 1200*350*1400 mm |
4. OPP labeling machine
Technical parameters:
Model: | TB250R |
Output: | 6000-16000 |
Labeling heads: | 12 |
Main motor power: | 1.5kW |
Total power: | 8 kW |
Compressed air consumption: | 0.2m3/min |
Bottle diameter: | 28-125 mm |
Sleeve label length: | 30-250 mm |
Thickness: | 0.035mm |
Label material: | OPP |
Dimension: | 3040*890*2200 mm |
Weight: | 1550 Kg |
Component list:
Items | Supplier, Origin |
PLC | Schneider, France |
HMI | |
Servo motor | Schneider, France |
Contactor | Schneider, France |
Thermal relay | |
Switches | |
Photoelectric sensor | SICK, Germany |
- Laser printer
Features:
The printer is simple to use and the operator can focus on production:
- Touchscreen user interface with built-in tools and wizards to guide you through code creation, job setup and conversion to reduce operator error.
- Oversized logo area supports accurate coding in multiple locations to identify more content in larger areas.
- Printing speeds up to 500 characters/second.
- Maximum line speed of 60 m/min (197 ft/min).
Increased productivity and reduced costs with uptime advantages:
- The portable lightweight 3030 enables simple conversion. By adjusting the 3030’s mobile rack, it takes less than 20 minutes to set up for different sized products.
- Durable laser tubes can be used reliably for many years.
Provide consistent high quality coding for a variety of simple applications:
- Lined technology for dynamic marking and static marking for clear, high quality marking.
- Internal laser cooling system based on high-efficiency laser design saves money without external air supply.
- The 3030’s compact, stand-alone design integrates well into existing production lines and accommodates a wide range of placement angles and heights.
Technical parameters:
Model: | JGJ |
Laser printing head: | 1 |
Max power: | 10 W |
Cooling method: | fan |
Maximum printing speed: | 500 characters/min |
Maximum line speed: | 60 m / min |
Environmental protection: | IP20 |
Life service of the laser source: | Up to 30,000 hours |
Beam output: | Controlled beam |
Laser wavelength: | 10.6 um |
Focus length: | 100-200mm |
Operation: | HMI |
- Automatic PE film shrink wrapping machine
Features:
- Classic shape, novel structure, unique, easy operation, and maintenance. The use of pneumatic expansion support film roll, electronic sensor film delivery ensures stable and fast film feeding, making membrane application convenient.
- The unique threat shaking bottle feature ensures smooth product separation, preventing bottle squeezing.
- The feeding conveyor and host length are 1.6 meters longer than those of other companies. This length is conducive to bottle sorting, effectively increasing the number of membrane rods, reducing the transmission line speed, and enhancing equipment performance tolerance.
- The shrink chamber employs a unique circular air supply technology for multi-directional air flow control. It features adjustable wind speed and outlet position, significantly improving the shrinking effect.
- The shrinkage chamber adopts a newly developed open structure outside, facilitating maintenance. It incorporates a thick insulation layer for energy-saving and high-temperature control accuracy.
- Man-machine interface: B&R LCD color screen with a user-friendly interface for fast parameter setting.
- Electrical Configuration: Over 90% of the entire electrical components are imported high-quality brands. With 10 years of optimal configuration, the machine is stable and reliable.
- The machine incorporates energy-saving technology design, resulting in a 30% reduction in power loss. It promotes a low-carbon, environmentally friendly operation.
Technical parameters:
Model: | YCBS20 |
Working voltage: | Three-phase-five –line
Control voltage: DC24V |
Working pressure: | 0.6~0.8Mpa (without oil without water)
Air consumption: 80-100NL/min Pipe Joint Size: Φ10 |
Packing speed: | 20 packs/min |
Shrink chamber: | L×W×H=2500×700×450(mm) |
Shrink temperature: | 160℃~230℃ |
Packing: | LDPE (dust & static electricity removed) |
Width of film roll: | ≤580mm |
Thickness of film: | 0.06~0.10mm |
Thickness of film: | 0.06~0.10mm |
Diameter of film roll: | ≤350mm |
Film reel diameter: | 76mm |
Working noise: | ≤65dB |
Installed capacity: | 58kW (Actual consumption: 34kW) |
Tall weight: | 4500Kg |
Component list:
Items | Supplier, Origin |
Servo motor &control system | B & R, Austria |
PLC | B & R, Austria |
Touch-screen | B & R, Austria |
Transducer | DANFOSS, Denmark |
Approach switch | LEUZE, Germany |
Rising film cylinder | FESTO, Germany |
Contactor | SEIMENS, Germany |
Press adjusting device | MINDMAN, Taiwan |
Intermediate relay | SCHNEIDER, France |
Conveyor motor | SEW, Germany |
- Cartoning Machine
The carton forming process is completed in three steps:
- When the suction mechanism pulls down the cardboard, a set of forming baffles folds the cardboard into a box shape, completing the initial folding of the cardboard.
- The front box-pressing cylinder baffle presses down, using a cam mechanism to achieve the front folding and pressing of the cardboard. The forward and backward movement of the baffle compresses the front edges of the carton.
- The fixed gluing guns on three sides will spray hot melt gule onto the carton cases.
- The rear box-pressing device fixes and positions the carton while the side pressing cylinders on both sides push the side pressing plates, completing the carton forming process.
Description:
The machine uses servo-enhanced positioning, PLC controlling, multi-degree rotation via chain, chain wheel speed regulator. It features highly automatic, reliable controlling, easy to adjust, intelligent operation, can be widely used for beverage, beer, chemistry, food, medicine industry, can pack all kinds of cans and bottles in the second time package, can match with auto filling production line.
Bottles/Cans are separated to multi-channels at conveyor, and then grouped by bottle separating system evenly, then the bottles/cans drop onto the cardboard via bottle dropping system. Within the dropping process, card boards are folded to be cartons by the carton folding system. Through main drive, carton move forward, at the same time, The glue is being sprayed onto the carton, again the second stage carton forming system completes the processing of the carton forming with the help of the glue applying system. and through the side pressure and carton press system the carton is firmly conglutinated.
Description of the bottle reversing system:
The bottles are fed into the system one by one, and we arrange them into 4×6 configurations. During the sorting process, the bottles are pre-arranged into 4×6 groups, with each sorting cycle handling approximately three to four boxes. These boxed bottles queue at the waiting station until four boxes are accumulated, then they move on to the next step.
When the boxed bottles enter the next workstation, each package of bottles is processed individually. First, each package undergoes orientation adjustment, and the 24 packages in the 4×6 configuration are transported to the turning device. In the turning device, the packages are rotated 90 degrees using a two-dimensional reducer and a servo system. After the rotation is completed, the packages continue forward and are finally pushed to the wrapping station by the servo system for packaging operations.
Technical parameters:
Model: | YCZX25 |
Production capacity: | 20 case/ minute |
Hot glue solidify time: | ≤1.5-2S |
Weight: | 3.5T |
Machine overall size: | 6285*2582*2115 |
Bottle enter size: | 3000*620*1200 |
Power supply: | 220V AC |
Main machine power: | 10 KW |
Air consumption quantity: | 1500 L/min |
Compressor air requirement: | 0.6~0.8MPa |
Package product overall size: | (350-450) |
Cardboard specific requirement: | Material: corrugate, carton indentation thread thickness is moderate, width is not bigger than 5mm |
Conveying chain width: | 450-500mm |
Conveying chain height: | Shall be built based on client’s equipment height |
Component list:
Items | Supplier, Origin |
HMI | Siemens, Germany |
PLC | Siemens, Germany |
Inverter | Danfoss, Denmark |
Servo system | INOVANCE, CHINA |
Approach electronic switch | SICK, Germany |
Measuring fiber amplifier | Keyence, Japan |
Detection of electric eyes (reflective electric eye) | SICK, Germany |
Switches | Schneider, France |
Contactor & relays | |
Cylinder | Festo, Germany |
Glue system | Robatech, Switzerland |
Gear Motor | LJL, China |
- Air conveyor
The air conveyor is mounted on supporting legs, which are in direct contact with the ground. Fans are positioned on the air conveying duct, with each fan’s air inlet equipped with an air filter to prevent dust from entering the containers. Bottles are suspended on the air conveyor by their necks and transported to the rotary filler using air.
An automatic drop-off device is integrated into the air conveyor, driven by a cylinder mechanism. In the event of a temporary shutdown or deceleration of the downstream machine, the bottle-dropper can be shut down manually when a certain number of empty bottles accumulate on the air conveyor. After manually collecting and putting the bottles back on the air conveyor, this ensures that the blow molding machine does not need to be turned off in such instances.
Multiple sets of photoelectric switches are positioned on the air conveyor. The photoelectric switch near the air crossroads controls the direction of the air blowing, while the other switches are dedicated to managing the automatic drop-off device, ensuring the smooth operation of the entire air conveyor.
- The main body is constructed from Stainless Steel 304.
- Fan blowers feature built-in air filters, preventing secondary pollution.
- The air inlet of the fan outside the sterile room is equipped with a primary air filter to prevent dust from entering the room.
Technical parameters:
Fan power: | 2.2 kW / 5m |
Cross-section size of the air channel: | 180*180 mm |
Height | 1300 mm |
Thickness of the steel plate: | 2 mm(SUS304) |
Capacity of blowing: | ≥3400 m³/h |
Filter type: | Plate type |
Filter material: | Galvanized steel plate for out frame, stainless steel for filter screen |
Filter size: | 610*610*102 mm |
Bottle size: | 200-3000 ml |
Bottle diameter: | 50-120 mm |
Climbing angle of air conveyor: | ≤15° |
Initial resistance: | ≤55 Pa, (final resistance is 4-5 times stronger than initial resistance) |
- Belt conveyor & Buffering system
Description:
The operational efficiency of a production line is significantly influenced by the configuration of the conveyor line. This configuration must consider the occasional short-term shutdown of rear-end equipment, such as for label replacement, ensuring that the shutdown does not impact the operation of the front-end equipment. It should also facilitate seamless connection between the front and rear equipment to achieve high overall production line efficiency. Our production line layout is meticulously designed, taking into account the balance between customer investment and production line efficiency. Leveraging advanced global technology, we achieve the specified requirements. The mechanical structure boasts a new design, with components primarily formed through stamping or bending, offering advantages such as excellent rigidity, light weight, and interchangeability. The transmission method ensures reliable operation and convenient maintenance, suitable for conveying bottles with diameters ranging from Ø40 to Ø110mm. The electric control system, utilizing PLC on the rinsing-filling-capping tri-block, governs the operation of the entire container conveying buffer system. It automatically handles functions such as running speed acceleration, deceleration, and automatic buffering.
Features:
- The bottle belt is synchronously tracked with the host or upstream and downstream equipment, all controlled by the system.
- Ensures a smooth conveying process with no bottle falling, jamming, or blocking.
- Optionally, a buffer platform can be set in front of the labeling machine, typically with a buffering time of 1-2 minutes as needed.
- During PE label replenishment, the filling process continues, storing filled bottles on the buffer platform. Once replenishment is complete, the labeler initiates labeling, resuming synchronous production.
- After replenishing, the labeling machine accelerates to fill the platform with labeled bottles and then resumes synchronous production speed.
- The conveyor belt structure features modular design with interchangeable parts, offering compactness, low noise, ease of installation and maintenance, and adaptability for various capacities and bottle types.
- The electric control design is advanced and flexible, allowing customization based on customer requirements to enhance transportation smoothness.
- Control switch positions are thoughtfully arranged according to the conveying system layout or customer preferences, ensuring user convenience during operation.
Technical parameters:
Motor power: | 0.37 kW / 6m |
Width of the conveyor: | 110 mm |
Height: | 1050 mm |
Thickness of the steel plate: | 2 mm(SUS304) |
Bottle volume: | 200-3000 ml |
Bottle Diameter: | 50-100 mm |