RU98765U1 - DEVICE FOR PROCESSING WELL FILTERS - Google Patents

Abstract

 A device for processing well filters, comprising a sealed housing, a cylinder attached to it from the bottom with a cover, in the form of a continuous membrane, installed underneath with a gap and connected to it, a sludge collector open from above, two electromagnetic coils and a hammer, periodically interacting with the anvil, rigidly connected to the membrane, cuffs made of elastic material installed in the lower part of the cylinder and in the upper part of the sludge collector, the outer diameter of which is larger than the inner diameter of the filter characterized in that a switch is additionally placed in the housing, connecting the electromagnetic coils to the cable and consisting of four semiconductor diodes, wherein one cable wire is connected to the end of the first electromagnetic coil and the beginning of the second, second cable wire is connected to the anode of the first diode and the cathode of the second, cathode the first diode is connected to the beginning of the first electromagnetic coil, and the anode of the second diode to the end of the second electromagnetic coil, the third and fourth diodes are connected in parallel with the electromagnetic coil , The third diode cathode is connected to the cathode of the first diode and the fourth diode anode to the anode of the second diode.

Description

The proposal relates to the operation of water wells, in particular to devices for the regeneration of water-operated wells and can be used for repair work on water wells.

A device for treating wells, taken as a prototype [1], containing a sealed enclosure attached to it from below a cylinder with a lid, in the form of a continuous membrane. A sludge collector open on top is attached to the cylinder from below with a gap. Two electromagnetic coils and a striker are placed in the casing, periodically interacting with an anvil rigidly connected to the membrane. In the lower part of the cylinder and in the upper part of the sludge collector, cuffs of elastic material are installed, the outer diameter of which is larger than the inner diameter of the well filter.

The device is suspended on a cardboard cable or cable and power cable through which the coils are powered.

A device for processing well filters works as follows.

Voltage pulses are alternately applied to the coils through the cable. Under the influence of electromagnetic force, the striker makes a reciprocating motion and, when moving downward, strikes the anvil, which acts on the membrane. The membrane creates an impulse of excess pressure in the chamber formed by the cylinder and sludge collector. Through the gap between the cylinder and sludge collector, with the help of cuffs, the action of the pulse is directed to the well filter, while the collimantact is destroyed. Upon completion of the impact, the anvil returns to its original position, while a rarefaction is created in the active gap, and the particles of colmatant are drawn into the sludge collector. Thus, active processing of the well filter is ensured.

The advantages of the known device is the efficient processing of the well filter at minimum cost. However, at least a three-core cable is required to control the coils. Which in turn increases the overall cost of the device, overall dimensions and reduces its reliability.

The aim of the solution is to increase reliability and reduce cost and overall dimensions.

This goal is achieved in that the device for processing well filters, contains a sealed housing, a cylinder attached to it from the bottom with a cover, in the form of a continuous membrane, installed under it with a gap and connected to it a sludge collector open on top, two electromagnetic coils and a striker placed in the housing periodically interacting with the anvil, rigidly connected to the membrane, installed in the lower part of the cylinder, and in the upper part of the sludge collector cuffs, of elastic material, the outer diameter of which larger internal diameter of the filter.

New is that in the case an additional switch is placed, connecting the electromagnetic coils to the cable and consisting of four semiconductor diodes, with one cable wire connected to the end of the first electromagnetic coil and the beginning of the second, second cable wire connected to the anode of the first diode and the cathode of the second, cathode the first diode is connected to the beginning of the first electromagnetic coil, and the anode of the second diode to the end of the second electromagnetic coil, the third and fourth diodes are connected parallel to the coils, and the third d cathode connected to the cathode of the first diode and the fourth diode anode to the anode of the second diode.

Figure 1 shows a device for processing well filters a longitudinal section; figure 2 is a schematic diagram of a switch connected to the coils of an electromagnetic pulse source.

The device for processing wells consists of a sealed housing 1, a cylinder 2 attached to it from below with a cover 3, in the form of a continuous membrane. An open sludge collector 4 is attached to the bottom of the cylinder with a gap, two electromagnetic coils 5, 6 are mounted on the guide 7 and the hammer 8 is periodically interacting with the anvil 9. The anvil 9 is rigidly connected to the cylinder cover 3. To the lower part of the cylinder 2 and to the upper part of the sludge collector 4, cuffs 10 and 11 are attached, made of elastic material, the outer diameter of which is larger than the inner diameter of the well filter (not shown in FIG. 1). In the housing 1 is additionally placed a switch 12 connecting the coil with a cable. The switch 12 consists of four semiconductor diodes 13, 14, 15, 16. The electromagnetic coils 5, 6 are interconnected and connected to one wire of the cable. The second cable wire is connected to the anode of the first diode 13 and the cathode of the second diode 14. The cathode of the first diode 13 is connected to the beginning of the first electromagnetic coil 5, and the anode of the second diode 14 to the end of the second electromagnetic coil 6. The third 15 and fourth 16 diodes are connected in parallel to the electromagnetic coils 5, 6, and the third diode 15 is connected to the cathode of the first diode 13 and the fourth diode 16 is an anode with the anode of the second diode 14.

The device through the mounting loop 17 is suspended on a cable and connected via a cable to the control unit (not shown in figure 1). A device for processing well filters works as follows.

The control pulses of different polarity are fed from the control unit, through the switch 10, to the electromagnetic coils 5, 6. A positive polarity pulse is fed through the first diode 13 to the first electromagnetic coil 5, and an electric current begins to flow in it, creating an electromagnetic field, under the action of which , the drummer 8 rises, when the positive pulse ceases, the current in the first electromagnetic coil closes through the diode 15. A pulse of negative polarity is fed through the second diode 14 to the second electromagnetic th coil 6, and it begins to flow electric current creating an electromagnetic field under the action of which, the hammer 8 is accelerated downward. When the negative pulse ceases, the current in the second electromagnetic coil closes through the diode 16. The striker 8, which drove down, strikes the anvil 9, and it transfers the received impulse to the cover 3. Since the cover 3 is made in the form of a membrane and has flexibility, it bends down and creates an excess pulse pressure in the chamber formed by the cylinder 2 and the sludge collector 4. Through the gap between the cylinder 2 and the sludge collector 4, with the help of cuffs 10, 11, the pulse is directed to the well filter, and the colmatant is destroyed. Upon completion of the impact, the anvil 9, with the cover 3, returns to its original position, while a vacuum is created in the active gap, and the particles of the mud are pulled into the sludge collector 4. Thus, the well filter is actively processed.

Using the proposed switch, it was possible to use two wires instead of three wires for transmitting control pulses, which in turn ensured a reduction in the mass and cost of the cable and increased the reliability of the device as a whole.

1. USSR author's certificate No. 1788165, IPC Е03В 3/15

Claims (1)

A device for processing well filters, comprising a sealed housing, a cylinder attached to it from the bottom with a cover, in the form of a continuous membrane, installed underneath with a gap and connected to it, a sludge collector open from above, two electromagnetic coils and a hammer, periodically interacting with the anvil, rigidly connected to the membrane, cuffs made of elastic material installed in the lower part of the cylinder and in the upper part of the sludge collector, the outer diameter of which is larger than the inner diameter of the filter characterized in that a switch is additionally placed in the housing, connecting the electromagnetic coils to the cable and consisting of four semiconductor diodes, wherein one cable wire is connected to the end of the first electromagnetic coil and the beginning of the second, second cable wire is connected to the anode of the first diode and the cathode of the second, cathode the first diode is connected to the beginning of the first electromagnetic coil, and the anode of the second diode to the end of the second electromagnetic coil, the third and fourth diodes are connected in parallel with the electromagnetic coil , The third diode cathode is connected to the cathode of the first diode and the fourth diode anode to the anode of the second diode.