Tattoo Needle Cartridges – If Looking at Round Liner Hollow, Make Sure to Check This Post.

Backstory aside, it’s clear that inventors like Bonwill, Green, and Edison -who made the extraordinary, inventive leap of converting an electromagnetic coil mechanism in a practical handheld instrument -greatly influenced the growth of Tattoo Supply. Unnamed others unquestionably played a role also. Within the 1870s, electric handheld implements were, as of yet, novelties. When tradesman and practitioners began using these tools in a professional capacity, they encountered limitations. Efforts to settle shortcomings led to further discovery and innovation. When tattoo artists began modifying the same electric devices for own purposes, it could have produced a new wave of findings.

At this point, the total selection of machines available to early tattooers isn’t known. But dental pluggers and Edison’s rotary pen (the only real known Edison pen manufactured) were conceivably at the top of this list. Within an 1898 Ny Sun interview, O’Reilly said he experimented with both before settling on his patent design. Together with his dental plugger machine, he claimed, he could tattoo someone across in less than 6 weeks. But there was clearly room for improvement. Discussing the trial-and-error process, he was quoted saying he first tried the dental plugger, then an Edison pen, but each was “too weak;” finally, after many trials, he “made a model after his own idea, had it patented, and got a competent mechanic to build the equipment.”

O’Reilly’s patent machine, in simple terms an Edison pen, was modified with the addition of an ink reservoir, accommodations in excess of one needle, and a specialized tube assembly system meant to solve the “weakness” issue of his previous machines. Much like the original Edison pen, the reciprocating action of O’Reilly’s machine, was actuated by using an eccentric (cam) working on top of the needle bar. But instead of a straight stylus, the tube encasing the needle bar (even the handle) was developed with two 90 degree angles, as the needle bar inside was segmented with pivots. This set up allowed for the lever and fulcrum system that further acted in the lower end from the needle bar and theoretically served to lengthen the stroke/throw of the needle.

Since it appears, the patent office didn’t consider O’Reilly’s “improvements” everything that innovative. They denied his application initially. Not because his invention was too just like Edison’s 1876 rotary device, but because it bore likenesses to Augustus C. Carey’s 1884 autographic pen patent (US Patent 304,613). They denied it a 2nd time citing British patent UK 3332 (William Henry Abbott’s sewing machine patent), perhaps owed to the reciprocating needle assembly. Rejection notes clarify that in connection with great britain patent it would not have involved invention to incorporate an ink reservoir for the Carey pen. (Carey’s patent already included specifications for a type of ink duct).

As a result of crossover in invention, O’Reilly needed to revise his claims many times before his patent was granted. This actually happened frequently. Patent law permits inventions based upon existing patents. But applicants need to prove their creation is novel and distinct. This may be tricky and may be one reason a lot of the early tattoo artists didn’t patent their ideas -though for many we know a few could have tried and failed. (Unfortunately, all pre-1920s abandoned patent applications have been destroyed).

In accordance with legend, twenty days after O’Reilly obtained his rotary patent from the United states, England’s Tom Riley allegedly obtained a British patent to get a single-coil machine. However, while Riley may have invented such a device, he didn’t patent it. A British patent isn’t on file. Much more likely, the story has been confused through the years. Pat Brooklyn -in their interview with Tom Riley entitled Pictures onto the skin -discusses one particular-coil machine Riley was tattooing within 1903, but doesn’t mention a patent just for this machine by any means. What he does inform is it: “The electric-needle was invented by Mr. Riley and his awesome cousin, Mr. S.F. O’Riley [sic]…and was patented by them on December 8, 1891, while it has since had several alterations and improvements designed to it.”

Since we know Riley wasn’t O’Reilly’s co-patentee, his claims within this interview were obviously embellished. Once the story was printed though, it absolutely was probably passed on and muddied with every re-telling. It adequately could have inspired the comments in George Burchett’s Memoirs of the Tattooist; that Riley obtained a British patent on December 28, 1891, which improved on O’Reilly’s patent by having six needles. The 1st British tattoo machine patent was actually issued to Sutherland MacDonald on December 29, 1894 (UK 3035) (note the similarity from the month and day with all the alleged Riley patent). Sutherland’s machine was cylindrical shaped with all the needles moving from the core of your electromagnetic coils inside, quite similarly to several of the cylindrical shaped dental pluggers and perforating pens in the era.

Taking into consideration the problems O’Reilly encountered along with his patent, it’s possible he enlisted help. The patent process entails consulting trusted experts and O’Reilly himself acknowledged that the “skilled mechanic” built his patent model. This could have been the machinist, inventor, and mechanical illusionist from England, named John Feggetter Blake, or “Professor Feggetter” to dime museum audiences. After arriving inside the United states in 1872, Blake obtained numerous patents for his inventions, the initial being a Three Headed Songstress illusion sponsored by Bunnell’s Dime Museum of brand new York. And, he was acquainted with O’Reilly.

National Archives and Records Administration; Washington, D.C.; Index to Petitions for Naturalizations Filed in Federal, State, and Local Courts in Ny City, 1792-1906 (M1674); Microfilm Serial: M1674; Microfilm Roll: 14

NARA; Washington, D.C.; Index to Petitions for Naturalizations Filed in Federal, State, and Local Courts in New York, 1792-1906. “40 South” was the location of Edwin Thomas’ tattoo shop before he was imprisoned for shooting his ex-girlfriend in 1890.

Not simply did Blake’s patent lawyers (John Van Santvoord and William Hauff) submit O’Reilly’s initial patent claim in July of 1891, but additionally, in October, not a long time after his patent claims were first denied, O’Reilly signed as being a witness on Blake’s naturalization application.

Although we can’t make certain that Blake was involved in the progression of O’Reilly’s invention, it’s striking that lots of of his inventions operated via pivots, levers, and fulcrums, just like O’Reilly’s tube assembly. Also, in the years just following O’Reilly’s patent Blake began patenting some electromagnetic contact devices.

Increasing intrigue, Blake was linked to John Williams, the dime show tattooer who claimed both he and O’Reilly discovered a “new method” of tattooing a few years earlier. Both had headlined together both in Boston and New York dime museums before Williams left for England.

Regardless of the link with one of these other men, O’Reilly holds the patent. Today, his invention is upheld as the ultimate tattoo machine of their day. As being the product of dedicated trials, O’Reilly’s patent machine significantly contributed to the advancement of tattoo machines. And, he certainly deserves the accolades for his efforts, especially for being the first to get a patent. But there’s some question whether he ever manufactured his invention -on the massive anyway -or whether it is in wide spread use at any point.

In 1893, just 2 years following the patent is at place, tattoo artist and vaudeville actor Arthur Birchman claimed he owned a couple of O’Reilly’s machines, but because he told the globe newspaper reporter there have been only “…four on earth, other two being in the possession of Prof. O’Reilly…”

O’Reilly’s comments inside an 1898 Ny Sun interview are equally curious. He stated which he had marketed a “smaller type of machine” over a “small scale,” but had only ever sold a couple of of those “he uses himself.”

These snippets infer: (1) that O’Reilly didn’t necessarily develop a large volume of the patent machines (2) that he had constructed multiple sort of machine between 1891 and 1898, and (3) the patent wasn’t the most preferred tattooing device for the duration of the 1800s.

The general implication is O’Reilly (as well as other tattoo artists) continued testing different machines and modifications, despite the patent was issued.

Media reports aren’t always reliable, of course. And, we’re definitely missing components of the puzzle. But there’s more. Additional evidence corroborates the use of a selection of needle cartridge in this era. So far, neither a working instance of O’Reilly’s patent model, nor a photograph of just one has surfaced. But a straight-handled adaptation of the Edison pen is depicted in several media photos. For a long time, this machine is a huge way to obtain confusion. The obvious stumper is definitely the missing crooked tube assembly. Ironically, the absence of this feature is actually a clue in itself. It indicates there was a different way to render the Edison pen operable for tattooing.

Anyone informed about rotary driven machines -associated with a sort -knows that proper functioning is contingent with the cam mechanism. The cam can be a machine part that changes a machine’s motion, usually from rotary motion to reciprocating motion, by working on a follower (i.e. needle/needle bar on a tattoo machine). Cams are available in varied sizes and shapes. An apt sized/shaped cam is essential to precise control and timing of any machine, and if damaged or changed, can affect the way a machine operates. How is it possible, then, that only altering the cam on Edison’s rotary pen may make it functional for tattooing? All the evidence implies that it was a serious part of the solution.

Thomas Edison paid special focus to the cam mechanism on his 1876 rotary pen. The cam was enclosed inside a nook near the top of the needle-bar, where the needle bar met the rotating shaft (axis). The rotating shaft (axis) was positioned from the direct center of the cam as well as the flywheel. As being the fly wheel revolved, and turned the rotating shaft, the cam turned from it, resulting in the needle-bar (follower) to go all around.

Inside the text of his 1875 British patent (UK 3762), Edison noted that this cam on his rotary pens may have “one or maybe more arms” acting upon the needle bar. Each year later, as he patented the rotary pen within the United states (US Patent 180,857), he specified that he’d chosen to implement a three pointed-cam (three-armed or triangle-shaped cam), because it gave three down and up motions on the needle per revolution, and so more perforations per revolution. Perhaps, after a little experimentation, Edison determined this type of cam shape best-produced the rapid movement required of his stencil pen. As you may know, it didn’t benefit tattooing. In O’Reilly’s words, it absolutely was too “weak” -the stroke/throw in the machine wasn’t for enough time -and wasn’t suitable for getting ink into the skin.

Current day rotary tattoo machines also greatly depend upon cam mechanics, but they’re fitted having a round shaped “eccentric cam” with an off-centered pin instead of an armed cam. Many of today’s rotary machines are constructed to suit a variety of different sized eccentric cams, which adjust the machine’s throw, so it can be used for either outlining or shading or coloring. i.e. larger cams lengthen the throw, smaller ones shorten it. (Note: The terms eccentric and cam are usually used interchangeably).

Did O’Reilly understand the purpose of the cam? Unfortunately, since O’Reilly’s foremost invention claims were the custom tube assembly and adding an ink reservoir, he wasn’t necessary to outline the cam or cam mechanism on his patent application. Be aware, however, that the cam on O’Reilly’s accompanying diagram is conspicuously diamond-shaped instead of three-pointed as on Edison’s rotary. Furthermore, it appears to be of larger proportion. If O’Reilly’s diagram applies-to-life, it suggests he was aware to a few degree that changing the cam would affect how the machine operated. Why, then, did he visit the greater extent of devising a complicated tube assembly?

Maybe O’Reilly wasn’t in a position to implement a cam that completely solved the adaptability issues in the Edison pen. It’s in the same way possible the modified tube assembly was intended to create the machine much more functional above and beyond a fitting cam. Frustratingly, we’ll probably never know. No matter what the case, apparently at some time someone (even perhaps O’Reilly) did locate a cam (or multiple cams) that worked sufficiently enough for tattooing.

Quite pertinently, a year plus a half following the 1891 patent is at place -in July of 1893 -the Boston Herald published an article about Captain Fred McKay of Boston, and distinctly described his tattoo machine as an “Edison electric pen” with a “larger eccentric” to “give the needle more play;” he used this particular machine both for outlining (with one needle) and shading (with seven needles).

Ever since the article doesn’t illustrate McKay’s machine, we can’t be 100% sure it didn’t include O’Reilly’s specialized tube assembly. However, it’s tough to explain why the Boston Herald reporter would have singled out the altered cam, a small hidden feature, across a large outward modification such as a re-configured tube assembly. Besides, all evidence indicates that altering the cam had been a feasible adaptation; one who also accounts for the existence of straight-handled Edison pen-tattoo machines. (See postscripts 1 & 2)

Did early tattooers use a variety of different size cams to modify the throw around the Edison pen? Were additional modifications required? Also, would the cam solution happen to be more or less effective than O’Reilly’s tube assembly system? And which came first? Who can say. Something is certain progression in technology requires ongoing trials -constant tinkering, testing, and sharing of knowledge. Patents are simply one element of this process.

O’Reilly’s patent innovations were important and surely triggered additional experimentation and discoveries. Simultaneously, there need to have been numerous un-patented inventions. It stands to reason that there were multiple adaptations in the Edison pen (In the March 4, 1898 Jackson Patriot news article, an ex-sailor named Clarence Smith claimed to have adapted the Edison pen for tattooing around 1890 by somehow “shortening the stroke” and “altering the needle”). Early tattooers without doubt constructed a miscellany of machines with diverse modifications, influenced by perforating devices, dental drills, engravers, sewing machines, telegraphs, telephones, and many other relevant devices; some we’ve never seen or check out and some that worked a lot better than others.

While care should be taken with media reports, the consistent using the word “hammer” inside the article invokes something besides an Edison pen; a dental plugger aka dental hammer is what comes to mind. (A visit hammer’s pivoting hammer arm shares an uncanny resemblance with all the like part on a dental plugger). That O’Reilly might have been tattooing with a dental plugger even after his patent is at place is not really so farfetched. The unit he’s holding in the image seen here in this 1901 article looks suspiciously similar to a dental plugger.

An additional report within an 1897 Nebraska Journal article, described O’Reilly outlining tattoos with a “stylus having a small battery on the end,” and putting in color with a similar, but smaller, machine using more needles. The article will not specify what sorts of machines these were, even though the word “stylus” implies a straight-handled device. Also, the truth that they differed in size, indicates they probably weren’t Edison pens, which in terms of we know started in one standard size.

The identical article goes on to illustrate O’Reilly’s shading machine, which operated by clockwork rather than electricity. It had fifty needles and was “actuated with a heavy [clockwork] spring.” This machine could possibly be the one depicted within a September 11, 1898 Chicago Tribune illustration of O’Reilly tattooing dogs. It appears just like other perforator pens of the era, an effective example being the pattern making device patented by British sewing machine manufacturers Wilson, Hansen, and Treinan (UK 5009)December 7, 1878. This piece of equipment had a find yourself mechanism similar to a clock and it is thought to have been modified for tattooing.

1899 Ev’ry Month Magazine. Another unique machine appears in a 1899 Ev’ry Month Magazine article about O’Reilly, England’s Sutherland McDonald, and Japan’s Hori Chiyo. The author of the article, however, didn’t offer specifics on this device.

Another unique machine appears inside an October 1899 Ev’ry Month Magazine article about O’Reilly, England’s Sutherland McDonald, and Japan’s Hori Chiyo. This writer of the article, however, didn’t offer specifics on this device.

An innovator of this era, who never obtained a patent for his invention, was “Electric” Elmer Getchell (1863-1940), a longstanding tattoo artist from Boston. Getchell’s descendants say he was “scholarly” and “a jack of trades,” skilled as being a steamboat captain, horseshoer, chemist, and water color artist. Family lore also says he was the inventor of the modern day electric tattoo machine.

Throughout the Spanish American war Getchell partnered with O’Reilly within his Ny Bowery shop at 5 Chatham Square. Ultimately, that they had a falling out. In accordance with documents from the U.S. District Court for the Southern District of brand new York, in April of 1899, O’Reilly filed charges against Getchell, claiming he had infringed on his patent by selling machines made according to the patent “within the district of Massachusetts and elsewhere,” which he was “threatening to help make the aforesaid tattooing machines in big amounts, and to provide you with the market therewith as well as to sell the same…” Getchell then hired a lawyer and moved to a new shop down the street at 11 Chatham Square.

Within his rebuttal testimony, Getchell clarified that his tattoo machine was not made “employing or containing any portion of the said alleged invention [patent].” He further proclaimed that O’Reilly didn’t even use the patent machine, since it was “impractical, inoperative, and wholly useless.” Most significantly, he maintained how the basis of O’Reilly’s machines was, in fact, designed by Thomas Edison.

The very last component of Getchell’s argument held particular weight. When he had likely borrowed ideas utilizing devices to generate his machine, even O’Reilly’s (i.e. an ink reservoir), he only were required to demonstrate the novelty of his invention, equally as O’Reilly had carried out with his patent. For an aside, Getchell called upon patent expert Octavius Knight to testify inside the case. Court documents usually do not specify whether Knight ever took the stand, but concerning the time he was supposed to appear, the truth was dropped.

So what was Getchell’s invention? Court papers make reference to 2 of Getchell’s machines, Exhibit A, the device he was currently using, and Exhibit C, a machine he’d supposedly invented in prior years. Unfortunately, neither is illustrated in virtually any detail. Tattoo artist Lew Alberts (1880-1954) described Getchell’s invention being a “vibrator” in a 1926 interview using the Winston-Salem Journal, that he differentiated from O’Reilly’s “electric needle.” The expression “vibrator” infers that Getchell’s machine operated by means of a vibrating electromagnetic motor. (Edison referenced his electromagnetic stencil pen as being a “vibrator.”)

Alberts’ description isn’t specific and might have described a number of electromagnetic devices. But a grainy picture of Getchell’s machine inside a 1902 New York City Tribune article looks very much like a current day tattoo machine, complete with an L-shaped frame and dual front-to-back (in step with the frame) electromagnetic coils.

A clearer duplicate with this image seen below -which once hung inside the tattoo shop of famous Norfolk, Virginia tattoo artist “Cap” Coleman and it is now housed inside the Tattoo Archive -settles any uncertainty over the matter. Getchell’s machine was absolutely of recent day build.

Evidently, Getchell had been using this sort of machine for quite a while. The 1902 New York Tribune article reported that he had invented it “a quantity of years” prior, inferably around the time O’Reilly brought charges against him. Perhaps even earlier. As noted, O’Reilly claimed Getchell had made and sold his machines “within the district of Massachusetts.” It’s quite likely that Getchell had invented the equipment involved before he permanently left his hometown of Boston, Massachusetts in 1897.

It’s well-established that modern tattoo machines are based on vibrating bell mechanisms -operated by two electromagnetic coils, which actuate the vibrating motion of the armature and hence the reciprocating motion of the needle. More specifically, what type with all the armature lined up with the coils. Vibrating bell mechanisms were quite powerful, ingeniously streamlined constructions employed in various types of alarms, annunciators, indicators, and doorbells from your mid-1800s on. Whether or not this was really Getchell or other people, who once more, made the intuitive leap of transforming a standalone electromagnetic mechanism in a handheld device, the bell tattoo machine had irrefutably taken hold from the turn of your century. Numerous period photos have turned up depicting quite modern looking machines.

We could never are aware of the precise date the 1st bell tattoo machine was developed. But it’s possible their seemingly sudden popularity is connected with the emergence of mail order catalogs responsible for bringing affordable technology for the door of your average citizen inside the late 1800s. Sears Roebuck and several other retailers set the trend when they began offering a wide range of merchandise through mail order; the assortment of electric bells (i.e. alarms, annunciators, and doorbells), batteries, wiring, et cetera would have provided a multiplicity of inspiration for tattoo artists.

Interestingly, the catalogs marketed some kinds of bells (particularly doorbells) as outfits, as a result of insufficient electrical wiring in most homes and buildings. They was comprised of battery power, wiring, and either a nickel or wood box encasing. There’s something to become said for the fact that tattoo machines were also later sold as “outfits,” including batteries and wiring. (In England, on March 24, 1900, Alfred South of England actually received a patent for a tattoo machine according to a doorbell mechanism (UK 13,359). It also included the doorbell encasing).

However tinkering tattoo artists were introduced to bells, the invention led the way to a completely new arena of innovation. With much variety in bells and also the versatility in their movable parts, tattoo artists could experiment with countless inventive combinations, good to go to use by using an excpetionally reliable mechanism.

Bell mechanisms were typically installed on a wood or metal base, so they might be hung on a wall. Its not all, however, many, were also fitted in a frame that had been designed to keep working parts properly aligned in spite of the constant jarring of the bell. With minor modification a bell mechanism, in particular those having a frame, may be removed from the wood or metal base and transformed into a tattoo machine; i.e. adding a needle bar, tube, along with a tube holder (vice) of some type.

The overall consensus is the earliest bell tattoo machines were developed/modified bell mechanisms, with a lot more parts, like the tube or vice, welded or screwed on. Later, as tattoo machines evolved, frames were cast from customized intact molds, then assembled with the addition of the adjustable parts; i.e. the armature, coils, needle bar, armature springs, binding posts, contacts, etc.

One particular bell setup provided the framework of a tattoo machine style known today as a “classic single-upright” -a unit by having an L-shaped frame, a vertical bar using one side along with a short “shelf” extending from the back side.

Machines with left-side uprights are called left-handed machines. Machines with right-side uprights are referred to as right-handed machines. (They have nothing with regards to regardless of if the tattoo artist is left-handed or right-handed).su4

It’s generally considered that left-handed machines came first, because the frame is akin to typical bell frames of the era. Right-handed machines, which eventually won out over left-handed machines, are viewed to get come along around or following the 1910s. However, as evidenced by the Getchell photo, right-handed tattoo machines were made with a significantly early date.

That’s not all. The reason why right-handed tattoo machines are thought to possess come later is because they are thought of as spin-offs of left-handed machines, the assumption being how the right side upright was actually a never-before-seen innovation implemented by an experimenting tattoo artist. (i.e. a frame casting mold was “invented” that positioned the upright in the right side rather than left side). As it appears, bell frames with right side uprights existed alongside their left-sided counterparts. Though they appear to have been rarer, they adequately could have provided the inspiration for right-handed tattoo machines.

You can find far too many bell-influenced adaptations to outline in this article. But one prominent example is the back return spring assembly modification containing often been implemented in needle cartridge throughout the years. On bells -without or with a frame -this set up includes lengthened armature, or perhaps extra steel pivoting piece, extended beyond the top back area of the armature. The armature or pivoting piece is steadied by two screws in a pivot point, a return spring is attached with the backmost end and anchored to bolt below. In accordance with one catalog description, these bells produced “a powerful blow” ideal for an alarm or railroad signal.

The setup on tattoo machines is similar, except a rubberband may also be used as opposed to a return spring. Basically, a rubberband or return spring is attached to the top, backmost part of a lengthened armature and after that secured to a modified, lengthened post towards the bottom end of the frame. The rear return spring essentially regulates tension and proper functioning, similar to the back armature spring on modern tattoo machines. (A good example of Walter Cleveland’s c. 1920s to 1940s version of this type of machine can be viewed inside the Tattoo Archive’s online store here).

The pivoting armature-return spring setup may have been first implemented at an early date. Notably, bells using the corresponding structure were sold by businesses like Vallee Bros. and Stanley & Patterson and Company from the mid-to-late 1890s.

Charlie Wagner implemented a variation on this idea in their 1904 patent machine (US Patent 768,413). His version consisted of a lengthy pivoting piece linked to the armature 20dexmpky bent downward at the 90 degree angle off the back of the appliance frame; the return spring was connected horizontally, between the bent down arm along with the machine, instead of vertically.

The pivoting armature-return spring set up actually goes back much further. It was actually an essential element of some of the early 1800s telegraph relay systems (though in telegraphs, the coils, armature, and return spring were positioned differently). To emphasize how much overlap there exists in invention, both of W.G.A. Bonwill’s twin-coiled dental plugger patents (as well as the improved, manufactured model) employed variants of the create. It shouldn’t come as a surprise. All things considered, Bonwill was inspired with the telegraph.

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