RU2807275C1 - Device for cleaning products from hard coatings and salt deposits (options) - Google Patents

Abstract

FIELD: material processing.

SUBSTANCE: method for electrohydraulic processing of materials by electric discharges in a liquid, in particular, cleaning products from hard coatings and deposits in pipes, tanks and castings. A device for cleaning products from hard coatings and salt deposits contains a bath filled with water for setting products, a power unit containing a transformer-rectifier, the inputs of which are connected to a power source, and a storage capacitor is connected in parallel to the outputs, one terminal of which is grounded. The device contains a coaxial cable with a screen braid connected to a grounded terminal of the storage capacitor, and the central conductor of the cable is connected through a static discharger to another terminal of the storage capacitor. The other end of the cable is connected by a screen braid to the body of the discharge head. The central core with insulation is a high-voltage electrode and is located along the central axis of the internal cavity of the discharge head. The discharge head has an upper part of a cylindrical shape with an open internal cavity and a lower part in the form of a half-cylinder with a stepped groove made in it, the diameters of which correspond to the screen braid and the outer sheath of the cable. The coaxial cable is connected to the head using two semi-rings. The upper semi-ring serves as a retainer for the screen braid, which is in contact with the head body through a sealing electrically conductive gasket, and the lower semi-ring serves as a retainer for the outer sheath of the cable. The central core with insulation is installed in the open inner cavity of the upper part of the discharge head without the possibility of contact with its body. According to the second embodiment of the device, through cutouts are made in the side walls of the upper part of the discharge head housing.

EFFECT: increase in the efficiency of cleaning of rejected coatings for subsequent reuse of products, as well as an increase in the service life of the discharge electrode assembly while increasing the efficiency of energy transfer during discharge.

4 cl, 3 dwg

Description

The technical solution relates to the technology of electrohydraulic processing of materials by electric discharges in liquid, in particular, to the field of cleaning products from hard coatings and deposits in pipes, tanks and castings.

During the production of critical products with hard coatings using various compounds, defects in the adhesive layer and air inclusions in the thickness of the coating are detected, which leads to the rejection of products. To reuse an expensive main product, its defective coating must be removed. Mechanical and ultrasonic methods for removing hard coatings do not allow completely cleaning the surface of a product with a complex shape, including stiffeners, flanges and outlet pipes, and are also labor-intensive.

When cleaning pipes from salt deposits, in particular, oil pump and compressor pipes with solid quartzite deposits containing radioactive contamination, the “wet” cleaning technology becomes environmentally relevant.

A device is known for cleaning the tubes of heat exchangers from scale using electric pulse discharges (RU 85619 U1, IPC F28G 7/00, B08V 7/00, published on August 10, 2009), containing a high-voltage electrode, a current conductor connected to it, placed in an insulator, and a grounded an electrode made in the form of a cylindrical compression spring placed on the insulator of a high-voltage electrode. The compression spring is equipped with a metal tip placed on the insulator, which acts as a striking tool, and the tip is equipped with teeth arranged in two rows. The destruction of scale occurs by a shock wave during an electrical discharge between a high-voltage electrode, a tip and a compression spring and the subsequent impact of the tip on the scale, the teeth of which additionally destroy the exfoliated pieces. In the prototype of the device, a coaxial cable is used as a high-voltage electrode, its insulation and current conductor, which is connected to the energy storage unit of the power unit.

The disadvantage of the prototype is its low service life, due to the fact that during a discharge, a current pulse passes through the compression spring, heating it; as a result, with repeated discharges, the structure of the spring material changes when exposed to powerful current pulses, which lead to a decrease in the elasticity of the spring or to destruction. In addition, the spring is subject to electrodynamic forces due to the interaction of currents of opposite directions flowing through the central conductor and the coils of the spring, which leads to deformation of the coils in the radial direction.

The closest technical solution to the claimed one is a device for recycling reinforced concrete products (RU 56220 U1, MPK V03V 13/00, published on September 10, 2006), containing a water-filled bath with the product, a power unit containing a transformer-rectifier, the inputs of which are connected to a power source , and a storage capacitor is connected parallel to the outputs, one terminal of which is grounded and connected to an electrode placed in a bath of water, the other terminal of the storage capacitor is connected through a spark gap to the second electrode. Moreover, a fusible insert is installed between the electrodes and they are intended for insertion into the cavity of the reinforced concrete product. The destruction of reinforced concrete products is carried out by electro-hydraulic impact when a storage capacitor is discharged into the gap between the electrodes located in water. When processing long and large-sized products, it is necessary to carry out a series of discharges by moving the electrodes.

The disadvantage of this device is the low productivity and labor intensity when processing a product with a series of pulses, since after each pulse it is necessary to remove the electrodes from the product to replace the fusible insert, which is destroyed after the discharge pulse.

The technical result of the proposed device is to increase the service life of the discharge electrode assembly while increasing the efficiency of energy transfer during discharge.

The technical result is achieved due to the fact that in a device for cleaning products from hard coatings and salt deposits, containing a water-filled bath for installing products, a power unit containing a transformer-rectifier, the inputs of which are connected to a power source, and a storage capacitor is connected parallel to the outputs, one the output of which is grounded, a coaxial cable with a screen braid connected to the grounded output of the storage capacitor is used, and the central core of the cable is connected through a spark gap to the other output of the storage capacitor, and the other end of the cable is connected by the screen braid to the body of the discharge head, and the central core with insulation is high-voltage electrode and is located along the central axis of the internal cavity of the discharge head, wherein the discharge head has a cylindrical upper part with an open internal cavity and a lower part in the form of a half-cylinder with a stepped groove made in it, the diameters of which correspond to the screen braid and the outer sheath of the cable, and the coaxial cable connected to the head using two half-rings, the upper half-ring serves as a clamp for the screen braid, which is in contact through a sealing electrically conductive gasket with the head body, and the lower half-ring serves as a clamp for the outer sheath of the cable, while the central core with insulation is installed in the open internal cavity of the upper part of the discharge head without possibility of contact with its body.

In addition, between the half-ring, the housing of the discharge head and the screen braid of the cable there is a sealing electrically conductive gasket made of copper foil.

The technical result is also achieved due to the fact that in a device for cleaning products from hard coatings and salt deposits, containing a water-filled bath for installing products, a power unit containing a transformer-rectifier, the inputs of which are connected to a power source, and a storage capacitor is connected parallel to the outputs, one terminal of which is grounded, a coaxial cable is used with a screen braid connected to the grounded terminal of the storage capacitor, and the central core of the cable is connected through a spark gap to the other terminal of the storage capacitor, and the other end of the cable is connected by the screen braid to the body of the discharge head, and the central core with insulation is high-voltage electrode and is located along the central axis of the internal cavity of the discharge head, while the discharge head has a cylindrical upper part with an open internal cavity and a lower part in the form of a half-cylinder with a stepped groove made in it, the diameters of which correspond to the screen braid and the outer sheath of the cable, and coaxial the cable is connected to the head using two half-rings, the upper half-ring serves as a clamp for the screen braid, which is in contact through a sealing electrically conductive gasket with the head body, and the lower half-ring serves as a clamp for the outer sheath of the cable, while the central core with insulation is installed in the open internal cavity of the upper part of the discharge head without the possibility of contact with its body, and through cutouts are made in the side walls of the upper part of the discharge head body.

The coaxial cable together with the discharge head form a coaxial system with minimal self-inductance, which helps to increase efficiency. when the accumulated energy is transferred to the discharge channel and at the same time the charge voltage levels required to perform the cleaning process are reduced. In addition, the design of the coaxial discharge head minimizes the occurrence of side streamers during discharge, which can lead to defects on the surface of the product being cleaned and reduces the risk of high-voltage potential appearing on the body of the water bath. Thus, the resource of the discharge electrode assembly increases while the efficiency of energy transfer during discharge increases.

The operation of the device is illustrated by the following drawings:

- in fig. Figure 1 shows a block diagram of a device for cleaning products from hard coatings and salt deposits;

- in fig. Figure 2 shows the design of the discharge head for cleaning the surface of products from hard coatings (sections A-A, B-B, B-C, D-G);

- in fig. Figure 3 shows a version of a discharge head for cleaning pipes and products with internal cavities (section D-D).

The device contains a water-filled bath 1 with product 2, a power unit 3 with a transformer-rectifier 4, parallel to the output of which a storage capacitor 5 is connected, the high-voltage output of which is connected through a spark gap 6 to the central core of the coaxial cable 7, the screen braid of the cable is connected to the grounded terminal of the capacitor. The other end of the coaxial cable 8 is connected by a screen braid to the housing of the discharge head 9, and the central core with insulation of the other end of the cable is a high-voltage electrode 10, which is located along the axis of the internal cavity of the discharge head. The discharge head 9 is inserted into the cavity of the workpiece or is located above the product 2 with the coating to be cleaned.

Device operation:

When the power is turned on to the transformer-rectifier 4, electrical energy is accumulated in the capacitor 5 to a given energy level, then the spark gap 6 is turned on, which switches the stored energy in the capacitor to the discharge head 9 through the coaxial cable 7, 8. In the gap between the central electrode 10 and the housing discharge head 9, an electrical discharge occurs, which generates a shock wave and hydrocurrents directed at the workpiece. As a result of the impact of the shock wave and hydraulic flows, deposits or coatings on the surface of the product are destroyed.

In this case, the energy created by the electrical discharge, converted into a shock wave, is used with minimal losses in the system: coaxial cable - discharge head, as having a low intrinsic inductance.

According to the first option, the housing of the discharge head 9 is made of a cylindrical shape with an internal cavity 11 open at the output end of the head (section AA, Fig. 2). The housing 9 has an upper part 12, a lower part 13 in the form of a half-cylinder and two removable half-rings 14, 15. The half-rings 14, 15 have a gap of 1...2 mm wide between themselves and the upper part of the housing 12. Also, on the lower part 13 of the head 9 there is a stepped groove, the diameters of which correspond to the screen braid 16 and the outer sheath of the cable 17 of the coaxial cable 8. In the area of the screen braid 16, the cable is mounted in a groove with an annular gasket 18 made of copper foil with a thickness of 0.3...0 .8 mm, between the head body 9 and the pressure half-ring 14, and is tightened with screws 19 for reliable electrical contact (section BB, Fig. 2). The outer sheath of the cable 17 is tightened with a half ring 15 (section GG, Fig. 2), which ensures a strong mechanical connection between the cable and the head.

Operation of the discharge head according to the first option.

When the spark gap 6 is turned on, the accumulated energy of the capacitor 5 is discharged through the coaxial cable 8 into the gap between the wall of the cavity 11 of the discharge head 9 and the central core of the cable 10 (section B-B, Fig. 2). As a result of the discharge, a shock wave is formed, which propagates at high speed from the cavity 11 of the head 9 and affects the surface of the product being cleaned. The discharge currents in the head housing 9 and the central core 10 of the cable are directed towards each other, forming a coaxial system that has minimal self-inductance and helps to increase the discharge efficiency when processing long and large-sized products with a long cable.

The insulation length of the central core of cable 20 must be selected based on the maximum charge voltage of at least 2...3 mm/kV, excluding surface discharges along the cable insulation. The length of the bare conductor of the central core 10 of the cable should not exceed 4...6 mm to reduce electrical losses at the pre-breakdown stage of the discharge.

According to the second option, the housing of the discharge head 9 is made of a cylindrical shape with an internal cavity 11 open at the output end of the head. Additionally, in the upper part 12 of the housing of the discharge head 9 there are from 2 ^to 4 ex ^through cutouts 21, which are located opposite the core of the central electrode 10 of the coaxial cable (section D-D, Fig. 3).

Operation of the discharge head according to the second option.

At the moment of discharge of the storage capacitor 5 into the gap between the body of the discharge head 9 and the central electrode of the cable 10, a shock wave arises, which propagates in the radial direction through the side cutouts 21 and is simultaneously directed in the axial direction of the open cavity 11.

The lateral components of the shock wave affect the walls of the pipe being cleaned, leading to peeling and destruction of deposits, and the axial component of the shock wave knocks off the separated pieces of deposits from the wall and carries them out with a stream of water.

Bench tests of the proposed device on product samples with stiffeners and fittings on the outer surface coated with a solid protective compound confirmed the effectiveness of cleaning rejected coatings for subsequent reuse of the product.

A version of the discharge head was tested for cleaning oil pump and compressor pipes with diameters from 60 to 80 mm from quartzite deposits. The tests were carried out on a stand with water supplied to the pipes being cleaned from 6 to 10 meters in length. The effectiveness of pipe cleaning and environmental disposal of waste with radioactive contamination has been confirmed.

When testing the device, a coaxial cable RK50-17-17 with a length of 3 and 12 meters was used between a power unit with a stored energy of 15 kJ and the discharge head.

Claims (4)

1. A device for cleaning products from hard coatings and salt deposits, containing a bath filled with water for installing products, a power unit containing a transformer-rectifier, the inputs of which are connected to a power source, and a storage capacitor is connected parallel to the outputs, one terminal of which is grounded, characterized in that that it contains a coaxial cable with a screen braid connected to the grounded terminal of the storage capacitor, and the central core of the cable is connected through a spark gap to another terminal of the storage capacitor, and the other end of the cable is connected by the screen braid to the body of the discharge head, and the central core with insulation is a high-voltage electrode and located along the central axis of the internal cavity of the discharge head, while the discharge head has a cylindrical upper part with an open internal cavity and a lower part in the form of a half-cylinder with a stepped groove made in it, the diameters of which correspond to the screen braid and the outer sheath of the cable, and the coaxial cable is connected to head using two half-rings, the upper half-ring serves as a clamp for the screen braid, which is in contact through a sealing electrically conductive gasket with the head body, and the lower half-ring serves as a clamp for the outer sheath of the cable, while the central core with insulation is installed in the open internal cavity of the upper part of the discharge head without the possibility of contact with her body. 2. The device according to claim 1, characterized in that a sealing electrical conductive gasket made of copper foil is located between the half-ring, the housing of the discharge head and the screen braid of the cable. 3. A device for cleaning products from hard coatings and salt deposits, containing a bath filled with water for installing products, a power unit containing a transformer-rectifier, the inputs of which are connected to a power source, and a storage capacitor is connected parallel to the outputs, one terminal of which is grounded, characterized in that that it contains a coaxial cable with a screen braid connected to the grounded terminal of the storage capacitor, and the central core of the cable is connected through a spark gap to another terminal of the storage capacitor, and the other end of the cable is connected by the screen braid to the body of the discharge head, and the central core with insulation is a high-voltage electrode and located along the central axis of the internal cavity of the discharge head, while the discharge head has a cylindrical upper part with an open internal cavity and a lower part in the form of a half-cylinder with a stepped groove made in it, the diameters of which correspond to the screen braid and the outer sheath of the cable, and the coaxial cable is connected to head using two half-rings, the upper half-ring serves as a clamp for the screen braid, which is in contact through a sealing electrically conductive gasket with the head body, and the lower half-ring serves as a clamp for the outer sheath of the cable, while the central core with insulation is installed in the open internal cavity of the upper part of the discharge head without the possibility of contact with its body, and through cutouts are made in the side walls of the upper part of the discharge head body. 4. The device according to claim 3, characterized in that a sealing electrical conductive gasket made of copper foil is located between the half-ring, the housing of the discharge head and the screen braid of the cable.

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