Honscn Co.,Ltd is committed to providing customers with well-designed and finished cnc machining truck original parts that optimize efficiency and minimize costs. To meet this objective, we've invested in high precision equipment, designed and built our own building, introduced production lines and embraced the principles of efficient production. We've built a team of quality people who devote themselves to getting the product done right, every time.
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Shenzhen Honscn is a professional manufacturer of CNC Machine Parts, Auto Lathe Machine Parts, and Screw Fasteners. We offer OEM and ODM service with any related products for customers. We have a professional team of product design and engineers, as well as a professional QC team, our sales and documentation and logistics departments can finish the requirements of presentation of documents under various payment methods and different transportation modes.
• We can make offcial drawings based on customer request, or customer will provide their drawings for us to quote price and make samples for approval.
• After receiving the samples, customers will do a test for the material, size and tolerance. If customer need to change the size or material, we can arrange second samples for approval. Until customer approved the samples, then we will confirm large order.
Meantime, we will test it before shipping samples. And all tests are strictly carried out according to industry standards.
• If confirmed the sample okay, the customer needs us to provide the Mill Test Crtificate of this product conforming to EU standards, such as CE, RoHS, REACH before placing order. All of our products are in accordance with all the European certification, such as CE, RoHS, REACH, etc., and all of them have prepared standard documents for customers checking.
• We start to prepare the order materials when customer confirm all the details such as material, size, tolerance, surface finish and other details of the final sample.
After the package such as qty, label, shipping mark etc. are provided by customer, we starts to arrange the mass production. After all the goods finished, send pictures to customer for approval. We promise the packag is same as customer requested, mass products are exactly the same as the final samples. The following photos of the shipment, the passing rate of the third-party inspection of our company is 100%.
• After receiving shipment of whole order, customer put it on the market immediately and became the most popular product in the market quickly, no matter from the traditional market, the market of high-end professional fasteners or the online sales in Amazon. We always pay much attention to the quality of our products, which is recognized by customers and repurchased constantly.
In the field of machining, after CNC machining process methods and division of processes, the main content of the process route is to rationally arrange these processing methods and processing sequence. In general, CNC machining of mechanical parts includes cutting, heat treatment and auxiliary processes such as surface treatment, cleaning and inspection. The sequence of these processes directly affects the quality, production efficiency and cost of the parts. Therefore, when designing CNC machining routes, the order of cutting, heat treatment and auxiliary processes should be reasonably arranged, and the connection problem between them should be solved.
In addition to the basic steps mentioned above, factors such as material selection, fixture design and equipment selection need to be considered when developing a CNC machining route. Material selection is directly related to the final performance of parts, different materials have different requirements for cutting parameters; The fixture design will affect the stability and accuracy of the parts in the process of processing; Equipment selection needs to determine the type of machine tool suitable for its production needs according to the characteristics of the product.
What do we have to do before arranging the CNC machining process route?
1, the processing method of precision machinery parts should be determined according to the characteristics of the surface. On the basis of familiar with the characteristics of various processing methods, mastering the processing economy and surface roughness, the method that can ensure the processing quality, production efficiency and economy is selected.
2, select the appropriate drawing positioning reference, according to the principle of crude and fine reference selection to reasonably determine the positioning reference of each process.
3, When developing the machining process route of the parts, it is necessary to divide the rough, semi-fine and finishing stages of the parts on the basis of the analysis of the parts, and determine the degree of concentration and dispersion of the process, and reasonably arrange the processing sequence of the surfaces. For complex parts, several schemes can be considered first, and the most reasonable processing scheme can be selected after comparison and analysis.
4, determine the processing allowance and process size and tolerance of each process.
5, select machine tools and workers, clips, quantities, cutting tools. The selection of mechanical equipment should not only ensure the quality of processing, but also be economical and reasonable. Under the conditions of mass production, general machine tools and special jigs should generally be used.
6, Determine the technical requirements and inspection methods of each major process.Determining the cutting amount and time quota of each process is usually decided by the operator for a single small batch production plant. It is generally not specified in the machining process card. However, in the medium batch and mass production plants, in order to ensure the rationality of production and the balance of rhythm, it is required that the cutting amount must be specified, and must not be changed at will.
cnc machining process arrangement
First rough and then fine
The processing accuracy is gradually improved according to the order of rough turning - semi-fine turning - fine turning. The rough lathe can remove most of the machining allowance of the workpiece surface in a short time, thereby increasing the metal removal rate and meeting the requirement of the uniformity of the allowance. If the residual amount left after the rough turning does not meet the finishing requirements, it is necessary to arrange a semi-finishing car for finishing. The fine car needs to ensure that the outline of the part is cut according to the drawing size to ensure the processing accuracy.
Approach first and then far
Under normal circumstances, the parts close to the tool should be processed first, and then the parts far away from the tool to the tool should be processed to shorten the moving distance of the tool and reduce the empty travel time. In the process of turning, it is beneficial to maintain the stiffness of the blank or semi-finished product and improve its cutting conditions.
The principle of internal and external intersection
For parts that have both an inner surface (inner cavity) and an outer surface to be processed, when arranging the processing sequence, the inner and outer surfaces should be roughed first, and then the inner and outer surfaces should be finished. Must not be part of the surface of the part (outer surface or inner surface) after processing, then processing other surfaces (inner surface or outer surface).
Base first principle
Priority should be given to the surface used as the finishing reference. This is because the more accurate the surface of the positioning reference, the smaller the clamping error. For example, when machining shaft parts, the center hole is usually machined first, and then the outer surface and end face are machined with the center hole as the precision basis.
The principle of the first and the second
The main working surface and assembly base surface of the parts should be processed first, so as to find out the modern defects on the main surface in the blank early. The secondary surface can be interspersed, placed on the main machined surface to a certain extent, before the final finishing.
The principle of the face before the hole
The plane outline size of the box and bracket parts is large, and the plane is generally processed first, and then the hole and other sizes are processed. This arrangement of processing sequence, on the one hand with the processed plane positioning, stable and reliable; On the other hand, it is easy to process the hole on the machined plane, and can improve the processing accuracy of the hole, especially when drilling, the axis of the hole is not easy to deviate.
Conclusion
When developing the machining process of parts, it is necessary to select the appropriate processing method, machine tool equipment, clamp measuring tools, blank and technical requirements for workers according to the production type of parts.
No machine can be made without holes. To connect the parts together, a variety of different sizes of screw holes, pin holes or rivet holes are required; In order to fix the transmission parts, various mounting holes are needed; The machine parts themselves also have many kinds of holes (such as oil holes, process holes, weight reduction holes, etc.). The operation of machining holes so that the holes meet the requirements is called hole machining.
The surface of the inner hole is one of the important surfaces of the mechanical parts. In mechanical parts, parts with holes generally account for 50% to 80% of the total number of parts. The types of holes are also diverse, there are cylindrical holes, conical holes, threaded holes and shaped holes. Common cylindrical holes are divided into general holes and deep holes, and deep holes are difficult to process.
Advantages of U drill
1. First of all, the difference between U drill and ordinary drill is that U drill uses the peripheral blade and the center blade, at this Angle, the relationship between U drill and ordinary hard drill is actually similar to the relationship between the machine clamping turning tool and the welding turning tool, and the blade can be replaced directly after the tool is worn without regrinding. After all, the use of indexable blades still saves material than the whole hard drill, and the consistency of the blade makes it easier to control the size of the part.
2. The rigidity of U drill is better, you can use a high feed rate, and the processing diameter of U drill is much larger than that of ordinary drill, the maximum can reach D50~60mm, of course, U drill can not be too small due to the characteristics of the blade.
3.U drill encounter a variety of materials only need to replace the same type of different grades of blade, hard drill is not so convenient.
4. Compared with hard drilling, the precision of the hole drilled by U drilling is still higher, and the finish is better, especially when the cooling and lubrication are not smooth, it is more obvious, and U drilling can correct the position accuracy of the hole, and hard drilling can not be done, and U drilling can be used as a bore knife.
Advantages of U drill in CNC machining
1. U drill can punch holes on surfaces with inclination angles less than 30~ without reducing cutting parameters.
2. After the cutting parameters of U drilling are reduced by 30%, intermittent cutting can be achieved, such as processing intersecting holes, intersecting holes, and phase perforation.
3. U drilling can realize the drilling of multi-step holes, and can boring, chamfer, eccentric drilling.
4. When drilling, the drilling chips are mostly short chips, and the internal cooling system can be used for safe chip removal, without cleaning the chips on the tool, which is conducive to the continuity of the processing of the product, shorten the processing time and improve efficiency.
5. Under the condition of standard length-diameter ratio, no chip removal is required when drilling with U drill.
6. U drill for indexable tool, blade wear without sharpening, more convenient replacement, and low cost.
7. The surface roughness value of the hole processed by U drilling is small, and the tolerance range is small, which can replace the work of some boring tools.
8. The use of U drilling does not need to pre-punch the center hole, and the blind hole bottom surface processed is relatively straight, eliminating the flat-bottom drill.
9. The use of U drilling technology can not only reduce drilling tools, and because U drilling is the head of the cemented carbide blade, its cutting life is more than ten times the ordinary drill, at the same time, there are four cutting edges on the blade, blade wear can be replaced at any time cutting, the new cutting saves a lot of grinding and replacing the tool time, can improve the average efficiency 6-7 times.
U drill in the use of CNC machine tools skills
1. When using U drill, the rigidity of the machine tool and the neutrality of the tool and the workpiece are high, so U drill is suitable for use on high-power, high-rigidity and high-speed CNC machine tools.
2. When using U drilling, the center blade should be used with good toughness, and the peripheral blade should be used with relatively sharp blades.
3. When processing different materials, should choose different groove blade, under normal circumstances, small feed, small tolerance, U drilling length to diameter ratio, choose the groove blade with smaller cutting force, on the contrary, rough machining, large tolerance, U drilling length to diameter ratio is small, then choose the groove blade with larger cutting force.
4. When using U drilling, we must consider the power of the machine tool spindle, the stability of U drilling clamping, the pressure and flow of cutting fluid, and control the chip removal effect of U drilling, otherwise it will greatly affect the surface roughness and dimensional accuracy of the hole.
5. When installing the U drill, it is necessary to make the U drill center coincide with the center of the workpiece and be perpendicular to the surface of the workpiece.
6. When using U drilling, the appropriate cutting parameters should be selected according to different parts materials.
7. When drilling test cutting, be sure not to reduce the feed or speed at will because of caution and fear, so that the U drill blade is damaged or the U drill is damaged.
8. When using U-drill processing, when the blade is worn or damaged, it is necessary to carefully analyze the reasons and replace the blade with better toughness or more wear-resistant.
9. When using U drill to process step holes, it is necessary to start processing from large holes and then process small holes.
10. When drilling, pay attention to the cutting fluid to have enough pressure in order to flush out the chips.
11. The blade used on the center and edge of the U drill is different, must not be misused, otherwise it will damage the U drill rod.
12. When drilling with U-drill, workpiece rotation, tool rotation, and simultaneous rotation of the tool and workpiece can be used, but when the tool is moved in a linear feed mode, the most common method is to use the workpiece rotation mode.
13. The performance of the lathe should be considered when machining on the CNC car, and the cutting parameters should be adjusted appropriately, generally reducing the speed and low feed.
U drill in CNC machining often appear problems
1. The blade is damaged too fast, easy to break, and the processing cost increases.
2. A harsh whistle is emitted during processing, and the cutting state is abnormal.
3. Machine jitter, affecting the machining accuracy of machine tools.
U drill use points to note
1. The installation of U drill should pay attention to the positive and negative directions, which blade is up, which blade is down, which is facing inside and which is facing outside.
2. The center height of U drilling must be corrected, according to its diameter size to require the control range, generally controlled within 0.1mm, the smaller the diameter of U drilling, the higher the center height requirements, the center height is not good U drilling two sides will wear, the aperture will be larger, the blade service life will be shortened, small U drilling is easy to break.
3. U drill has very high requirements for coolant, it must be ensured that the coolant is emitted from the center of U drill, the greater the pressure of the coolant, the better, the excess water outlet of the tower can be blocked up to ensure its pressure.
4, U drilling cutting parameters in strict accordance with the manufacturer's instructions, but also to consider different brands of blades, machine power, processing can refer to the load value of the machine tool size, make appropriate adjustments, generally using high speed, low feed.
5.U drill blade to check often, timely replacement, different blades can not be installed reverse.
6. According to the hardness of the workpiece and the length of the tool suspension to adjust the feed amount, the harder the workpiece, the larger the tool suspension, the smaller the cutting amount.
7. Do not use excessive wear of the blade, should be recorded in the production of blade wear and the relationship between the number of workpieces can be machined, timely replacement of new blades.
8. Use sufficient internal coolant with correct pressure. The main function of the coolant is chip removal and cooling.
9.U drill can not be used for processing softer materials, such as copper, soft aluminum, etc.
Honscn has more than ten years of cnc machining experience, specializing in cnc machining, hardware mechanical parts processing, automation equipment parts processing. Robot parts processing, UAV parts processing, bicycle parts processing, medical parts processing, etc. It is one of the high-quality suppliers of cnc machining. At present, the company has more than 50 sets of cnc machining centers, grinding machines, milling machines, high-quality high-precision testing equipment, to provide customers with precision and high-quality cnc spare parts processing services.
For a machine that not so long ago did not even exist, the uses for CNC machining centers have quickly become vast and continue to grow.
Woodworkers today are using these versatile machines for a variety of uses ranging from high-speed, flat-panel production work to very intricate carvings. Combining high speed boring with routing, profiling, cutting and other features, these computer-controlled marvels are being successfully utilized in shops that produce everything from beautiful high-end architectural woodwork to flanges for take up reels.
In the following pages, WOOD & WOOD PRODUCTS interviews woodworkers from around the country who have increased their productivity and accuracy while reducing labor costs through investments in CNC technology. Following are their stories.
SPEAKER MAKER USES CNC MACHINERY TO MAKE IT'S DIVERSE PRODUCT As an OEM supplier of audio speakers, the products that Tiffin, Ohio-based Ameriwood Industries International Inc. manufactures vary in size from small bookshelf-size speakers to large symphonic speakers.
Jim Harrington, plant manager of Ameriwood, said, "We do a variety of sizes and styles. We work with different types of materials, with different thicknesses and locations of holes. No two things are alike." Because of this product diversity, Ameriwood Industries (formerly Tiffin Enterprises) used to perform multiple machining operations for every item. Multiple operations meant that several workers had to handle each part, "and the more you handle it, the more opportunity there is for the product to be damaged," Harrington said.
To minimize parts handling -- and thus reduce their labor costs -- the company made an investment in a CNC machining center from Roger Stiles & Associates.
MACHINING CENTERS Vinyl overlayed particleboard is trimmed, cut-to-size, drilled and routed on the machining center. Computer programs are downloaded from a computer system directly into the machine's controller.
"We used CNC routers for a number of years," Harrington said. "The machining center is taking the place of routing and vertical-type drills." The machining center allows the company to do up to 12 workpieces at a time, Harrington said. After all the machining operations have been completed it is a "totally finished part" without need of further machining, Harrington added.
EFFICIENT PLANT HELPS COMPANY CONTROL COSTS In the past two years, Warvel Products-North Carolina has experienced dramatic price increases for the raw materials used to produce curved plywood components. These components are then sold to contract furniture manufacturers such as Haworth.
"We had 30 percent increases in our raw material costs," said sales manager Robbie Wiltcher, "so we have improved plant efficiency by purchasing machinery and technology that would allow us to absorb as much (of the price increase) as possible without passing these costs on. It is important for us as a vendor to help our customers be as competitive in their markets as possible." One of the ways Warvel did this was through the purchase of a multiple-station, four-axis CNC machining center from C.M.S North America. The machining center allows the company to mount up to six components at a time, and complements the company's existing three and five axis machining centers, Wiltcher said.
This is important, considering the amount of product which is shipped from the company's plant in Linwood, N.C. Approximately 100,000 parts a month are produced at the facility, the majority of which are customized. The company has a catalog with standard components, but Wiltcher said that 80 percent of the company's orders are made per customers specifications.
"The machine is capable of multiple machining tasks," Wiltcher said. "In most cases all that's left to do is light sanding and tee-nut installation where required." Another benefit, Wiltcher added, is the very tight tolerances obtained with the machine. The company supplies curved plywood which must integrate with plastic and steel components in ergonomic chairs.
"It is essential to be able to maintain tight tolerances in the various required operations such as drilling on angles, profiling and notching so that all of the different chair components fit together the way they were engineered. This machine provides all of these things," Wiltcher said.
To increase productivity even further, the company purchased machines and software that complement the machining center, including a digitizing machine. The digitizer will read a template part and the software will create a program which is downloaded into the machining center. The company also uses the system to internally produce its own compound tooling.
"The system has reduced the lead time on new tooling from months to days," said Wiltcher. "All of these capabilities assists our customers in bringing many new products to market rapidly and competitively." HIGH-TECH HELPS HIGH-END ARCHITECTURAL FIRM Powell Cabinet & Fixtures of Sparks, Nev., is a high-end architectural woodworking company whose work ranges from luxurious residences to glistening casinos.
The 42-year-old company, which bills itself as the oldest architectural woodworking company in the state of Nevada, is owned by the father/son team of Roger and Bill Powell.
One of the company's most recent projects was for the new Luxor Casino and Hotel in Las Vegas. The company did a variety of work at the hotel, including a 3 1/2-inch thick, 13-inch wide, solid-mahogany handrail that was built on a 255-foot radius. The handrail also featured solid-cast bronze support pieces and etched glass.
The handrail was manufactured utilizing a Komo VR 512 CNC machining center the company got in January 1993. Prior to that, the company had been doing everything with multiple machines. "The machining center is exceptional on irregular shapes and curves," Bill Powell said.
"It is more adaptable than to have a journeyman do it by hand. The radius work takes more time to program, but instead of having a journeyman woodworker spend several days on something, the machine will produce the same product in significantly less time." Powell added that there is a learning curve to the machine. "The purchase of the machine is just the first step," Powell said.
"The time that it takes to learn how to program and operate it is a major expense, as is the tooling and all the programming updates that are needed to keep up-to-speed." But while these factors need to be taken into account, Powell said he thinks it is becoming essential for companies to invest in high-technology equipment. According to Powell, one of the reasons the company purchased the machining center was because "the quantity of qualified, journeyman cabinetmakers that can produce this type of work is diminishing. You have to rely on the technical aspects of the industry to help fill that void," he said.
COMPANY GROWS A STEP AT A TIME When Denny Beuter and Bob Bloss formed Diamond Cut Inc. eight years ago they had a plan. The two men wanted their South Bend, Ind.-based company to become a leader in the field of commercial sound equipment. A daunting task made all the more difficult considering they did not own any sophisticated equipment.
"We went on the premise that we needed extremely good equipment to make a really good product," said Beuter. "But in order to get good equipment you have to have a product with enough volume to keep the machine running." What Beuter and Bloss did was to start slowly, acquiring equipment and producing parts for other companies. "We would do cutting and edging, anything to get work into the plant," Beuter said. "To sell machine time you have to do everything a little bit better than what the (source) companies can do in their own shop. We got real good, real fast, because otherwise we had to eat the cost of the job." From doing this job-shop-type-work, the next step was doing contract work. "My partner (Bloss), whose background is in the speaker business, went out (to speaker companies) and said, 'We can make speakers boxes for you and we can do them with high precision,'" Beuter said.
Diamond Cut began producing speaker cabinets for such companies as JBL and Panasonic. The product Panasonic wanted the company to produce necessitated an equipment upgrade. "The Panasonic people wanted a (speaker) box that was trapezoid shape," Beuter said. "This product would have been almost impossible to make with the router we were using." Beuter and Bloss chose a U-26 Morbidelli machining center from Tekna Machinery. The machine not only allows them to produce the trapezoidal shapes, it also has reduced labor costs. "For example, we had one full-time worker on the payroll whose only job was to make jigs, Beuter said. "I have no more jigs." While Diamond Cut has grown, with sales projected to reach around $2 million in 1994, the company continues to move toward that plan. In 1993, the company started a proprietary line of heavy-duty commercial sound equipment under the moniker, Bull Frog.
The Bull Frog equipment is sold throughout the United States and a number of countries around the world. "For 24-hours a day, for the last three months, we have been so busy with our own proprietary work that we have not been able to do any outside work, Beuter said.
"Hopefully by the end of the year we will be completely out of contract work." BOOTH MAKER FINDS SIGN TO SUCCESS Utilizing a variety of materials, Farmington Displays of Farmington, Conn., creates trade show displays for companies in industries as diverse as food, computers and guns.
Farmington Displays, which was founded in 1973 by Paul DiTommaso Sr., counts 278 companies as its clients. On average, Farmington Displays' clients update their booths every three to five years.
"We have a pretty good job flow," said general manager Sal DiTommaso, son of Paul Sr. and one of three sons and a daughter currently working for the company. "Not everybody is building their booth at the same time." Farmington Displays boasts an impressive client list, including General Electric, NEC and gun manufacturer Smith & Wesson. In the traditionally very labor-intensive field of display manufacturing, the company stands out for its use of high-technology equipment. More than three years ago, after extensive research on available machinery, the company began its investment in CNC machinery.
"The first thing that sparked my interest in obtaining CNC machinery was watching one of my men cutting out an eight-foot circle," said Sal DiTommaso. "It was so archaic, I just said there had to be another way to do it." Farmington Display's plant now features two Heian CNC routers and a computerized panel saw from Stiles Machinery, as well as a computerized graphic/design laboratories linked together as a Local Area Network.
The Heian machining centers have allowed the company to branch out into areas such as manufacturing signage and store fixtures. Farmington Displays had always created graphics for signs, but the CNC routers allow the company to manufacture them in-house. Additionally, the company is now doing contract machining for other, non-competing manufacturers.
To create their distinctive products, the company utilizes a variety of materials. On its CNC routers, the company utilizes everything from acrylics to solid woods. On a separate metal machining center the company works with brass and other metallic alloys. "We don't farm anything out," DiTommaso said. "We try to keep everything in-house so that we have complete quality control over the finished product." FAMILY-OWNED LUMBER YARD SEIZES CHANCE TO DIVERSIFY ITS BUSINESS In 1922, Hans Lars founded Hansen Lumber in Galesburg, Ill. Over the next 70 or so years, the business would be handed down from family-member to family-member, and would remain a traditional lumber yard.
It remained solely a lumber yard until two years ago when Hansen Lumber seized an opportunity to diversify. The company was asked to do some circular panel cutting for a Galesburg-based manufacturer of wooden reels. Approximately a year later that manufacturer, who believed the reel industry was going to dominated by the use of plastics, first contemplated shuttering the facility and then offered to sell the business -- and its client list -- to Hansen Lumber.
The family-owned company, currently being run by Shard Hansen, the founder's grandson, with help from his daughter Karen (the fourth-generation family member in the business), decided to purchase the company, and quickly realized the need to upgrade its equipment.
"Taking up wire or rope around a reel must be done at very high feed rates, especially if it is a small diameter wire, because unless your doing it at a 1,000 feel a minute it would take forever to wind," said Hansen, "so the arbor hole has to be exact. If the arbor hole is off center the whole thing will be jerking." A little more than a year ago the company purchased a CNC machining center from Accu-Router. The machine features two vertical routers, which can machine 1 1/2 inch southern yellow pine industrial grade plywood used for the flanges on the reels and maintains tight tolerances.
Prior to working with the machining center, the company would have to cut out a square and in subsequent steps radius the panel down to the required size and shape.
Having a high-technology machining center not only provides for accuracy, it also helps to utilize the plywood. "Our flanges range in size from eight inches to 48 inches round," said Hansen.
"When we are cutting the circles, we can nest them in such a fashion that we get great yield and waste is very nominal." CNC EQUIPMENT HELPS CARVING COMPANY MAKE BEAUTIFUL MUSIC Investing, not only in new equipment, but also in the training of its workforce has helped this Thomasville, N.C.-based carving company increase its capacity while reducing its overhead.
Founded in 1968, Piedmont Carving carves furniture parts -- specializing in chair parts -- and parts for such musical instruments as the cello and guitar.
Over the last few years, the company has sold some of its older carving machines and invested that money in computerized machinery including CNC Robot Carvers from Thermwood Corp.
"We used to have 13 carving machines and we would run all of them in one shift," said Gay Jones, who along with her twin brother Ray, and her father, company-founder Jimmy, own the business. "We sold three carving machines and still are projecting to triple our capacity with the robotic carvers." The company has reduced its labor costs in part by computerizing its carving, but also by cross training its 29 employees so that they can work on other machines in the shop.
Learning to efficiently use the CNC robot was a difficult challenge for the company, Gay Jones said, "but I'm glad we did because it gives us an advantage over companies who are just now getting into robotic carving." Piedmont Carving bought its first robotic carver four years ago. The company is planning to purchase additional machines.
One of the benefits of computerized machinery is consistency. This is important when Piedmont is crafting its furniture and musical instrument components.
"Chair parts have to fit together perfectly when they're sent to the manufacturer," Jones said. "With the robotic carving everything stays so consistent. This consistency is also very important when we are doing the musical instruments because the craftsmanship that goes into the part can affect the sound." CARVING WOOD PARTS 20 AT A TIME Intricate handcarvings are being quickly and accurately duplicated by Carving Research Inc. of Huntersville, N.C., using a 20-head Kitako CNC Machining Center distributed by Tekmatex Inc.
Carving Research is a 2-year-old, 12-employee company with projected 1994 sales of $840,000. The company supplies intricate wood carvings to such major residential furniture makers as Henredon Furniture Industries Inc. and Baker Furniture Co.
What once had to be done one at a time by master handcarvers can now be done 20 at a time by the company. This results not only in time savings but cost savings as well, without sacrificing the look of the product, according to company owner Tom Bowker. An example of the speed of the machine is a rice carved bed post; typically it would take a master handcarver approximately six to eight hours to complete, "while we can do it in an hour," Bowker said.
To produce the carvings, an initial handcarved template is made. This carving is sent to Tekmatex, where a digitizing machine creates a computer program which can be downloaded into the machining center. Once this program is completed, an infinite number of a given carving can be created with precision.
There are certain "essential ingredients" to creating the carvings, said Bowker. Tooling is one of the most important. Because of the nature of the product, the Carving Research utilizes unique tooling, including a razor-sharp veining bit developed by Oertli Woodworking Tools Inc. that leaves such a clean cut, that secondary carvings are not necessary, Bowker said. Another example is a 1/16-inch flat-bottom or straight router bit which is used on many of the carvings.
"Nobody else uses anything like that," Bowker said.
"Because of the intricacies of many of the carvings, we have to use a wider variety of tooling including some carbide tooling, than what you would use if running a normal carving operation. Many of our bits have to be small because you have to get in and do a cut and make it look like it was done with a chisel.