homeCraftsDo-it-yourself repair of cnc machine tools
Do-it-yourself repair of cnc machine tools
In detail: do-it-yourself repair of CNC machines; do-it-yourself diagnostics from a real master for the site my.housecope.com.
A very important issue for maintaining the normal quality of operation of CNC machines is the choice of the most rational method of troubleshooting.
In practice, there are mainly three search methods.
1. The logical method is based on knowledge of the composition and operation of the equipment, analysis of the actual information output and its comparison with a given control program, knowledge of the procedure for processing information on the nodes and blocks of the device, the correct determination of characteristic and uncharacteristic errors in the control program and malfunctions in CNC devices on the very the machine. Based on the analysis of the action of the input and the results of the output information, a logical conclusion is made about the existing defects and ways to eliminate them to ensure the normal operation of the CNC machine.
2. The practical method of troubleshooting is carried out by means of special measuring instruments. In this case, the defective chain is divided into two parts. Then the part in which the malfunction is detected is divided again. And so on - until you find the faulty board to be replaced. After that, a general check of the device is made and a conclusion is made about the quality of the CNC system and the machine as a whole.
3. The test method of troubleshooting on CNC machines is applied in the workshop environment. In this case, the operation of the CNC device as a whole or of its individual units is checked, which perform completed micro-operations by acting on them with appropriate test programs. The test method allows you to relatively quickly identify a defect and take the necessary measures to eliminate it.
Video (click to play).
Malfunctions of an input unit with a photo-reading device, as well as a linear interpolator and a speed setting block are the most typical for the used CNC systems on modern metal-cutting machines. The causes of faults in the input unit are most often the aging of photodiodes or contamination of the optics of the photoreader and tape drive.
For the preparation and control of control programs at factories and associations where CNC machines operate, specialized sections have been created, equipped with the necessary equipment.
When using CNC machines, increased requirements are also imposed on the electrical equipment installed on them. It must provide the ability to quickly eliminate interference in the places where it occurs, and also have the ability to reliably control high-current equipment and electric motors through weak signals or contacts.
CNC machines, unlike conventional machines, are equipped for each controlled coordinate of movement with a separate feed drive, which operates from the control system and must ensure high positioning accuracy and sufficient speed. For this, high-speed drive motors are used — hydraulic, electro-hydraulic (stepping or tracking), and electric. Constructive and technological methods ensure the maximum elimination of the gap in the kinematic chain (for example, by replacing conventional screw gears with ball screw pairs) and minimizing friction in the guides, selecting the optimal masses of moving units, etc.
Particular attention should be paid to the care of the hydraulic drive.The grade of oil for filling in the hydraulic system must comply with the requirements of the instruction manual for this equipment. The oil must be clean, filtered and homogeneous (it is not recommended to mix different brands of oils). Do not allow a violation of the tightness of the hydraulic system, leakage and decrease in the permissible oil level. Before starting the machine, it is necessary to turn on the hydraulic system for a while to warm up the oil.
According to the current regulation, all measures for the preventive maintenance of equipment and apparatus, as well as for other types of maintenance of CNC machines, should be carried out only by specially trained personnel who have the appropriate admission, and the machine operator is prohibited from independently performing any operations on the machine that are not part of his duties. Nevertheless, the operator must not only know when and what activities are provided for by the schedules for the maintenance of the CNC machine on which he works, but also systematically monitor their implementation in accordance with the established schedules, and, if necessary, directly participate in them, providing all possible assistance and assistance to maintenance personnel of repairmen.
Taking this into account, it is advisable for production workers servicing CNC machines not only to know the features of these machines and the procedure for detecting faults on them, given above, but also in general terms to familiarize themselves with the characteristic reading errors and methods for their elimination on CNC devices (Table 6) ...
Table 6 Reading errors and methods for their elimination when working on CNC machines
There is a need for repair / restoration of the CNC machine:
Do constant errors and breakdowns disrupt the execution of the production plan?
Do you need to restore the control system of a purchased used CNC machine?
lacking functionality?
does the enterprise lack the necessary qualified specialists?
Why the restoration and repair of CNC machines should be ordered from professionals:
The accumulated practical experience in repairing machine tools and restoring control systems allows us to offer reliable and high-quality solutions from both Russian and foreign manufacturers;
The developed documentation must comply with the main regulatory and technical documents in force in the territory of the Russian Federation;
Drawing up several options for estimates for the repair of CNC equipment (taking into account the preferences of the Customer, equipment configuration and economic feasibility);
Competently designed projects allow you to save on operating costs, on costs associated with frequent repairs, as well as on electricity consumption;
Development guarantee and expert technical support.
Comprehensive equipment diagnostics
Economic assessment of the proposed options for repair / restoration of the machine
Electronic repair of CNC equipment is carried out at the component level using the latest high-precision and high-tech equipment
Replacement of feed drives, motors and power cables (if necessary);
Comprehensive project support: design of process control systems including selection of equipment, programming, Construction and Installation Works, commissioning, warranty and post-warranty service. At the request of the Customer, we are ready to implement the ability to collect information and monitor the state of the fleet of CNC machines (readiness, reasons for downtime, malfunction, etc.).
* To get a discount, tell the manager the password: "I want a discount"
we clarify the necessary information, if necessary, with a visit to the customer's enterprise
for the repair / restoration of the machine, together with your technical specialists (list of purchased products, assemblies, assemblies and components)
After agreeing on the conditions, a contract is drawn up, and we carry out work on the machine, CNC programming and setting up drives
After the completion of all work, we transfer the machine to the employees of the enterprise on the basis of documents
Five reasons to order services for the modernization and restoration of CNC machines from us:
We provide a full range of services for the repair and restoration of CNC machines: from inspection to post-warranty service.
We carry out repairs using CNC control systems from foreign manufacturers such as: Siemens, Fagor, Fanuc, FIDIA, HEIDENHAIN, Mitsubishi Electric, etc.
We develop design documentation in accordance with the requirements of GOST, PUE, SNiP.
We guarantee professional service at a competitive price.
We use an individual approach to our Customers.
We believe that LLC Volgopromavtomatika is staffed with qualified personnel, which allows solving the most complex technical tasks of automation of technological processes, timely and with high quality to perform all assigned work, both at LLC Volgograd GIPS and at other enterprises. It's a pleasure to work with such a partner, and Volgograd GIPS LLC intends to continue to cooperate ... Read completely
O.A. Gusakov Chief Engineer of LLC "Volgograd GIPS"
The employees of Volgopromavtomatika LLC in a short time automated the following objects in TPTs-2: horizontal induction furnaces of the 5500 line, a piercing press, a cooling table. Within a month, employees of "VPA" LLC carried out dismantling of equipment, installation of a new one and commissioning. We are pleased to cooperate with a company that clearly fulfills the terms of the contract ... Read completely
N.V. Guryanov Head of APCS TPTs-2 VTZ JSC "Volzhsky Pipe Plant"
We recommend VPA LLC as a reliable supplier of equipment and services in the field of automation of power supply of technological equipment ... Read completely
A.A. Shnyp Head of Procurement Department, Togliattisintez JSC
I would like to express my gratitude to Volgopromavtomatika LLC for the high-quality work performed, the professional approach to work when performing work on the visualization and dispatching system of the technological process at Water Treatment. Your specialists have done a great job. All work (installation, commissioning, installation of a PC and writing a program on WinCC) Volgopromavtomatika LLC performed on its own, efficiently and on time ... Read completely
„Diagnostics„- a set of methods for determining the technical state of a unit, device, unit and mating parts without disassembling them. Diagnostics of the technical condition consists in the logical processing of some objectively existing information coming from the operating CNC equipment in a certain period of time. This information comes in the form of external signs that directly or indirectly characterize the state of the equipment. Ensuring high accuracy and reliability of the operation of CNC machines during their operation is associated with a system of their maintenance, timely and high-quality performance of preventive commissioning and repair work.
The change in the technical condition of the equipment during the period of its normal operation is a random process of a probabilistic nature. The transition from the state of correct operation of the machine to the state of faulty operation characterizes the onset of a malfunction, that is, it is a conditional failure.
If the metal-cutting equipment is in a faulty condition, then in order to prevent the actual failure, it is necessary to carry out adjustment or repair work.
To establish the relationship between the technical state of the CNC machine and the error in the parameters of the finished part, as well as to select a diagnostic method on this basis, it is advisable to develop control charts for CNC machines of various technological groups.
The need for maintenance and repair is not unambiguously determined by the life of a particular machine. Each time period corresponds not one, but many different states. Therefore, the diagnostics of software equipment sets the task of removing this uncertainty and identifying from the set of states the only one in which this machine is at a given time.
When diagnosing and repairing CNC machines, difficulties arise due to their great complexity. It takes a lot of time to find faults, use fault diagnosis systems, complex instrumentation, as well as the availability of highly qualified service personnel. Diagnosis is often hampered by the variety of CNC systems used, and by the lack of specialists for their maintenance.
The design of CNC machines provides technical solutions that improve and facilitate maintenance, troubleshooting and repair. These include: the modular principle of creating CNC machines from unified elements, which enhances their reliability; equipping CNC machines with diagnostic systems that provide quick detection of malfunctions and their indication on the display of the CNC device, as well as the use of test programs for finding complex malfunctions, etc.; development of documentation for diagnosing and repairing a specific CNC machine or a group of these machines.
In practice, the diagnosis of CNC machines consists in the logical processing of some objectively existing information coming from the operating equipment in a certain period of time in the form of external signs characterizing the state of the equipment.
Diagnostics software equipment includes: 1) study of working CNC machines to be diagnosed, their possible failures and signs of their manifestation; 2) building a model of a working machine and a CNC device to be diagnosed, identifying faults; 3) determination of the amount of information and construction of a diagnostic algorithm that satisfies the required detail of troubleshooting by analyzing the object model; 4) the choice of instrumentation that provides the implementation of the diagnostic algorithm.
To obtain diagnostic information, measurements are made of the values of vibration, acoustic vibrations (noise), parameters of the processing process (productivity, cutting conditions, duration of processing cycles, travel speed, temperature, etc.).
Diagnostics of software equipment is a complex process, when the detection and elimination of faults of average complexity is carried out by specialists from the CNC machine maintenance group. Complex malfunctions, if they cannot be eliminated by the specialists of the service group of the consumer plant, are corrected after consultation with the specialists of the service department of the manufacturer of the CNC machine tool.
Failures of CNC machines can be classified: by their external manifestation - latent and explicit (latent is a failure, the external manifestations of which may depend on several reasons; the explicit include failures that can be detected visually); by interrelation - independent and dependent, independent failures occur for any reason, except for the influence of another failure; dependent (secondary) failures are caused by the influence of the primary failure.
Each CNC machine, with intensive use, sooner or later depletes its resource, which leads either to a complete failure of the equipment, or to partial breakdown of parts or assemblies of machine tools.
Typically, the main reasons for machine failure are:
Violation of operating rules, including overloading of individual mechanisms and assemblies.
Violation of the adjustment of a specific unit or mechanism.
Deterioration of individual parts and assemblies, failure of individual mechanisms, loss of accuracy.
Technical consultations with remote access and onsite to the customer;
Diagnostics of CNC machines, their malfunctions;
Preventive inspection of spindles and spindle assemblies, diagnostics of emergency spindles with subsequent repair;
Repair of CNC machine warranty, post-warranty, overhaul at the customer's enterprise and at our own production base;
Delivery of spare parts and components as soon as possible;
Commissioning works;
Maintenance and programming of CNC systems: Heidenhain, Siemens, Fanuc;
Setting the parameters of the kinematics of the machine;
Restoration of damaged units to be replaced;
Equipment performance monitoring.
The advantages of our company:
Highly qualified staff.
High quality of work.
Many years of practical experience in the following areas: diagnostics of CNC machines, repair of CNC machines, maintenance of CNC machines.
Clear deadlines for the production of work.
Individual approach to each client.
the survey form below, our specialist will definitely contact you:
Diagnostics of CNC machines - a set of actions aimed at examining and identifying malfunctions in the design of equipment equipped with numerical control. The CNC system provides autonomous and semi-autonomous operation of machine tools. Malfunctions in the operation of the unit can affect both the quality of processing on CNC machines and the ability to properly perform the task.
Diagnostics of CNC machine tools includes a group of works that should be carried out by specialists.
It is difficult to make diagnostics outside the service center with your own hands, and there is a possibility of inaccurate determination of the cause of the breakdown.
Diagnostics is divided into two stages:
checking the condition of the machine;
checking the numerical control system.
The first stage involves identifying faults in the design of the device itself. Most often, malfunctions are associated with mechanical breakdowns. In this case, the structure is analyzed, the faulty element is removed and replaced.
The second stage is more complicated, since it requires the study of numerical control problems. For its implementation, it is required to inspect the specified program, software carrier, as well as the equipment responsible for the work performed.
If the unit is used in an industrial enterprise, special services carry out its maintenance. Companies that manufacture this type of equipment provide courses on how to use the devices, as well as how to diagnose their malfunctions. When the unit is sold, there is a manual accompanying it, which identifies the company that made it.
If necessary, you can contact this company for the purpose of taking a training course, or getting advice on an issue of interest. The installer must be able to independently diagnose the device.
CNC systems differ in structure and function. Despite this, the equipment test methodology assumes general actions. With this type of diagnostics, there are three stages that the operator must carry out: