CNC ROTARY DRILLING MACHINE CAPACITY 25 MM DRILL CAPACITY 600MM DIAMETER 600 MM LENGTH CNC Controller Unit Manages the drilling process using programmed instructions (G-code). Allows for automation and repeatable precision. Rotary Spindle (Drill Head) Holds and rotates the drill bit. Can be high-speed and capable of handling various tool types. Tool Holder/Changer Holds different drill bits. . Worktable / Rotary Axis (4th or 5th Axis) Supports the workpiece and allows rotation or tilt for complex drilling angles. Servo Motors and Drives Provide precise movement for X, Y, Z (and sometimes A/B axes). Ensure accurate positioning. Coolant System Prevents overheating and removes chips during drilling. Includes nozzles, pump, and reservoir. Chip Removal System Maintains cleanliness and reduces wear. Enclosure/Safety Guards Protects the operator from debris, noise, and moving parts. May be soundproof and include emergency stops. Lubrication System Ensures smooth motion of moving parts. Reduces wear and increases machine life. User Interface / HMI (Human-Machine Interface) Touchscreen or keypad interface. Allows manual input, monitoring, and program loading.

SATYAM AUTOMATION AUTOLODER DRILLING MACHINE , HANDEL LOCK PISTON DRILLING MACHINE, VIDEO YOUTUBE CHANEL SATYAM AUTOMATION An autoloader drilling machine is an industrial equipment designed to automate the loading and unloading of materials into a drilling machine for precise and efficient drilling operations. The manufacturing process of such machines involves a combination of mechanical, electrical, and automation components. Below is an outline of the steps involved in manufacturing an autoloader drilling machine: 1. Design and Engineering Conceptualization: The design team begins by understanding the application, material requirements, and automation needs. They will consider factors like drilling depth, speed, precision, and material handling capacity. CAD Design: Engineers use CAD (Computer-Aided Design) software to create detailed blueprints and models of the autoloader drilling machine. This includes mechanical components (drill head, spindle, frame), electrical systems (motors, sensors, control units), and automation elements (robots or conveyors for material loading and unloading). Prototype Development: A prototype or a pilot model is built to test and validate the design. This helps in assessing the feasibility and any potential issues before full-scale manufacturing. 2. Procurement of Raw Materials Structural Materials: High-strength steel, aluminum, or other metals are used for building the frame and base structure. Components for Drilling Mechanism: Drill bits, spindles, and other consumables used in the drilling process are sourced. Automation Components: Motors, servos, and robotic arms for autoloading mechanisms are procured from automation suppliers. Electrical Components: Control panels, wiring, sensors, PLCs (Programmable Logic Controllers), and other electronic parts are bought from specialized vendors. 3. Fabrication of Parts Frame Construction: The structural frame of the machine is fabricated from steel or other materials. This frame holds all the components and supports the weight during operations. Drill Head and Spindle Assembly: The drill head, spindle, and other critical components are manufactured or sourced from suppliers. Precision machining and balancing are important at this stage to ensure smooth and accurate drilling operations. Automation System Assembly: The autoloader mechanism involves robotic arms or conveyors to automatically load the material onto the drill and unload it after drilling. Components like motors, actuators, and sensors are integrated into this system. 4. Assembly of Components Mechanical Assembly: The frame, drill head, and other mechanical components are assembled together, ensuring precise alignment and smooth operation. Electrical Wiring: The electrical components such as motors, PLC systems, control panels, and sensors are connected to the machine. Autoloader Integration: The autoloader mechanism (such as robotic arms or conveyor systems) is integrated with the drilling system. This involves setting up the automation control systems that coordinate the movement of materials into and out of the drill. PLC Programming: The machine’s programmable logic controller (PLC) is programmed to control the operation of the drilling machine and autoloader system. This will include automating processes like material loading, drilling speed, and unloading, ensuring consistent production. 5. Testing and Quality Control Operational Testing: The assembled machine undergoes rigorous testing. The machine’s functionality, including material loading, drilling, and unloading, is thoroughly tested. Precision Checks: The accuracy of drilling is verified, ensuring that holes are drilled at the right depth and location with minimal deviation. Automation System Check: The autoloader is checked for reliability, ensuring that the material is accurately loaded, drilled, and unloaded without any errors or delays. Safety Checks: Safety features, including emergency stop mechanisms, safety shields, and sensor systems, are tested to ensure compliance with industry safety standards.

CONNECTING ROD BORING MACHINE VIDEO LINK :- https://youtu.be/hT6iLUsgt9Q?si=oxNZbudu0StLVIhT Title: 'Revolutionizing Engine Performance: The Benefits of Using a Fully Automatic Connecting Rod Boring Machine VMC Typ' In the fast-paced world of automotive engineering, achieving precision and efficiency in engine components is paramount. One such component that plays a crucial role in engine performance is the connecting rod. To ensure optimal functionality and longevity of this vital part, the use of a fully automatic connecting rod boring machine VMC Typ has become increasingly popular among manufacturers and machine shops. What sets the fully automatic connecting rod boring machine VMC Typ apart from traditional manual machines is its advanced technology and automated functions. This state-of-the-art machinery is designed to accurately bore out connecting rod holes with unmatched precision and speed. By utilizing computerized controls and innovative machining techniques, this machine can achieve superior results in a fraction of the time compared to manual operations. One of the key benefits of using a fully automatic connecting rod boring machine VMC Typ is its ability to consistently produce high-quality and precise results. With the machine's advanced features and automated processes, manufacturers can ensure that each connecting rod meets the exact specifications and tolerances required for optimal engine performance. This level of precision is essential for maintaining the integrity and reliability of the engine, ultimately enhancing overall performance and longevity. Furthermore, the fully automatic nature of the machine means that operators can significantly reduce the time and labor required for boring out connecting rod holes. With fewer manual interventions and adjustments needed, manufacturers can streamline their production processes and increase their overall efficiency. This not only translates to cost savings but also allows for greater output and faster turnaround times. In addition to its precision and efficiency, the fully automatic connecting rod boring machine VMC Typ also offers versatility and adaptability. Its computerized controls and programmable settings allow for customization and optimization based on specific requirements and preferences. This level of flexibility enables manufacturers to accommodate a variety of connecting rod sizes and configurations, making it a versatile and valuable asset for any machine shop. In conclusion, the fully automatic connecting rod boring machine VMC Typ represents the future of engine component machining. With its advanced technology, automated functions, and unmatched precision, this machine is revolutionizing the way connecting rods are manufactured. By investing in this innovative machinery, manufacturers can expect to achieve superior results, increase efficiency, and propel their engine performance to new heights.

CNC TURNINGMACHINE 100X200 Chuck Size 135 mm Model Pro 100 Series Maximum Turning Diameter 150mm Applicable Industry Aerospace, Automobile, Shipbuilding, Agriculture, Die & Mould, Defence Job Material Aluminium, Stainless Steel (SS), Mild Steel (MS), Tool Steel, Brass, Titanium Swing Over Bed Diameter 200mm Cross (X-Axis) Travel 450mm Longitudinal (Z-Axis) Travel 280mm Rapid Traverse Rate (X/Z Axis) 24m/min Spindle Nose A2-4 Spindle Bore 32mm Maximum Bar Capacity 30mm Spindle Speed 50-3500RPM Spindle Motor 5.5KW, 5.5KW Number of Tools 8 Tool Size 25 X 25 mm Machine Weight 2000 kg, 2000 kg Machine Condition New Country of Origin Made in India Product Description In today's competitive market, you need robust CNC turning centers with uncompromised performance and specifications to produce world class products quickly accurately and with minimum non productive time. #CNCTURNINGMACHINE #CNCTURNINGMACHINESPM #CNCMACHINEINRAJKOT #CNCTURNINGCENTER #CNCMACHINE100X200 #SPMMACHINE #AUTOMATIONMACHINE #HIGHSPEEDMACHINE

S S NIPPLE TURNING&THREADING SPM MACHINE THIS MACHINE ALL PART TURNING AND THREADING APPLICATION ARE ACCEPT , PIPE TURNININ THREADING ALL FUTURE ARE AVAILABEL Characters: 1. We set up TRB (tapered rolling bearings) on this lathe to increase the rigidity of the spindle. 2. The spindle bore is very large and set up double chucks both front and back and you can choose electric chucks as you like. 3. The surface of the slide rail of the bed is treated by the super audio quench, which can be endurable and wear-resisting. 4. The slide rail f saddle is treated by wear-resisting layer coated, to avoid the crawling. 5. There are two types of speed change: Manual and step less. 6. Set up self lubrication system, and easy to maintain. #SSNIPPLETURNINGMACHINE #SSNIPLETHREADINGMACHINE #CNCTURNINGMACHINR #LATHEAUTOMATION #LATHERETROFITTING #PIPETURNINGMACHINE #PIPETHREADINGMACHINE #SPMMACHINERAJKOT #AUTOMATIONRAJKOT #SPMTURNINGMACHINEINRAJKOT #SPECIALREQURMENTMACHINEINRAJKOT

THISMACHINE IS AUTOMATIC DRILLING MACHINE IN HEAVY DUTY DRILL MACHINE , HEAVY DRILLING CAPACITY Deep hole machining is a method of producing holes with relatively large depth to diameter ratio.AND high speed It is a great solution for applications that require high material removal rates and accuracy.and high production machine, It can also be used for shorter holes if high productivity is required.spm machine Find your range of deep hole machining drills and solutions for CNC systems and easy programing #AUTODRILL #AUTOMATICDRILL #CNCDRILL #HEAVYAUTOMATICDRILL #PLCSYSTEMDRILL #PCDDRILLMACHINE #HIGHPRODUCTIONDRILLINGMACHINE #SPMDRILLINGMACHINE

SPM DRILLING &TAPPING MACHINE » Compact 3-axis CNC Drilling & Tapping Machining Center. » Main spindle built with integral motor with oil cooling for high speed applications. » Preloaded linear recirculating guideway system for X, Y, and Z axis for high speed positioning. » AC servomotors for feed drive. » Spindle orientation and power draw bolts. » Rigid tapping - 1 pitch per 1 revolution. » Turn table with pallet. » Efficient coolant and chip disposal. » Automatic cyclic lubrication system. » Coolant through spindle (optional) » Guideway protection through telescopic and bellow covers. » Useful for auto & auto ancillaries, electrical & electronics industries, instrumentation, defence, aerospace & general engineering industry for machining on steel, cast iron, aluminium #SPMDRILLING&TAPPINGMACHINE #DRILLANDTAPPINGMACHINE #AUTOMATICDRILLANDTAPPINGMACHINE #DRILLANDTAPPINGOPRATIONMACHINE #DRILLINGSPECIALAUTOMATICMACHINE #TAPPINGSPECIALAUTOMATICMACHINE #CNCDRILLMACHINE #SMALL(MIN)DRILLCNCMACHINE

SATYAM AUTOMATION CNC MACHIN FOR SPM What Is CNC? (CNC Definition) CNC Machining is a manufacturing process where computers run programs that control how the machines will manufacture parts. These CNC Programs using CNC Software can control everything from the motions the machine makes to spindle speed, turning coolant on or off, and much more. The computer language used to program CNC Machines is a standardized programming language called “G-Code”. To make it easier, g-code is seldom written by hand. Instead, visual programming tools called CAM Software are used to create the g-code. “CAM” stands for COmputer Aided Manufacturing. #CNCMACHINE #CNCTURNINGMACHINE #SPMCNCMACHINE #AUTOMATIONMACHINECNC #CNCTURNINGCENTER #200CNCMACHINE #400CNCMACHINE #SMPTURNINGCENTERMACHINE #STANDERDCNCMACHINE #LENEARCNCMACHINE #CNC

Compact and suitable for mass production of small and medium parts. Available with linear tool configuration, ( Turret available as option with A2-4 spinlde. ) Maximum of 4 tools for parts less than 20mm. Wide range of spindle and controller options. Legendary spindle precision of Gedee Weiler (< 0.003 mm) delivers unmatched precision on components. Various optional accessories like Chucks and Collets, Bar puller, Slope tray, Collection tray, Bar feeder, Addon lamp, Air blast for chuck jaw cleaning, etc.. for different customer needs. #MINICNCFLATBEDMACHINE #FLATEBEDMACHINE #CNCMACHINE #CNCSPMMACHINE #LATHBEDMACHINECNC #CNCSPM #CNCMACHINEINRAJKOT #SAFTTURNINGMACHINEINRAJKOT #SUBMERCIBELSAFTTURNINGMACHINE #SMALLJOBCNCMACHINE #HIGHSPEEDCNCMACHINE