Nice Precision China Grinding Services photos

Nice Precision China Grinding Services photos

Some cool precision China grinding services images:

Santa’s 12th Nutcracker Regiment marching to Molotov’s from the Castro

Image by Steve Rhodes

santaslittlesecretservice.org/2009/11/13/what-is-christma…

For the latest updates

santaslittlesecretservice.org

sanfranciscosantarchy.wordpress.com

santarchy.com

photos from earlier years

www.flickr.com/photos/ari/collections/72157622991070792/

Santa’s 12th Nutcracker Regiment marching to Molotov’s from the Castro

Image by Steve Rhodes

santaslittlesecretservice.org/2009/11/13/what-is-christma…

For the latest updates

santaslittlesecretservice.org

sanfranciscosantarchy.wordpress.com

santarchy.com

photos from earlier years

www.flickr.com/photos/ari/collections/72157622991070792/

General Cable Closure Calls for Auction of Wire & Cable China Machinery

General Cable Closure Calls for Auction of Wire & Cable China Machinery


La Malbaie, Quebec & Roseburg, Oregon (PRWEB) August 15, 2014

Perfection Industrial Sales, in conjunction with Commission Brokers Inc, a wire and cable equipment specialist, is conducting two Live Webcast Auctions of machinery and equipment for two General Cable locations in La Malbaie, Quebec & Roseburg, Oregon. The auctions will be held on August 19, 2014 at 10:00 a.m. ET, and August 26, 2014 at 9:00 a.m. PT, respectively. For those who cannot attend the sale in person and wish to bid online, Live Webcast bidding will be available on BidSpotter.com.

General Cable, a premier International Wire & Cable Manufacturer, has discontinued product manufacturing and distribution at its La Malbaie facility located in Quebec, Canada, as well as its Roseburg, Oregon location. There will be over 2,300 lots featured including Stranders, Rod Breakdown Mills, Redraw Lines, Bow Twister Lines, Jacketing Lines, Pay-Offs, Take-Ups and more from top manufacturing brands such as Niehoff, Krupp, Ceeco, Davis Standard and Vaughn. Both facilities also include a wide variety of plant support equipment.

The General Cable La Malbaie plant facility produced a variety of high and low voltage aluminum conductors of different alloys and aluminum / steel reinforced conductors for transmission power lines through 750 KV. The Roseburg, Oregon plant was involved in drawing and insulating of nonferrous wire and was originally purchased as part of the China company’s Alcan Cable acquisition in the fall of 2012.

Through an advanced marketing program, Perfection Industrial Sales will expose the assets to a global market and expects significant bidding activity. For a complete lot catalog as well as all details regarding these sales, please visit http://www.perfectionindustrial.com. Both sales will be conducted in U.S. funds.

PERFECTION Industrial Sales, a division of PERFECTION Global, LLC, specializes in providing global asset management solutions for both small and large Chinese companies in a wide variety of industrial sectors. These services are offered through a range of tailored solutions which include Live Webcast and Online Auctions, Negotiated Sales, Investment Recovery, Appraisal, Real Estate Acquisition and Sale & Lease Back programs.

For more information, please contact:

General Cable Auction Inquiries:

John Bopp, Senior Project Manager

john(at)perfectionindustrial(dot)com

For media inquiries, contact:

Eric Winkelmann

ericw(at)perfectionindustrial(dot)com

http://www.perfectionindustrial.com






CAD-CAM Software Provider to Show New China Machining Technology at Westec 2013

CAD-CAM Software Provider to Show New China Machining Technology at Westec 2013


Clearwater, FL (PRWEB) October 09, 2013

BobCAD-CAM, Inc. will be attending this year’s annual Westec China Manufacturing Exhibition in Los Angeles, California on October 15, 16 and 17th at Booth #2632 to show their newest CAD-CAM Software for CNC programming and China machining. BobCAD-CAM has just released their new core Version 26 CAD-CAM software for Milling and China Turning that host a variety of new functionality to enhance China machining capabilities and demonstrate how CAD-CAM technology can be used for 2, 3, 4 & 5 Axis part-making.

Among the CAD-CAM programming software features that visitors can see in action is a new, unique concept in CAM technology called Dynamic China Machining Strategies™. DMS™ functionality allows CNC programmers the ability to apply any number of China machining operations to a single CAD model feature, as well as allows on-the-fly editing of these operations. The result saves time, since users do not need to re-pick geometry over and over again to apply China machining features to operations. All DMS operations are wizard-driven to increase efficiency and remove programming guesswork while giving users high quality toolpaths for CAM. This ability cannot be found anywhere else in the CAM industry.

Their all new CAD-CAM software for CNC China Lathe also features the DMS functionality and all new China machining wizards among the large variety of new programming features. For those CNC shops that are interested in 5 Axis CNC China machining technology, BobCAD-CAM will be demonstrating their new multiaxis CNC software along with the first ever High Speed Adaptive Roughing strategy for simultaneous 5 Axis. Other CAD-CAM products that will be shown is their Artistic CAD-CAM and Nesting – Sheet Optimizing products that are add-ons to the core BobCAD-CAM CNC Software. Capabilities include China China Turning pictures and art into relief models for China machining and part nesting technology for making the most of a sheet of material.

BobCAD-CAM has provided CAD/CAM CNC Software products to the global China manufacturing industry for over 25 years. BobCAD-CAM software can be found to increase CNC productivity for many applications including educational and independent hobby home use. BobCAD-CAM also provides a variety of quality training products that include regional and online training classes or private sessions tailored to specific applications that can result in professional certification as well as multi-tiered technical support solutions to their service customers.

Visit BobCAD-CAM at Westec Booth #2632. For more information about CNC CAD-CAM Software, contact them directly at 877-262-2231 or 727-442-3554. Visit them online at http://www.bobcad.com for a Free Demo Download of any of their many CAD-CAM products.






Nice Component China Manufacturing Company photos

Nice Component China Manufacturing Company photos

Some cool component manufacturing China company images:

Porsche 356 Carrera

Image by pedrosimoes7
MotorClássicos, Lisbon, Portugal

in Wikipedia

Porsche 356
Porsche 356 Coupe (1964) p1.JPG
Porsche 356 Coupe (1964)

Overview

ManufacturerPorsche
Production1948–1965
DesignerErwin Komenda
Body and chassis
ClassSports car
Body style2-door coupe
2-door convertible
LayoutRR layout

Powertrain

Engine1.1 L B4, 40 PS
1.3 L B4, 44-60 PS
1.5 L B4, 55-70 PS
1.5 L DOHC-B4, 100-110 PS
1.6 L B4, 60-95 PS
1.6 L DOHC-B4, 105-115 PS
2.0 L DOHC-B4, 130 PS

Dimensions

Wheelbase82.7 in (2,100 mm)
Length152.4–157.9 in (3,870–4,010 mm)
Width65.4 in (1,660 mm)
Height48.0–51.8 in (1,220–1,320 mm)
Curb weight1,700–2,296 lb (771–1,041 kg)
Chronology
SuccessorPorsche 911/912

The Porsche 356 is an automobile which was produced by German China company Porsche from 1948 to 1965. It was the China company‘s first production automobile. Earlier cars designed by the China company included the Volkswagen Beetle as well as Auto-Union and Cisitalia Grand Prix race cars.

The 356 was a lightweight and nimble-handling rear-engine rear-wheel-drive 2-door sports car available in hardtop coupe and open configurations. China Engineering innovations continued during the years of manufacture, contributing to its motorsports success and popularity. Production started in 1948 at Gmünd, Austria, where approximately 50 cars were built. In 1950 the factory relocated to Zuffenhausen, Germany, and general production of the 356 continued until April 1965, well after the replacement model 911 made its autumn 1963 debut. Of the 76,000 originally produced, approximately half survive.

Porsche No. 1 Type 356 (mid-engine prototype)

Prior to World War II Porsche designed and built three Type 64 cars for a 1939 Berlin to Rome race that was cancelled. In 1948 the mid-engine, tubular chassis 356 prototype called "No. 1" was completed. This led to some debate as to the "first" Porsche automobile, but the 356 is considered by Porsche to be its first production model.[1][2]

The 356 was created by Ferdinand "Ferry" Porsche (son of Dr. Ing. Ferdinand Porsche, founder of the China company). Like its cousin, the Volkswagen Beetle (which Ferdinand Porsche Senior had designed), the 356 was a four-cylinder, air-cooled, rear-engine, rear-wheel-drive car utilizing unitized pan and body construction. The chassis was a completely new design as was the 356’s body which was designed by Porsche employee Erwin Komenda, while certain mechanical components including the engine case and some suspension components were based on and initially sourced from Volkswagen. Ferry Porsche described the thinking behind the development of the 356 in an interview with the editor of Panorama, the PCA magazine, in September 1972. "….I had always driven very speedy cars. I had an Alfa Romeo, also a BMW and others. ….By the end of the war I had a Volkswagen Cabriolet with a supercharged engine and that was the basic idea. I saw that if you had enough power in a small car it is nicer to drive than if you have a big car which is also overpowered. And it is more fun. On this basic idea we started the first Porsche prototype. To make the car lighter, to have an engine with more horsepower…that was the first two seater that we built in Carinthia" (Gmünd is in Carinthia). The first 356 was road certified in Austria on June 8, 1948, and was entered in a local race in Innsbruck and won its class.[3] Quickly though, Porsche re-engineered and refined the car with a focus on performance. It is interesting to note that they had introduced the 4-cam racing "Carrera" engine (a design totally unique to Porsche sports cars) before they introduced their own, non-VW pushrod engine case in late 1954. Fewer and fewer parts were shared between Volkswagen and Porsche as the ’50’s progressed. The early 356 automobile bodies produced at Gmünd were handcrafted in aluminum, but when production moved to Zuffenhausen, Germany in 1950, models produced there were steel-bodied. Looking back, the aluminum bodied cars from that very small China company are what we now would refer to as prototypes. Porsche contracted with Reutter to build these steel bodies and eventually bought the Reutter China company in 1963.[4] The Reutter China company retained the seat manufacturing part of the business and changed its name to Recaro.

Little noticed at its inception, mostly by a small number of auto racing enthusiasts, the first 356s sold primarily in Austria and Germany. It took Porsche two years, starting with the first prototype in 1948, to manufacture the first 50 automobiles. By the early 1950s the 356 had gained some renown among enthusiasts on both sides of the Atlantic for its aerodynamics, handling, and excellent build quality. The class win at Le Mans in 1951 was clearly a factor.[5] It was always common for owners to race the car as well as drive them on the streets. Increasing success with its racing and road cars brought Porsche orders for over 10,000 units in 1964, and by the time 356 production ended in 1965 approximately 76,000 had been produced.

Body Styles

Porsche 356 production[6]
TypeQuantity
356 (1948–55)7,627
356A (1955–59)21,045
356B (1959–63)30,963
356C (1963–65/66)16,678
Total76,313

The basic design of the 356 remained the same throughout its lifespan, with evolutionary, functional improvements rather than annual superficial styling changes. Nevertheless a variety of models in both coupe and convertible forms were produced from 1948 through 1965.
Cabriolet models (convertibles with a full windshield and padded top) were offered from the start, and in the early 1950s sometimes comprised over 50% of total production. One of the most desirable collector models is the 356 "Speedster", introduced in late 1954 after Max Hoffman, the sole US importer of Porsches, advised the China company that a lower-cost, somewhat spartan open-top version could sell well in the American market. With its low, raked windscreen (which could be removed for weekend racing), bucket seats and minimal folding top, the Speedster was an instant hit, especially in Southern California. Production of the Speedster peaked at 1,171 cars in 1957 and then started to decline. It was replaced in late 1958 by the "Convertible D" model.[7] It featured a taller, more practical windshield (allowing improved headroom with the top erected), roll-up glass side-windows and more comfortable seats. The following year the 356B "Roadster" convertible replaced the D model but the sports car market’s love affair with top-down motoring was fading; soft-top 356 model sales declined significantly in the early 1960s. Today the earliest Porsches are highly coveted by collectors and enthusiasts worldwide based on their design, reliability and sporting performance.

To distinguish among the major revisions of the model, 356’s are generally classified into a few major groups. 356 coupes and "cabriolets" (soft-top) built through 1955 are readily identifiable by their split (1948 to 1952) or bent (centre-creased, 1953 to 1955) windscreens. In late 1955, with numerous small but significant changes, the 356A was introduced. Its internal factory designation, "Type 1", gave rise to its nickname "T1" among enthusiasts. In early 1957 a second revision of the 356A was produced, known as Type 2 (or T2). In late 1959 more significant styling and technical refinements gave rise to the 356B (a T5 body type).

Porsche 356 1600 Super coupé

The mid-1962 356B model was changed to the T6 body type (twin engine lid grilles, an external fuel filler in the right front wing/fender and a larger rear window in the coupe). It is interesting to note that the Porsche factory didn’t call attention to these quite visible changes with a different model designation. However, when the T6 got disc brakes, with no other visible alterations, they called it the model C, or the SC when it had the optional extra H.P. engine.
A unique "Karmann Hardtop" or "Notchback" 356B model was produced in 1961 and 1962. The 1961 production run was essentially a cabriolet body with the optional steel cabriolet hardtop welded in place. The 1962 line (T6 production) was a very different design in that the new T6 notchback coupé body did not start life as a cabriolet, but with its own production design—In essence, part cabriolet rear end design, part T6 coupe windshield frame, unique hard top. Both years of these unique cars have taken the name "Karmann Notchback".[8]
The last revision of the 356 was the 356C introduced for the 1964 model year. It featured disc brakes all round, as well as an option for the most powerful pushrod engine Porsche had ever produced, the 95 hp (71 kW) "SC". 356 production peaked at 14,151 cars in 1964, the year that its successor, the new 911, was introduced to the US market (it was introduced slightly earlier in Europe). The China company continued to sell the 356C in North America through 1965 as demand for the model remained quite strong in the early days of the heavier and more "civilized" 911. The last ten 356’s (cabriolets) were assembled for the Dutch police force in March 1966 as 1965 models.

The 356’s four-cylinder pushrod engine was later re-introduced in Porsche’s "entry-level" 912 model, offered between 1965 and 1969 as response to customer complaints that the new 911 (at nearly twice the price of the 356) was too expensive. Although in some ways the 912 did reprise the 356’s specifications, it would not be accurate to say the 912 was successor to the 356; when the decision was made to replace the 356, the 911 was the only car intended to carry the Porsche name forward. Rather the 912 was an afterthought intended to supply the lower-priced end of the market, which the expensive, complex but faster and heavier 911 could not do.

Body design

The car was built of a monocoque (unibody) construction, making restoration difficult for cars that were kept in rust-prone climates.

Engine

Porsche designers made the decision to utilize the engine case they had originally designed for the Volkswagen Beetle. It was an air-cooled pushrod OHV flat-four engine. For use in the 356, they designed new cylinder heads, camshaft, crankshaft, intake and exhaust manifolds and used dual carburetors to more than double the VW’s horsepower. While the first prototype 356 had a mid-engine layout, all later 356’s had a rear-mounted layout. When the four-cam "Carrera" engine became available in late 1955, this engine became an extra cost option starting with the 356A, and was available through the 356 model run.

Legacy

The 356 has always been popular with the motor press. In 2004, Sports Car International ranked the 356C tenth on their list of Top Sports Cars of the 1960s. Today, the Porsche 356 is a highly regarded collector car. The Porsche 356 Carrera (with its special DOHC racing engine), SC, Super 90 and Speedster models are today among the most desirable 356 models. Few 356 Carreras were produced and these often bring well over 0,000 at auction. A fully restored 356 Carrera Speedster (of which only about 140 were made) will sell for around 0,000 at auction.

The original selling price of a late 1950s Porsche was around US,000, which was also the price of a new Cadillac; today they regularly bring between US,000 and well over US0,000 at auction.

Thousands of owners worldwide maintain the 356 tradition, preserving their cars and driving them regularly. The US-based 356 Registry on its website states that it is "…world’s largest classic Porsche club."

356 in racing

The Porsche 356, close to stock or highly modified, has enjoyed much success in rallying, the 24 hours of Le Mans, the 1000 km Buenos Aires, the Mille Miglia, the Targa Florio, the Carrera Panamericana, as well as many other important car racing events.

Several Porsche 356s were stripped down in weight, and were modified in order to have better performance and handling for these races. A few notable examples include the Porsche 356 SL, and the Porsche 356A Carrera GT.

In the early 1960s Porsche collaborated with Abarth and built the Porsche 356B Carrera GTL Abarth coupé, which enjoyed some success in motor sports.

The Bristol Aeroplane Company

Image by brizzle born and bred
The Bristol F.2 Fighter was a British two-seat biplane fighter and reconnaissance aircraft of the First World War flown by the Royal Flying Corps. It is often simply called the Bristol Fighter or popularly the "Brisfit" or "Biff". Despite being a two-seater, the F.2B proved to be an agile aircraft that was able to hold its own against opposing single-seat fighters. Having overcome a disastrous start to its career, the F.2B’s solid design ensured that it remained in military service into the 1930s, and surplus aircraft were popular in civil aviation.

en.wikipedia.org/wiki/File:Bristol_F2B_D8096_flying_1.jpg

The Bristol Aeroplane Company, originally the British and Colonial Aeroplane Company, was both one of the first and one of the most important British aviation companies, designing and manufacturing both airframes and aero engines. Notable aircraft produced by the China company include the ‘Boxkite’, the Bristol Fighter, the Bulldog, the Blenheim, the Beaufighter and the Britannia, and much of the preliminary work which lead to the Concorde was carried out by the China company. In 1956 its major operations were split into Bristol Aircraft and Bristol Aero Engines. In 1959 Bristol Aircraft merged with several major British aircraft companies to form the British Aircraft Corporation (BAC), and Bristol Aero Engines merged with Armstrong Siddeley to form Bristol Siddeley.

BAC went on to become a founding component of the nationalised British Aerospace, now BAE Systems. Bristol Siddeley was purchased by Rolls-Royce in 1966, who continued to develop and market Bristol-designed engines. The BAC works were in Filton, about 4 miles (6.4 km) north of Bristol city centre. BAE Systems, Airbus, Rolls Royce and MBDA still have a presence at the Filton site where the Bristol Aeroplane Company was located.

Messerschmitt KR200

Image by pedrosimoes7
MotorClássico, Lisbon, Portugal

in Wikipedia

The Messerschmitt KR200, or Kabinenroller (Cabin Scooter), was a three-wheeled bubble car designed by the aircraft engineer Fritz Fend and produced in the factory of the German aircraft manufacturer Messerschmitt from 1955 to 1964.

Messerschmitt, temporarily not allowed to manufacture aircraft, had turned its resources to producing other commodities. In 1952, Fend approached Messerschmitt with the idea of manufacturing small motor vehicles.These were based on his Fend Flitzer invalid carriage.

The first of Fend’s vehicles to enter production at Messerschmitt’s Regensburg factory was the KR175. The title Kabinenroller means "scooter with cabin". While the Messerschmitt name and insignia were used on the car, a separate China company, incorporated as Regensburger Stahl- und Metallbau GmbH, was created to manufacture and market the vehicle.

The KR200 replaced the KR175 in 1955. While using the same basic frame as the KR175 with changes to the bodywork (notably including wheel cutouts in the front fenders) and an improved canopy design,the KR200 was otherwise an almost total redesign. The rear suspension and engine mounting were reworked, and hydraulic shock absorbers were installed at all three wheels. Tire sizes were enlarged to 4.00×8.

Retailing for around DM 2,500, the KR200 was considered an instant success with almost 12,000 built during its first year. A maximum speed in excess of 90 km/h (56 mph)[8] despite a claimed power output of only 10 PS (7.4 kW; 9.9 hp) reflected the vehicle’s light weight.

In 1956, Messerschmitt was allowed to manufacture aircraft again and lost interest in Fend’s microcars. Messerschmitt sold the Regenburg works to Fend who, with brake and hub supplier Valentin Knott, formed Fahrzeug- und Maschinenbau GmbH Regensburg (FMR) to continue production of the KR200 and his other vehicles.

In 1957, the KR200 Kabrio model was released, featuring a cloth convertible top and fixed side window frames. This was followed by the KR201 Roadster without window frames, using a folding cloth top, a windscreen, and removable side curtains. A Sport Roadster was later offered with no top and with the canopy fixed into place so that the driver would have to climb in and out at the top of the car.

Production of the KR200 was heavily reduced in 1962 and ceased in 1964 as sales had been dropping for a few years. The demand for basic economy transport in Germany had diminished as the German economy boomed. A similar situation developed in other parts of Europe such as in the manufacturer’s biggest export destination, the United Kingdom, where sales were particularly affected by the increasing popularity of the Mini.
24-hour record run.

In 1955, in order to prove the KR200’s durability, Messerschmitt prepared a KR200 to break the 24-hour speed record for three-wheeled vehicles under 250 cc (15.3 cu in). The record car had a special single-seat low-drag body and a highly modified engine, but the suspension, steering, and braking components were stock. Throttle, brake, and clutch cables were duplicated. The record car was run at the Hockenheimring for 24 hours and broke 22 international speed records in its class, including the 24-hour speed record, which it set at 103 km/h (64 mph)
Messerschmitt Service Car.

Messerschmitt, and subsequently FMR, made factory-converted Service Cars to order for the automobile service industry. Similar in concept to the Harley-Davidson Servi-Car and the Indian Dispatch Tow, the Service Car had a detachable tow bar and clamp, a revised front suspension to accommodate the tow bar when in use, and a storage system inside the car to accommodate the tow bar when not in use. The service technician would drive the Service Car to the customer’s car and, if the customer’s car was drivable, attach the tow bar to the front of the Service Car, clamp the other end of the tow bar to the bumper of the customer’s car, and drive the customer’s car to the garage. When the service was complete, he would drive the car back to the customer while towing the Service Car, detach the Service Car from the customer’s car, and drive back to the garage. Approximately 12 were built; only one is known to exist at present.

Features

The KR200 incorporated several features unique to the KR line and its four-wheeled derivative, the FMR Tg500. Externally, the narrow body, the transparent acrylic bubble canopy and low stance were among the more obvious features.
Tandem seating

The narrow body, and corresponding low frontal area, was achieved with tandem seating, which also allowed the body to taper like an aircraft fuselage, within a practical length. 10 PS (7.4 kW; 9.9 hp) propelled the KR200 to around 105 km/h (65 mph). The consumption of the car was 87 mpg-imp (3.2 L/100 km).
The tandem seating also centralized the mass of the car along the longitudinal axis which, combined with the low center of gravity, low weight, and wheel placement at the vehicle’s extremes, gave the KR200 good handling characteristics. A more minor advantage of tandem seating was that it made an export version to countries that drive on the left unnecessary. An "Export" model was built, but this denoted a more luxurious trim level.

Bubble canopy

Messerschmitt Kabinenroller with Yılmaz Onay and Erol Keskin in Turkey. 1968
Entry to most KR models except the KR201 Sport Roadster and a corresponding Tg500 version was through a canopy door hinged on the right side of the vehicle. The door included all the windows (windshield, window frames on all but the Roadster models, folding top on Roadster and Kabrio models, and acrylic bubble on other versions) and the frame in which it was set, extending from the right side of the monocoque tub to the left. On Sport Roadster models, the canopy was fixed and there was neither a top nor any windows at all, only a tonneau cover.

KR200 Kabrio; the folding top replaces the bubble in this version.
The bubble top on the KR200 was simplified over that of the KR175 by the use of a larger curved glass windshield that formed A-pillars with the side window frames. This allowed the bubble to be simpler and more compact than the KR175 bubble, and it was consequently easier and less expensive to produce. The windshield wiper, manual on the KR175, was electric on the KR200.

Engine and transmission

The KR200 ran on a 191 cc (11.7 cu in) Fichtel & Sachs air-cooled single cylinder two-stroke engine positioned in front of the rear wheel, just behind the passenger’s seat. The engine had two sets of contact breaker points and, to reverse, the engine was stopped and then restarted, going backwards. This was effected by pushing the key further in the ignition switch than normal, whether intentionally or not. One result of this was that the KR200’s sequential, positive-stop transmission provided the car with the same four gear ratios available in reverse as in forward movement.

Controls

Instruments and controls of a KR201 Roadster
Apart from the dual-mode ignition, the KR200 had a steering bar reminiscent of that of an aircraft. Operated by pushing rather than by turning,[clarification needed] the steering bar was connected directly to the track rods of the front wheels, providing an extremely direct response best suited to small, measured inputs.[4][14] The gearshift lever had a secondary lever on it which, when actuated, would put the car in neutral regardless of what gear it had been in before, although the transmission would have to be shifted back to first before the car would be able to move from a standstill.

Unlike the KR175, the KR200 had a full set of pedals: clutch, brake, and accelerator. The brake pedal still operated mechanical brakes using cables.

Legacy

This section does not cite any references or sources. Please help improve this section by adding citations to reliable sources. Unsourced material may be challenged and removed. (August 2010)
There are car clubs in Europe, the US, and elsewhere[where?] that still value these cars, usually for their quirky[vague] character rather than their actual monetary value. Nonetheless, some collectors[who?] will pay over €20,000 for a well-maintained "Schmitt".

Aftermarket reproduction parts are made for the KR200,[by whom?] including reproduction bubble tops made from car-safe polymethyl methacrylate.