Barcode and Expiration Date Industrial date code printer Use


A wide variety of procedures exist in the area of industrial printing Industrial date code printer, each needing specialized understanding. Publishing books or artwork is one thing; printing barcodes and expiration dates, on the other hand, is quite another.

In spite of the fact that dye-sublimation and direct thermal printing are both digital Industrial date code printer processes, neither of them is suite for industrial barcode or expiration date printing. Inkjet printers, thermal transfer over printers, and piezo case coders are the most appropriate tools for this job.

In order to determine which option is best for coding expiration dates and barcodes on primary, secondary, and tertiary product packaging, we must first distinguish between these three applications. By distinguishing between these three applications, we can determine which printer is most appropriate for your requirements.

Coding for Packaging

There is direct contact between the main package and the product. Bottles, cans, packs, and wraps are all examples of primary packaging. Because primary packaging is intende for customers, it is frequently equipped with barcodes and expiration dates in order to meet with industry and retail regulations.

Primary packaging made from a variety of materials that are as diverse as the containers that hold them. Glass, cardboard, metal, plastic, and paper can all be use to construct primary packaging, and each of these materials has its own set of characteristics that must be take into consideration while coding. The following solutions are available to organisations, depending on the substrate and production line conditions:

They are well suited for printing in large quantities

For high-volume manufacturing, continuous inkjet printers (CIJ) are the best option. To ensure that continuous ink flows are achieve in CIJ printers, the ink and solvent are share and pressurized Industrial date code printer into an oscillating printhead through a shared reservoir.

The high-pressure inkjet technology used by CIJ printers, as well as their enormous ink supply, making them ideal for use on high-volume manufacturing lines. Printing speeds of up to 1050 feet per minute (320 metres per minute) are possible with DuraCode CIJ printers, which also have choices for lower speeds. Additionally, CIJ printers are capable of coding both porous and non-porous materials, provided that the appropriate ink cartridges are use.

Thermal Transfer Over printers and Case Coding Printers with High-DPI Resolution

Thermal transfer overprinters (TTOs) and high-resolution case coding printers are two solutions for printing at high-DPI resolution. As a result, high DPI capabilities are especially helpful for businesses, as barcodes and QR codes both require a resolution of at least 200 DPI to be regularly scannable and at least 300 DPI to be continuously scannable.

Thermal transfer overprinting produces full-scale 300 DPI codes, making it appropriate for a variety of applications in which high resolution is require. TTO creates label materials by guiding a printhead ribbon onto the label material’s surface. The printhead is compose of a number of tiny heating components that are coater in ceramic. Ribbon is coater in a vivid wax or resin mixture to make it stand out. Because of the heating of the ribbon, certain sections melt and transfer to the substrate, creating printed marks on the surface.

Case coding printers use high-density ink to produce codes and graphics

That are highly readable in all lighting conditions. Piezo printheads create images through the use of vibrations and electricity. Case coding printers that use piezo printheads and high-density ink can produce codes with a high resolution (dots per inch). Many case coding printers, such as the Precision 72, are equipper with large printheads that are capable of producing large pictures and other codes.

While CIJ printers are larger and intended for fixed-line placement, TIJ printers are more flexible and can be use in a variety of applications. TIJ printers are small and lightweight, and they may be bracket-mounted or carried around in a backpack. In addition, TIJ printers use easily replaceable ink cartridges, which allows you to quickly go from coding nonporous materials such as plastic to coding porous materials such as cardboard. Aside from that, each cartridge has a fresh printhead, which helps to explain why TIJ printers require relatively little maintenance.

Anser series TIJ printers have a code speed of 120 m/min (394 ft/min), which is fast enough to suit the needs of many lines.

Coding for Packaging

Secondary packaging is another another major type of packaging that demands continuous use of barcodes. The secondary packaging is responsible for protecting and displaying the primary packing. Consider the beer cans to be the primary packaging, and the branded paperboard box to be the secondary packaging for this example.

Because primary and secondary packaging use many of the same substrates and have similar coding requirements. Primary packaging equipment can be adapte to secondary packaging applications. However, when it comes to tertiary packaging, things are different.
tertiary coding is a type of coding that occurs after the primary coding.

Tertiary packaging is use to protect products from being damage during transportation

Pallets and shrink wrap are two popular secondary packing forms that do not require. Direct coding since related pre-printed labels are preferer. Pallets and shrink wrap are two popular secondary packing types that do not require direct coding. When it comes to secondary packaging, the brown cardboard box is a prevalent type that requires barcodes.

Almost 100 billion cardboard boxes are produce annually in the United States alone, according to industry estimates. Many organisations employ scannable barcodes on the surface of the box to ensure that the package is deliver. However, due to the absorbent nature of corrugated cardboard and its dark hue. It may be difficult to discern the codes on this material.

If you want to assure consistent scannability, your CIJ printers must print. At a resolution high enough to permit consistent scanning. Many TIJ printers, on the other hand, can code at a resolution of 600 x 300 DPI. Which barcode scanners can easily read.

Precision Series 18 printers, for example, are particularly adept at printing on porous media such as cardboard. In order to ensure compatibility with barcode readers, these printers use high-density ink. And their enormous printheads enable them to print larger text sizes than TIJ printers. The Precision Series of case coding printers, for example. May be easily integrated into an existing network, making them perfect for industrial applications.

Inkjet printing for barcodes and expiration dates is a common practise

Inkjet printers that print legible barcodes on products industradgroup and packaging are beneficial to both parties. The selection of the most appropriate equipment for printing these codes necessitates careful consideration of both the materials and the characteristics that distinguish your organisation. You require a printer that can not only print the surfaces of your objects. But also be integrated into your existing manufacturing process. If you’re still not sure which printer is the best fit for your needs. The specialists at InkJet, Inc. can assist you.

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