RU2807786C1 - Device for damping vibration - Google Patents

Abstract

FIELD: vibration damping equipment.

SUBSTANCE: invention relates to a vibration damping device designed to dampen vibrations occurring in the tie rods of hydraulic rock hammers. A device for damping vibration (1) occurring in the elements of tie rods (2) of hydraulic rock hammers, made of elastic material, containing a longitudinal mounting groove (1a) on one side of the device, a mounting channel (1c) on the inner surface of the device and a mounting cam (1b) on the outer surface of the device, allowing the vibration damping device to be opened and closed (1).

EFFECT: possibility of creating a vibration damping device from an elastic material that can be easily mounted and dismantled.

5 cl, 7 dwg

Description

Object of the invention and scope of technical application.

The invention relates to a vibration damping device designed to dampen vibrations occurring in the tie rods of hydraulic rock hammers. The invention relates to a vibration damping device made of elastic material used in tie rods, which can be easily mounted and removed using a longitudinal groove.

Description of the state of the art.

Nowadays, hydraulic hammers are attachments that work by converting hydraulic energy into impact energy and receive the energy needed for their operation from the tracked or wheeled vehicle, such as an excavator, on which it is mounted. Depending on the design of the hydraulic hammer, the mechanical force is converted into shear, shear, impact or pressure, resulting in rock crushing. Hydraulic rock hammers are used in many areas of the construction and mining industries, and in particular in urban demolition, marble quarries where the use of explosive materials is impractical, road paving and sewerage work. Hydraulic rock hammers are mainly composed of a rear head, a cylinder mounted on the bottom of the rear head, a front head mounted on the bottom of the cylinder, a piston moving up and down in the cylinder, and a bit mounted on the front head. A connecting piece is required to keep the top head, the cylinder in which the piston moves, and the front head to which the hammer tip is attached, held together during operation. To connect these parts, which have a quadrangular geometric configuration, or in other words, to connect the components of the hydraulic hammer, a type of metal rod called a tie rod is used.

Known hydraulic rock hammers have four holes in each of the rear head, cylinder and front head elements. Tie rods pass through these holes, which ensure the solidity of the hydraulic hammer body. During operation of hydraulic rock hammers, cracks occur in the tie rods due to factors such as various stresses acting particularly on the joints, and vibrations occurring primarily in the front head with a tip during operation of the hydraulic rock hammer. Fractures caused by failure to detect these cracks in a timely manner result in severe damage to the head and piston areas of the hydraulic breaker. To prevent this, various improvements have been made to dampen vibrations occurring in tie rods. One of these improvements is that a portion of the tie rods is placed in a mold with a cylindrical inner surface and is injection-molded with a flexible, vibration-damping plastic. These flexible plastic or rubber mats are called vibration damping mats in the industry. At a generally known technical level, polyurethane-based polymers are used as raw materials for polymer coatings applied to tie rods due to their high strength and elastic properties.

Patent document number DE102007020498B3 describes a device consisting of two clamping parts used to secure high pressure fuel lines. A clamp bolt is used to secure this two-piece clamping device.

Patent Document No. CN112095447A describes a passively adjustable circular inertial damper that is optionally available in structures to prevent wind-induced vibrations in stabilizing cables used in suspension bridges.

Another patent document No. EP1873435A1 describes an axial damper, the dimensions of which depend on the element requiring vibration damping and the supporting structure, which is preferably applicable to elements of cylindrical, rectangular or square cross-section, such as pipelines, tanks or supporting structures.

As can be seen from the patent documents above, there are various mountable and dismountable inventions that function as vibration dampers that wrap around the outer surfaces of cylindrical structures. In addition to hydraulic hammers, these inventions are used to dampen vibrations occurring in structures such as suspension bridges and pipelines, and mainly perform the damping function by connecting the element they grip to a highly stable element, however, the above inventions do not provide a solution to the problems existing in tie rods of hydraulic hammers.

During the operation of hydraulic rock hammers, the plastic coatings on the tie rods wear out over time and lose their properties. After a certain period of time, plastic coverings require updating, but since such a vibration damper on tie rods is installed by casting, a separate area, like a foundry, is required to carry out such work. And this causes many problems, including long downtime of the hydraulic rock hammer, the need to create a foundry at the work site, or sending dismantled tie rods to the foundry by vehicle, which leads to time and material costs. Especially as work sites that use hydraulic rock hammers change locations, the need to handle tie rods in the foundry continues to be a major challenge.

Technical problems to be solved by the invention.

The purpose of the invention is to create a vibration damping device made of an elastic material that is easily mounted and dismantled thanks to a longitudinal groove along one side of the tie rods used as a connecting element in the body parts of hydraulic hammers. Following in this direction, as an alternative to plastic coatings applied to tie rods by injection molding, the goal is to provide a vibration damping device made of elastic material that can be easily mounted and dismantled by positioning it around the perimeter of the tie rods.

The technical result achieved by the invention lies in the possibility of creating a vibration damping device from an elastic material that can be easily mounted and dismantled.

The most important advantage of the invention is that it eliminates the need to send tie rods to a foundry for molding to renew the cover plastic and provides ease of assembly of the tie rods.

Another advantage of the invention is that since it is manufactured separately from the tie rods, it can be used as spare parts for tie rods. In this way, many problems that lead to time and material costs, such as long downtimes of a hydraulic hammer, setting up a foundry in work areas or sending dismantled tie rods to the foundry using a vehicle, will be solved. For a better understanding of the vibration dampening device of the invention, drawings will be used.

Explanation of the drawings

Figure 1: View of the vibration damping device of the invention on tie rods attached to the front head.

Figure 2: Perspective view of the vibration damping device of the invention inside the hammer.

Figure 3: Perspective view of the tie rod to which the vibration damping device of the invention is attached.

Figure 4: Perspective view of the vibration damping device of the invention.

Figure 5: Sectional view of a vibration damping device, which is the object of the invention.

Fig. 6: Front view of the vibration damping device, which is the object of the invention, with the mounting groove closed.

Fig. 7: View of the vibration damping device, which is the object of the invention, from the front in projection, with the mounting groove open.

Reference numerals to illustrate the invention.

1 - Vibration dampening device

1a - Mounting groove

1b - Mounting cam

1c - Mounting channel

2 - Tie rod

3 - Front head

4 - Cylinder

5 - Rear head

x - Direction of opening of the mounting groove

y - Direction of closing the mounting groove

Detailed description of the invention.

The vibration damping device of the invention is a vibration damper made of elastic material, easily mounted and removed thanks to a groove formed along one edge, and is designed to absorb vibrations arising in tie rods used as a connecting element in the body parts of hydraulic rock hammers . This elastic material is a material that resists deformation caused by external forces and has the ability to return to its original shape and size when the influence of external forces ceases. Although the subject matter of the invention is described for hydraulic rock hammers, its application should not be limited thereto and the invention should be considered in its broadest sense.

For a more detailed explanation of the vibration damping device (1), which is the subject of the invention, drawings will be used, which should not be considered as the only possible ones due to possible changes in the designs of the drawings, dimensions or details of the device.

In Figure 1, the vibration damping device (1) of the invention is shown on tie rods (2) attached to the front head (3). Figure 2 shows an exploded view of a hydraulic rock hammer, namely, the vibration damping device (1), which is the object of the invention, is located on a tie rod (2). The tie rod (2) serves to connect the rear head (5), cylinder (4) and front head (3). View of the tie rod (2) on which the vibration damping device (1) of the invention is mounted, in perspective, the number of pins in hydraulic rock hammers is usually four pins, as shown in Fig. 3. A perspective view of the vibration damping device (1), which is the object of the invention, is shown in Figure 4. Accordingly, the vibration damping device (1) of the invention includes a longitudinal mounting groove (1a) formed on one side, which allows the vibration damping device (1) to be opened and closed. When the mounting groove (1a) is opened, the vibration dampening device (1) of the invention is fixed to the tie rod (2).

The vibration damping device (1) of the invention, in addition to the mounting groove (1a), includes at least one mounting channel (1c) on its inner surface and at least one mounting cam (1b) on its outer surface. Figure 5 shows a general cross-sectional view of the vibration damping device (1) with a mounting channel (1c) and a mounting cam (1b). Figure 6 and Figure 7 are front views of the vibration damping device (1). The mounting groove (1a), shown in the closed position in Fig. 6, is shown in the slightly open position in Fig. 7.

The arrows marked x in the drawing show the opening direction for fixing the vibration damping device (1) on the tie rod (2), and the arrows marked y show the closing direction for fixing the vibration damping device (1) on the tie rod ( 2).

The vibration damping device (1) of the invention includes a mounting groove (1a) allowing mounting and dismounting of the vibration damping device (1), at least one mounting channel (1c) on the inner surface of the said device, and at least one mounting cam (1b) on the outer surface of the device.

The vibration damping device (1), mounted on the tie rod (2) when the mounting groove (1a) is opened, is inserted into the lugs on the tie rod (2) using the mounting channel (1c). The vibration damping device (1) of the invention is preferably secured with straps to ensure its rigidity in position. The fastening element (belt, etc.) secures the vibration damping device (1) to the tie rod (2), passing through the mounting cams (1b) located on the vibration damping device (1), which is the object of the invention.

The vibration damping device (1), which is the object of the invention, is made of an elastic material and is designed to dampen the vibration that occurs in the tie rods (2) during operation of a hydraulic rock hammer, while maintaining its structural properties for a long time against the forces acting on it . Said material may be a polymeric material based on polyurethane, rubber or a composite material. At both ends of the vibration damping device (1) of the invention there is a mounting groove (1a) allowing the device to be opened and closed. The mounting groove (1a) may be in the shape of a linear or curved line, or may have a zigzag configuration.

By pressing the mounting groove (1a) in the opening direction (x), the device on the tie rod (2) opens, allowing easy installation and removal. Due to the elastic structure of the vibration damping device, the mounting groove moves in the closing direction (y) without applying external force and snaps onto the tie rod (2). The inner surface of the vibration damping device (1) preferably has two mounting channels (1c). On the outer surface of the vibration damping device there are mounting cams (1b), to which the fastening straps are attached. Mounting channels (1c) that fit into lugs on the tie rods (2) and mounting cams (1b), preferably secured with straps, provide rigid fixation of the vibration damping device (1) to the tie rod (2).

The distance between the inner and outer surfaces of the vibration damping device (1), which is the object of the invention, is sufficient to accommodate the mounting channels (1c) and mounting cams (1b). This allows you to create different geometric shapes of the outer surface of the vibration damping device (1). The shape of the inner surface of the vibration damping device (1), including the mounting channels (1c) corresponding to the tie rod (2), remains constant; the shape of the outer surface of the vibration damping device (1), including the mounting cams (1b), has the shape of a regular polygonal prism with a base having at least four sides, or the shape of a cylinder with a circular base. If the vibration damping device (1) of the invention is made in the form of a polygonal regular prism, it can have various shapes, such as a rectangular regular prism if the number of sides of the base is four, or a hexagonal regular prism if it is six.

Application of the invention in industry.

The invention is intended to be used as a vibration damping device that is easy to install and dismantle, and is used as spare parts, in particular for tie rods (2) of hydraulic rock hammers.

Claims (5)

1. A device for damping vibration (1) occurring in the elements of tie rods (2) of hydraulic rock hammers, characterized in that it is made of elastic material, contains a longitudinal mounting groove (1a) on one side of the device, a mounting channel (1c) on the inside surface of the device and a mounting cam (1b) on the outer surface of the device, allowing the vibration damping device (1) to be opened and closed. 2. A vibration damping device according to claim 1, characterized in that said elastic material is a polyurethane-based polymer, rubber or composite. 3. A vibration damping device according to claim 1, characterized in that the outer surface of the vibration damping device (1) has the shape of a cylinder or a polygonal vertical prism. 4. The vibration damping device according to claim 1, characterized in that the mounting groove (1a) has a linear, curved or zigzag configuration. 5. The vibration damping device according to claim 1, characterized in that the mounting groove (1a), the mounting channel (1c) and the mounting cam (1b) allow the vibration damping device (1) to be mounted and removed.