CNC Cover in punjab

We are leading manufacturer of telescopic cover in Punjab .if you are looking for good quality telescopic cover then you can contact us, We are proving all types of cover for  CNC machines and conventional machines

in image you can see telescopic cover that is used to protect guide ways from dust coolant and chips that improve machine life and maintainability

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Type of CNC Machine Cover

1. CNC Roll-away cover

Owing to help of our dedicated team of experienced professionals and our high industrial experience, we are engaged in manufacturing and supply Roll-away Covers. In accordance with industrial standard, these covers are made by our experts using certified quality metals. Available in different specifications, these covers are widely used in diverse engineering related areas such as milling & CNC machinery. Our quality analyzers duly check the Roll-away Covers on certain quality norms before supplying to clients.

Features:

• These covers are extensively used for Crosswise & Vertical slide protection in CNC
• A typical Roll-Away covers consists of a retraction screen fitted to a spring loaded consisted
• Either the consisted or the screen end can be fitted to the moving table or crosswise

2. CNC Telescopic cover

Backed by our in depth industry expertise, we are providing a wide range of Telescopic Cover For CNC M/C, which suit for all configurations.

Features:

• Quality driven
• Well design and innovative
• Good function and long life

3. Chip Conveyors

Backed by our in depth industry expertise, we are providing a wide range of Telescopic Cover For CNC  which suit for all configurations.

Features:

• Quality driven
• Well design and innovative
• Good function and long

CNC Cover in punjab

Bellow Cover at best prize

We are TOTAL CNC SOLUTION Registered office, Ward no 6 Purhiran, Hoshiarpur. Supplying this cover at best price and best Quality in Punjab. We have a wide range of  Cover like a different shape, size and different material and qualityWe supplying Bellow Cover in Punjab,  Haryana, Himanchal Pardesh.

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Types

1. Leather
2. Rubber
3. Non Metalic
4. Glass Fabric
5. Leather Mouded
6. Round Leather
7. Rectangular
8. Square
9. Circular
10. Expanssion joint
11. Hexagonal

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Features

Designed to protect guide-ways and machine components and constructed using lightweight material this are ideal for fast travel applications. Their high compression ratio also makes accordion way covers ideal in limited space.

This types are selected based on the operating conditions – including mechanical and thermal strain on the bellows, as well as the type of chips and agents present during operation.

Coated fabric

• Maximum compression and flexibility in a wide range of materials for a wide range of environments.
• Assembly options include glued, stitched, or a high frequency weld

Molded Rubber

Water, Oil, Chemical, and Temperature resistant bellow

Rubber disk

Rubber disk  are of superior quality and are still the choice for industrial application.

Telescopic Cover in Jalandhar

We are Total CNC Solution Ward no 6, near Ravidass Mandir,  Purhiran, Hoshiarpur. We are providing CNC Solution for all types of Telescopic cover. We are top in Telescopic Cover repair in Jalandhar.

Telescopic cover in Jalandhar

Definition of Telescopic Cover

Telescopic steel covers providehttp://e.com/wp-content/uploads/2020/06/download-1.jpg durable protection of slideways and precision machine components from all types of chips and coolant. Optional components can be integrated to improve durability speed, and access to the machine.

All cover shapes, mounting options, and wiper systems can be customized to meet your requirements. We also Repair and Replace all brands of way covers.

MATERIAL

• High grade steel sheets – 1.5mm to 3 mm thick
• Wiper System
• All cover shapes, mounting options, and wiper systems can be customized to meet your requirements.
•    Component of Telescopic Cover
• Surface treated stainless steel
• Gliders and / or rollers
• Lifting lugs
• Integral gutters
• Wedge dampeners
• Scissors
• Guide rails & way extensions
• Bumpers.

• service and Repair

  • Repairs & replacements for all Hennig and non-Hennig way covers
  • Same-day turn-around on diagnosis and repair estimates
  • Reverse engineering of existing way covers
  • Fast, local access to spare parts and supplies
  • Customer training for in-house way cover repair
  • Service and repair of Hennig Chip Conveyors
  • Preventive maintenance service contracts available

We are Total CNC Solution ward no W, Purhiran Hoshiarpur . We are providing CNC solution for all type of Telescopic cover.We are manufacturing Telescopic  cover in Punjab a Manufacturer, Repairer And Supplier Of All Types Of Machine VMC,CNC,HMC,Slide Safety Protection Cover,Bellow Cover,Telescopic Cover And Guards.Manufacturers,Repairer and Suppliers of Telescopic cover  Ludhiana, Jalandhar, Batala , Hoshiarpur , Gurdaspur , Amritsar, Phagwara. Manufacturers of Bellow Cover,Manufacturers of Protection Cover,Manufacturers of Roll Away Covers,Manufacturers of CNC Chips Conveyors,Manufacturers of VMC,CNC,HMC Slide Safety Protection Cover,Manufacturers of Apron Covers,Manufacturers of Magnet Conveyors, Manufacturers,Repairer and Suppliers of Telescopic cover in  Punjab,Manufacturers,Repairer and Suppliers of Telescopic cover .
Telescopic cover 

Welcome to Total CNC Solution

Manufacturer, Repairer And Supplier Of All Types Of Machine VMC,CNC,HMC,Slide Safety Protection Cover,Bellow Cover, Telescopic Cover And Guards

We Total CNC Solutionwas established in 2018. We are the leading manufacturer and supplier of bellow covers, way wiper systems, conveyor system & industrial fabrication services. We also manufacture sheet metal and structural fabricated parts. We undertake reconditioning & repairing of protection products. These products are highly appreciated among our clients for their rich attributes such as durability, effectiveness.
We have a skilled workforce lead by qualified engineers dedicated to provide superior quality products & services at best rates. We provide complete solution for machine tool protection from designing to installation and service thereafter.  We have advanced facilities for Aluminium Welding, Hydraulic Press Brake & Power Shear, Sheet Folding Machine etc.

Today we are going to tell you information about drive battery for Fanuc cnc machine drives .We can use Fanuc battery Panasonic make BR 2/3 AGCT4A 6 volt battery .You can see the picture of battery of battery for more information about Fanuc drive battery.http://https://www.youtube.com/watch?v=1urBVUSl37Y

You can change battery time to time recommended by Fanuc and one APC message will be blink on main screen of Fanuc system in yellow colour you need to take some precaution while changing battery of Fanuc drive

1. Do not switch off machine during battery change all machine tool builder are recommending same
2. Kindly insert jack slowly to into Fanuc drive avoid any damage .
3. Remove battery cover by pushing two knobs on top side of Fanuc battery cover
4. Reset the machine and alarm showing in front of screen will be gone

You can call us for any spares related to CNC machines ,VMC machines , HMC machines, we are supplying Fanuc drive battery , Limit switches ,Drive cables, and cnc spare parts in Punjab,Ludhiana,jalandhar,Batala,Amritsar,Tarantaran,Hoshiarpur,Goraya,Phagwara,Mandi gobindgarh,Khanna,Mohali,Chandigarh,Ambala,Sahenawal ,Kohara,Doraha,Bathinda,Sangroor,Abohar,Mansa,Kalka,Pinjor,Panchkula,Zirakpur,Pathankot,Dasuya,Gurdaspur,Kathua, We are top supplier of cnc spares in Punjab ,Harayana and Himanchal Pardesh,We Have best quality and best price cnc spares in Punjab

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Fanuc CNC battery drive

We are the highest suppliers of high quality CNC machine batteries. We are an eminent entity, engaged in wholesaling, trading and supplying a wide range of premium quality CNC Machine Batteries. The offered range is fabricated using finest grade raw material and latest technology by our vendors in compliance with the set industry standards. Our clients can avail the offered range from us in different specifications at the most competitive price range.

The technical meaning of maintenance machine involves functional checks, servicing , repairing or replacing of necessary devices, equipment, machinery, building infrastructure, and supporting utilities in industrial, business, governmental, and residential installations. Over time, this has come to include multiple wordings that describe various cost-effective practices to keep equipment operational; these activities take place either before or after a failure.

Definitions

Often maintenance functions are referred to as Maintenance, repair and overhaul (MRO) and MRO is also used for http://https://www.youtube.com/watch?v=sZoZdpvJn6o operations.Over time, the terminology of maintenance and MRO has begun to become standardized. The United state of defense  uses the following definitions:

Types

The marine and air transportation, offshore structures,industrial plant and facility management  industries depend on maintenance ,repair and overhaul   (MRO) including scheduled or preventive paint  maintenance programmes to maintain and restore coatings  applied to steel in environments subject to attack from erosion, corrosion and environmental pollution.

The basic types of maintenance falling under MRO include:

Preventive maintenance machine

C-130J Hercules preventive cleaning at Keesler Air Force Base, Mississippi after a period of operation over the Gulf of Mexico (salt and moisture which lead to active corrosion require regular cleaning)

Main objective of PM are:

1. Enhance capital equipment productive life.
2. Reduce critical equipment breakdown.
3. Minimize production loss due to equipment failures.

Other terms and abbreviations related to PM are:

• scheduled maintenance
• planned maintenance, which may include scheduled downtime for equipment replacement
• planned preventive maintenance (PPM) is another name for PM
• breakdown maintenance: fixing things only when they break. This is also known as “a reactive maintenance strategy” and may involve “consequential damage.”

Planned maintenance machine

Planned preventive maintenance (PPM), more commonly referred to as simply planned maintenance (PM) or scheduled maintenance, is any variety of scheduled maintenance  to an object or item of equipment. Specifically, planned maintenance is a scheduled service visit carried out by a competent and suitable agent, to ensure that an item of equipment is operating correctly and to therefore avoid any unscheduled breakdown and downtime

Predictive maintenance machine

Predictive maintenance techniques are designed to help determine the condition of in-service equipment in order to estimate when maintenance should be performed. This approach promises cost savings  over routine or time-based preventive maintenance , because tasks are performed only when warranted. Thus, it is regarded as condition-based maintenance carried out as suggested by estimations of the degradation state of an item

Cndition-based maintenance machine

Condition-based maintenance (CBM), shortly described, is maintenance when need arises . Albeit chronologically much older, It is considered one section or practice inside the broader and newer predictive maintenance field, where new AI technologies and connectivity abilities are put to action and where the acronym CBM is more often used to describe ‘condition Based Monitoring’ rather than the maintenance itself. CBM maintenance is performed after one or more indicators show that equipment is going to fail or that equipment performance is deteriorating.

Despite its usefulness, there are several challenges to the use of CBM. First and most important of all, the initial cost of CBM can be high. It requires improved instrumentation of the equipment. Often the cost of sufficient instruments can be quite large, especially on equipment that is already installed. Wireless systems have reduced the initial cost. Therefore, it is important for the installer to decide the importance of the investment before adding CBM to all equipment. A result of this cost is that the first generation of CBM in the oil  and gas industry has only focused on vibration in heavy rotating equipment.

Secondly, introducing CBM will invoke a major change in how maintenance is performed, and potentially to the whole maintenance organization in a company. Organizational changes are in general difficult.

measured data into actionable knowledge about the health of the equipment.

Value potential

As systems get more costly, and instrumentation and information systems tend to become cheaper and more reliable, CBM becomes an important tool for running a plant or factory in an optimal manner. Better operations will lead to lower production cost and lower use of resources. And lower use of resources may be one of the most important differentiators in a future where environmental issues become more important by the day.

It is Department of Defense policy that condition-based maintenance (CBM) be “implemented to improve maintenance agility and responsiveness, increase operational availability, and reduce life cycle total ownership costs”.

Advantages and disadvantages

CBM has some advantages over planned maintenance:

• Improved system reliability
• Decreased maintenance costs
• Decreased number of maintenance operations causes a reduction of human error  influences

Its disadvantages are:

• High installation costs, for minor equipment items often more than the value of the equipment
• Unpredictable maintenance periods cause costs to be divided unequally
• Increased number of parts (the CBM installation itself) that need maintenance and checking. 

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Maintenace of machines

Machine covers

In case you do not know, elements like dust, dirt, oil, and water cause disaster and harmful to plants production and machines . The damage it causes is severe and leads to expensive repairs of machines and its parts. These element damages can be averted with the use of our machine covers  and tarps can provide the proper and perfect protection for machinery. With our industrial machine covers it is beneficial and would prevent most of these elements from damaging machinery.

Benefits 

• Preventing machinery damage
• Containing hazardous oil, dirt & dust
• Preventing accidents
• Improving facility cleanliness
• Protecting against the sun, grime, grease, and oil

Professional Clean Apperance

Weighty Duty Protective Covers for Machines

In the production of custom covers our priority is to shield machines from elements of damage and the materials we use are also ideal for welding facilities where sparks are in close proximity to valuable equipment. These material is flame retardant and is resistant to tearing.

Usages

Our machine covers give you guarantee of keeping any type of industrial machine protected. With covers protection of machinery in storage warehouses, manufacturing plants, auto body shops, packaging plants and many other locations where heavy-duty protective covers from damaging elements you are assured of your machines safety.

If you have any inquiries about machines , hydraulic cylinder u can contact us at any time in a week we are repairing cnc machines,Telescopic covers Repair ,Bellow covers Repair ,Apron cover Repair .Roll way cover Repair ,Hydraulic cylinders Repair ,Mechanical parts repair,  Spindle Repair , Ball screw Repair,Guide way Repair ,Lubrication Pump Repair ,Hydraulic cylinder Repair, CNC Machine Repair service ,VMC Machine Repair service,Preventive Maintenance service,HMC Machine repair service,Index table repair service,Rotary table repair service,Coolant pump repair service ,Counter balancing cylinder repair service,Panel ac repair service in Hoshiarpur,Jalandhar,Phagwara,Goraya,Ludhiana,Amritsar,Tarantaran,Patti,Batala,Gurdaspur,Pathankot,Jammu,Mukerian,Dasuya,Tanda,Gagret,Una,Baddi,Nangal,Tahliwal,Garhshankar,Anandpur sahib,Ropar,Nawansahar,Mandi gobindgarh, khanna,Moahli,Chandigarh,Nalagarh,Nasrala,Samarala,Rajpura,Patiala,Nabha,Malerkotla ,Bathinda,Moga,Firozpur and in all punjab and india.

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An air compressor is a device that converts power  (using an electric motor, diesel or gasoline engine, etc.) into potential energy stored in pressurized air (i.e., compressed air ). By one of several methods, an air compressor forces more and more air into a storage tank, increasing the pressure. When the tank’s pressure reaches its engineered upper limit, the air compressor shuts off. The compressed air, then, is held in the tank until called into use.The energy contained in the compressed air can be used for a variety of applications, utilizing the kinetic energy of the air as it is released and the tank depressurizes. When tank pressure reaches its lower limit, the air compressor turns on again and re-pressurizes the tank. An air compressor must be differentiated from a pump because it works for any gas/air, while pumps work on a liquid.

Contents

Classification

Compressors can be classified according to the pressure delivered:

1. Low-pressure air compressors (LPACs), which have a discharge pressure of 150 psi or less
2. Medium-pressure compressors which have a discharge pressure of 151 psi to 1,000 psi
3. High-pressure air compressors (HPACs), which have a discharge pressure above 1,000 psi

They can also be classified according to the design and principle of operation:

1. Single-stage reciprocatin compressor
2. Two-stage reciprocating compressor
3. Compound compressor
4. Rotary air compressorr
5. Rotary vane pump
6. Scroll compressor
7. Turbo compressor
8. Centrifugal compressorn

Displacement type

There are numerous methods of air compression, divided into either positive-displacement or roto-dynamic types.

Positive displacement

Positive-displacement compressors work by forcing air in a chamber whose volume is decreased to compress the air. Once the maximum pressure is reached, a port or valve opens and air is discharged into the outlet system from the compression chamber.Common types of positive displacement compressors are

• Piston-type: air compressors use this principle by pumping air into an air chamber through the use of the constant motion of pistons. They use one-way valves to guide air into and out of a chamber whose base consists of a moving piston. When the piston is on its down stroke, it draws air into the chamber. When it is on Technical Illustration of a two-stage air compressorits up stroke, the charge of air is forced out and into a storage tank. Piston compressors generally fall into two basic categories, single-stage and two-stage. Single stage compressors usually fall into the fractional through 5 horse power range. Two-stage compressors normally fall Technical Illustration of a portable single-stage air compressorinto the 5 through 30 horsepower range. Two-stage compressors provide greater efficiency than their single-stage counterparts. For this reason, these compressors are the most common units within the small business community. The capacities for both single-stage and two-stage compressors is generally provided in horsepower (HP), Standard cubic feet per minute  (SCFM)* and pounds per square inch  (PSI). *To a lesser extent, some compressors are rated in Actual cubic feet per minute (ACFM). Still others are rated in cubic feet per minute (CFM). Using CFM to rate a compressor is incorrect because it represents a flow rate that is independent of a pressure reference. i.e. 20 CFM at 60 PSI.
• Rotary air compressor : use positive-displacement compression by matching two helical screws that, when turned, guide air into a chamber, whose volume is decreased as the screws turn.
• Vane compressors: use a slotted rotor with varied blade placement to guide air into a chamber and compress the volume. This type of compressor delivers a fixed volume of air at high pressures.

Dynamic displacement

Dynamic displacement air compressors include cenrifugal compressor  and axial compressors. In these types, a rotating component imparts its kinetic energy to the air which is eventually converted into pressure energy. These use centrifugal force generated by a spinning impeller to accelerate and then decelerate captured air, which pressurizes it.

Cooling

Due to adibatic heating , air compressors require some method of disposing of waste heat . Generally this is some form of air- or water-cooling, although some (particularly rotary type) compressors may be cooled by oil (that is then in turn air- or water-cooled). The atmospheric changes are also considered during cooling of compressors. The type of cooling is determined by considering the factors such as inlet temperature, ambient temperature, power of the compressor and area of application. There is no single type of compressor that could be used for any application.

Applications

Air compressors have many uses, including: supplying high-pressure clean air to fill gas cylinders , supplying moderate-pressure clean air to a submerged surface supplied diver , supplying moderate-pressure clean air for driving some office and school building   pneaumatic HVAC control systems valves, supplying a large amount of moderate-pressure air to power pneaumatic tools , such as jack hammers , filling high pressure air tanks (HPA), for filling tires and to produce large volumes of moderate-pressure air for large-scale industrial processes (such as oxidation for petroleum coking or cement plant bag house purge systems).

Most air compressors either are reciprocating piston type, rotary vane or rotary pump . Centrifugal compressors are common in very large applications, while rotary screw, scroll,and reciprocating air compressors are favored for smaller, portable applications.

There are two main types of air-compressor pumps: oil-injected and oil-less. The oil-less system has more technical development, but is more expensive, louder and lasts for less time than oil-lubed pumps. The oil-less system also delivers air of better quality.

Air compressors are designed to utilize a variety of power sources. While gas/diesel-powered and electric air compressors are among the most popular, air compressors that utilize vehicle engines, power take off , or hydraulic ports are also commonly used in mobile applications.

The power of a compressor is measured in HP (horse power ) and CFM (ccubic feet per minute  of intake air).The gallon size of the tank specifies the volume of compressed air (in reserve) available. Gas/diesel powered compressors are widely used in remote areas with problematic access to electricity. They are noisy and require ventilation for exhaust gases. Electric powered compressors are widely used in production, workshops and garages with permanent access to electricity. Common workshop/garage compressors are 110-120 Volt or 230-240 Volt. Compressor tank shapes are: “pancake”, “twin tank”, “horizontal”, and “vertical”. Depending on a size and purpose compressors can be stationary or portable.

Maintenance

To ensure all compressor types run efficiently with no leaks, it is imperative to perform routine maintenance, such as monitoring and replacing air compressor fittings. It is suggested that air compressor owners perform daily inspections of their equipment, such as:

• Checking for oil and air leaks
• Checking the differential pressure in the compressed air filter
• Determining whether or not the oil in the compressor should be changed
• Verifying safe operating temperature
• Draining condensation from air receiver tanks

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</h1> Air compresor service is good </h1>

</h2> good services is air compresor</2>

Each of the hand-wheels on this CNC control actuates a manual pulse generator. One moves the cross-slide (X-axis) and the other moves the Z-axis

A manual pulse generator (MPG) is a device for generating electrical pulses  (short bursts of low current ) in electronic systems under the control of a human operator (manually), as opposed to the pulses automatically generated by softwaren. MPGs are used on computer nummerically controlled (CNC) machine tools , on some microscopes, and on other devices that use precise component positioning. A typical MPG consists of a rotatings knob that generates pulses that are sent to an equpment controoler . The controller will then move the piece of equipment a predetermined distance for each pulse.

For example, the handwheel of a typical CNC control will move any of the slides of the machine by one minimum increment, such as 1 micrometer or 1 ten thousands of an inch , for each pulse, and the handwheel will give one ratchetb-like click or other haptic click to confirm to the user that a single increment occurred. Several selector switches control the handwheel’s output: one allows each of the machine’s axes (X, Y, Z, and so on) to be selected in turn; another shifts through several ranges of output, so that one click of the wheel is either one minimum increment, 10 times that, or 100 times that.

The modern trend in CNC user interface design  is to place the MPG on a handheld pendant that the operator can carry, making it conveniently independent from the main control panel, just as a game controller  is independent from the video game console

.

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A machine  is a mechanical structure  that uses power  to apply forces and control movement to perform an intended action. Machines can be driven by animals and people, by natural forces such as wind and water, and by chemical, thermal , or electrical power, and include a system of mechanism that shape the actuator input to achieve a specific application of output forces and movement. They can also include computers and sensors that monitor performance and plan movement, often called mechanical system .

Renaissance natural philosophers identified six simple machines which were the elementary devices that put a load into motion, and calculated the ratio of output force to input force, known today as mechanical advantage.

Etymology

The English word machine comes through middle french from Latim machina , which in turn derives from the Greek  .The word mechanical comes from the same Greek roots. A wider meaning of “fabric, structure” is found in classical Latin, but not in Greek usage. This meaning is found in late medieval French, and is adopted from the French into English in the mid-16th century.

The word engine used as a (near-)synonym both by Harris and in later language derives ultimately (via Old French) from Latin ingenium “ingenuity, an invention”.

History

The hand axe , made by chipping flint to form a wedge , in the hands of a human transforms force and movement of the tool into a transverse splitting forces and movement of the workpiece. The hand axe is the first example of a wedge , the oldest of the six classic simple machines , from which most machines are based. The second oldest simple machine was the inclined plane   which has been used since prehistoric  times to move heavy objects.

Three of the simple machines were studied and described by Greek philosopher Archimedies around the 3rd century BC: the lever, pulley and screw.Archimedes discovered the principle of mechanical advantage in the lever.Later Greek philosophers defined the classic five simple machines (excluding the inclined plane) and were able to roughly calculate their mechanical advantage. Heron of alendria (ca. 10–75 AD) in his work Mechanics lists five mechanisms that can “set a load in motion”; lever, windlass , pulley, wedge, and screw, and describes their fabrication and uses. However, the Greeks’ understanding was limited to static (the balance of forces) and did not include dynamics  (the tradeoff between force and distance) or the concept of work.

During the Renassiance , the dynamics of the Mechanical powers , as the simple machines were called, began to be studied from the standpoint of how much useful work they could perform, leading eventually to the new concept of mechanical work. In 1586 Flemish engineer Simon steven  derived the mechanical advantage of the inclined plane, and it was included with the other simple machines. The complete dynamic theory of simple machines was worked out by Italian scientist Galalio galai  in 1600 in Le Meccaniche (“On Mechanics”).He was the first to understand that simple machines do not create energy , they merely transform it.

Starting in the later part of the 18th century, there began a transition in parts of Great Britain’s previously manual labour and draft-animal-based economy towards machine-based manufacturing. It started with the mechanisation of the textile industries, the development of iron making techniques and the increased use of refined coal.

Simple machines

The idea that a machine can be decomposed into simple movable elements led Archimedies to define the lever , pulley  and screw as simple machines. By the time of the Renaissance this list increased to include the wheel and axle , wedge  and inclined plane . The modern approach to characterizing machines focusses on the components that allow movement, known as joints.

Wedge (hand axe): Perhaps the first example of a device designed to manage power is the hand axe , also called biface and Olorgesaillie. A hand axe is made by chipping stone, generally flint, to form a bifacial edge, or wedge . A wedge is a simple machine that transforms lateral force and movement of the tool into a transverse splitting force and movement of the workpiece. The available power is limited by the effort of the person using the tool, but because power is the product of force and movement, the wedge amplifies the force by reducing the movement. This amplification, or mechanical advantage  is the ratio of the input speed to output speed. For a wedge this is given by 1/tanα, where α is the tip angle. The faces of a wedge are modeled as straight lines to form a sliding or prismatic joint .

Lever: The lever  is another important and simple device for managing power. This is a body that pivots on a fulcrum. Because the velocity of a point farther from the pivot is greater than the velocity of a point near the pivot, forces applied far from the pivot are amplified near the pivot by the associated decrease in speed. If  a is the distance from the pivot to the point where the input force is applied and b is the distance to the point where the output force is applied, then a/b is the mechanical advantage  of the lever. The fulcrum of a lever is modeled as a hinged or revolute joint .

Wheel: The wheel is an important early machine, such as the chariot . A wheel uses the law of the lever to reduce the force needed to overcome friction  when pulling a load. To see this notice that the friction associated with pulling a load on the ground is approximately the same as the friction in a simple bearing that supports the load on the axle of a wheel. However, the wheel forms a lever that magnifies the pulling force so that it overcomes the frictional resistance in the bearing.Illustration of a four-bar linkage kinematic of machinery

The classification of simple machies  to provide a strategy for the design of new machines was developed by Franz Reuleaux, who collected and studied over 800 elementary machines. He recognized that the classical simple machines  can be separated into the lever, pulley and wheel and axle that are formed by a body rotating about a hinge, and the inclined plane, wedge and screw that are similarly a block sliding on a flat surface.

Simple machines are elementary examples of kinemati chain or  linkage that are used to model mechanical systems  ranging from the steam engine to robot manipulators. The bearings that form the fulcrum of a lever and that allow the wheel and axle and pulleys to rotate are examples of a kinematic chair  called a hinged joint. Similarly, the flat surface of an inclined plane and wedge are examples of the kinematic pair called a sliding joint. The screw is usually identified as its own kinematic pair called a helical joint.

This realization shows that it is the joints, or the connections that provide movement, that are the primary elements of a machine. Starting with four types of joints, the rotary joint, sliding joint, cam joint and gear joint, and related connections such as cables and belts, it is possible to understand a machine as an assembly of solid parts that connect these joints called a mechanism.

Two levers, or cranks, are combined into a planar four bar linkage by attaching a link that connects the output of one crank to the input of another. Additional links can be attached to form a six bar linkage or in series to form a robot.

Mechanical systems

A mechanical system manages power to accomplish a task that involves forces and movement. Modern machines are systems consisting of (i) a power source and actutaors that generate forces and movement, (ii) a system of mechanism that shape the actuator input to achieve a specific application of output forces and movement, (iii) a controller with sensors that compare the output to a performance goal and then directs the actuator input, and (iv) an interface to an operator consisting of levers, switches, and displays.

This can be seen in Watt’s steam engine (see the illustration) in which the power is provided by steam expanding to drive the piston. The walking beam, coupler and crank transform the linear movement of the piston into rotation of the output pulley. Finally, the pulley rotation drives the flyball governor which controls the valve for the steam input to the piston cylinder.

The adjective “mechanical” refers to skill in the practical application of an art or science, as well as relating to or caused by movement, physical forces, properties or agents such as is dealt with by mechanics  Similarly Merriam-Webster Dictionary defines “mechanical” as relating to machinery or tools.

Power flow through a machine provides a way to understand the performance of devices ranging from levers and gear trains to automobiles and robotic systems. The German  mechanician Franz Reuleaux wrote, “a machine is a combination of resistant bodies so arranged that by their means the mechanical forces of nature can be compelled to do work accompanied by certain determinate motion.” Notice that forces and motion combine to define power.

More recently, Uicker et al. stated that a machine is “a device for applying power or changing its direction.” McCarthy and Soh describe a machine as a system that “generally consists of a power source and a mechanism  for the controlled use of this power.”

Mechanisms

The mechnism of a mechanical system is assembled from components called machine elements . These elements provide structure for the system and control its movement.

The structural components are, generally, the frame members, bearings, splines, springs, seals, fastners  and covers. The shape, texture and color of covers provide a styling and operatonal interface  between the mechanical system and its users.

The number of degrees of freedom of a mechanism, or its mobility, depends on the number of links and joints and the types of joints used to construct the mechanism. The general mobility of a mechanism is the difference between the unconstrained freedom of the links and the number of constraints imposed by the joints.

Gears and gear trains

The transmission of rotation between contacting toothed wheels can be traced back to the Antikythera machanism of Greece and the south pointingchariot of China. Illustrations by the renaissance scientist georgius agricola show gear trains with cylindrical teeth. The implementation of the  involute tooth yielded a standard gear design that provides a constant speed ratio. Some important features of gears and gear trains are:

• The ratio of the pitch circles of mating gears defines the speed ratio and the  planetary gear train provides high gear reduction in a compact package.
• It is possible to design gear teeth for gears that are  non circular, yet still transmit torque smoothly.
• The speed ratios of chain and belt drivesare computed in the same way as gear ratios bicycle gearing.

Cam and follower mechanisms

A  cam and follower is formed by the direct contact of two specially shaped links. The driving link is called the cam and the link that is driven through the direct contact of their surfaces is called the follower. The shape of the contacting surfaces of the  cam and  follower determines the movement of the mechanism.

Linkages

Schematic of the actuator and four-bar linkage that position an aircraft landing gear.A  linkage is a collection of links connected by joints. Generally, the links are the structural elements and the joints allow movement. Perhaps the single most useful example is the planar  four bar linkage. However, there are many more special linkages: watts linkage is a four-bar linkage that generates an approximate straight line. It was critical to the operation of his design for the steam engine. This linkage also appears in vehicle suspensions to prevent side-to-side movement of the body relative to the wheels. Also see the article . parallel motionThe success of Watt’s linkage lead to the design of similar approximate straight-line linkages, such as hoekens linkage and . chebyshevs linkageTh peaucellier linkage generates a true straight-line output from a rotary input.The sarrus linkage is a spatial linkage that generates straight-line movement from a rotary input. Select this link for an animation of the sarrus linkageThe klaan linkage and the jansen linkage are recent inventions that provide interesting walking movements. They are respectively a six-bar and an eight-bar linkage.

Planar mechanism

A planar mechanism is a mechanical system that is constrained so the trajectories of points in all the bodies of the system lie on planes parallel to a ground plane. The rotational axes of hinged joints that connect the bodies in the system are perpendicular to this ground plane.

Spherical mechanism

A spherical mechanism is a mechanical system in which the bodies move in a way that the trajectories of points in the system lie on concentric spheres. The rotational axes of hinged joints that connect the bodies in the system pass through the center of these circle.

Spatial mechanism

A spatial mechanism is a mechanical system that has at least one body that moves in a way that its point trajectories are general space curves. The rotational axes of hinged joints that connect the bodies in the system form lines in space that do not intersect and have distinct common normals.

Flexure mechanisms

A flexure mechanism consists of a series of rigid bodies connected by compliant elements that is designed to produce a geometrically well-defined motion upon application of a force.

Machine elements

The elementary mechanical components of a machine are termed machine elements . These elements consist of three basic types (i) structual components such as frame members, bearings, axles, splines fasteners, seals, and lubricants, (ii)  machanisms that control movement in various ways such as  gear trains, belt or chain drives, linkage, cam and follower systems, including  brakes and  clutches, and (iii) control components such as buttons, switches, indicators, sensors, actuators and computer controllers.[58] While generally not considered to be a machine element, the shape, texture and color of covers are an important part of a machine that provide a styling and operational interface between the mechanical components of a machine and its users.

Structural components

A number of machine elements provide important structural functions such as the frame, bearings, splines, spring and seals.

• The recognition that the frame of a mechanism is an important machine element changed the name  three bar linkage into  four bar linkage. Frames are generally assembled from truss or beam elements.
• Bearings are components designed to manage the interface between moving elements and are the source of friction in machines. In general, bearings are designed for pure rotation or straight line movement .
• Splines and keys  are two ways to reliably mount an axle to a wheel, pulley or gear so that torque can be transferred through the connection.
• Springs provides forces that can either hold components of a machine in place or acts as a suspensions  to support part of a machine.
• Seals are used between mating parts of a machine to ensure fluids, such as water, hot gases, or lubricant do not leak between the mating surfaces.
• Fastners such as screw , bolts, spring clips, and rivets are critical to the assembly of components of a machine. Fasteners are generally considered to be removable. In contrast, joining methods, such as welding , soldring , crimping and the application of adhesives , usually require cutting the parts to disassemble the components

Controllers

Controllers combine sensors , logic , and actutaors  to maintain the performance of components of a machine. Perhaps the best known is the flyball governer for a steam engine. Examples of these devices range from a thermostat that as temperature rises opens a valve to cooling water to speed controllers such as the cruise control  system in an automobile. The programmble logic controoler replaced relays and specialized control mechanisms with a programmable computer. Servo motors  that accurately position a shaft in response to an electrical command are the actuators that make robotics sytem possible.

Computing machines

Arithmometre, designed by Charles Xavier Thomas, c. 1820, for the four rules of arithmetic, manufactured 1866-1870 AD. Exhibit in the Tekniska museet, Stockholm, Sweden.

Charles babbage designed machines to tabulate logarithms and other functions in 1837. His difference engine  can be considered an advanced mechanical calculator  and his Analytical  a forerunner of the modern computer , though none were built in Babbage’s lifetime.

The Arithmometer  and the Comptometer  are mechanical computers that are precursors tomodern digital computers . Models used to study modern computers are termed State machine  and Turning machines.

Molecular machines

A ribosome  is a   biological machine that utilize protien dynamics

The biological molecule myosin reacts to ATP and ADP to alternately engage with an actin filament and change its shape in a way that exerts a force, and then disengage to reset its shape, or conformation. This acts as the molecular drive that causes muscle contraction. Similarly the biological molecule kinesin has two sections that alternately engage and disengage with microtubules causing the molecule to move along the microtubule and transport vesicles within the cell, and dynein , which moves cargo inside cells towards the nucleus and produces the axonemal beating of motilecillia  and flagella . “[I]n effect, the [motile cilium] is a nanomachine composed of perhaps over 600 proteins in molecular complexes, many of which also function independently as nanomachines. Flexible linkers allow the moblie protein domain connected by them to recruit their binding partners and induce long-range allostery via  protein domain dynamics Other biological machines are responsible for energy production,

Impact

Mechanization and automation

Mechanization or mechanisation is providing human operators with machinery that assists them with the muscular requirements of work or displaces muscular work. In some fields, mechanization includes the use of hand tools. In modern usage, such as in engineering or economics, mechanization implies machinery more complex than hand tools and would not include simple devices such as an un-geared horse or donkey mill. Devices that cause speed changes or changes to or from reciprocating to rotary motion, using means such as gears ,pulleys or  sheaves and belts, shafts cams  and cranks , usually are considered machines. After electrification, when most small machinery was no longer hand powered, mechanization was synonymous with motorized machines.

Automation is the use of control systems  and information technoligies  to reduce the need for human work in the production of goods and services. In the scope of industrilization , automation is a step beyond meshanization . Whereas mechanization provides human operators with machinery to assist them with the muscular requirements of work, automation greatly decreases the need for human sensory and mental requirements as well. Automation plays an increasingly important role in the  world industry and in daily experience.

Automata

An automaton (plural: automata or automatons) is a self-operating machine. The word is sometimes used to describe a robot , more specifically an autonomus robot . A Toy Automation  was patented in 1863.

Mechanics

Usherreports that Hero of alexandria treatise on Mechanics focussed on the study of lifting heavy weights. Today mechanics refers to the mathematical analysis of the forces and movement of a mechanical system, and consists of the study of the kinematics and dynamics of these systems.

Dynamics of machines

The dynamics analysis of machines begins with a rigid-body model to determine reactions at the bearings, at which point the elasticity effects are included. The  rigid body dynamis studies the movement of systems of interconnected bodies under the action of external forces. The assumption that the bodies are rigid, which means that they do not deform under the action of applied forces, simplifies the analysis by reducing the parameters that describe the configuration of the system to the translation and rotation of reference frames attached to each body.

Kinematics of machines

The dynamic analysis of a machine requires the determination of the movement, or kinematics , of its component parts, known as kinematic analysis. The assumption that the system is an assembly of rigid components allows rotational and translational movement to be modeled mathematically as Euclidean ,or rigid, transformation This allows the position, velocity and acceleration of all points in a component to be determined from these properties for a reference point, and the angular position, angular velocity and angular acceleration of the component.

Machine design

Machine design refers to the procedures and techniques used to address the three phases of a machine life style :

1. invention, which involves the identification of a need, development of requirements, concept generation, prototype development, manufacturing, and verification testing;
2. performance engineering involves enhancing manufacturing efficiency, reducing service and maintenance demands, adding features and improving effectiveness, and validation testing;
3. recycle is the decommissioning and disposal phase and includes recovery and reuse of materials and components.

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