Used blow molding machines for sale 162

Advantages of Buying Used Blow Moulding Machines

Used blow moulding machines offer a powerful combination of performance, flexibility, and cost savings for plastic packaging and technical parts production. By choosing a pre-owned system on Exapro, you access industrial-grade technology at a fraction of the cost of new equipment, while maintaining quality and productivity.

• Cost savings – Investing in a used blow moulding machine can significantly reduce production costs compared to other manufacturing methods or brand-new equipment. These machines are designed to optimise material use, minimise scrap, and maximise efficiency. Buying second-hand through Exapro amplifies these savings while keeping quality high.
• Versatility – Blow moulding machines are highly versatile and can produce a wide range of plastic products including bottles, containers, drums, technical parts, and automotive components. This flexibility allows manufacturers to adapt to changing market demands and diversify their product portfolio without extensive retooling.
• Efficiency and productivity – Equipped with advanced features such as servo-driven systems and precise control interfaces, blow moulding machines deliver high throughput and stable production. They can produce large volumes of consistent, high-quality products in shorter cycle times, helping manufacturers meet tight deadlines and increase overall output.
• Customisation options – Blow moulding technology supports a high degree of customisation. By using specific moulds and adjusting process parameters, manufacturers can create unique shapes, sizes, and designs that align with brand requirements and customer preferences, enhancing product differentiation.
• Scalability – Blow moulding machines can handle a wide range of production volumes, from small-scale operations to large industrial runs. This scalability makes them suitable for both emerging businesses and established high-volume manufacturers.
• Quality and consistency – Modern blow moulding machines provide precise control over parameters such as wall thickness, material distribution, and cooling. This level of control helps minimise defects and ensures that every part meets the required specifications and quality standards.

Main Technical Features of Used Blow Moulding Machines

Blow moulding machines rely on several key parameters that directly impact product quality, process stability, and capacity. Understanding these features helps you choose equipment that aligns with your technical and production requirements.

• Clamping force – Indicates the force used to keep the mould halves closed during blowing. Measured in metric tons, it defines the machine’s ability to withstand internal pressure and maintain mould integrity, especially for larger or thicker-walled products.
• Extruder size – Refers to the diameter of the screw(s) used to melt and extrude the plastic. Typically measured in millimetres, it determines the processing capacity, material throughput, and suitability for specific resins and wall thicknesses.
• Shot size – Represents the maximum volume of plastic that can be injected or extruded into the mould during each cycle, usually expressed in grams or cubic centimetres. It defines the maximum part weight and is critical for containers, drums, and larger technical items.
• Blow moulding type – Machines may be designed for extrusion blow moulding (EBM), injection blow moulding (IBM), or stretch blow moulding (SBM/ISBM). Each technology has specific strengths depending on product type, resin, and volume requirements.
• Mould size – The maximum mould dimensions (width, height, thickness, and opening stroke) determine the largest part that can be produced. Compatibility between mould size and machine capacity is crucial for stable and efficient production.
• Heating system – Plastic material is heated before being formed. Heating systems may include multiple temperature zones, different heating capacities, and various technologies (such as convection or infrared heating) to ensure uniform melt conditions and proper preform or parison temperature.
• Cooling system – After blowing, parts must be cooled and solidified effectively. Cooling parameters include cooling time, cooling method (usually air or water), and overall efficiency, all of which affect cycle time, dimensional stability, and surface quality.
• Control system – Modern blow moulding machines use advanced control systems to adjust and monitor parameters such as temperature, pressure, cycle time, and parison/profile control. User-friendly HMIs and automation functions support precise, repeatable and efficient operation.
• Energy efficiency – Energy consumption is a key cost and sustainability factor. Many machines feature servo-driven systems, energy recovery solutions, and optimised heating and cooling designs to reduce power usage and operating costs.

Top Brands and Models

Exapro lists blow moulding machines from reputable manufacturers recognised for their quality, innovation, and reliability. These brands cover a wide range of applications from PET beverage bottles to large industrial containers and technical parts.

• Krones AG – A leading supplier for the beverage and packaging industries, specialising in PET blow moulding equipment and complete bottle production systems.
• Sidel Group – Global provider of blow moulding solutions for beverages, food, home care, and personal care. Known for high-speed PET blowers and efficient packaging lines.
• Kautex Maschinenbau GmbH – Renowned manufacturer of extrusion blow moulding machines for automotive, packaging, and industrial applications, including containers, technical parts, and complex hollow products.
• Bekum Maschinenfabriken GmbH – Specialist in extrusion blow technology, serving packaging, automotive, medical, and industrial sectors with robust, long-lasting machines.
• Nissei ASB Machine Co., Ltd. – Focused on stretch blow moulding solutions, particularly for PET bottles. Offers high-performance systems capable of producing a wide variety of PET containers.
• Aoki Technical Laboratory, Inc. – Prominent producer of injection stretch blow moulding machines used for complex, high-precision PET and PP bottles and containers.
• SIPA S.p.A. – Leading manufacturer of PET preform injection systems and blow moulding machines, providing complete solutions for PET bottles, containers, and packaging systems.
• Techne Graham Packaging – Specialised in blow moulding machinery for the packaging industry, delivering solutions for bottles, containers, and jars in various sizes and materials.

Beyond these names, other manufacturers also offer excellent blow moulding machines. When evaluating brands and models, it is important to review technical documentation, customer feedback, and after-sales support to ensure they meet your specific requirements.

Industries and Applications

Blow moulding machines are used across a wide range of industries wherever hollow plastic products are needed. Their versatility and scalability make them a core technology in modern packaging and component manufacturing.

• Packaging industry – Widely used to produce bottles, containers, jars, and other packaging solutions. Common applications include plastic bottles for beverages, household products, personal care items, and industrial chemicals.
• Automotive industry – Essential for manufacturing components such as fuel tanks, air ducts, reservoirs, and fluid containers that require high durability, precision, and resistance to chemicals and environmental conditions.
• Consumer goods – Used to produce toys, sports equipment, storage bins, and a broad range of household items. Blow moulding allows complex shapes and multiple sizes and colours to match consumer preferences.
• Industrial applications – Suitable for large containers, drums, and industrial packaging solutions used to store and transport liquids, chemicals, lubricants, and hazardous materials.
• Medical and pharmaceutical – Applied to produce sterile containers, vials, bottles, and medical devices. Machines support hygienic, safe packaging for pharmaceuticals, lab reagents, and medical supplies.
• Cosmetics industry – Used for bottles and packaging for cosmetics, skincare, and personal care products. Custom bottle shapes support branding and shelf appeal.
• Food and beverage – Produces plastic bottles, jars, and containers for beverages, oils, sauces, condiments, and other food products. Machines ensure packaging integrity, safety, and product preservation.
• Agriculture and horticulture – Used to manufacture containers for fertilisers, pesticides, seeds, and other agricultural chemicals. These containers are designed to withstand harsh environmental conditions and protect sensitive contents.

Blow moulding machines can often be customised for specific sectors, enabling production of specialised products tailored to different industries. This versatility and broad application range make them a critical component in many manufacturing processes.

Pricing and Cost Factors

On Exapro, used blow moulding machines generally range from €27,000 to €109,000, depending on their technology, capacity, and configuration. This price range offers options for both smaller manufacturers and large industrial operations.

• Price range and budget – With machines typically between €27,000 and €109,000, buyers can choose solutions that fit their investment capacity while still accessing equipment from well-known brands.
• Brand and model – Renowned manufacturers such as Krones, Sidel, Kautex, Bekum, Nissei ASB, Aoki, SIPA, and Techne usually command higher prices due to their build quality, technology, and support network.
• Production capacity and configuration – Machines with higher output, multi-cavity mould capabilities, or complex configurations for large parts and technical applications tend to be more expensive but offer superior productivity.
• Features and specifications – Advanced options such as servo drives, sophisticated control systems, quick mould change systems, and integrated quality controls can increase the purchase price while reducing operating costs and downtime.
• Condition and maintenance history – Units with documented service records, regular maintenance, and lower operating hours have higher value and reduce risk for the buyer.
• Total cost of ownership – Beyond acquisition cost, consider energy consumption, spare parts availability, maintenance, and potential upgrades. Energy-efficient machines and models with widely available components typically offer better long-term ROI.
• Valorexo price benchmarking – You can use Exapro’s Valorexo pricing algorithm to check whether a listing price aligns with current market conditions and ensure fair negotiation between buyer and seller.

How to Choose the Right Used Blow Moulding Machine

Selecting a blow moulding machine involves more than comparing specifications. It requires aligning technology, capacity, and configuration with your production goals, product portfolio, and budget. Below are the main factors to consider.

Define production requirements

Evaluate your target production volumes, product specifications, and required cycle times. Consider container sizes, shapes, materials, and wall thicknesses. Ensure the selected machine can efficiently meet current demand and support future growth.

Select the right technology

Choose between extrusion blow moulding, injection blow moulding, and stretch blow moulding depending on your application. Each technology has strengths: extrusion blow for large containers and industrial parts, IBM for precision neck finishes and smaller containers, SBM/ISBM for high-quality PET bottles.

Assess machine size and layout

Analyse the available floor space and infrastructure in your plant. Review the machine’s footprint, number of stations, mould size capacity, and compatibility with existing automation or downstream equipment such as conveyors, leak testers, and packing lines.

Evaluate quality and reliability

Research the manufacturer’s reputation and track record. Look for machines with robust construction, reliable components, and proven longevity. Check for service documentation, previous usage conditions, and any upgrades implemented over time.

Consider energy efficiency

Energy consumption impacts operating costs and sustainability. Prioritise machines with servo-driven systems, energy recovery, and optimised heating and cooling processes. Higher efficiency often translates into lower long-term costs and improved environmental performance.

Check flexibility and versatility

Evaluate how easily the machine can handle different products and moulds. Features like quick mould change systems, adjustable settings, and compatibility with various materials help ensure flexible production and rapid adaptation to new projects.

Analyse automation and control

Review the control system capabilities, including user-friendly HMIs, advanced process control, data monitoring, and potential integration with Industry 4.0 environments. Higher automation can improve consistency, traceability, and process optimisation.

Review after-sales support and spare parts

Confirm the availability of technical support, maintenance services, and spare parts. Reliable after-sales service from the manufacturer or third parties minimises downtime and extends the machine’s useful life.

Evaluate price and ROI

Balance the purchase price with expected returns from improved productivity, energy savings, reduced scrap, and extended machine life. Use realistic production scenarios to estimate ROI and ensure the investment supports your long-term business objectives.

Verify standards and compliance

Ensure the machine complies with relevant industry standards, certifications, and safety regulations in your target markets. Compliance supports product quality, operator safety, and regulatory approval.

Find the Right Used Blow Moulding Machine for Your Business

Browse our latest listings of used blow moulding machines on Exapro and connect with verified sellers worldwide. With technical guidance, expert consultation, inspection support, logistics coordination, and pricing tools like Valorexo, Exapro makes it easier to upgrade your plastic production line with confidence and control over your investment.