RU77289U1 - DEVICE FOR SEALING BULK MEDIA, IN PARTICULAR RAILWAY BALLAST (OPTIONS) - Google Patents

Abstract

The device for compaction of granular media, in particular ballast rail track, relates to the field of track work and can be used in the construction, maintenance and repair of rail tracks. The device contains a supporting beam (2) and a vibration tool fixed to it, which is a rod (3) with a lower end in the form of a sealing blade (4), over which a ramming plate (5) is fixed. The rod (3) of the vibration tool has the ability to make vibrations from the vibration exciter (6). To intensify the vibration effect on the ballast by reducing the damping effect of the amplitude of vibration of the vibration tool, the shaft (3) of the vibration tool is mounted on an axis (7) located above the tamper plate (5) and transverse to the shaft (3). In accordance with the first embodiment of the device, the axis (7) is mounted vertically on the carrier beam (2), and the rod (3) is rotatable relative to the axis (7) and / or the carrier beam (2).

At the carrier beam (2), guides (9) can be rigidly fixed, in which at least one slider (8) is installed with the possibility of reciprocating sliding vertically between the clamps (11), in which the axis (7) is fixed rod (3).

Levers (10) can be pivotally mounted on a carrier beam (2) with the possibility of rotation in a vertical plane, and the angle of rotation of the lever relative to the carrier beam is limited by clamps (11), and the axis (7) of the rod (3) is fixed on the lever (10).

The latches (11) can be equipped with elastic elements (12).

The axis (7) of the rod (3) can be located in the middle part along the height of the rod (3), and an unbalanced vibrator is used as a vibration exciter (6), which is mounted on the upper end of the rod (3).

In accordance with the second variant of the device, an additional element (13) is installed on the rod (3) with the possibility of movement along it, the lower part of which serves as a tamper plate (5), a vibration exciter is fixed on the additional element (13), and the rod (3) has the ability rotation about the axis (7) and / or the supporting beam (2).

2 n.p. and 4 z.p. f-ly, 7 ill.

Description

The group of utility models relates to the field of track work and can be used in the construction, maintenance and repair of rail tracks.

A significant part of the work related to maintaining the rail track in the normal technical condition is ballast compaction. The most common way to handle the ballast of a rail track is to horizontally compress the ballast using vibration tools such as shocks. In this method, vibrating ankles are introduced into the inter-sleeper space of the rail track and, due to the horizontal movement of the shovel blade across the inter-sleeper space, the required volume of ballast is supplied under the sleepers.

As a device for compaction of the ballast of a rail track performing horizontal vibration compression of the ballast, it is possible to indicate a device containing a carrier beam that is included in the tamping unit of the tamping machine, on which an eccentric shaft, levers, bearing brackets, and power cylinders for compressing and expanding the lining connecting levers are fixed an eccentric shaft (see paragraphs of the Russian Federation No. 2194108 according to class ЕВВ 27/16, application form 31.05.2000, publ. 10.12.2002 "Tamping machine"). The deepening of the lining in the ballast is carried out by moving the tamping unit with the drive along the vertical guides. After lowering the tamping unit, the oscillatory movement is transmitted to the taps, and due to the rotation of the levers, the taps are moved towards each other. This leads to compaction of the ballast under the tie between the heels.

The disadvantage of this device is the loosening of the ballast in the inter-sleeper space that occurs during horizontal vibration compression of the ballast.

The closest in technical essence, the achieved result and selected as a prototype is a device for compaction of the ballast of the rail track, containing a supporting beam suspended on the hydraulic cylinder of deepening and mounted on it a vibrating tool, which is a rod-shaped rod with the lower end of each of the teeth of the rod in the form placed across rail track of the sealing blade, over which the ramming plate is fixed on the rod, and the rod has the ability to make a vibration reading from the unbalanced vibrator fixed on it (see. Gulenko N.N.,

Fomin V.V. Mechanization and automation of track work abroad. Moscow, "Transport", 1975, p. 57).

This device does not lead to a softening of the ballast in the inter-sleeper space, as the vibrating tool does not move across the inter-sleeper space.

However, due to the fact that the vibro-tool is mounted on the carrier beam without the possibility of moving relative to it, a significant part of the vibration amplitude from the vibrator is transmitted to the machine on which this device is installed. This causes undesirable vibration on the machine and leads to a decrease in vibration on the ballast, which negatively affects the quality of the ballast seal.

When creating a utility model in accordance with the first embodiment of the claimed device, the task was set to increase the efficiency of ballast processing, i.e. improving the quality and productivity of the ballast processing process.

The technical result obtained by the implementation of the utility model in accordance with the first embodiment of the claimed device is the intensification of vibration on the ballast by reducing the damping effect of the amplitude of vibration of the vibration tool.

In accordance with the first embodiment of the utility model, this problem is solved due to the fact that in the known device for sealing ballast of a rail track containing a supporting beam and a vibration tool fixed thereto, which is a rod with a lower end in the form of a sealing blade, over which a ramming device is fixed on the rod plate, and the shaft of the vibration tool has the ability to make vibrations from the vibration exciter, according to the utility model, the shaft of the vibration tool is mounted on an axis located above the tamper plate and transverse with respect to the rod, the axis being mounted vertically on the carrier beam, and the rod being rotatable relative to the axis and / or carrier beam.

The device may contain guides rigidly fixed on the carrier beam, in which at least one slider is mounted in which the axis of the rod is fixed with the possibility of reciprocating sliding vertically between the clamps.

The device may include at least one lever pivotally mounted on a supporting beam with the possibility of rotation in a vertical plane,

moreover, the angle of rotation of the lever relative to the supporting beam is limited by clamps, and the axis of the rod is mounted on the lever.

The clamps can be equipped with elastic elements.

The axis of the rod can be located in the middle part along the height of the rod, and an unbalanced vibrator is used as a vibration exciter, which is mounted on the upper end of the rod.

As an analogue and prototype for the second variant of the claimed device, the same technical solutions are selected as for the first version of the device. They have the same disadvantages as indicated above.

When creating a utility model in accordance with the second variant of the claimed device, the task was also set - increasing the efficiency of ballast processing, i.e. improving the quality and productivity of the ballast processing process.

The technical result obtained by the implementation of the utility model in accordance with the second variant of the claimed device is also the intensification of vibration on the ballast by reducing the damping effect of the amplitude of vibration of the vibrating tool.

In accordance with the second embodiment of the utility model, this problem is solved by the set of the fact that in the known device for sealing ballast of a rail track containing a supporting beam and a vibration tool fixed to it, which is a rod with a lower end in the form of a sealing blade over which a ramming plate is located moreover, the shaft of the vibration tool has the ability to vibrate from the vibration exciter, according to the utility model, the shaft of the vibration tool is mounted on the ram located above of the plate and the axis transverse to the rod fixed to the supporting beam, an additional element is mounted on the rod with the possibility of movement along it, the lower part of which serves as a tamper plate, the vibration exciter is fixed on the additional element, and the rod can be rotated about the axis and / or carrier beam.

Studies conducted on the sources of patent and scientific and technical information showed that the claimed device is unknown, i.e. meets the criterion of novelty.

The inventive device can be manufactured at any enterprise specializing in this industry, because this requires well-known materials and standard equipment, and is widely used in compaction of ballast rail tracks, i.e. is industrially applicable.

The implementation of the device in the claimed form, according to the first embodiment of the utility model, allows the axis of swing of the rod to move vertically relative to the supporting beam. This ensures maximum transmission of the vertical component of the vibrations from the vibrator fixed on the vibrator shaft to the tamper plate of the vibration tool and, therefore, to the ballast. At the same time, the transmission of these vertical vibrations to the machine carrying this device is practically eliminated.

According to the second embodiment of the utility model, an additional element is fixed on the rod, which is installed with the possibility of movement along the rod. The lower part of the additional element performs the function of a tamper plate, and a vibrator is fixed on the additional element itself. Such a constructive implementation of the device also allows you to ensure maximum transfer of the vertical component of the vibration to the tamper plate of the vibration tool and, therefore, to the ballast. This also virtually eliminates the transmission of vertical vibrations to the machine carrying this device.

Moreover, both in the first and in the second embodiment of the utility model, the presence of the axis of swing of the rod, fixing the rod from horizontal displacements relative to the supporting beam, allows the maximum horizontal component of vibrations to be transmitted to the ballast.

From the foregoing, it is obvious that the claimed device, both in the first and in the second embodiment, provides for the intensification of vibration on the ballast by reducing the effect of damping the amplitude of vibration.

The utility model is illustrated by drawings, which depict:

Figure 1 General view of the device made in accordance with the first embodiment of the utility model, namely with the axis of the rod mounted with the possibility of reciprocating sliding relative to the supporting beam.

Figure 2 Section aa in figure 1

Figure 3 Section BB along figure 1

Figure 4 General view of the device made in accordance with the first embodiment of the utility model, namely with the axis of the rod mounted with the possibility of rotation on the lever relative to the carrier beam.

Figure 5 Section B-B. figure 4

6 Cross-section on G-D in figure 5

Fig.7 General view of the device made in accordance with the second variant of the utility model.

The device for sealing the ballast of the rail track 1 comprises a supporting beam 2 suspended on the hydraulic cylinder of the recess on the frame of the machine for sealing ballast. On the supporting beam 2 one or, most often several, vibration tools is installed. The vibration tool is a rod 3, the lower end of which is made in the form of a sealing blade 4, i.e. with an expanded lower part that allows you to effectively move the ballast. The shape of the blade 4 can be either simple rectangular or complex, adapted to the properties of the medium being sealed, the blade can be equipped with ribs that facilitate its introduction into the ballast, reinforcing teeth, etc. There is a ramming plate 5 above the sealing vane 4. The ramming plate 5 may be made of steel and rigidly fixed to the rod 3, for example, welded, or suspended on the rod 3 by means of an elastic element with the possibility of moving vertically above the sealing blade 4, or the ramming plate 5 may be made in the form of an elastic element made of rubber, for example. To communicate the vibrational motion to the rod 3 and, therefore, its sealing blade 4 and the ramming plate 5, a vibration exciter is fixed on the rod 6. It is most rational to use an unbalanced vibrator as a vibration exciter 6, which ensures self-adaptation of the motion path of the lower end of the vibration tool, depending on the degree of compaction of the workpiece Wednesday. When processing loose ballast, its path approaches a circular one, and when processing highly densified ballast, the path becomes elliptical, which avoids the destruction of an already compacted medium. The rod 3 is usually made integral of the upper and lower parts. The lower part of the rod 3, bearing the sealing blade 4 and the ramming plate 5 is removable, because wears out faster during operation. To minimize energy losses when transferring it from the vibrating upper part of the rod 3 to the blade 4 and the ramming plate 5, the lower removable part of the rod 3 is rigidly fixed (with special bolts, nuts, spring washers, etc.) to the upper part of the rod.

The rod 3 is provided with an axis 7. The axis 7 is located above the tamper plate 5 (this is due to the fact that the rod is plunged into the ballast before the tamper plate and the location of the axis below the tamper plate would make it necessary to protect against the abrasive effect of the ballast and complicate the design of the device) and located transverse to the rod 3, i.e. with a vertical rod 3, the axis 7 is horizontal. The axis 7 can be pressed into the body of the rod 3, i.e. rigidly connected to it, or installed in the rod 3

with the ability to swivel, in bearings. Relative to the supporting beam 2, the axis 7 can also be either fixed rigidly or mounted rotatably in bearings. This allows the rod to rotate about axis 7, relative to the carrier beam 2, or simultaneously rotate about axis 7 and the carrier beam 2. Moreover, the position of the axis 7 should be such as to ensure that the rod 3 is predominantly in a plane parallel to the plane of action of the driving force of the vibration exciter 6, those. when installed on the device unbalanced vibrator axis 7 should be predominantly parallel to the axis of the vibrator. Obviously, in order to transfer horizontal vibrations to the ballast, the sealing blade 4 of the vibrating tool should also be oriented so that its working surface (i.e., the plane of the blade) intended to move the ballast is parallel to axis 7. Such a relative position of the axis 7 and the sealing the blades 4 with respect to the plane of action of the driving force of the vibration exciter 6 allows the horizontal component of the vibrations to be transmitted to the ballast almost without loss due to the swing of the rod 3. The location of the axis 7 in the middle of the rod along its length allows to achieve a significant horizontal impact on the ballast of the sealing blade 4 with a relatively small power of the vibration exciter 6.

In accordance with the first embodiment of the utility model, the axis 7 must be able to move vertically relative to the supporting beam 2. This can be done by fixing the axis 7 in the sliders 8, which have the possibility of reciprocating sliding in the guides 9 rigidly fixed on the supporting beam 2, and by fixing the axis 7 at the ends of the levers 10, mounted on a supporting beam 2 and having the ability to rotate in a plane parallel to the swing plane of the rod 3. The stroke length of the slider 8 and the lever 10 is limited by the latches 11. It should be noted that such a constructive implementation of the device allows for the movement of the axis of the rod vertically in a wide range of 0.1 ÷ 100 mm, which allows you to change the intensity of the impact on the ballast. To minimize damping of vertical vibrations and mitigate the impact of the slider 8 and the lever 10 about the latches 11, the latter can be equipped with elastic elements 12.

In accordance with the second embodiment of the utility model, the axis 7 is mounted on the supporting beam 2 without the possibility of vertical movement relative to it and, therefore, does not move vertically relative to the supporting beam 2 and the rod 3. In this embodiment, the additional element 13 moves vertically

which is installed, for example, on top of the rod 3 and connected to the rod by means of springs 14. On an additional element 13, a vibration exciter 6, for example, an unbalanced vibrator, is fixed from above. In this case, the additional element is made so that its lower part is located relative to the sealing blade 4 in the same position as the ramming plate 5 should be located. When the vibrator is operating, the additional element moves vertically with respect to the rod 3, while its lower part performs the function of ramming plate 5, hitting the ballast. The operation of the vibrator also leads to the swinging of the rod 3 on the axis 7 and / or axis 7 together with the rod 3 relative to the supporting beam 2. This allows the horizontal component of the vibrations to be transmitted to the ballast due to the swing of the rod 3.

The device for sealing ballast rail works as follows.

The supporting beam 2 of the device, suspended on the hydraulic cylinder of the recess on the frame of the machine for sealing ballast, is forced to lower down. At the same time, the vibration exciter 6 is turned on, mounted on the rod 3. At the same time, the sealing blade 4, in contact with the ballast, transmits horizontal vibrations to the ballast, and the tamper plate 5 - vertical vibrations. Moreover, both vertical and horizontal vibrations are transmitted to the ballast with minimal losses, because Due to the constructive implementation of the device, there is no damping of the amplitude of vibrations of the vibration tool. This ensures the intensification of vibration on the ballast and leads to an increase in the processing efficiency of the ballast, i.e. improving the quality and productivity of the ballast processing process.

It should be noted that this device is suitable for compaction of any granular medium and can find application not only for compaction of ballast of a rail track, but also in other industries where there is a need for compaction of granular media.

Claims (6)

1. A device for compaction of granular media, in particular a ballast of a rail track, comprising a supporting beam and a vibration tool fixed to it, which is a rod with a lower end in the form of a sealing blade, on which a ram plate is fixed on the rod, and the vibration tool rod can vibrate from vibration exciter, characterized in that the rod of the vibration tool is mounted on an axis located above the tamper plate and transverse to the rod, and the axis is fixed on carrier beam movable vertically, and the rod is pivotable about the axis and / or carrier beam. 2. The device according to claim 1, characterized in that it comprises guides rigidly fixed to the supporting beam, in which at least one slider is mounted with the possibility of reciprocating sliding vertically between the clamps, in which the shaft axis is fixed. 3. The device according to claim 1, characterized in that it contains at least one lever pivotally mounted on the carrier beam with the possibility of rotation in a vertical plane, the angle of rotation of the lever relative to the carrier beam is limited by clamps, and the axis of the rod is fixed on the lever. 4. The device according to claim 1 or 2, characterized in that the latches are provided with elastic elements. 5. The device according to claim 1, characterized in that the axis of the rod is located in the middle part along the height of the rod, and an unbalanced vibrator is used as a vibration exciter, which is mounted on the upper end of the rod. 6. A device for sealing the ballast of a rail track, comprising a supporting beam and a vibration tool fixed to it, which is a rod with a lower end in the form of a sealing blade, above which a tamper plate is located, and the shaft of the vibration tool has the ability to vibrate from the vibration exciter, characterized in that the rod the vibration tool is mounted on the tamper plate located above and transverse to the shaft axis, mounted on the carrier beam, on the shaft with the possibility of emescheniya therealong an additional element, the lower part of which serves as a tamping plate, fixed on an additional element exciter and the rod is pivotable about the axis and / or carrier beam.