NO871203L - VERKTOEY FOR HYDRAULIC HAMMER, EL.L. - Google Patents

Description

The invention relates to a tool for a hydraulic hammer or the like. and includes a shaft that sits in the jaw of the hydraulic hammer as well as a head part that forms the actual processing tool.

With known hydraulic hammers, normal tools are used, i.e. in this case chisels, which are known as pointed and flat chisels. As special versions, there are crushing chisels, trowel shovels, respectively. as fall shovels.

All of these tools are only available as a so-called monobloc, where the shaft and head part consist of one non-divisible piece. As the shaft generally has the same shape, it is inappropriately economical to use a separate shaft for each head part.

Today, as a rule, two methods are used for breaking down floors and walls. On the one hand, the so-called impact weight is used. A steel weight of approx. attached to a cable from an excavator. 500 to 500 kg net weight, set in motion by commuting and then struck against the object.

On the other hand, a hydraulic hammer is used which is attached to a hydraulic excavator arm. With the hydraulic hammer, a pointed or flat chisel is moved and the object to be broken down is pierced until a segment is brought down or broken through. Piercing means that a sufficient number of holes have been made with the point or flat chisel. As soon as a sufficient number of holes have been produced, the surface between the holes can be broken out. This procedure is uneconomical.

The inventor has set himself the goal of producing a tool that can be used more economically and for several purposes in a hydraulic hammer.

To solve this task, the shaft and the head part are releasably connected to each other.

Hereby, it is sufficient for a hydraulic hammer to have one shaft with which head parts of different shapes can be connected. In a simple embodiment, the shaft or the head part has a pin with which the head part engages in a corresponding blind hole in the shaft or the head part and here the attachment is releasable.

According to the invention, this type of cooker is designed in such a way that the head part is not only held in one position, but can also be used in a certain angle for use. For example, the pin can for this purpose have intersecting bores which correspond to corresponding bores in the head part and through which bores connecting bolts or pins are guided.

Another possibility for the connection between the shaft and the head part is that the pin is crimped into the blind hole or that the blind hole is crimped onto the pin.

A further possibility is that the pin is screwed into the blind hole. Within the framework of the invention, however, there are further conceivable and known connection possibilities between the head part and the shaft. Not only well-known tools must be able to be connected to the shaft, but also, for example, a tamping plate, a ram, etc.

Furthermore, the inventor has developed a tool for a hydraulic hammer, or a hammer drill, which has a head part with a pear-shaped design and a domed end face. This head part is similar to the known breaking weight. It has been shown that the head part designed in this way makes pre-drilling holes unnecessary, but combines the advantages of the crushing chisel (explosive crushing).

In practice, it has been shown that in order to save material and thus facilitate handling, it is sufficient for the head part to have a flask shape. Additional weight can be saved by recesses on the side.

The behavior of such a head part is particularly effective when the end surface is designed as a vault, or when a foot is formed on the head part. In this way, the specific impact force is transferred to a relatively small surface. Only when this gives way does the destruction of the larger surface begin, as the destruction continues in a larger circumference around the hammer drill due to the vibrations. In this way, an extremely economical mode of operation is achieved.

A further improvement is shown for an asphalt shovel. While until now the surface of the spade has been covered with an extension of the shaft part, according to the invention, at least two, preferably three fingers should grip over the surface of the spade. This creates a second wedge surface of the imaginary connecting surface between the two, respectively. three finger combs, which contributes to an easy breaking up of the surface to be processed. Further advantages, features and details of the invention can be seen from the subsequent description of embodiments in connection with the drawing where fig. 1 shows a plan view of a tool according to the invention, fig. 2 shows a cross-section through the head part of the tool in fig. 1, along II-II, fig. 3 shows a reduced plan view and a view from the underside of a further embodiment of a tool, fig. 4 schematically shows the tool's mode of action in fig. 3, fig. 5 shows a plan view of a further embodiment of the tool in fig. 3, fig. 6 shows a base of a further embodiment of a tool, fig. 7 shows a cross-section of the tool in fig. 4 along VII-VII, and fig. 8 shows a longitudinal section of the tool in fig. 6 along VIII-VIII.

According to fig. 1, a tool for a hydraulic hammer consists of a shaft 1 and a head part 2. This head part 2 forms the actual processing tool, while the shaft 1 engages 1 a hydraulic hammer's not shown drill chuck and is connected to this in an area with a constriction 3.

According to the invention, the shaft 1 has a block-shaped pin 4 in the end surface which, in the position of use, engages in a correspondingly designed blind hole 5 in the head part 2 (fig. 2). In the present embodiment, the connection between the head part 2 and the pin 4 is achieved with bolts or pins inserted in bores 6. In fig. 1 is shown dashed that the pin 4 has two intersecting bores 6, 6a, so that the head part 2 can be connected to the yoke in the one in fig. 1 showed position, but also at 90° to this one.

A head part 2a for a tool according to the invention has a bulb shape which is derived from the known impact bulb. The end surface 7 of this impact bulb 2a is circular and has a surface that is 4 to 12 times, preferably 5 to 10 times, larger than the shaft section.

According to fig. 5 flask bottle shape. Two further embodiments 2c and 2d are indicated by dotted lines. Versions 2b-2d have the advantage over version 2a that, due to material saving, they have a smaller weight.

As shown in fig. 5, a plateau-shaped foot 10 is formed on the end surface 7b of the head part 2b. Due to the rounded end surfaces 7, 7b and also due to the foot 10, a high specific impact force is produced on a relatively small surface when the hydraulic hammer is applied, as indicated by area a in fig. 4. When the plate 11 to be broken (shown dashed) begins to break up, a larger part of the surface of the plate 11 will come into contact with the end surface 7 of the head part 2a so that eventually a breakup will take place, or breaking through a relatively large area. In addition, the head part's 2 closer surroundings are weakened.

Fig. 6-8 shows a further embodiment of a tool designed as an asphalt shovel. The head part 2c is flattened like a spade and has a cut edge 11 downwards. From the shaft lc, two fingers 12 grip on both sides over the spade-shaped head part 2c. In this way, two wedge surfaces are functionally produced, namely, firstly, the shovel's surface 14 and one of the finger combs 15 formed theoretical surface.

If the described tool is forged from steel, it is possible to give the tool additional strength. For this purpose, the starting point is a rectangular material part which is forged or pressed for the production of the tool, where the longitudinal edge of the rectangular material part is compressed by forging and the circular cross-section is achieved. The tool is then produced from the circular material part by form forging. The course of the material fiber thus remains completely contained, as it is only required to process the part of the shaft that is fed into the hydraulic hammer's cage.

Claims (12)

.1. Tool for a hydraulic hammer etc., comprising a shaft which sits in a socket in the hydraulic hammer and a head part which forms the actual processing tool, CHARACTERIZED IN THAT the shaft (1) and the head part (2) are releasably connected to each other. 2. Tool according to claim 1, CHARACTERIZED IN THAT the shaft (1) or the head part (2) has a pin (4) which engages in a corresponding blind hole (5) in the shaft (1) or the head part (2) and can be releasably attached here . 3. Tool according to claim 2, CHARACTERIZED IN THAT the pin (4) has intersecting bores (6, 6a) which correspond to corresponding bores in the head part (2), as connection bolts or pins are passed through the bores. 4. Tool according to claim 2, CHARACTERIZED IN THAT the pin (4) is shrunk into the blind hole (5) or that the blind hole (5) is shrunk onto the pin. 5. Tool according to claim 2, CHARACTERIZED IN THAT the blind hole (5) has internal threads and that the pin (4) is screwed into the blind hole. 6. Tool for a hydraulic hammer etc., comprising a shaft which sits in the pin of a hydraulic hammer, and a head part which forms the actual processing tool, CHARACTERIZED IN THAT the head part (2a) has a pear-like shape with a domed end surface (7). 7. Tool for a hydraulic hammer etc., comprising a shaft which sits in the jaws of the hydraulic hammer, and a head part which forms the actual processing tool, CHARACTERIZED IN THAT the head part (2b) has a flask bottle shape. 8. Tool according to claim 7, CHARACTERIZED IN THAT the flask-bottle shape has recesses (2d) in the side. 9. Tool according to claims 6-8, CHARACTERIZED IN THAT the end surface (7, 7b) of the head part (2) has formed a foot (10). 10. Tool for a hydraulic hammer etc., comprising a shaft which sits in the jaw of a hydraulic hammer, and a head part which forms the actual processing tool, CHARACTERIZED IN THAT the head part (2c) is spade-shaped, and that at least two fingers (12) from the shaft (lc) grips over the surface of the spade (14). 11. Tool according to claim 10, CHARACTERIZED IN THAT three fingers (12) grip over the shovel's surface (14). 12. Method for manufacturing a tool for a hydraulic hammer comprising a shaft and a head part which forms the actual processing tool, CHARACTERIZED IN THAT a material part with a rectangular cross-section is produced by rolling or pressing and that this part by forging the material on the longitudinal edges , is formed into a piece of material with a circular cross-section, from which the tool is forged.