Tag Archives: moulding machine

China Hot selling Automatic 4 Cavity Stretch Blow Moulding Machine with Servo Drive and Competitive Price near me shop

Product Description

                                                               Fully Automatic Bottle Blowing Machine

Machine Features:
1. Full automatic blow molding machine is suitable for producing PET plastic containers and bottles in all shapes. It is widely used to produce the carbonated bottle, mineral water, pesticide bottle, oil bottle, cosmetic bottle etc. Reasonable design, full automatic control, preform automatially feeded, save power and labor.
2. The mechanical part has compact and energy saving design.
3. Machine has fault alarm function and diagnostic system to allow easy maintenance.
4. The CZPT positioning installation makes it possible for operators to change the CZPT easily within 30 minutes.
5. The machine can be controlled through touch screen and running status is shown on it.
6. Heating by high-quality infrared lamp,high penetration, to make sure each preform be heated uniformly and stably. The width and height of the reflector can be adjusted, which can be suitable for heating preforms with different wall thicknesses.  

Main Parameters:

Item L-A6 L-A4 L-A2
Theoretical Output 6000pcs/h 4000pcs/h 2200pcs/h
Max Container Volume 2L 2L 2L
Max Neck Diameter 45mm 45mm 50mm
Max Container Diameter 100mm 100mm 120mm
Max Container Height 340mm 340mm 340mm
Number of Cavity 6 Cavity 4 Cavity 2 Cavity
Total Power 45Kw 35Kw 25Kw
Real Using Power 30Kw 20Kw 12Kw
Low Pressure Air Consumption 1.6m³/min 1.6m³/min 1.2m³/min
High Pressure Air Consumption 3.6m³/min 2.4m³/min 1.6m³/min
Feeding Machine Dimension 2.0*1.2*2.2m 1.8*1.0*2.0m 1.8*1.0*2.0m
Feeding Machine Weight 300Kg 240Kg 240Kg
Machine Dimension 4.2*1.8*2.0m 3.6*1.8*2.0m 3.2*1.8*2.0m
Machine Weight 3800Kg 2200Kg 1400Kg

Bottle Blowing Process:


Bottle Designs:

We can offer free bottle designs for customers.

Bottle and Preform Moulds:

Company Introduction:
HangZhou CZPT Machinery Co., Ltd is located in Xihu (West Lake) Dis., HangZhou, ZHangZhoug Province, the hometown of CZPT in China. Our company produces high speed automatic blow molding machine, automatic hollow blow molding machine, automatic blow molding machine, semi-automatic blow molding machine and blowing mold.
The blow molding machines are widely used in the production of mineral water bottles, edible oil bottles, food packaging bottles, daily chemical bottles, agricultural medicine bottles, and many other plastic containers in packaging fields. HangZhou CZPT Machinery Co., Ltd can provide a variety of bottle making equipments and suitable technical solutions.
HangZhou CZPT Machinery Co., Ltd has professional design, production team, which provides a solid foundation for producing excellent quality and performance blow molding machines. Our blow molding machines are exported to America, Europe, South korea, the Middle East, Southeast Asia, Central Asia, Africa and other countries and regions, they are well received and used by our customers.
Let’s create a better tomorrow hand in hand!

Machine Shipping:

FAQ:
1.Are you a factory?
We are a factory in HangZhou, which is a eastern costal city near ZheJiang . Welcome to visit HangZhou Lianwo Machinery Co., Ltd!

2.What is your payment term?
30% down payment against order confirmation, 70% balance when the machines are ready. Upon receipt all your payment, we will delivery the goods at once.

3.What is your delivery time?
All the machines will be produced according to the order. Usually in 20 working days, depends on your projects.

4.What about installing in customer factory?
After the machines arrive at your factory, we can arrange engineer to install the machines and train your workers. 

5.What is the guarantee time?
We offer A one-year warranty and A lifetime after-sales service.

How to Select a Worm Shaft and Gear For Your Project

You will learn about axial pitch PX and tooth parameters for a Worm Shaft 20 and Gear 22. Detailed information on these 2 components will help you select a suitable Worm Shaft. Read on to learn more….and get your hands on the most advanced gearbox ever created! Here are some tips for selecting a Worm Shaft and Gear for your project!…and a few things to keep in mind.
worm shaft

Gear 22

The tooth profile of Gear 22 on Worm Shaft 20 differs from that of a conventional gear. This is because the teeth of Gear 22 are concave, allowing for better interaction with the threads of the worm shaft 20. The worm’s lead angle causes the worm to self-lock, preventing reverse motion. However, this self-locking mechanism is not entirely dependable. Worm gears are used in numerous industrial applications, from elevators to fishing reels and automotive power steering.
The new gear is installed on a shaft that is secured in an oil seal. To install a new gear, you first need to remove the old gear. Next, you need to unscrew the 2 bolts that hold the gear onto the shaft. Next, you should remove the bearing carrier from the output shaft. Once the worm gear is removed, you need to unscrew the retaining ring. After that, install the bearing cones and the shaft spacer. Make sure that the shaft is tightened properly, but do not over-tighten the plug.
To prevent premature failures, use the right lubricant for the type of worm gear. A high viscosity oil is required for the sliding action of worm gears. In two-thirds of applications, lubricants were insufficient. If the worm is lightly loaded, a low-viscosity oil may be sufficient. Otherwise, a high-viscosity oil is necessary to keep the worm gears in good condition.
Another option is to vary the number of teeth around the gear 22 to reduce the output shaft’s speed. This can be done by setting a specific ratio (for example, 5 or 10 times the motor’s speed) and modifying the worm’s dedendum accordingly. This process will reduce the output shaft’s speed to the desired level. The worm’s dedendum should be adapted to the desired axial pitch.

Worm Shaft 20

When selecting a worm gear, consider the following things to consider. These are high-performance, low-noise gears. They are durable, low-temperature, and long-lasting. Worm gears are widely used in numerous industries and have numerous benefits. Listed below are just some of their benefits. Read on for more information. Worm gears can be difficult to maintain, but with proper maintenance, they can be very reliable.
The worm shaft is configured to be supported in a frame 24. The size of the frame 24 is determined by the center distance between the worm shaft 20 and the output shaft 16. The worm shaft and gear 22 may not come in contact or interfere with 1 another if they are not configured properly. For these reasons, proper assembly is essential. However, if the worm shaft 20 is not properly installed, the assembly will not function.
Another important consideration is the worm material. Some worm gears have brass wheels, which may cause corrosion in the worm. In addition, sulfur-phosphorous EP gear oil activates on the brass wheel. These materials can cause significant loss of load surface. Worm gears should be installed with high-quality lubricant to prevent these problems. There is also a need to choose a material that is high-viscosity and has low friction.
Speed reducers can include many different worm shafts, and each speed reducer will require different ratios. In this case, the speed reducer manufacturer can provide different worm shafts with different thread patterns. The different thread patterns will correspond to different gear ratios. Regardless of the gear ratio, each worm shaft is manufactured from a blank with the desired thread. It will not be difficult to find 1 that fits your needs.
worm shaft

Gear 22’s axial pitch PX

The axial pitch of a worm gear is calculated by using the nominal center distance and the Addendum Factor, a constant. The Center Distance is the distance from the center of the gear to the worm wheel. The worm wheel pitch is also called the worm pitch. Both the dimension and the pitch diameter are taken into consideration when calculating the axial pitch PX for a Gear 22.
The axial pitch, or lead angle, of a worm gear determines how effective it is. The higher the lead angle, the less efficient the gear. Lead angles are directly related to the worm gear’s load capacity. In particular, the angle of the lead is proportional to the length of the stress area on the worm wheel teeth. A worm gear’s load capacity is directly proportional to the amount of root bending stress introduced by cantilever action. A worm with a lead angle of g is almost identical to a helical gear with a helix angle of 90 deg.
In the present invention, an improved method of manufacturing worm shafts is described. The method entails determining the desired axial pitch PX for each reduction ratio and frame size. The axial pitch is established by a method of manufacturing a worm shaft that has a thread that corresponds to the desired gear ratio. A gear is a rotating assembly of parts that are made up of teeth and a worm.
In addition to the axial pitch, a worm gear’s shaft can also be made from different materials. The material used for the gear’s worms is an important consideration in its selection. Worm gears are usually made of steel, which is stronger and corrosion-resistant than other materials. They also require lubrication and may have ground teeth to reduce friction. In addition, worm gears are often quieter than other gears.

Gear 22’s tooth parameters

A study of Gear 22’s tooth parameters revealed that the worm shaft’s deflection depends on various factors. The parameters of the worm gear were varied to account for the worm gear size, pressure angle, and size factor. In addition, the number of worm threads was changed. These parameters are varied based on the ISO/TS 14521 reference gear. This study validates the developed numerical calculation model using experimental results from Lutz and FEM calculations of worm gear shafts.
Using the results from the Lutz test, we can obtain the deflection of the worm shaft using the calculation method of ISO/TS 14521 and DIN 3996. The calculation of the bending diameter of a worm shaft according to the formulas given in AGMA 6022 and DIN 3996 show a good correlation with test results. However, the calculation of the worm shaft using the root diameter of the worm uses a different parameter to calculate the equivalent bending diameter.
The bending stiffness of a worm shaft is calculated through a finite element model (FEM). Using a FEM simulation, the deflection of a worm shaft can be calculated from its toothing parameters. The deflection can be considered for a complete gearbox system as stiffness of the worm toothing is considered. And finally, based on this study, a correction factor is developed.
For an ideal worm gear, the number of thread starts is proportional to the size of the worm. The worm’s diameter and toothing factor are calculated from Equation 9, which is a formula for the worm gear’s root inertia. The distance between the main axes and the worm shaft is determined by Equation 14.
worm shaft

Gear 22’s deflection

To study the effect of toothing parameters on the deflection of a worm shaft, we used a finite element method. The parameters considered are tooth height, pressure angle, size factor, and number of worm threads. Each of these parameters has a different influence on worm shaft bending. Table 1 shows the parameter variations for a reference gear (Gear 22) and a different toothing model. The worm gear size and number of threads determine the deflection of the worm shaft.
The calculation method of ISO/TS 14521 is based on the boundary conditions of the Lutz test setup. This method calculates the deflection of the worm shaft using the finite element method. The experimentally measured shafts were compared to the simulation results. The test results and the correction factor were compared to verify that the calculated deflection is comparable to the measured deflection.
The FEM analysis indicates the effect of tooth parameters on worm shaft bending. Gear 22’s deflection on Worm Shaft can be explained by the ratio of tooth force to mass. The ratio of worm tooth force to mass determines the torque. The ratio between the 2 parameters is the rotational speed. The ratio of worm gear tooth forces to worm shaft mass determines the deflection of worm gears. The deflection of a worm gear has an impact on worm shaft bending capacity, efficiency, and NVH. The continuous development of power density has been achieved through advancements in bronze materials, lubricants, and manufacturing quality.
The main axes of moment of inertia are indicated with the letters A-N. The three-dimensional graphs are identical for the seven-threaded and one-threaded worms. The diagrams also show the axial profiles of each gear. In addition, the main axes of moment of inertia are indicated by a white cross.

China Hot selling Automatic 4 Cavity Stretch Blow Moulding Machine with Servo Drive and Competitive Price   near me shop China Hot selling Automatic 4 Cavity Stretch Blow Moulding Machine with Servo Drive and Competitive Price   near me shop

China Standard Horizontal Automatic Energy Saving Servo Drive Pet Plastic Preform Making Injection Blow Moulding Machine with Good quality

Product Description

Horizontal Automatic Energy Saving Servo Drive PET Plastic Preform Making Injection Blow Moulding Machine

Our automatic plastic perform injection molding machine adopts a thermal flow system and high-pressure injection molding to get high precision of bottle mouth, bottleneck and screw. It can inject all kinds of plastic parts such as bottle preform, engineering plastic, UPVC, PVC, PE pipes fitting, pomponents for automotive, household, eletronics,  telecommunication, etc.

Advantages of Our Plastic Preform Injection Molding Machine

1. Even the mainframe has no height limit for the workshop to be placed due to its low fuselage.

2. The product can be automatically dropped occasions, do not need to use a manipulator can also achieve automatic molding.

3. Because of the low fuselage, it is convenient for feeding and maintenance.

4. The mold shall be installed by crane.

5. The molding products are easy to be collected and packed by the conveyor belt when multiple sets are arranged in parallel.
Details of Our Plastic Preform Injection Molding Machine

Technical Parameters

Item PM-1300A PM-1600A PM-2000A
screw diameter (mm) 35 40 45 45 50 55 50 55 60
screw l/d ratio (l/d) 24 21 18.7 23.3 21 19.1 23.1 21 19
theoretical shot volume (mm³) 173 226 286 358 442 534 491 594 707
shot weight (ps) (g) 158 206 260 326 402 486 447 540 643
injection pressure (mpa) 235 142 142 219 178 147 215 178 149
theoretical injection rate (ps) (g/s) 110 181 181 142 175 212 145 175 208
plasticising capacity (g/s) 13.8 19.7 27.1 20.1 26.5 34.2 22.5 28.7 35.4
max screw rotate speed (r/min) 250 200 170
injection stroke (mm) 180 225 250
Max.Clamping force(kn) 1300 1600 2000
Max.Opening stroke (mm) 400 460 500
space between (mm) 420*420 480*480 505*505
mould height (mm) 160-440 180-500 190-530
Max.Daylight (mm) 840 960 1030
pump motor power (kw) 13 15 18.5
heating power (kw) 9.2 13.6 16.6
heating zone 4 4 4
net weight 4.3 5.6 6.4
oil tank capacity (t) 360 420 420
intenational designation (l) 1300-410 1600-785 2000-1060

Our Service
Customized service
We can design the machines according your requirements(material,power,filling type,the kinds of the bottles,and so on),at the same time we will give you our professional suggestion,as you know,we have been in this industry for many years.

After-sales service
1.We will delivery the machine and provide the bill of load on time to make sure you can get the machine quickly 
2.When you finish the Preparation conditions,our fast and professional aftersales service engineer team will go to your factory to install the machine,give you the operating manual,and train your employee until they can operate the machine well. 
3.We often ask feedback and offer help to our customer whose machine have been used in their factory for some time.
4.We provide 1 year warranty 
5.Well-trained & experienced staff are to answer all your inquiries in English and Chinese
6.24 hours for engineer response (all services part 5days in customer hand by Intl’ courier). 
7.12 Months guarantee and life-long technical support.
8.Your business relationship with us will be confidential to any third party. 
9.Good after-sale service offered, please get back to us if you got any questions.

Quality Control
We have separate quality control department, which make sure the raw materials are qualified,also ensure the machine running smoothly. 
If you want to know more information about the product,Send inquiry to us, we will solve any of your problems and send you running video for reference.

Packaging & Shipping

Company Information
HangZhou Proman Machine Co., Ltd. is a production manufacturer and exporter in China, specialized in water treatment plants,beverage filling machine, packing machine, bottle blowing machine, injection moulding machine and spare parts of filling line.

Our factory was established in the year of 1998, with the long history of accumulated experience in filling machine industry in south ZheJiang . There are many development engineers of filling machine in our company. We devote ourselves to the development, research and production of liquid food and beverage packing and filling industry.

Besides, we have our own designs for the bottles.

Proman Machine cooperated with many customers in recent years, we win the trust of customers from our high-quality products. And we are looking forward to the future cooperation with you if our products can impress you deeply!

FAQ

1. Where is your factory? 
Our Factory is located in HangZhou City, 2 hours drive from ZheJiang and 1 hour drive from HangZhou(airplane & high-speed rail). If you arrive at ZheJiang or HangZhou, we can pick you up to visit our factory.

2. Do you have any technical supports with your Plastic Preform Injection Molding Machines? 
Yes, We have a professional team of engineers who owned many installation, debug and training experiences abroad, are available to service machinery overseas. 

3. What’s your guarantee or the warranty of the quality if we buy your machines? 
We offer high quality machines with 1 year warranty and supply life-long technical support. 
You’re always welcome to visit our company. If you have any interest on our products. Please do not hesitate to contact us.

Calculating the Deflection of a Worm Shaft

In this article, we’ll discuss how to calculate the deflection of a worm gear’s worm shaft. We’ll also discuss the characteristics of a worm gear, including its tooth forces. And we’ll cover the important characteristics of a worm gear. Read on to learn more! Here are some things to consider before purchasing a worm gear. We hope you enjoy learning! After reading this article, you’ll be well-equipped to choose a worm gear to match your needs.
worm shaft

Calculation of worm shaft deflection

The main goal of the calculations is to determine the deflection of a worm. Worms are used to turn gears and mechanical devices. This type of transmission uses a worm. The worm diameter and the number of teeth are inputted into the calculation gradually. Then, a table with proper solutions is shown on the screen. After completing the table, you can then move on to the main calculation. You can change the strength parameters as well.
The maximum worm shaft deflection is calculated using the finite element method (FEM). The model has many parameters, including the size of the elements and boundary conditions. The results from these simulations are compared to the corresponding analytical values to calculate the maximum deflection. The result is a table that displays the maximum worm shaft deflection. The tables can be downloaded below. You can also find more information about the different deflection formulas and their applications.
The calculation method used by DIN EN 10084 is based on the hardened cemented worm of 16MnCr5. Then, you can use DIN EN 10084 (CuSn12Ni2-C-GZ) and DIN EN 1982 (CuAl10Fe5Ne5-C-GZ). Then, you can enter the worm face width, either manually or using the auto-suggest option.
Common methods for the calculation of worm shaft deflection provide a good approximation of deflection but do not account for geometric modifications on the worm. While Norgauer’s 2021 approach addresses these issues, it fails to account for the helical winding of the worm teeth and overestimates the stiffening effect of gearing. More sophisticated approaches are required for the efficient design of thin worm shafts.
Worm gears have a low noise and vibration compared to other types of mechanical devices. However, worm gears are often limited by the amount of wear that occurs on the softer worm wheel. Worm shaft deflection is a significant influencing factor for noise and wear. The calculation method for worm gear deflection is available in ISO/TR 14521, DIN 3996, and AGMA 6022.
The worm gear can be designed with a precise transmission ratio. The calculation involves dividing the transmission ratio between more stages in a gearbox. Power transmission input parameters affect the gearing properties, as well as the material of the worm/gear. To achieve a better efficiency, the worm/gear material should match the conditions that are to be experienced. The worm gear can be a self-locking transmission.
The worm gearbox contains several machine elements. The main contributors to the total power loss are the axial loads and bearing losses on the worm shaft. Hence, different bearing configurations are studied. One type includes locating/non-locating bearing arrangements. The other is tapered roller bearings. The worm gear drives are considered when locating versus non-locating bearings. The analysis of worm gear drives is also an investigation of the X-arrangement and four-point contact bearings.
worm shaft

Influence of tooth forces on bending stiffness of a worm gear

The bending stiffness of a worm gear is dependent on tooth forces. Tooth forces increase as the power density increases, but this also leads to increased worm shaft deflection. The resulting deflection can affect efficiency, wear load capacity, and NVH behavior. Continuous improvements in bronze materials, lubricants, and manufacturing quality have enabled worm gear manufacturers to produce increasingly high power densities.
Standardized calculation methods take into account the supporting effect of the toothing on the worm shaft. However, overhung worm gears are not included in the calculation. In addition, the toothing area is not taken into account unless the shaft is designed next to the worm gear. Similarly, the root diameter is treated as the equivalent bending diameter, but this ignores the supporting effect of the worm toothing.
A generalized formula is provided to estimate the STE contribution to vibratory excitation. The results are applicable to any gear with a meshing pattern. It is recommended that engineers test different meshing methods to obtain more accurate results. One way to test tooth-meshing surfaces is to use a finite element stress and mesh subprogram. This software will measure tooth-bending stresses under dynamic loads.
The effect of tooth-brushing and lubricant on bending stiffness can be achieved by increasing the pressure angle of the worm pair. This can reduce tooth bending stresses in the worm gear. A further method is to add a load-loaded tooth-contact analysis (CCTA). This is also used to analyze mismatched ZC1 worm drive. The results obtained with the technique have been widely applied to various types of gearing.
In this study, we found that the ring gear’s bending stiffness is highly influenced by the teeth. The chamfered root of the ring gear is larger than the slot width. Thus, the ring gear’s bending stiffness varies with its tooth width, which increases with the ring wall thickness. Furthermore, a variation in the ring wall thickness of the worm gear causes a greater deviation from the design specification.
To understand the impact of the teeth on the bending stiffness of a worm gear, it is important to know the root shape. Involute teeth are susceptible to bending stress and can break under extreme conditions. A tooth-breakage analysis can control this by determining the root shape and the bending stiffness. The optimization of the root shape directly on the final gear minimizes the bending stress in the involute teeth.
The influence of tooth forces on the bending stiffness of a worm gear was investigated using the CZPT Spiral Bevel Gear Test Facility. In this study, multiple teeth of a spiral bevel pinion were instrumented with strain gages and tested at speeds ranging from static to 14400 RPM. The tests were performed with power levels as high as 540 kW. The results obtained were compared with the analysis of a three-dimensional finite element model.
worm shaft

Characteristics of worm gears

Worm gears are unique types of gears. They feature a variety of characteristics and applications. This article will examine the characteristics and benefits of worm gears. Then, we’ll examine the common applications of worm gears. Let’s take a look! Before we dive in to worm gears, let’s review their capabilities. Hopefully, you’ll see how versatile these gears are.
A worm gear can achieve massive reduction ratios with little effort. By adding circumference to the wheel, the worm can greatly increase its torque and decrease its speed. Conventional gearsets require multiple reductions to achieve the same reduction ratio. Worm gears have fewer moving parts, so there are fewer places for failure. However, they can’t reverse the direction of power. This is because the friction between the worm and wheel makes it impossible to move the worm backwards.
Worm gears are widely used in elevators, hoists, and lifts. They are particularly useful in applications where stopping speed is critical. They can be incorporated with smaller brakes to ensure safety, but shouldn’t be relied upon as a primary braking system. Generally, they are self-locking, so they are a good choice for many applications. They also have many benefits, including increased efficiency and safety.
Worm gears are designed to achieve a specific reduction ratio. They are typically arranged between the input and output shafts of a motor and a load. The 2 shafts are often positioned at an angle that ensures proper alignment. Worm gear gears have a center spacing of a frame size. The center spacing of the gear and worm shaft determines the axial pitch. For instance, if the gearsets are set at a radial distance, a smaller outer diameter is necessary.
Worm gears’ sliding contact reduces efficiency. But it also ensures quiet operation. The sliding action limits the efficiency of worm gears to 30% to 50%. A few techniques are introduced herein to minimize friction and to produce good entrance and exit gaps. You’ll soon see why they’re such a versatile choice for your needs! So, if you’re considering purchasing a worm gear, make sure you read this article to learn more about its characteristics!
An embodiment of a worm gear is described in FIGS. 19 and 20. An alternate embodiment of the system uses a single motor and a single worm 153. The worm 153 turns a gear which drives an arm 152. The arm 152, in turn, moves the lens/mirr assembly 10 by varying the elevation angle. The motor control unit 114 then tracks the elevation angle of the lens/mirr assembly 10 in relation to the reference position.
The worm wheel and worm are both made of metal. However, the brass worm and wheel are made of brass, which is a yellow metal. Their lubricant selections are more flexible, but they’re limited by additive restrictions due to their yellow metal. Plastic on metal worm gears are generally found in light load applications. The lubricant used depends on the type of plastic, as many types of plastics react to hydrocarbons found in regular lubricant. For this reason, you need a non-reactive lubricant.

China Standard Horizontal Automatic Energy Saving Servo Drive Pet Plastic Preform Making Injection Blow Moulding Machine   with Good qualityChina Standard Horizontal Automatic Energy Saving Servo Drive Pet Plastic Preform Making Injection Blow Moulding Machine   with Good quality

China supplier Auto Plastic Pet HDPE Preform Filling Bottle Can Jar Injection Make Making Blow Blowing CZPT Moulding Mold Molding Machine Manufacturer near me supplier

Product Description

                                                               Fully Automatic Bottle Blowing Machine

Machine Features:
1. Full automatic blow molding machine is suitable for producing PET plastic containers and bottles in all shapes. It is widely used to produce the carbonated bottle, mineral water, pesticide bottle, oil bottle, cosmetic bottle etc. Reasonable design, full automatic control, preform automatially feeded, save power and labor.
2. The mechanical part has compact and energy saving design.
3. Machine has fault alarm function and diagnostic system to allow easy maintenance.
4. The CZPT positioning installation makes it possible for operators to change the CZPT easily within 30 minutes.
5. The machine can be controlled through touch screen and running status is shown on it.
6. Heating by high-quality infrared lamp,high penetration, to make sure each preform be heated uniformly and stably. The width and height of the reflector can be adjusted, which can be suitable for heating preforms with different wall thicknesses.  

Main Parameters:

Item L-A6 L-A4 L-A2
Theoretical Output 6000pcs/h 4000pcs/h 2200pcs/h
Max Container Volume 2L 2L 2L
Max Neck Diameter 45mm 45mm 50mm
Max Container Diameter 100mm 100mm 120mm
Max Container Height 340mm 340mm 340mm
Number of Cavity 6 Cavity 4 Cavity 2 Cavity
Total Power 45Kw 35Kw 25Kw
Real Using Power 30Kw 20Kw 12Kw
Low Pressure Air Consumption 1.6m³/min 1.6m³/min 1.2m³/min
High Pressure Air Consumption 3.6m³/min 2.4m³/min 1.6m³/min
Feeding Machine Dimension 2.0*1.2*2.2m 1.8*1.0*2.0m 1.8*1.0*2.0m
Feeding Machine Weight 300Kg 240Kg 240Kg
Machine Dimension 4.2*1.8*2.0m 3.6*1.8*2.0m 3.2*1.8*2.0m
Machine Weight 3800Kg 2200Kg 1400Kg

Bottle Blowing Process:

Bottle Designs:

We can offer free bottle designs for customers.

Bottle and Preform Moulds:

Company Introduction:
HangZhou CZPT Machinery Co., Ltd is located in Xihu (West Lake) Dis., HangZhou, ZHangZhoug Province, the hometown of CZPT in China. Our company produces high speed automatic blow molding machine, automatic hollow blow molding machine, automatic blow molding machine, semi-automatic blow molding machine and blowing mold.
The blow molding machines are widely used in the production of mineral water bottles, edible oil bottles, food packaging bottles, daily chemical bottles, agricultural medicine bottles, and many other plastic containers in packaging fields. HangZhou CZPT Machinery Co., Ltd can provide a variety of bottle making equipments and suitable technical solutions.
HangZhou CZPT Machinery Co., Ltd has professional design, production team, which provides a solid foundation for producing excellent quality and performance blow molding machines. Our blow molding machines are exported to America, Europe, South korea, the Middle East, Southeast Asia, Central Asia, Africa and other countries and regions, they are well received and used by our customers.
Let’s create a better tomorrow hand in hand!

Machine Shipment:

FAQ:
1.Are you a factory?
We are a factory in HangZhou, which is a eastern costal city near ZheJiang . Welcome to visit HangZhou Lianwo Machinery Co., Ltd!

2.What is your payment term?
30% down payment against order confirmation, 70% balance when the machines are ready. Upon receipt all your payment, we will delivery the goods at once.

3.What is your delivery time?
All the machines will be produced according to the order. Usually in 20 working days, depends on your projects.

4.What about installing in customer factory?
After the machines arrive at your factory, we can arrange engineer to install the machines and train your workers. 

5.What is the guarantee time?
We offer a one-year warranty and a lifetime after-sales service.

How to Replace the Drive Shaft

Several different functions in a vehicle are critical to its functioning, but the driveshaft is probably the part that needs to be understood the most. A damaged or damaged driveshaft can damage many other auto parts. This article will explain how this component works and some of the signs that it may need repair. This article is for the average person who wants to fix their car on their own but may not be familiar with mechanical repairs or even driveshaft mechanics. You can click the link below for more information.
air-compressor

Repair damaged driveshafts

If you own a car, you should know that the driveshaft is an integral part of the vehicle’s driveline. They ensure efficient transmission of power from the engine to the wheels and drive. However, if your driveshaft is damaged or cracked, your vehicle will not function properly. To keep your car safe and running at peak efficiency, you should have it repaired as soon as possible. Here are some simple steps to replace the drive shaft.
First, diagnose the cause of the drive shaft damage. If your car is making unusual noises, the driveshaft may be damaged. This is because worn bushings and bearings support the drive shaft. Therefore, the rotation of the drive shaft is affected. The noise will be squeaks, dings or rattles. Once the problem has been diagnosed, it is time to repair the damaged drive shaft.
Professionals can repair your driveshaft at relatively low cost. Costs vary depending on the type of drive shaft and its condition. Axle repairs can range from $300 to $1,000. Labor is usually only around $200. A simple repair can cost between $150 and $1700. You’ll save hundreds of dollars if you’re able to fix the problem yourself. You may need to spend a few more hours educating yourself about the problem before handing it over to a professional for proper diagnosis and repair.
The cost of repairing a damaged driveshaft varies by model and manufacturer. It can cost as much as $2,000 depending on parts and labor. While labor costs can vary, parts and labor are typically around $70. On average, a damaged driveshaft repair costs between $400 and $600. However, these parts can be more expensive than that. If you don’t want to spend money on unnecessarily expensive repairs, you may need to pay a little more.
air-compressor

Learn how drive shafts work

While a car engine may be 1 of the most complex components in your vehicle, the driveshaft has an equally important job. The driveshaft transmits the power of the engine to the wheels, turning the wheels and making the vehicle move. Driveshaft torque refers to the force associated with rotational motion. Drive shafts must be able to withstand extreme conditions or they may break. Driveshafts are not designed to bend, so understanding how they work is critical to the proper functioning of the vehicle.
The drive shaft includes many components. The CV connector is 1 of them. This is the last stop before the wheels spin. CV joints are also known as “doughnut” joints. The CV joint helps balance the load on the driveshaft, the final stop between the engine and the final drive assembly. Finally, the axle is a single rotating shaft that transmits power from the final drive assembly to the wheels.
Different types of drive shafts have different numbers of joints. They transmit torque from the engine to the wheels and must accommodate differences in length and angle. The drive shaft of a front-wheel drive vehicle usually includes a connecting shaft, an inner constant velocity joint and an outer fixed joint. They also have anti-lock system rings and torsional dampers to help them run smoothly. This guide will help you understand the basics of driveshafts and keep your car in good shape.
The CV joint is the heart of the driveshaft, it enables the wheels of the car to move at a constant speed. The connector also helps transmit power efficiently. You can learn more about CV joint driveshafts by looking at the top 3 driveshaft questions
The U-joint on the intermediate shaft may be worn or damaged. Small deviations in these joints can cause slight vibrations and wobble. Over time, these vibrations can wear out drivetrain components, including U-joints and differential seals. Additional wear on the center support bearing is also expected. If your driveshaft is leaking oil, the next step is to check your transmission.
The drive shaft is an important part of the car. They transmit power from the engine to the transmission. They also connect the axles and CV joints. When these components are in good condition, they transmit power to the wheels. If you find them loose or stuck, it can cause the vehicle to bounce. To ensure proper torque transfer, your car needs to stay on the road. While rough roads are normal, bumps and bumps are common.
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Common signs of damaged driveshafts

If your vehicle vibrates heavily underneath, you may be dealing with a faulty propshaft. This issue limits your overall control of the vehicle and cannot be ignored. If you hear this noise frequently, the problem may be the cause and should be diagnosed as soon as possible. Here are some common symptoms of a damaged driveshaft. If you experience this noise while driving, you should have your vehicle inspected by a mechanic.
A clanging sound can also be 1 of the signs of a damaged driveshaft. A ding may be a sign of a faulty U-joint or center bearing. This can also be a symptom of worn center bearings. To keep your vehicle safe and functioning properly, it is best to have your driveshaft inspected by a certified mechanic. This can prevent serious damage to your car.
A worn drive shaft can cause difficulty turning, which can be a major safety issue. Fortunately, there are many ways to tell if your driveshaft needs service. The first thing you can do is check the u-joint itself. If it moves too much or too little in any direction, it probably means your driveshaft is faulty. Also, rust on the bearing cap seals may indicate a faulty drive shaft.
The next time your car rattles, it might be time for a mechanic to check it out. Whether your vehicle has a manual or automatic transmission, the driveshaft plays an important role in your vehicle’s performance. When 1 or both driveshafts fail, it can make the vehicle unsafe or impossible to drive. Therefore, you should have your car inspected by a mechanic as soon as possible to prevent further problems.
Your vehicle should also be regularly lubricated with grease and chain to prevent corrosion. This will prevent grease from escaping and causing dirt and grease to build up. Another common sign is a dirty driveshaft. Make sure your phone is free of debris and in good condition. Finally, make sure the driveshaft chain and cover are in place. In most cases, if you notice any of these common symptoms, your vehicle’s driveshaft should be replaced.
Other signs of a damaged driveshaft include uneven wheel rotation, difficulty turning the car, and increased drag when trying to turn. A worn U-joint also inhibits the ability of the steering wheel to turn, making it more difficult to turn. Another sign of a faulty driveshaft is the shuddering noise the car makes when accelerating. Vehicles with damaged driveshafts should be inspected as soon as possible to avoid costly repairs.

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