At the last, Indian label industry event, “LMAI  Conference” in 2017 at Jaipur I promised to write the 2nd part of my first article titled  “History of the Indian Label Industry” which I wrote in 2006. It is available in this blog at https://harveersahni.blogspot.com/2010/08/history-of-indian-label-industry.html
I have now written the 2nd part. This is brief reporting so I plan to complete a book on the subject with a lot more expanded information in the near future. In a large country with industry spread over such a vast area and a huge population, it is difficult to chronicle all in few words. Being a long article, the part 2 of History of the Indian Label Industry will be posted on my blog in a series of four articles. The first part of series numbered  2A is as below;

The first decade of new millennium was very eventful for the Indian label industry. After 2006 a global economic recession surfaced and kept growing, affecting businesses across the world.

It even impacted many industries in India where we saw companies reducing manpower, which in turn affected spending in all segments of retail. Surprisingly while printers in India as well, were complaining of recessionary trends and difficulty in operations, yet the Indian label industry overall, continued to grow steadily. Capacity enhancement kept on being made, though it was a little reduced. The Indians became indulgent not only as label printers but also as diverse product and equipment suppliers to label printing companies. For the first time an Indian company Precise Graphics, later renamed PGI Technologies in 2005 produced a magnetic cylinder that worked on a label press. Dhiresh Ghosalia led Jesons, manufacturers of emulsion pressure sensitive adhesives for the label industry at their large factory in Daman, expanded and moved northwards in India and setup an additional manufacturing capacity at a 100,000 square feet facility in Roorkee. Kaygee Papers was promoted by Pranay Godha in 1997 to produce silicone coated release papers. In 2001 they made a Joint Venture, Kaygee Loparex Pvt. Ltd. with Loparex, a member of UPM group and world’s largest commercial Siliconiser. They continued to grow and became an important part of the Indian label industry in the first decade. In 2015 Loparex assumed 100% of the company and rechristened it as Loparex India Pvt. Ltd. In August 2007 Diehard Dies, based in Guntur Andhra Pradesh, started operations to become an indigenous manufacturer of flexible dies for the printing, packaging and label industry. By middle of 2019 Acme Rolltech a company led by 3 young entrepreneurs Parag Patel, Sandeep Sharma and Parag Koradiya started the first Indian facility manufacturing Ceramic Anilox Rolls. Sandeep, came to the partnership with 15 years of experience having worked with Avery Dennison, Kurz India and Domino Printech, Parag Patel and Parag Koradiya came from entrepreneurial background of manufacturing Gravure Cylinders. 

In 2007 the largest indigenous labelstock producer Ajay Mehta’s SMI Coated Products initiated an expansion program that would eventually place SMI as an undisputed leader in labelstock production by a wholly Indian owned company, not only in India but also in many international markets.

They procured a 6540 square meter plot in MIDC, Ambernath near Mumbai, constructed 2200 square meter shed, shifted all plant and machinery from Daman to Ambernath, added two silicon coating machines and one Acrylic Coating machine. In 2014 they increased the production area by another 3000 square meters and installed a Hot Melt coating line, following it up by installing yet another hotmelt adhesive coater later.  

In 2017 they purchased the adjoining plot admeasuring 9820 Square meters, constructed 1000 square meters to install Schaeffer moving racks for better handling of an increasing volume of goods in their expanding stores.

In 2019 they completed construction of another 3000 square meters shed and moved all coating machines to new premises along with a new emulsion adhesive coating tandem machine to do inline siliconizing and adhesive coating in a single pass, 1350 mm wide to run at a speed of 150 meters per minute, reaching an installed capacity of 19 million square meters per month. They celebrated their 25 years in grand style by hosting over 200 guests to visit their works besides take part in the celebrations. Other indigenous labelstock manufacturers also grew in their own respective regions. Stayon Papers and Sticon in Hyderabad, Million papers and NG papers in Chennai, Capri Coating Solutions in Mumbai, Shree Arihant, STP Paper, Gj Industries and many more in Delhi were some of the active and visible manufacturers. Some of the earlier leaders in the Labelstock manufacturing segment pulled back or shifted focus in view of depleting margins, intense competition and unviable credit terms.

Indian label press manufacturers transformed in this period to produce label presses that were comparable to international products and made their mark not only in India but internationally as well.

Amit Ahuja led Multitec is the front runner who had exhibited their first modular rotary flexo label press in partnership with Abhay Datta of Datta Press Delhi at the first India Label show in 2002 at Nehru Centre Mumbai. The association of Multitec with Datta came to an end around 2008. Multitec redesigned their label press as a competitive product with all basic features. After renaming the press, “Ecoflex” they relaunched it. Two year hence they launched yet another version of their label press and continued to upgrade their offerings and grow phenomenally. By the end of 2018 they had achieved outstanding success producing label presses from a quality accredited design and a fully integrated manufacturing facility spread over 26,000 square meters. At the time of writing this article their website reports having sold over 300 Label presses to over 25 countries through a team of agents spread across the world. Other Indian press manufacturers who also made their mark are mostly from Faridabad, south of Delhi, the same city as Multitec. They are Alliance Printech, Webtech Engineering, NBG Printographic Machinery Co. Pvt. Ltd., M Tech Industries, etc. Other than these, Ahmedabad based RK label machines claimed to have sold 150 rotary plus 600 flatbed label presses and Noida based Jandu Engineers had sold about 135 rotary flexo presses. Jandu is also a leading manufacturer of coating and laminating machines and has a large presence amongst local labelstock manufacturers and according to Baldev Singh Jandu, they have till date sold over 150 coaters.

The Indian label market was growing at a steady double-digit growth rate and interest of international label fraternity in India also kept on growing with it. Avery Dennison who had found success in the country had in 2007 invested in land admeasuring 22 acres at Ranjangaon near Pune for expansion.

In 2008 the facility was with a one-meter wide hotmelt coater having capability to run at 500 meters per minute with inline silicon coating, this compared to the first one-meter coater at Gurgaon that could run at 250 meters per minute. The then global CEO and President of Avery Dennison Corporation Dean Scarborough specially flew in to inaugurate the facility. In 2010 Raj Srinivasan who had established Avery’s foothold in India returned to USA handing over reigns of the Indian operations to Anil Sharma. New wave of professionalism descended in the working of Avery; more expansion followed with installation of a 1.5 meters hot melt coater in 2011 at Pune. In the same year a slitting facility was commissioned in Bangalore in 2011 to serve the southern customers effectively. To help the cause of a limited number of trained press operators in India in face of a growing label press population,  Avery Dennison Knowledge Centre was also set up in Bangalore to train people for becoming press operators, but later in 2018 the centre was moved to Pune, next to their research and development centre. In 2014 an emulsion coater of 1.5meter width was added at the Pune facility. In 2015 Anil Sharma was elevated for bigger responsibilities and handed over charge to his teammate Pankaj Bhardwaj. Amongst international Labelstocks companies UPM Raflatac had established a substantial foothold with their slitting facilities in India while Lintec, Ritrama, flexcon and a few others sold through agents or directly.

Increase in number of visitors to labelexpo Europe in Brussels was a positive indicator of a growing label market in India and the interests of printers to invest in globally acknowledged label presses. In 2005 Weldon Celloplast Ltd. was the lone Indian exhibitor and by 2011 edition of the show, the number of Indian exhibitors had swelled to fourteen, up from four in the previous show in 2009.

At Labelexpo Europe 2009 there were 338 Indian visitors and this figure had swelled to 429 in 2011. The number just went on increasing, there were more Indians then before at successive labelexpos.

In 2007 at Labelexpo Europe in Brussels Tarsus announced their acquisition of India Label show, a show that was set up by Anil Arora and his wife Neetu Arora.

The next edition of India Label show 2008 in New Delhi’s Pragati Maidan was held in the aftermath of terrorist attack in Mumbai and in the middle of a huge recession, yet the show stood its ground proving the strength of growing Indian label market. In 2010 the show was rechristened as Labelexpo India. The show owners Tarsus UK made a strategic alliance with Indian Label association LMAI for the event and to have an awards night and a gala dinner organised by Tarsus at every Labelexpo India. LMAI was to conduct the LMAI label awards which became a regular feature thereafter. In 2009 under the leadership of Vivek Kapoor, the longest serving president of LMAI who completed 3 terms of 2 years each, it was also planned to hold biennial LMAI conference in alternate years, the trend has carried on till date. The first LMAI conference was held in Hotel park Hyatt Goa in 2011 and the event grew to be held again in 2013 at Grand Hyatt Goa and at Hotel Jaypee Palace in Agra in 2017. 

In 2010 leading global associations came together under the aegis of FINAT and formed the federation of global associations called L8. Later with one more association joining it was renamed L9, the confederation of nine leading international label associations.

The alliance consisted of LMAI (India), JFLP (Japan), FINAT (Europe), TLMI (North America, LATMA (Australia), PEIAC (China), AMETIQ (Mexico), ABIEA (Brazil) and SALMA (New Zealand). Sandeep Zaveri of Total Prints took over the presidentship of LMAI in 2015 and handed over the charge to Kuldip Goel of Any Graphics in 2017.  At the 2017 conference in Agra 550 delegates attended making it the largest gathering of label printers at a single conference. A proud moment for me at the Agra conference in 2017 came when I was announced as the first and only recipient till then of a lifetime award for support to the Indian Label industry.  

In 2016 Labelexpo was moved to the Expo Mart in Greater Noida outside Delhi, a part of Delhi NCR (National Capital Region) due to non-availability of dates at New Delhi’s Pragati Maidan.

In 2018 also it was held at the Expo Mart as the venue, Pragati Maidan in Delhi, was under redevelopment. In 2018 for the first time LMAI hosted a very successful L9 meet in India on the sidelines of Labelexpo India.

The evolution of label industry in India has been a continuous process, from the earliest days of screen-printed labels in sheeted format in the 1970s to roll form labels to be converted on very narrow width flatbed Japanese presses and then over to rotary flexographic printing label presses in the early 1990s.

Until the end of 1990s the flexo printing process used water-based inks with hot air drying.

The polymer plate making technology was also evolving. The process was evolving but it had shortcomings. It was faster than the flat bed machines but lacked consistency due to drying and viscosity changing issues. Better prepress and improvements in platemaking technologies brought flexo printing to almost at par in quality to offset printing. This led the rapid growth in flexographic label printing. As demand escalated, investments in equipment also witnessed increase with printers demanding wider presses for increased productivity and reduced wastages. By end of the last century UV curable inks became available and changed the way flexo printing grew. Originally, UV technology was introduced to the world in the 1960s. The drying effect for water-based inks is brought about by evaporation of volatile components. The required energy is supplied via IR-radiation and/or hot air. A loss in the dried coating thickness will appear depending on the amount of the evaporated components. The volatile components must be removed by an extraction. However, in case of the UV inks, the drying effect is due to polymerization, i.e. on cross-linking of long molecular chains. The energy required for cross-linking is supplied via UV radiation. For 100 % solid body systems the thickness of the dry coating corresponds to the thickness of the wet coating. There are no losses due to evaporation. By 2010 new UV inks came with enhanced ink transfer properties as well as faster reactivity to UV curing, meaning speeds over 200 meters/min. were achievable. Towards end of 2009 the conventional UV started to evolve to low power consuming LED UV with longer life lamps that had surfaced internationally, though the system had yet to be widely accepted in India due to non-availability of parts and inks, but it was being investigated and expected to grow substantially in demand or replaced on existing presses.  Some of the international equipment manufacturers had already introduced alternatives such as LED UV and even Electron Beam curing technology as an alternative. From the middle of first decade of 21st century onwards there grew a demand for high end hybrid presses with increased features like automatic registration, multiple printing processes for combination printing and decoration capabilities. As sustainability and environmental concerns became an imperative; waste reduction, and waste management became a necessity when an investment in equipment was being made.End of Part 2A, To be continued…
The remaining parts will be posted in gaps of 7-10 days 
Note: No one is authorised to reproduce, copy or reprint this article until permitted by the author in writing. 
Written by Harveer Sahni Managing Director Weldon Celloplast Limited New Delhi July 2019

Waste matrix stripping or removal in production of self adhesive labels is a very important part of label conversion and is an imperative that leads to a web of labels which can be dispensed on automatic label dispensers in high speed packaging lines. Even though it sounds to be a simple process of stripping the ladder like extra waste after die cutting of labels, yet it remains to be one of the most complex and problematic area of label converting process. A problem with waste removal, like matrix breaking or labels lifting with the waste ladder may slow down the machine or in some cases make it extremely difficult to remove it online. Converters may have to resort to removing the waste manually offline making the process unproductive and costly. A host of parameters affect the process and it is difficult to address the issue in a singular way. With so many variables that impact the waste removal process, it is difficult to predict a simple solution. It could be due to the shape of label, size of label, release liner, face stock, adhesive, die cutting process, speed of conversion, die blades or the design of the waste removal section that may affect the correct and efficient removal at the optimum machine speed. Any of these may impact the final result and slow down the machine and the printing process. No one solution can apply to all problems. The traditional waste rewinding system is gradually becoming unpopular due the fact that tension is the key to efficient waste rewind. The rewound waste matrix ladder roll has empty spaces from where labels have been die-cut and as the roll becomes bigger there is lot of irregular tensions leading to breaks. As the market becomes extremely competitive with rising prices of labelstocks printers tend to reduce the gap between the labels to 2mm making the process even more difficult. This article will dwell on most of the variables mentioned here above.
 
Release Liners: The most widely used base papers as release liners in self adhesive label materials are glassine, super calendared Kraft and clay coated Kraft. These are uniform caliper, densified and non porous papers that have adequate strength and accept a uniform coating of silicone giving excellent releasing properties to become a proper backing for self adhesive papers. In recent years due to possibility of recycling and reducing the tonnage of waste generated, filmic liners also are being used as backing in labels. Release liners play a major role in die cutting and in turn impact the waste removal process. The die blade has to cut through the laminate and stop at the face of the liner so has to achieve a perfect half cut or kiss cut. The uniform thickness or caliper of the liner is an imperative. If the liner has variations, it will create problems at die cutting and eventually at waste stripping. If the release gets thicker the die will pierce the liner making a through cut and exposing paper fibers to the adhesive.  This also may result in web breaks. If the liner gets thinner, the die will not cut resulting in labels lifting with the matrix. Release level of the liner is also very important. If the release level is tight the matrix will tend to break due to tension and if it is too easy, labels will tend to lift with the ladder. Uneven silicone coating or pinholes in coating may also create problems. If the labelstock prior to waste matrix removal goes through a nip roll that has excessive pressure between them, the edges may develop micronic nicks that may render the face paper susceptible to web breaks. The paper rolls may also develop these rough edges in transportation and mishandling. The web needs to be inspected thoroughly before taking up label conversion.
 
 Face Paper:  Paper and films are generally used as face materials. A fairly high strength paper will perform well if all other parameters are addressed. If the gap in labels is too small, 2mm or less, the matrix will tend to break repeatedly. Moisture content in paper should ideally be between 3.5% and 5.5%; sharp increase in moisture will affect the strength adversely. The tensile strength of paper at Relative Humidity (RH) up to 50% is maximum after which it moderately decreases with RH up to 65% and on further increase in RH, it drops sharply. The uncoated papers are hygroscopic, so they tend to absorb moisture faster than coated papers. Evidently weather and storage condition of paper does have an impact on waste removal. Even when using emulsion based adhesive if the adhesive is not dried properly, the face paper will tend to absorb the residual moisture from the adhesive and result in deterioration of paper and affect waste stripping. In case of filmic face stocks, weather may not impact but the condition of die and quality of die cutting does play a major role. If the die is damaged or blunt it may not cut properly resulting in label lifting or film tear.
 
Adhesive: Commonly available labelstocks are coated with either emulsion based or hot melt pressure sensitive adhesives (HMPSA). In both cases for a perfect waste removal it is necessary that the die cuts through the adhesive as well, as otherwise if the coated film of adhesive is not cut, labels will lift with the matrix. Emulsion adhesives have good die cut ability however hot melt adhesives for better die cutting properties have to be specially selected. In case of HMPSA if the waste is not lifted immediately after die cutting the adhesive may rejoin and lift the labels with the matrix.

 

 

Size and shape of a label: These are parameters that are customer driven based on their specific needs, so the converting company cannot request changes from customer.  Small labels have a very limited area of contact and reduced tack holding it to the release liner and with little force the label may fly off or lift off with the matrix. In such a case die makers suggest packing self adhesive foam in the die shapes so as to push the label back on the release liner. Other times printers have found limited success in addressing this problem by increasing speed of the web. Waste ladder removal of irregular and complex shaped labels with sharp corners like in a star shape, is even more complex to handle. This becomes even more difficult in substrates like BOPP where a small nick may lead to web break. Converters need to slow down the machine to a great extent to finish the labels online. Machine manufacturers have addressed this issue of handling complex shapes as explained later in this article.
 
Die design: The die has a definite role to play in waste matrix removal. The subject is extensive and can take a full article to dwell on the nuances. The blade angle, blade height and coating on the die are factors that lead to ease or difficulty of label conversion.  Thickness of the face materials, type of adhesive and thickness of release liners are all imperative inputs that are needed before a die is put into production. A die that is designed for paper material is not recommended for filmic materials. Blade angle for paper is kept wider so that after penetration of around 80% into the paper the rest of the cut happens by crush or bursting of the material before stopping at the surface of the liner. In case of filmic face material a sharper acute angle is needed to pierce the film as in case of a wider angle the film will stretch and not be cut. An acute angle blade appears to cut better but wears off faster than the wider angle blade dies. Depending on the materials used the die angle varies between 45degrees and 110 degrees. The blade height needs to be adjusted to cut through the face, which maybe paper or film or a laminate, and adhesive without piercing the release liner. If any of the parameters is not right, the waste matrix removal will become a challenge. If the blade pierces the liner even slightly, it may expose the release paper fibers to the adhesive and get stuck to them causing waste ladder breakage. If the blade does not cut through the adhesive, labels will lift with the matrix. In case of coated materials like direct thermal and thermal transfer the coatings on the paper are abrasive in nature and tend to make the die wear off soon. In such case laser hardened dies are recommended. Adhesive sticking and building up on the dies also results in uneven cutting and also resulting in early die wear off. This is more evident where aggressive high tack hot melt adhesives are used. For this reason special non stick, coated dies are available so that the adhesive will not stick to them. The standard gap between the magnetic cylinder and the anvil is also very important as in case of die wear off the gap increases resulting in spaces where labels are not cut and would lift off with the matrix and to get a perfect cut the die pressure is increased. This results in faster wearing off of the bearers leading to a smaller gap and over cutting. Care has to be taken in die storage and handling. Before commencing any job proper inspection of die should be done regarding cleaner blades, blunt edges or nicks. The dies need to be stored in an environment avoiding excess humidity which may result in rusting.
 
Machine manufacturers have been consistently making efforts to address the issue of waste matrix removal to aid faster converting. Some of the steps taken include; 1.Lifting the waste matrix immediately after die-cutting. 2. Taking the die to a larger diameter stripping roller that would support the waste ladder on separation rather than a thin diameter roll that would provide a sharp angle to waste being stripped off. 3. By rethreading the paper in such a manner that the label web is peeled off the matrix instead of the matrix being pulled off. 4. De-laminating the web and re-laminating it before die cutting as this would reduce the tension required to peel off. These measures did help to some extent but complex shapes and a host of issues and factors that impact this process have had machine manufacturers continuously researching this area to keep implementing changes. One such solution that came around some years back was suction of the waste matrix into a suction and shredding system. This does take care of the tension and also manages waste by cutting it to small pieces and compacting it, but such systems have other problems. They are expensive, large in size so difficult to be fitted on presses due to lack of space, costly to operate as they use extra motors, compressor or vacuum and very noisy to run. Yet there is a brighter side to it, there is development going on to separate the waste and recycle it inline so as to reduce the impact on environment.
 
 
The larger established press manufacturers seem to have reached a viable solution. Some years ago they have introduced a big innovation in the industry by designing a simpler contact system rewinder for waste matrix. The idea was very simple; instead of pulling only the matrix up to the rewinder, we pull the entire web up near the rewinder. Here the matrix is peeled off against an idle roll and immediately pasted on the rewinder. Basically this reduces the travel of the matrix from 1 meter to hardly 5 cm and the journey is even supported by a roll. This system has now become the standard with many label press manufacturers
 
 
 
 
 
“Simple solutions are invented to simplify the label converting process however It does not hold true for all jobs, when a problem comes it can be challenging and creating a solution can be another game changer”!
 
 
 
 
Written by Harveer Sahni Chairman Weldon Celloplast Limited New Delhi January 2018
 
NOTE: This article is exclusively written for magazine Label and Narrow Web USA. Publications desirous of reproducing the article may write for permission to Steve Katz editor LNW : skatz@rodmanmedia.com 
Story of  a family run enterprise Spilker GmbH, where three generations have technically indulged to grow their venture  from humble beginnings to attain success at global levels. They strive to upgrade and cater to customer needs maintaining quality standards assuring reliability in German precision!
 
http://www.spilker.de


Humble beginnings
In 1963, Herbert Spilker, trained as an engraving master, set up his startup venture in a small garage. Without any equipment and relying on his engraving skills, he started engraving metal brass plates for trophies with the barest minimum hand tools. With three children to support, a son Andreas the present Managing Director of Spilker GmbH born in 1961, another son and a daughter, he worked hard all by himself to grow his maiden engraving enterprise. In 1970s he felt it was time to move ahead. Self adhesive labels were evolving at a fast pace and the die cutting process was in the process of transforming from flat bed die cutting to rotary die cutting. Herbert Spilker wanted to produce flat bed dies but as luck would have it, prospective customers were already considering moves into faster converting process using rotary dies. They resisted his offer for flatbed dies and advised him to consider supplying rotary dies which at that time were being supplied by only two companies i.e. Kocher+Beck and Gerhardt (now merged into Rotometrics). The delivery time was very long, almost 2-3 months. Herbert was convinced that rotary dies was the business to be in. In 1978 he produced his first rotary die engraved by hand for a company Ritter Etiketten, now a part of the Rako Group since 2006. That was the beginning of an exciting journey to success in rotary tooling.
 
The first step towards expansion
 
Herbert Spilker
A year later in 1979 Herbert Spilker’s son Andreas, also trained as a master engraver joined the company as its 12th employee. The other son preferred to venture out as a printer but his daughter did join the business and now looks after the HR (Human Resource) department of the company. When Andreas joined the company they were still working without any machinery. They bought solid metal blanks and outsourced all other turning, machining and grinding processes. Finally the father son duo “master engravers”, would complete the die engraving by hand. In 1981 with experience of having produced 25-30 dies,they decided to invest in used turning and grinding machines. The turning machine at that time cost 1000 DM or 500 Euros. The grinding machine was more expensive at 2500 DM. The Spilker enterprise took it’s first big step of buying a CNC machine for engraving and then there was no looking back. In 1988 they moved to their present building in Leopoldshohe, it was a big step and time to expand!
 
In the late eighties the cost of rotary dies was making label printers consider using the cheaper but slower flatbed cutting options. The costlier solid rotary dies made it imperative to sell labels at a higher price making it difficult to compete. Flexible dies developed in America and  much cheaper than rotary dies, started being imported by others into Germany. These were instantly opted for by label printers to maintain their production speeds and consistent quality. Once in their new premises, in 1988, Spilker GmbH invested in equipment to produce both magnetic cylinders and flexible dies. Andreas Spilker proudly states, “No one taught us how to make these flexible dies and magnetic cylinders, we learnt it all ourselves” he further added, “It was the need of our existing customers, so the investment and development became an imperative”. The next decade was spent in consolidating, growing the new business, expanding and making renovations in whichever department it was needed. Herbert Spilker a farsighted man understood the need to transfer management to the generation next at an appropriate time. He mentored his son and transferred the power step by step until 1998 when he decided to retire and hand over the reigns of his growing business to his son Andreas Spilker, the present Managing Director. In 2003 Spilker installed their first machine for milling and sharpening rotary dies. Till then dies were sharpened by hand. They were the first manufacturer to offer rotary dies sharpened by machines. In 2004 the variabase anvil roll was developed for adjusting the cutting depth. In 2005 flexible dies in bigger format 860mm X 1050mm were developed. Spilker also has now capability to produce magnetic cylinders in very wide width up to 2800 mm. In 2006 they developed their first rotary die cutting machine. In 2008 they added another 3200 square meters to their production shop floor. In 2013 the MEP (Mechanical Ejector Pins) dies were developed. In 2015 another 300 square meters hall was added to develop custom built die cutting and laminating machine, such equipment was showcased at the Labelexpo Europe in September 2017.
 
The Family in business

Spilker continues to grow and attain global success. Andreas, a technocrat himself and a hands on
Andreas Spilker, Harveer Sahni, Henrik Spilker & Anika
 technically indulgent business owner, attributes this success to the inertia set in by his father Herbert Spilker. Even the day when this interview was to take place, Andreas was busy on the shop floor managing a new development. He is technically involved in all technical aspects of his company. His wife Katja is a home maker. Two out of his three children are already in the company. His daughter Anika born in 1990 and son Henrik born in 1988, joined the business in 2006. Henrik trained in metal engineering as a milling machine operator. After a stint in the company left to join university in 2010 and graduate in engineering. He returned to the company in 2015 to pursue his passion for technical innovation in workplace. He now looks after development of new tools, machine development and automation. Anika who has been in the company since 2006 is a refreshing personality, an imposing leader and leading her team by delegation. However still, her authority is evident in her area of operation.  She takes care of sales of rotary tools and in recent times has been passionately indulgent to grow the machine building business. Her husband is a police officer. The youngest offspring of Andreas, Marie at 19 years is still studying and only time will tell if she too joins the family business. The entire Spilker family are technology driven, Andreas remarked that none of them are accountants or management experts. “We can hire professionals for that but I am happy that the family is involved in production so as to turn out excellent, technically advanced and precision engineered products.
 
Getting over difficult times
 
Flexible die in production
The economic slowdown of 2008 brought the most difficult time at Spilker. Ironically and with regret,at that time they had to give up loyal employees to stay afloat. The crisis came at a time when they had acquired an additional shop floor area from a neighbor to expand their production. They had to stall the production until things improved and they were back on their feet. Once out of recession they came out stronger and fit to carve out a path of permanent and fruitful growth. Spilker with 210 employees presently works out of shop floor area admeasuring 20,000 square meters or over 200,000 square feet. Sales at over 20 million Euros continue to grow steadily at 10% per annum. They try to find special solutions to customer’s problems and attend to them completely, offering combination of new processes and products. They endeavor to make perfect rotary dies helping customers to build required production systems to service their respective customers. Andreas says, “The more complicated is the problem, the better it is for us. We love challenges”.
 
 
custom converting machine


The present business is spread into three business segments;
 
·         Rotary tooling that include rotary dies and magnetic cylinders
·         Flexible dies
·         Custom built machines

The above segments cater to the following industries;
 
·         Labels and printing
·         Medical and Pharmaceuticals
·         Automotive supplies
·         Electronics.



 
Magnetic Cylinder in production
A walk through their factory shows perfect workflow, state of the art capital equipment and testing systems to turn out products of highest quality standards. New developments at Spilker include tools with nonstick coatings for clean cutting adhesive labels with aggressive adhesives, tools for adhesive tape and wound care products, MEP systems with ejector pins for medical plasters that have holes, Sonic dies for punching holes and suction of waste rounds, etc. As for expensive rotary dies they offer value to their customers by repeatedly sharpening the tools when they become blunt. 



Andreas is pensive in his thoughts about his future in the company. He asserts that now that his children are getting firmly involved in the running of Spilker, in 5 years he will like to leave the management to them and retire. His daughter Anika is optimistic on the future and asserts that the company will grow further in both label and non label segments. Both Henrik and Anika are making efforts to expand into machine building while maintaining the quality and growth of existing business. Indulgent youthful attributes guided by an experienced mentor parent is sure to take Spilker to another level of success.
 
Written exclusively for Narrow Web Tech, Germany by Harveer Sahni, Chairman, Weldon Celloplast Limited, New Delhi India May 2017 

The article maybe published with the permission of Narrow WebTech Germany giving credit to them and to the author

For advertising inquiries please email to; harveersahni@gmail.com