Presentation of blow moulding machines at Exapro

Exapro is aim to provide you with concise yet valuable information on blow moulding machines. This overview highlights the main manufacturers, areas of use, and essential machine parameters to consider.

  • Manufacturers:

Leading manufacturers in the industry include Krones AG, Sidel Group, Kautex Maschinenbau GmbH, Bekum Maschinenfabriken GmbH, Nissei ASB Machine Co., Ltd, Aoki Technical Laboratory, Inc, SIPA S.p.A, and Techne Graham Packaging. They specialize in PET, extrusion, injection, and stretch blow moulding machines, offering reliable solutions for various industries.

  • Applications:

Blow moulding machines find extensive use in the packaging industry for bottles and containers. They are also integral to automotive manufacturing, consumer goods production, industrial applications, medical and pharmaceutical sectors, cosmetics industry, food and beverage packaging, and agriculture and horticulture.

  • Machine Parameters:

Consider critical machine parameters like clamping force (ensures mold stability), extruder size (determines material melting and extrusion), shot size (max volume of plastic injected), blow moulding type, mold size (compatible with desired product dimensions), heating and cooling systems, control features, energy efficiency, and after-sales support.

BEKUM BAE1- Blowmoulding Machine

Year: 1977

Extruder diameter 50 mm


Used Fischer Vk1-5 Single Forward Shuttle Blow Molding Machine

Year: 1982

Brand Fischer Model VK1-5 Year of Mfg 1982 Type/Style Continuous Extrusion Head 3×100 PE Extruder 70mm Air Cooled Yes L/D Ratio 24:01:00 Controls Fischer PC Motor 40 HP DC Motor Electric 460V / 3 Phase Platen Size 5 Liter Programming Hunkar 311 Parison Programmer Is Machine Running Not Under Power

Hesta B 33 Blowmoulding machine

Year: 1984

Extruder diameter 33 mm

Voith fisher Vb100 Blowmoulding machine

Year: 1985

Volume 100 L
Extruder diameter 80 mm

Battenfeld Fischer VK 1-20 Blowmoulding machine

Year: 1985

Volume 20 L
Nbr of heads 1
Extruder diameter 80 mm
Nbr of stations 1

Used Meccanoplastica MP 2S Blowmoulding machine

Year: 1986

Volume 2 L
Extruder diameter 60 mm

Used Sterling Dual 8 Pound Accumulator Head Blow Molding Machine

Year: 1987

Sterling Dual 8 Pound Accumulator Head Blow Molding Machine – Year of manufacture- 1987 – Head configuration- dual 8 pound heads – Center to center distances between head dies- 26 1/2¨ – Extruder horse power.- 150 – Hydraulic unit brand- Rexroth – Electric specifications- 460 volts/3 phase/60 Hz – Control- Eurotherm (Barber Colman) PLC – Condition- Good Additional machines available …


Bekum 101D Blowmoulding machine

Year: 1988

Hersteller / manufacturer Bekum Machinenyp /machine type 101D Stationen / stations Zweistationen/ double station Baujahr / built 1988 Schließkraft / clamping force 30 kN Standort / location UES-Lager/ UES warehouse Steuerung / control system Bekum WBK / parison control Extruder / extruder S 60/ 24 D grooved barrel extruder/ grooved barrel extruder Schlauchkopf / parison head Optional Formenmaße / mold …

Battenfeld Fischer VK 1.1 Blowmoulding machine

Year: 1988

Volume 1 L
Nbr of heads 2
Extruder diameter 60 mm
Nbr of stations 1

Used Bekum 101D Blowmoulding machine

Year: 1988

Volume 2 L
Extruder diameter 60 mm

Kautex KEB 30 Blowmoulding machine

Year: ~ 1989

Introducing the Kautex KEB 30 Blowmoulding machine: - Manufacturer: Kautex - Model: KEB 30 - Year of Manufacture: 1989 (approximate) - Extruder: S 65/22D - Control: Beckhoff (new) - Extrusion Head: Accu 3.7 ltr - Closing Force: 630 kN (approx. 60 metric tons) - Mold Dimensions: 600 x 600 mm (Length x Width) - Additional Info: Beckhoff control installed in …

Used Kautex KB 50 Blowmoulding machine

Year: 1989

Volume 150 L
Nbr of stations 1
Extruder diameter 100 mm

Bekum BM303D Blowmoulding machine

Year: 1989

Volume 3 L
Nbr of stations 2
Extruder diameter 70 mm

Bekum BM 402D Blowmoulding machine

Year: 1989

Extruder diameter 5 mm
Nbr of heads 2

Used 192 Oz. Hartig Dual Head Blow Molder

Year: 1990

Used Hartig dual head Blow Molder each with 6 pound capacity. Model #SMP-30 206-3624S40. New 1990. Has Maco 8000 programmable controller. Unit has a 3″ 24/1 air cooled extruder with a Lufkin DH200D-511 gearbox having a reduction ratio of 13.93/1 and a service rating of 173 HP. Gearbox is direct driven a 75 HP GE DC motor with Saftronics SCR. …


Battenfeld fischer VK 1-1 Blowmoulding machine

Year: 1990

Volume 0.5 L
Nbr of heads 2
Extruder diameter 60 mm
Nbr of stations 1



Revolutionise Your Plastic Production with Our Range of Used blow moulding  machines 

At Exapro, your go-to marketplace for used industrial machinery, we take pride in offering an extensive range of high-quality equipment. In the realm of plastic processing, our collection of blow moulding machines stands out for their exceptional performance and value. Whether you're a small business or a large-scale manufacturer, our top-notch blow moulding machines can help you streamline your production process, optimize output, and achieve remarkable cost savings. Join us as we explore the benefits and features of our blow moulding machines in the plastic category.

Unparalleled Versatility:

Our blow moulding machines are designed to cater to a wide range of plastic manufacturing needs. With the ability to produce an array of products such as bottles, containers, drums, and automotive components, these machines offer unmatched versatility. Regardless of the complexity or size of your desired product, our blow moulding machines provide the flexibility to adapt and deliver consistent, high-quality results.

Superior Performance:

Investing in a used blow moulding machine from Exapro means gaining access to cutting-edge technology at a fraction of the cost. These machines have undergone rigorous quality checks to ensure they meet the highest industry standards. Equipped with advanced features like servo-driven systems, precise control interfaces, and energy-efficient operation, our blow moulding machines deliver exceptional performance, allowing you to meet demanding production targets with ease.

Cost-Effective Solution:

As a professional, you understand the significance of balancing quality with cost-effectiveness. Our used blow moulding machines offer an ideal solution, enabling you to upgrade your production line without breaking the bank. By purchasing a used machine from Exapro, you can enjoy significant savings compared to buying new equipment. Moreover, our competitive pricing ensures that you can maximize your return on investment while maintaining your budgetary constraints.

Exapro offers a wide range of used Blowmoulding machines, catering to various needs and budgets. With prices ranging from €27,000 to €109,000, customers can find suitable options within their desired price range. These machines come from reputable manufacturers and are meticulously inspected to ensure their quality and performance. Exapro's inventory includes Blowmoulding machines with different production capacities, features, and specifications, allowing customers to choose the most appropriate one for their specific requirements. Whether you're a small-scale business or a large industrial operation, Exapro's selection of used Blowmoulding machines offers a cost-effective solution to enhance your manufacturing capabilities.

You can always use our pricing Algorithm Valorexo to pinpoint a fair market price.

Expert Consultation and Support:

At Exapro, we prioritize customer satisfaction above all. Our team of industry experts is always available to provide comprehensive guidance and support throughout your purchasing journey. Whether you have questions about specific blow moulding machine models, require technical assistance, or need advice on optimizing your production process, our knowledgeable professionals are here to assist you every step of the way.

Secure Transactions and Global Reach:

Our marketplace facilitates secure transactions, ensuring a smooth and reliable buying experience. With our extensive network of trusted sellers and buyers worldwide, you can access a diverse inventory of blow moulding machines. Regardless of your location, Exapro enables you to connect with sellers globally, expanding your options and increasing the likelihood of finding the perfect machine for your unique requirements.

Blow moulding machines offer several key advantages for plastic manufacturing processes:

  • Cost Savings: Investing in blow moulding machines can significantly reduce production costs compared to other manufacturing methods. These machines are designed to optimize material usage, minimizing waste and maximizing efficiency. Additionally, purchasing a used blow moulding machine from Exapro offers even greater cost savings compared to buying new equipment.

  • Versatility: Blow moulding machines are highly versatile and can produce a wide range of plastic products, including bottles, containers, drums, automotive components, and more. This flexibility allows manufacturers to adapt to changing market demands and diversify their product offerings without the need for extensive retooling.

  • Efficiency and Productivity: With advanced features such as servo-driven systems and precise control interfaces, blow moulding machines offer enhanced efficiency and productivity. They can produce large quantities of consistent, high-quality products in a shorter time frame, enabling manufacturers to meet tight production deadlines and increase output.

  • Customization Options: Blow moulding machines provide opportunities for customization, allowing manufacturers to create unique designs, shapes, and sizes for their products. By incorporating specific molds and adjusting parameters, manufacturers can tailor their products to meet customer preferences, enhancing brand differentiation and customer satisfaction.

  • Scalability: Blow moulding machines can accommodate different production volumes, from small-scale operations to high-volume manufacturing. Manufacturers have the flexibility to scale their production capacity as needed, making blow moulding a suitable choice for businesses of various sizes.

  • Quality and Consistency: Blow moulding machines ensure consistent product quality, as they offer precise control over parameters such as wall thickness, material distribution, and cooling. This level of control helps minimize defects and ensures that each product meets the desired specifications.

What are the main manufacturers of blow moulding  machines

There are several reputable manufacturers that specialize in producing blow moulding machines. Here are some of the main manufacturers known for their quality and innovation in the industry:

  • Krones AG: Especially for the beverage and packaging industries, Krones AG is a top manufacturer of blow moulding equipment. They provide a wide variety of equipment for various uses, such as PET blow moulding equipment and systems for making plastic bottles.

  • Sidel Group: Sidel is an international supplier of blow moulding solutions, providing a wide range of equipment for the beverage, food, home care, and personal care sectors. They provide quick and economical solutions with a focus on PET blow moulding equipment.

  • Kautex Maschinenbau GmbH: Automotive, packaging, and industrial applications are the main emphasis areas for the renowned blow moulding machine maker Kautex Maschinenbau GmbH. For the manufacture of containers, technical items, and automotive components, they provide a variety of extrusion blow moulding machines.

  • Bekum Maschinenfabriken GmbH: Bekum is a leading manufacturer of blow moulding machines, known for their expertise in extrusion blow moulding technology. They provide machines for various sectors, including packaging, automotive, medical, and industrial applications.

  • Nissei ASB Machine Co., Ltd: Nissei ASB specializes in the production of stretch blow moulding machines, particularly for PET bottle manufacturing. They offer innovative and high-performance machines capable of producing a wide range of PET containers and bottles.

  • Aoki Technical Laboratory, Inc.: Aoki is a prominent manufacturer of injection stretch blow moulding machines. Their machines are widely used for the production of PET and PP bottles and containers with complex shapes and high precision.

  • SIPA S.p.A.: SIPA is a leading manufacturer of PET preform injection moulding systems and stretches blow moulding machines. They provide comprehensive solutions for the production of PET bottles, containers, and other packaging solutions.

  • Techne Graham Packaging: Techne Graham Packaging specializes in the manufacturing of blow moulding machines for the packaging industry. They offer a range of machines for producing bottles, containers, and jars in various sizes and materials.

It's crucial to remember that this list is not all-inclusive and that there are other companies who make excellent blow moulding machines. It is advised to check a manufacturer's product options, technological developments, customer feedback, and after-sales assistance to make sure they satisfy your particular needs.

What are the main  parameters  of blow moulding  machines

Blow moulding machines have various parameters that play a crucial role in the production process. Here are some of the main machine parameters to consider:

  • Clamping Force: The clamping force refers to the force applied by the machine to hold the mold halves together during the blowing process. It is measured in metric tons and determines the machine's ability to withstand the internal pressure of the blown plastic.

  • Extruder Size: The extruder size refers to the diameter of the screw or screws used to melt and extrude the plastic material. It is typically measured in millimeters (mm) and determines the machine's processing capacity and output.

  • Shot Size: The greatest amount of plastic material that may be injected into the mould cavity during each cycle is referred to as the shot size. The size of the machine and the particular application determine the unit of measurement, which may be grammes or cubic centimetres (cc).

  • Blow Moulding Type: Type of Blow Moulding Extrusion blow moulding, injection blow moulding, and stretch blow moulding are some of the several types of blow moulding. Depending on the particular type of blow moulding being used, the machine's characteristics may change.

  • Mould Size: The final blown product's maximum dimensions are determined by the mould size. It comprises specifications like the mould opening width, height, and thickness, all of which must work with the machine's capabilities.

  • The plastic material is heated by the heating system on blow moulding machines before it is blasted into the mould. The heating system may have settings for things like heating zone temperatures, heating capacity, and heating control strategies (such convection heating or infrared heating).

  • Cooling system: The plastic needs to cool and solidify after being blown into the mould. A blow moulding machine's cooling system typically considers factors like cooling time, cooling method (such as air or water cooling), and cooling efficiency.

  • Control system: Operators can configure and track numerous parameters using a blow moulding machine's control system. It has features for precise and effective operation, including temperature control, pressure control, timing control, and automation choices.

  • Efficiency in terms of energy use: For blow moulding equipment, energy consumption is crucial. Energy-saving elements like servo-driven systems, energy recovery systems, or effective heating and cooling mechanisms may be present in some machines, which can help reduce costs and promote sustainability.

The manufacturer, model, and intended application of a machine can all affect its individual parameters, it's vital to remember. It is crucial to think about your production demands and consult with industry professionals when choosing a blow moulding machine to make sure you make the right choice.

What is the area of the use of blow moulding  machines

Blow moulding machines have a wide range of applications across various industries. Here are some of the main areas of use for blow moulding machines:

  • Packaging Industry: Blow moulding machines are extensively used in the packaging industry to manufacture bottles, containers, jars, and other packaging solutions. They are commonly employed in the production of plastic bottles for beverages, household products, personal care items, and industrial chemicals.

  • Automotive Industry: Blow moulding machines play a crucial role in the automotive industry for the production of various components, such as fuel tanks, air ducts, reservoirs, and fluid containers. These components require high durability, precision, and resistance to chemicals and environmental factors.

  • Consumer Goods: Blow moulding machines are used to manufacture a wide range of consumer goods, including toys, sporting equipment, storage bins, and household items. The versatility of blow moulding allows for the production of products with different shapes, sizes, and colors, catering to diverse consumer preferences.

  • Industrial Applications: Blow moulding machines are utilized in various industrial applications to produce large containers, drums, and industrial packaging solutions. These containers are commonly used for storing and transporting liquids, chemicals, lubricants, and hazardous materials.

  • Medical and Pharmaceutical Industry: Blow moulding machines are employed in the medical and pharmaceutical sectors to manufacture sterile containers, vials, and medical devices. These machines ensure the production of hygienic and safe packaging solutions for pharmaceutical products, laboratory supplies, and medical equipment.

  • Cosmetics Industry: Blow moulding machines are used to produce plastic containers and packaging for cosmetics, skincare products, and personal care items. The machines can create custom-shaped bottles and containers that enhance the visual appeal and branding of cosmetic products.

  • Food and Beverage Industry: Blow moulding machines are utilized in the food and beverage industry to produce plastic bottles, containers, and packaging for beverages, oils, sauces, condiments, and other food products. The machines ensure the integrity and safety of the packaging materials for food and beverage products.

  • Agriculture and Horticulture: Blow moulding machines are employed in the agriculture and horticulture sectors to manufacture containers for the storage and transportation of fertilizers, pesticides, seeds, and other agricultural chemicals. These containers are designed to withstand harsh environmental conditions and ensure the proper preservation of agricultural products.

It's important to note that blow moulding machines can be adapted to meet specific industry requirements, allowing for the production of custom-designed products tailored to different sectors. The versatility and wide application of blow moulding machines make them a crucial component in various manufacturing processes.

When choosing a machine, there are several factors to consider

Choosing the right blow moulding machine requires careful consideration of various factors. Here are some key factors to consider when selecting a machine:

  • Production Requirements: Evaluate your production needs, including the desired output volume, product specifications, and production speed. Consider factors such as cycle time, shot size, and machine capacity to ensure the selected machine can meet your production requirements efficiently.

  • Machine Type and Technology: Determine the appropriate blow moulding technology based on your specific application. The common types include extrusion blow moulding, injection blow moulding, and stretch blow moulding. Each technology has its advantages and suitability for different product types and volumes.

  • Machine Size and Configuration: Consider the available space in your production facility and select a machine size that fits your space requirements. Evaluate the machine's layout, including the number of stations, mold size, and compatibility with existing equipment or automation systems.

  • Machine Quality and Reliability: Research the reputation and track record of the manufacturer. Look for machines with a solid reputation for quality, reliability, and durability. Consider factors such as machine construction, components, and the manufacturer's service and support capabilities.

  • Energy Efficiency: Energy consumption is an important consideration both for cost savings and environmental sustainability. Look for machines with energy-efficient features, such as servo-driven systems, energy recovery systems, and optimized heating and cooling processes.

  • Flexibility and Versatility: Assess the machine's ability to handle a variety of products and molds. Consider features such as quick mold change systems, adjustable settings, and compatibility with different materials to ensure flexibility in your production operations.

  • Automation and Control: Evaluate the machine's automation capabilities and control system. Consider features such as user-friendly interfaces, advanced control options, data monitoring and analysis capabilities, and compatibility with Industry 4.0 technologies for enhanced process control and efficiency.

  • After-Sales Support and Service: Consider the manufacturer's after-sales support, technical assistance, and availability of spare parts. Ensure that the manufacturer offers reliable customer support, maintenance services, and timely availability of spare parts to minimize downtime and ensure smooth operations.

  • Cost and Return on Investment (ROI): Assess the machine's initial cost, considering both the purchase price and any additional required equipment or tooling. Evaluate the potential return on investment based on factors such as productivity improvements, energy savings, reduced scrap, and the machine's expected lifespan.

  • Industry Standards and Compliance: Ensure that the machine meets relevant industry standards, certifications, and safety regulations to guarantee compliance and product quality.

By considering these factors, you can make an informed decision and choose a blow moulding machine that aligns with your specific production requirements, budget, and long-term goals. Consulting with industry experts and seeking recommendations from trusted sources can also provide valuable insights during the selection process.