RU147963U1 - COMPRESSION-VACUUM SHOCK ACTION MACHINE (OPTIONS) - Google Patents

Abstract

1. A compression-vacuum percussion machine, comprising a housing and a striker placed therein, forming a lower and upper chamber, a vacuum compressor, a striker for the striker, made in the form of a magnet with a control coil and installed in the upper part of the housing, characterized in that it equipped with a two-line distributor of the working medium of the spool type, permanently connected to a vacuum compressor, alternately with the lower and upper chambers and the atmosphere, and equipped with a switching sensor installed with the possibility of interaction actions with the upper piston rigidly connected by the rod to the lower piston of the said distributor, and the control coil of the magnet. 2. The compression-vacuum shock machine according to claim 1, characterized in that a pressure relief valve for the working medium is connected to its lower chamber. A vacuum compression and compression machine comprising a housing and a drummer located inside it, forming the lower and upper chambers, a vacuum compressor, a hammer holder made in the form of a magnet with a control coil and installed in the upper part of the housing, characterized in that it is equipped with a rotary two-way spool type medium distributor permanently connected to a vacuum compressor, alternately two channels - with lower and upper chambers and atmosphere, and equipped with a switching sensor, are installed to cooperate with the flap of said distributor and the control coil magnita.4. The compression-vacuum shock machine according to claim 3, characterized in that a pressure relief valve for the working medium is connected to its lower chamber.

Description

Technical solutions relate to mining and construction, namely to shock machines, and can be used for breaking monoliths, for destroying obsolete foundations during reconstruction of buildings, as well as in seismic exploration as a mechanical source of excitation of seismic waves at shallow depths.

Known pulse source Dino-Sors firm "Dzhiometriks", France (see VV Palagin and other Seismic exploration of shallow depths. M: "Nedra", 1989, p. 19). This pulsed source is a load - a piston, which moves in a cylinder - a pipe that acts as a guide. The drive is a gas unit with an air pump, which creates a lack and excess pressure on both sides of the piston, causing it to rise or lower. In the upper part of the pipe there is a latch, by means of which the load is fixed - the piston is in the upper position. After that, the maximum pressure drop is created. The latch is released and the load - the piston tends down, striking the substrate. Manual control. Time between impacts 20 s.

The disadvantage of such a pulsed source is a very large interval between influences, which virtually eliminates the possibility of its use for the accumulation and processing of data from a series of strokes. It is known that the optimal interval between exposures should not exceed 2 s. Using a latch increases the intervals between exposures and leads to frequent breakdowns, significantly reducing the efficiency and reliability of the pulse source.

The closest in technical essence and the set of essential features is a compression-vacuum impact machine (hereinafter referred to as KVMUD) according to the patent of the Russian Federation No. 2455444, E21B 1/00, B25D 11/00, publ. 07/10/2012, Bull. No. 19, the first option, comprising a housing and a striker placed therein, forming the lower and upper chambers, a vacuum compressor connected to the upper chamber, a striker for the striker installed in the upper part of the housing, and a working tool. KVMUD is equipped with a control unit connected to a vacuum compressor, and the clamp for the hammer is made in the form of a magnet with a control coil connected to the control unit, while the lower chamber is connected to the atmosphere.

The disadvantage of this KVMUD is the low impact energy, because such a machine can only work under the influence of gravitational forces and only in a vertical position, which dramatically reduces the efficiency of its work. In addition, the introduction of a control unit into the CVCMD complicates and increases the cost of its design, leads to an increase in breakdowns, which reduces the reliability of its operation.

The technical tasks of the proposed solution are to increase the efficiency of the operation of the control gear by additional acceleration of the drummer (in addition to gravity), expand its capabilities and increase the reliability of its operation by abandoning the control unit and introducing automation elements into manual control.

The solution of the tasks is achieved by the fact that the KVMUD according to the first embodiment, comprising a housing and a drummer located in it, forming the lower and upper chambers, a vacuum compressor, a striker for the hammer, made in the form of a magnet with a control coil and installed in the upper part of the housing, according to the technical solution is equipped with a two-line spool type medium distributor, constantly connected to a vacuum compressor, alternately with the lower and upper chambers and atmosphere and equipped with a switching sensor, installed with the possibility of interaction with the upper piston, a rigidly connected rod to the lower piston of the said distributor, and a control coil of the magnet.

Equipping the KVMUD with a two-line distributor of the spool type working medium permanently connected to the vacuum compressor, alternately with the lower and upper chambers and the atmosphere, and a switching sensor installed to interact with the upper piston, rigidly connected by a rod to the lower piston of the spool type distributor, and control coil of the magnet, allows you to automatically detach the striker from the magnet at the right time, additionally accelerate the striker and strike at the moment of naib ng bigger working fluid pressure in the upper chamber, which improves efficiency KVMUD.

The two-line distributor of the spool type working medium is constantly connected to the vacuum compressor, which simplifies the design of the KVMUD and, as a result, increases the reliability of its operation.

It is advisable that when the striker moves down, in order to avoid air jams, the lower chamber would be connected to the atmosphere as much as possible. For this purpose, a pressure relief valve for the working medium is connected to the lower chamber, which opens when the striker moves down before impact.

In cases where operational efficiency, among other things, is achieved by reducing the overall dimensions of the KVMUD, when not two exhaust channels are used to release the working medium, but one, and with more convenient rotary switching of the distributor of the working medium, the task is achieved by the fact that KVMUD according to the second an embodiment comprising a housing and a striker placed therein, forming the lower and upper chambers, a vacuum compressor, a striker for the striker, made in the form of a magnet with a control coil and installed in the upper of the housing part, according to the technical solution, is equipped with a rotary two-line distributor of the spool type working medium, permanently connected to the vacuum compressor, alternately two channels - with the lower and upper chambers and the atmosphere and equipped with a switching sensor installed with the possibility of interaction with the valve of the said distributor and the control coil magnet.

Increasing the efficiency of the operation of the control valve is achieved by the fact that the rotary two-line distributor of the spool type working medium is constantly connected to the vacuum compressor, alternately with two channels - with the lower and upper chambers and the atmosphere and equipped with a switching sensor installed with the possibility of interaction with the valve of the said distributor and the control coil magnet, makes it possible at the time of the maximum pressure of the working medium in the upper chamber of the KVMUD to automatically detach the shock ika from the magnet and strike with the highest possible energy.

The permanent interaction of the working medium with the cavity of the rotary two-line distributor of the working medium of the spool type and the atmosphere simplifies the design of the KVMUD and, as a result, increases the reliability of its operation.

When the striker moves down, it is important that the lower chamber is almost completely connected to the atmosphere in order to avoid resistance to the striker’s movement and, as a result, to obtain maximum speed at the moment of impact, which increases the impact energy and, therefore, increases the efficiency of the operation of the air compressor.

To implement this, it is advisable to attach a pressure relief valve to its lower chamber.

The essence of the technical solution is illustrated by examples of specific performance of the CACM and the drawings of FIG. 1, 2, where in FIG. 1 shows a diagram of a CVMUD according to the first embodiment; the arrows in the drawing show the movement of the working medium; FIG. 2 - the same as in the second embodiment; the arrows in the drawing show the movement of the working medium.

KVMUD according to the first embodiment (Fig. 1) contains a housing 1, a firing pin 2 placed therein, forming a lower 3 and an upper 4 chambers, a vacuum compressor 5, a latch for the firing pin 2, made in the form of a magnet 6 with a control coil 7 and installed in the upper part of the housing 1, a two-line distributor 8 of the spool type working medium (hereinafter referred to as the distributor - 8), permanently connected to the vacuum compressor 5, alternately with the lower 3 and upper 4 chambers and the atmosphere. The distributor 8 is equipped with a switching sensor 9 mounted in the upper part of the distributor 8 with the possibility of interaction with the upper piston 10, a rigidly connected rod 11 with the lower piston 10 ′ of the distributor 8, and a control coil 7 of the magnet 6. A working pressure relief valve 12 is connected to the lower chamber 3 Wednesday.

KVMUD according to the first embodiment works as follows. In the initial (lower) position of the hammer 2 by means of a vacuum compressor 5, through the distributor 8, a working medium is supplied to the lower chamber 3. In this case, the upper piston 10, rigidly connected by the rod 11 with the lower piston 10 ′ of the distributor 8, is in the lower position in the drawing. The upper chamber 4 is connected to the atmosphere and the working medium cannot flow from the vacuum compressor 5 to the upper chamber 4. Since the lower chamber 3 is connected to the vacuum compressor 5, the pressure of the working medium increases, due to which the hammer 2 starts to move up. Having reached magnet 6, drummer 2 sticks to it and remains in the upper position. After that, the upper piston 10, rigidly connected by the rod 11 with the lower piston 10 ′ of the distributor 8, is manually moved to the upper position. In this case, the upper chamber 4 is connected to the vacuum compressor 5 and the pressure of the working medium is increased in it, and the lower chamber 3 is connected to the atmosphere. At a given pressure of the working medium, the switching sensor 9 as a result of interaction with the upper piston 10, rigidly connected by the rod 11 to the lower piston 10 ′ of the distributor 8, sends a signal to the control coil 7 of magnet 6, by means of which the action of magnet 6 is terminated and the hammer 2 due to gravitational forces and the pressure of the working medium in the upper chamber 4 rushes down and strikes at the end of the working stroke. At the same moment, the valve 12 for relieving the pressure of the working medium opens, which increases the speed of the hammer 2. The cycle repeats.

In cases where the geometrical dimensions of KVMUD are very important, and switching with a rotary two-line distributor of the spool type working medium is more convenient than switching according to the first embodiment, the second embodiment of the machine is used, which contains the housing 1 and the drummer 2 located in it, forming the lower 3 and the upper 4 chambers, a vacuum compressor 5, a retainer for the hammer 2, made in the form of a magnet 6 with a control coil 7 and installed in the upper part of the housing 1, a rotary two-line distribution the dividing device 8 of the spool type working medium (hereinafter referred to as the distributor 8) permanently connected to the vacuum compressor 5. The distributor 8 is equipped with a switching sensor 9 that is arranged to interact with the control coil 7 of the magnet 6. A valve 12 for relieving the pressure of the working medium is connected to the lower chamber 3 . The distributor 8 is equipped with a shutter 13, mounted with the possibility of interaction with the sensor 9 switch. The distributor 8 has two channels 14 and 15, alternately connected to the upper 4 and lower 3 cameras, respectively, and the atmosphere.

KVUMD according to the second option works as follows. In the initial position, the valve 13 of the distributor 8 (Fig. 2) makes it possible to connect the upper chamber 4 to the atmosphere, and the lower 3rd vacuum compressor 5 through channel 15. In the lower chamber 3, the pressure of the working medium rises and the hammer 2 begins to move up. At the end of the path, the hammer 2 sticks to the magnet 6. Then, by turning the shutter 13 of the distributor 8 manually 90 °, the lower chamber 3 is connected by channel 15 to the atmosphere, and the upper chamber 4 by channel 14th by a vacuum compressor 5. In the upper chamber 4, the working medium pressure builds up from the vacuum compressor 5. At a given pressure, the switching sensor 9 interacts with the valve 13 of the distributor 8 and the control coil 7 of the magnet 6. By supplying a signal to the control coil 7 of the magnet 6, the switching sensor 9 demagnetizes the magnet 6, the hammer 2 is detached from the last and rushes down due to the forces of gravity and pressure of the working medium in the upper chamber 4, supplied from the vacuum compressor 5 through the channel 14 to the upper chamber 4. At the end of the stroke, the striker 2 strikes. When separated from the magnet 6 of the hammer 2 opens the valve 12 pressure relief of the working medium, which also increases the speed of the hammer 2. The cycle is repeated.

Thanks to the automatic detachment of the striker 2 from the magnet 6, the use of the pressure relief valve 12 for additional acceleration of the striker 2 increases the efficiency of the operation of the compressor.

Claims (4)

1. A compression-vacuum percussion machine, comprising a housing and a striker placed therein, forming a lower and upper chamber, a vacuum compressor, a striker for the striker, made in the form of a magnet with a control coil and installed in the upper part of the housing, characterized in that it equipped with a two-line distributor of the working medium of the spool type, permanently connected to a vacuum compressor, alternately with the lower and upper chambers and the atmosphere, and equipped with a switching sensor installed with the possibility of interaction action with the upper piston rigidly connected to the lower piston rod of the said distributor, and the control coil of the magnet. 2. The compression-vacuum shock machine according to claim 1, characterized in that a pressure relief valve for the working medium is connected to its lower chamber. 3. A compression-vacuum percussion machine, comprising a housing and a striker located therein, forming a lower and upper chamber, a vacuum compressor, a striker for the striker, made in the form of a magnet with a control coil and installed in the upper part of the housing, characterized in that it equipped with a rotary two-line distributor of the spool type working medium permanently connected to the vacuum compressor, alternately two channels - with the lower and upper chambers and the atmosphere, and equipped with a switching sensor installed with the possibility of interaction with the valve of the said distributor and the control coil of the magnet. 4. The compression-vacuum impact machine according to claim 3, characterized in that a pressure relief valve for the working medium is connected to its lower chamber.

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