DIY electric spark wire machine

DIY electric spark machine

To apply this processing method, you should use a special electric spark machine, which you can purchase or make yourself. The homemade version can be used in everyday life in small-scale production. The cost of making it yourself will be lower than purchasing an industrial version.

Therefore, let’s take a closer look at how you can make the electric spark machine in question with your own hands, what you need for this and in what cases it can be used.

Homemade electric spark machine

The principle of the considered processing method

A special feature of processing with an electric spark unit is that the evaporation of metal occurs due to the effect of a certain charge on the surface of the workpiece. An example of such an effect is the short circuit of a capacitor on a metal plate - a hole of a certain size is formed.

EDM creates a high temperature that simply evaporates the metal from the surface. It is worth noting that a machine from this group has already been used over the past 50 years in various industries. The main condition for using such an electric spark machine is that the workpiece must be made of a certain metal.

In this case, it is not the degree of machinability that is taken into account, but the electrically conductive properties.

The EDM machine has a spark generator that acts as a capacitor. For processing, a large capacity storage element should be used. The processing principle is to store energy over a long period of time and then release it over a short period of time. The laser device also works on this principle: reducing the time period of energy release leads to an increase in current density, which means the temperature increases significantly.

Electrical circuit of an electric spark installation

The operating principle of the generator, which is installed on an electrical discharge machine, is as follows:

the diode bridge rectifies industrial current with a voltage of 220 or 380 Volts;
the installed lamp limits the short circuit current and protects the diode bridge;
the higher the load indicator, the faster the charging of the electric spark machine;
after charging is complete, the lamp will go out;
Having charged the installed storage device, you can bring the electrode to the workpiece;
after the circuit is opened, the capacitor begins to charge again;
The charging time of the installed storage element depends on its capacity. Typically, the time period is from 0.5 to 1 second;
at the moment of discharge the current reaches several thousand amperes;
the wire from the capacitor to the electrode should have a large cross-section, about 10 square millimeters. In this case, the wire must be made exclusively of copper.

The generation frequency when the electrode is supplied to an electric spark machine is 1 Hz.

Design of an electric spark machine

There are schemes that are quite difficult to implement. The scheme in question can be implemented with your own hands. Parts for the installed generator are not in short supply; they can be purchased at a specialized store. Capacitors are also widespread, as is the diode bridge. At the same time, when creating a homemade electric spark machine, the following points should be taken into account:

on the capacitor the indicated voltage should not be less than 320 Volts;
the number of energy storage devices and their capacity are selected taking into account that the total capacity should be 1000 μF. All capacitors must be connected in parallel. It is worth considering that the power of a homemade version increases if it is necessary to obtain a stronger spark strike;
The lamp is installed in a porcelain socket. The lamp should be protected from falling; a circuit breaker with a current strength of 2 to 6 Amperes is installed;
the machine is used to turn on the circuit;
electrodes must have strong clamps;
a screw clamp is used for the negative wire;
The positive wire has a clamp with a copper electrode and a tripod for direction.

Basic elements of the electrical spark equipment circuit

The diagram is represented by the following elements:

electrode;
a clamp screw used to secure the positive wire and electrode;
guide bushing;
body made of fluoroplastic;
hole used to supply oil;
tripod.

The body, which is used to connect all the elements, is machined from fluoroplastic. A grounding pin is used as a bushing, in which a threaded hole is machined along the axis for attaching the electrode. All structural elements are mounted on a tripod, which is made with the ability to change height. A hole is also created through which oil is supplied.

Often cutting is carried out using a device that is powered by a starter with a coil connected to a voltage of 220V. The starter rod can have a stroke of 10 millimeters. The starter winding is connected in parallel with the lamp. That is why the lamp is lit when the capacitors are charging, and after this process is completed, it goes out. After the rod has been lowered, a spark charge occurs.

Electroerosive machines operate on the principle of applying electric charges to the work surface of a part located in an electrically conductive environment.

Due to this, electrical erosion occurs in a given direction, which makes it possible to obtain a specific shape or size of the part.

Features of a homemade device

Before you start making a homemade EDM machine, you need to understand its structure. The main structural elements include:

Table for securing the workpiece.
Bath.
Actuator (electrode, terminal block for connecting the wire, bushing, guide, dielectric housing, tripod).
Generator.
Carriage.
Easel base.
Handwheel for tool feeding.
Bracket.
Vibrating plate.
Rod guide.
Stand.
Equipment.

Drive of the main movement in the machine

A linear drive is a design with non-contact force transmission, a direct drive without any kinematic chain for converting energy into motion and rotational motion into linear motion, without backlash, dead zone and uneven feeds. All that happens during each movement is:

Command impulse => Interaction energy of magnetic fields => Linear motion

In linear drives there is no multi-stage conversion of energy into movement, which causes backlash and uneven feeds. Linear drives of an electric spark machine are capable of adjusting the gap 500 times per second with a feed resolution of 0.1 microns. It turns out that the optimal gap is at almost any moment. And as a result, we get optimal modes, consistently maximum removal, high processing speed and surface quality.

How to improve the machine?

The simplest machine made is a working model. Its purpose is to create holes in hardened parts.

In the future, you need to consider the option with a vertical electrode arrangement. Then you can install a bath underneath it. The process will occur without possible malfunctions associated with the presence of sludge that cannot be removed from the working area.

It is also necessary to consider additional mechanisms for smooth tool feeding. It may be necessary to carry out not only axial movement, but also movement of the electrode in the horizontal plane in order to carry out three-dimensional surface treatment.

Any simple machine gives ideas on how to further improve it and create a more convenient unit. The main thing is to take the first step and try to make the first sample.

Video: homemade electric spark machine.

Electric spark processing of material.

Electric spark machining involves using the phenomenon of electrolytic erosion and transferring the tool metal to the build-up surface of the part when spark discharges pass between them.

In electrical installations (switches, contactors, switches), sparks are formed at the moments of closing and opening the electrical circuit, which gradually destroy the surface of the contacts. This phenomenon is called electrical erosion. Particularly severe erosion is observed in DC circuits. This is explained by the fact that air ionization occurs between the energized electrodes, thereby creating a narrow channel that conducts current. An electron avalanche (in the form of a spark), breaking through the air gap, transfers a significant amount of electricity in a very short period of time from the cathode to the anode. In this case, a small part of the anode surface is heated to a very high temperature (10,000°C...15,000°C), which leads to melting and even evaporation of the metal, which is ejected from the spark gap in the form of liquid drops.

Let's consider electric spark processing (Fig. 1). The workpiece is the anode in the electrical circuit, and the tool is the cathode. To prevent metal droplets from growing on the tool and changing its shape, the processing process is carried out in a liquid medium (oil, kerosene) that does not conduct electric current. The tool is fixed in a slider that makes vertical movements up and down using a solenoid regulator. An electrical circuit consists of direct current sources, a resistance that regulates voltage and current, and a capacitor that prevents the spark from turning into an electric arc. When the electrode is lowered so much that a small gap is formed between it and the product, an electric spark jumps and erosion of the product occurs. The electrode is then raised slightly and the processing cycle, lasting a fraction of a second, is repeated.

Rice. 1. Scheme of electric spark processing (firmware) 1 - solenoid; 2 - current source; 3 - resistance; 4 - capacitor; 5 - detail; 6 — liquid medium (oil, kerosene); 7—tool; 8 - slider

Rice. 2. Installation diagram for electrospark metal growth 1—switch; 2 - transformer; 3— rectifier; 4— capacitor; 5—vibrator; 6 - workpiece

The electrode is made of soft brass or copper-graphite mass, which can easily be given any shape and size. This method can be used to process both soft and hard metals (hardened steels, hard alloys, etc.).

Technological indicators of electric spark processing of metals depend on the applied processing mode. Thus, when flashing in hard mode (voltage 150...200 V, short circuit current 10...60 A and capacitor capacity 400...600 μV), you can get clean surfaces of classes I and II, and a metal volume of 150...300 mm3/min; when flashing in soft mode (voltage 25...40 V, current 0.1...1 A and capacitor capacity up to 10 μF), it is possible to achieve surface cleanliness corresponding to classes VI and VII, however, metal removal in this case will be less than 20 mm3/min .

Electric spark machining of metals is used for piercing holes of various shapes and sizes, removing remnants of broken tools and fasteners from products, surface hardening and building up a metal layer with minor wear.

Electric spark growth (Fig. 69) allows you to apply coatings from any metals and alloys, regardless of their hardness. This, as well as the low temperature of the part during processing, creates favorable conditions for building up a layer of metal on worn, hardened surfaces. Electrospark build-up restores the journals of the axles of road wheels, seats for bearings on shafts, bearing cups, journals for bearings on axles and other similar surfaces of parts in fixed and transitional fits.

When the electrode (anode), fixed in the vibrator clamps, comes into contact with the surface of the part (cathode), a spark discharge is formed, which transfers the metal from the anode to the cathode. Metal transfer occurs in the air and, unlike installations for piercing work, does not require the use of working fluids and baths.

The wear resistance and fatigue strength of machine parts strengthened by the electric spark method largely depends on the modes used and the strengthening material.

For electrospark growth of metal on parts, UPR-ZM and EFI-25 installations are used.

Selection of machine technical characteristics

The parameters describing the technological properties of machines of this model are: accuracy of operations, coordinate movements, feed modes and speeds, cutting and load modes, the presence of a mechanized tool change, the ability to install additional equipment, power consumption. The given data on productivity, surface cleanliness and energy intensity refer to the processing of areas of various sizes in modes that ensure the absence of areas of melting and coating, i.e. at optimal current densities.

Let's consider the main technological characteristics. For example, the metal removal rate at maximum conditions when processing steel is on average 600 mm3/min and is close to the maximum possible for this method of metal processing. The specific energy consumption in hard modes is 20-50 kWh/kg of dispersed metal. Tool wear in relation to the volume of metal removed reaches 25-120 percent or more. Surface cleanliness in soft modes reaches class 4 at a removal rate of 10-15 mm3/min. A further increase in surface cleanliness is accompanied by a sharp decrease in the removal rate. Thus, when obtaining class 5 surface cleanliness, the productivity of the electric spark processing method is less than 5 mm3/min. The specific energy consumption in soft modes is tens and hundreds of times higher than in hard modes.

When processing hard alloys, the productivity of the process in soft modes is approximately two to three times less than when processing steel, but this results in slightly better surface cleanliness. The use of more severe conditions when processing hard alloys is limited by the formation of cracks on them.

https://youtube.com/watch?v=A-05qqP1cfM

https://youtube.com/watch?v=YPlK9MshXDc

DIY electric spark pencil

This method will require an alternating current source with a voltage of 18-20 V, preferably adjustable, and an electrode holder - an electric spark pencil.

A transformer with a power of about 200 W can be used as a current source. One of the terminals of the secondary winding of the transformer is connected using an alligator clip to the workpiece or part on which the inscription needs to be applied. The other terminal is connected to an electrode clamped in an electric spark pencil. Connections are made with an insulated stranded wire with a cross-section of at least 1.5 mm2, ensuring operation with currents of more than 10 A. The connection diagram is shown in Fig. 1.

Fig. 1 Connection diagram of an electric spark pencil to a 220 volt network

An electric spark pencil is a simple clamp for an electrode, the basis of which can be used as a regular collet pencil (Fig. 2). However, due to the high degree of heating during engraving, its plastic body must be replaced with another made of heat-resistant insulating material, for example, PCB or ebonite. The wire coming from the transformer is passed through a hole in the housing and soldered to the collet.

Rice. 2 Electric spark pencil based on a regular collet pencil

The electrode can be a pointed metal rod with a diameter of 02-3 mm, preferably made of a refractory metal, for example, tungsten. But you can use rods from other materials, say, from less scarce graphite. The engraving end of the rod is a cone with an apex angle of about 30°.

When the transformer is connected to the network according to the diagram above, voltage appears on the electrode. Touching the end of the electrode to a metal surface causes a spark discharge to appear, which, melting the metal surface, leaves a noticeable mark on it.

Experience shows that the highest quality inscriptions are obtained at an operating voltage for a tungsten electrode - 8-10 V, for a graphite electrode - 16-18 V. Before applying an inscription, the metal surface must be cleaned of dirt and degreased. Inscriptions and drawings are applied with separate points and tangential movements.

'If desired, an electromagnetic breaker can be introduced into the electrical circuit of the “electric spark pencil”, connected in series to the circuit it breaks, and the pencil can be equipped with a solenoid (in the core of which the collet is fixed) and a spring that returns the collet with the electrode to its original state after opening the circuit. This will somewhat simplify the engraving process, but will complicate the design of the electric pencil.

When operating the described device, it is necessary to observe electrical safety measures, especially when using LATR as a voltage source. To protect your eyes, you must always use safety glasses. Do not allow the transformer to overheat, take breaks during operation.

S. IVANOV, Kursk

The essence and characteristics of the method

Electroerosion is a change in the shape and structure of the surface of a part when exposed to an electric discharge. One of the electrodes is a tool, the other is a part made of conductive materials. When they come together, an electric discharge is formed. Discharges are produced pulsed, using a pulse generator. The work is carried out in a liquid dielectric medium, which increases the discharge force. Various mineral oils and kerosene are used as dielectrics. As a result of the discharge, an electric arc is formed. You can choose different materials for electrodes:

tungsten;
coal;
copper;
brass.

The current heats the electrode, evaporation of the dielectric occurs and the formation of a gas bubble. When exposed to a high-power discharge, the temperature in the gas bubble rises to thousands of degrees, the electrodes melt and metal is released.

Electrical discharge machining is used in the following processes:

Abrasive grinding. It consists of destroying a metal workpiece using abrasive processing and electrical erosion.
Electroerosive chemical grinding is the use of electric spark erosion and anodic dissolution in an electrolyte environment.
The anodic-mechanical method of electrical processing is characterized by complex electrochemical and mechanical methods of action, in which the workpiece material is dissolved, and the resulting oxide film is removed mechanically.
Piercing is a method of making holes in solid materials using the electrical discharge method.
Electroerosive hardening makes it possible to improve the strength characteristics of the workpiece surface.
Volume copying allows you to copy the shape of the electrode-tool.
Electrical discharge cutting of metal allows you to obtain high precision.

Electrical processing is carried out with direct and reverse polarity.

Electric spark processing of metals

In electric spark machining, the part is the anode and the tool is the cathode. With this polarity, the electrode-tool is severely destroyed. To prevent destruction, a short negative pulse is applied to it with a duration of no more than 0.001 seconds. The method is mainly used for finishing. It allows you to pierce holes, clean surfaces and grind parts made of materials of increased hardness.

Electropulse treatment

When using electric pulses, reverse polarity is used. The part is the cathode. When an arc discharge is formed, the part is processed by an ion flow directed towards the part. This provides good metal removal performance, but significantly less accuracy. This method is used for rough processing of workpieces.

Electroerosive cutting is used when it is necessary to produce complex parts from high-strength alloys. Cutting machines are used when mass production of products with high precision is required.

Main structural element

Electrical circuit of an electric spark installation

The operating principle of the generator, which is installed on an electrical discharge machine, is as follows:

the diode bridge rectifies industrial current with a voltage of 220 or 380 Volts;
the installed lamp limits the short circuit current and protects the diode bridge;
the higher the load indicator, the faster the charging of the electric spark machine;
after charging is complete, the lamp will go out;
Having charged the installed storage device, you can bring the electrode to the workpiece;
after the circuit is opened, the capacitor begins to charge again;
The charging time of the installed storage element depends on its capacity. Typically, the time period is from 0.5 to 1 second;
at the moment of discharge the current reaches several thousand amperes;
the wire from the capacitor to the electrode should have a large cross-section, about 10 square millimeters. In this case, the wire must be made exclusively of copper.

The generation frequency when the electrode is supplied to an electric spark machine is 1 Hz.

Brief description of a homemade installation

Electrode 1 is installed in housing 2. Its reciprocating movement is carried out by an electromagnet from coil 7. Terminal 3 is connected to the guide sleeve (positive potential is applied).

The part to be processed is mounted on the work table 4. There is terminal 5 on the table; the negative conductor is connected to it. Lubricant is supplied through tube 6 into the housing.

By turning on the converter, operating voltage will be obtained on the current-carrying wires. Additionally, voltage is applied to the induction coil 7. It creates vibration of the electrode 1, directing its movement to the right and left. Electrode 1 touches the workpiece. A current of 7000...9000 A appears in the contact zone.

Each time the tool moves towards the part, a small amount of metal is burned off. Within 10...12 minutes of operation of the electrical erosive machine, a through hole will be obtained in the part. A hole is obtained in the drill shank. It is quite difficult to drill such a hole using the usual method.

Development of a horizontal electrical discharge machine

The installation diagram includes the main components and parts:

1 – electrode;
2 – screw for fixing the electrode in the guide sleeve;
3 – terminal for fixing the positive wire from the voltage converter;
4 – guide sleeve;
5 – fluoroplastic body;
6 – hole for lubricant supply;
7 – bed.

The unit is small in size and can be placed on a table. In the housing 5, the guide sleeve 4 can move in both directions. To drive it you need a special mechanism or device.

Electrode 1 is attached to sleeve 4, the positive wire is also connected using terminal 3. All that remains is to assemble the proposed circuit into a real installation at home. It uses the simplest equipment.

§2 Electrical erosion

The principle of electrical discharge machining of metals is based on the evaporation of metal by a spark discharge. If you have seen a short circuit of a capacitor on a metal plate, then remember that a hole remains at the discharge site. The metal in this place evaporates from the high temperature of the spark discharge. Electrical discharge machines have been used in industry for processing high-strength alloys for more than 50 years.

§5 Implementation of the machine

Parts for a spark generator are not in short supply; they can be bought at a specialized store or taken from the nearest trash heap. You will find capacitors in any discarded TV or monitor or in a computer power supply. You will also find a diode bridge there. The voltage indicated on the capacitor must be at least 320 V. The capacitance of the capacitor can be any, the sum of all capacitances of the capacitors must be at least 1000 μF (all capacitors are connected in parallel). The larger the capacity, the more powerful the blow. All this must be assembled in a durable insulating housing. As I already said, for installation you need to use thick copper wires (6..10mm2), which should go from the capacitors to the electrodes. The wires from the capacitors to the diode bridges and to the lamp can be 0.5 mm2. Install the lamp in a porcelain socket and firmly secure it to the stand so that the lamp does not fall and break; it is advisable to install a 2..6 A circuit breaker here. With its help, you can turn on the circuit. For the electrodes you need to make reliable clamps. For the negative wire, a large alligator clip or screw clamp. On the positive wire you need to make a clamp for the copper electrode and a tripod with a guide for the electrode.

Fig.2 Machine structure

Description:
electrode;
electrode clamp screw;
positive wire clamp screw;
guide bushing;
fluoroplastic body;
oil supply hole;
tripod;

Body 6 is machined from fluoroplastic. The grounding pin of a 3-phase Euro socket is used as a guide sleeve 4 for electrode 1. It was drilled along the axis to install an electrode into it, and two threaded holes were made to secure the electrode and wire. As the electrode evaporates, it is moved forward by loosening screw 2. The entire structure is mounted on a reliable tripod, which allows you to change the height. A tube with oil is inserted into hole 6. Guide sleeve 4 supplies oil along the electrode like a syringe.

Fig.3 Photo of the machine

To drive the electrode, a domestic starter with a 220V coil was used, the rod of which has a stroke of 10 mm (it determines the maximum depth of the hole). The starter winding is connected in parallel with lamp H1, so while the capacitors are charging (the lamp is on), the starter rod is retracted. After charging the capacitors, the lamp goes out because the current in the system stops flowing and the rod is released. When the rod is released, it touches the part, a spark discharge occurs, lamp H1 lights up and the rod retracts again. The cycle repeats again, with a frequency of approximately 1 Hz. If you need to increase the frequency, then you need to increase the power of lamp H1. A file is used as a detail in the photo.

Fig.4 Photos of a drill with a hole made by this machine.

High voltage generator from a transistor liner

Hello, dear friends!
Today I suggest you assemble a high-voltage generator using just one transistor from a TVS-110PTs15 line transformer with an UN9/57-13 voltage multiplier from an old color TV. The circuit is quite simple, built on the principle of blocking a generator and contains a small number of parts. Circuit of a high voltage generator from a liner on one transistor

To assemble the generator, you will need one KT819G transistor, or an imported analog TIP41C, but it is best to use MJE13009, since this transistor can withstand current up to 12 A and, accordingly, will heat up less. Personally, I used MJE13009 in my generator. Be sure to coat the transistor with thermal paste and install it on a radiator, preferably with a fan.

You will also need two 5-watt resistors. At 100 ohms and 240 ohms, the resistors in my generator got very hot and I decided to glue a small radiator with “poxy-pol”. The most important part of the generator is the TVS-110PTs15 line transformer; it is possible to use TVS-90LTs5 and other similar ones from old color, black-and-white and even tube TVs.

Linear transformer TVS-110PTs15

A couple of additional windings need to be wound on the magnetic core of the transformer. Coil L1 contains 10 turns, wound with wire with a diameter of 1 millimeter. We wind coil L2 with 1.5 millimeter wire, 4 turns in total. Both coils should be wound in the same direction. The secondary high-voltage winding remains unchanged.

Line transformer TVS-110PTs15 with two additional windings

The voltage multiplier UN9/27-13 or similar also needs minor modification. It is necessary to remove two unused terminals on it, marked in the picture with red arrows, then isolate these places with “poxy-pol”. It’s not necessary to do this, but if you accidentally touch these conclusions during the experiment... Your hair will stand on end and it won’t seem like much, of course it won’t kill you with an electric shock, there are very few amperes there, but it can burn you. A 470 ohm resistor is installed between the line transformer and the multiplier.

Voltage multiplier UN9/27-13

The arrester is made of two wires with a diameter of 1 millimeter. The distance between the electrodes is selected individually. To power the generator, it is best to use a power source from 12 to 30 volts with a current of at least 2A.

High voltage generator. Arrester

After power is applied, a powerful arc appears at the spark gap. How to measure the voltage at the output of a multiplier without a kilovolt meter? It is generally accepted that 1 millimeter of arc is 1 kilovolt, the length of the arc is 15 millimeters, which means the voltage at the spark gap is approximately 15 kilovolts.

I would like to say a few words about safety precautions. A high voltage of several tens of kilovolts is supplied to the spark gap from the multiplier, so do not touch the spark gap with your hands to avoid electric shock; even after turning off the power, high voltage remains in the multiplier capacitors. Of course, it won’t kill you with an electric shock, because there are not enough amperes, but it will hurt and possibly leave burns on the skin.

Friends, I wish you good luck and good mood! See you in new articles!

I recommend watching a video about how a high voltage generator works.

Royal icing for cakes

If you prefer to decorate your Easter cakes with white frosting, you can also use royal icing for this purpose. This glaze will not drip down the cake, and you can also make patterns and inscriptions from it.

Ingredients:

Egg white
Powdered sugar (glass)
A pinch of flour
Vanilla (pinch)

Preparation:

Grind the sifted powdered sugar with the protein, and at the end of cooking add flour and vanillin. Coat the top of the cake with icing and draw flowers, stars, monograms, etc.

Note:

For painting, it is better to use colored glaze. And instead of flour, you can add starch (potato or corn). To prepare colored glaze, you can use regular food coloring (liquid, dry or gel). Or you can take natural ones: beet juice, saffron, cocoa powder.

As you can see, royal icing is such a simple recipe that it is suitable for the very first steps in the artistic design of any confectionery product. It is not for nothing that it is also called drawing paste. Unlike meringue, this glaze is devoid of pomp and airiness, it is plastic and dries quickly. So try, do, draw, create!

To change the shape and size of a metal workpiece, you can use the electrical discharge processing method. It has been used for many years in various industries, characterized by high accuracy but low productivity. To apply this processing method, you should use a special electric spark machine, which you can purchase or make yourself. The homemade version can be used in everyday life in small-scale production. The cost of making it yourself will be lower than purchasing an industrial version. Therefore, let’s take a closer look at how you can make the electric spark machine in question with your own hands, what you need for this and in what cases it can be used.

Machine feed drives

Only recently has the production of electric spark machines begun, namely with completely new linear motors. In this release, work was done and corrected on speed control and acceleration, uniform movement, reverse, ease of maintenance, etc.

The linear motor in this release of machine tools has a motor containing only a few elements: an electromagnetic stator and a flat rotor, which contain only a gap of air between them. There is also another important element and this is an optical measuring ruler with high resolution (0.1 microns). Without this measuring device, the control system will not be able to recognize the coordinates.

But we will also take a closer look at the stator and rotor. Both are designed as flat, easily removable blocks. But the stator is attached to the frame or column of the machine, and the rotor is attached to the working element.

The design of the rotor is completely simple. It consists of rectangular strong permanent magnets. And the magnets are on a thin plate made of special high-strength ceramics, the coefficient of thermal expansion of which is half that of granite.

Many problems of the linear drive were solved, as they began to use ceramics simultaneously with the cooling system. Accordingly, problems with temperature factors, structural rigidity, the presence of strong magnetic fields, etc. “went away.”

Machine spindle units

The spindle is made in the form of a massive rotor, with a mounting collet located inside it, and at the upper point of the cavity formed by two counter-facing conical surfaces, a working fluid intake (catcher) is installed. This spindle design improves working conditions on the machine.

Fig. 1 – Spindle of an electric spark machine

In the sliding bearing 1 there is a spindle 3 rotating through a V-belt drive 2, made in the form of a rotor, in the concentric bore of which a collet 4 is located on a tense or tight fit, for fastening along the outer surface of the workpiece 5. The internal cavity of the rotor is formed by two counter-facing conical surfaces 6 and 7, The working fluid supplied from the hydraulic pump through tube 8 into the hole of the workpiece, under the influence of the centrifugal forces of the rotating spindle, is collected at the periphery of the internal cavity (pocket) of the rotor, from where through the intake 9 through tube 10 it enters the filter element of the hydraulic pump.

DIY electric spark machine

Therefore, let’s take a closer look at how you can make the electric spark machine in question with your own hands, what you need for this and in what cases it can be used.

Homemade electric spark machine

The principle of the considered processing method

In this case, it is not the degree of machinability that is taken into account, but the electrically conductive properties.

Electrical circuit of an electric spark installation

The operating principle of the generator, which is installed on an electrical discharge machine, is as follows:

the diode bridge rectifies industrial current with a voltage of 220 or 380 Volts;
the installed lamp limits the short circuit current and protects the diode bridge;
the higher the load indicator, the faster the charging of the electric spark machine;
after charging is complete, the lamp will go out;
Having charged the installed storage device, you can bring the electrode to the workpiece;
after the circuit is opened, the capacitor begins to charge again;
The charging time of the installed storage element depends on its capacity. Typically, the time period is from 0.5 to 1 second;
at the moment of discharge the current reaches several thousand amperes;
the wire from the capacitor to the electrode should have a large cross-section, about 10 square millimeters. In this case, the wire must be made exclusively of copper.

The generation frequency when the electrode is supplied to an electric spark machine is 1 Hz.

Design of an electric spark machine

on the capacitor the indicated voltage should not be less than 320 Volts;
the number of energy storage devices and their capacity are selected taking into account that the total capacity should be 1000 μF. All capacitors must be connected in parallel. It is worth considering that the power of a homemade version increases if it is necessary to obtain a stronger spark strike;
The lamp is installed in a porcelain socket. The lamp should be protected from falling; a circuit breaker with a current strength of 2 to 6 Amperes is installed;
the machine is used to turn on the circuit;
electrodes must have strong clamps;
a screw clamp is used for the negative wire;
The positive wire has a clamp with a copper electrode and a tripod for direction.

Cutting and stitching machine

Contrary to preconceived notions about the complexity and impracticability of such a task, this is not the case. This is a completely feasible task for the average person, although everything is not so simple. The simplest type of machine is a cutting machine, designed for processing parts made of alloyed, refractory and other durable metals.

Electroerosive cutting machine

The electrical circuit contains: a power source, a diode bridge, a light bulb and a set of capacitors connected in a parallel circuit. The electrode and the workpiece are connected to the output. Let us note once again that this is a schematic diagram for a figurative concept of the principle of operation of the device. In practice, the diagram is supplemented with various elements that allow you to adjust the piercing machine to the required parameters.

General requirements for the electrical circuit of a cutting machine:

Consider the required power of the machine when choosing a transformer;
The voltage across the capacitor must be greater than 320 V;
The total capacitance of the capacitors must be at least 1000 μF;
The cable running from the circuit to the contacts must only be copper and have a cross-section of at least 10 mm;

One example of a working diagram:

As you can immediately see, the scheme differs significantly from the fundamental one, but at the same time it is not something supernatural. All the details of the electrical circuit can be found in specialized stores or simply in old electronic devices that have long been collecting dust somewhere in the garage. An excellent solution is to use CNC to control the machine, but this method of control costs a lot, and connecting it to a homemade machine requires certain skills and knowledge.

Main structural element

Electrical circuit of an electric spark installation

The operating principle of the generator, which is installed on an electrical discharge machine, is as follows:

the diode bridge rectifies industrial current with a voltage of 220 or 380 Volts;
the installed lamp limits the short circuit current and protects the diode bridge;
the higher the load indicator, the faster the charging of the electric spark machine;
after charging is complete, the lamp will go out;
Having charged the installed storage device, you can bring the electrode to the workpiece;
after the circuit is opened, the capacitor begins to charge again;
The charging time of the installed storage element depends on its capacity. Typically, the time period is from 0.5 to 1 second;
at the moment of discharge the current reaches several thousand amperes;
the wire from the capacitor to the electrode should have a large cross-section, about 10 square millimeters. In this case, the wire must be made exclusively of copper.

The generation frequency when the electrode is supplied to an electric spark machine is 1 Hz.

Main features of electrical erosion

The operating principle of an erosion installation for metal parts is based on the removal of the smallest particles of the material being processed by a spark discharge. As a result of a single exposure, a small hole remains at the point of contact. The more powerful the spark, the wider and deeper the depression is formed.

Spark generator circuit:

The electrical circuit of the device provides for the use of:

diode bridge, it rectifies the supplied alternating voltage from the 220 V network;
a 100 W H₁ incandescent lamp represents a resistive load;
capacitors C₁, C₂, C₃ accumulate energy to produce a one-time spark discharge.

When the circuit is connected to the network, the H₁ lamp lights up, and an electric charge accumulates on the capacitors C₁,..., C₃. When the capacitors are fully charged, the flow of electric current through the circuit stops. The H₁ lamp goes out, which serves as a signal for the possibility of a spark.

The electrode is applied to the part. There remains a gap through which breakdown occurs. A small hole is burned into the metal.

Similar actions happen many times. With each subsequent action, the electrode penetrates deeper into the metal, tearing out particles at a greater depth.

The above circuit requires about 0.5...0.7 s of time to fully charge the capacitors. The current value in the charge circuit is approximately 0.42...0.47 A. When contact is made in the discharge zone, the current increases to 7000...9000 A. At such a high value, 0.010...0.012 g of metal (steel) evaporates.

Technological indicators

An electric spark installation, depending on the operating mode, can ensure the accuracy of the result within a wide range. If high performance is required with relatively low requirements for surface condition (class I and II), then currents of 10-60 A are used at voltages up to 220V. In this case, electric spark erosion can remove metal from the cutting or drilling zone in a volume of up to 300 mm3/min. With higher accuracy class values - VI and VII, productivity decreases to 20-30 mm3/min, but lower currents are required, no more than 1 A at voltages up to 40 V.

A feature of the use of electric spark installations can be considered the ability to strengthen parts of various configurations. A thin layer of a stronger alloy or metal is applied to the surface of the workpiece without heating the base to a greater depth. This allows you to preserve the metal structure of the base product and significantly change the properties of its surface. In some cases, base viscosity and high surface hardness are required, or vice versa. Only an electric spark machine can solve this problem.