FI83051C - Device for drilling holes in element structures - Google Patents

Description

1 83051

Device for drilling holes in prefabricated structures

The invention relates to a device for drilling holes in prefabricated structures and the like, in particular for drilling holes 5 in horizontal concrete hollow core slabs, perpendicular to the slab sides of the hollow core slabs, which device comprises a drill bit, a power source for rotating the shaft rotating the drill bit and a chassis structure. The device according to the invention is particularly well suited for drilling a hole in concrete hollow core slabs used in apartment roof structures, the purpose being to form holes in the slabs of the hollow core slabs leading to longitudinal cavities in the hollow core slabs so that the latter can act as air ducts.

Hydraulic driven devices are known for drilling the above-mentioned holes. The disadvantage of known devices is that they are very slow and difficult to use. Their use is also complicated by their high weight, usually 200-500 kg. Known devices comprise a drilling unit comprising a hydraulically driven drill bit and a carriage unit to which the drill bit is attached. The drilling unit can be moved vertically on a large and heavy support structure in the form of a column, which support structure acts as a guide for the carriage unit. The vertical movement of the sled unit is achieved either by a hydraulic cylinder-30 or by rack-and-pinion control. The hydraulic cylinder allows quite a small height adjustment. The support structure must be particularly rigid because the drilling unit is fixed to the side surface of the support structure eccentrically, causing a bending and torque in the support structure which on the one hand tends to bend and twist the support structure 2 83051 and on the other hand tends to move the whole device. The wheels in the chassis of the equipment must therefore be locked during drilling. Due to the above, the device requires two users. Another problem with the known devices is that the height of the column body is very difficult to adjust. The height must be adjustable because the device must be able to drill in different apartments, which can cause the room height to vary significantly. In the same apartment, the room height can vary by 10. The height of the device is adjusted by attaching extension pieces to the upper end of the column structure, the number of which depends on the height of the hole to be drilled from the floor surface. The bolting of the extension pieces is slow. A further disadvantage of the known devices is that the cooling water passed through the drilling unit 15 splashes around everywhere during drilling, which is why the users of the device have to wear a rain suit. Water splashing around requires that the electrical equipment in the vicinity of the appliance must be well protected. A problem with still known devices 20 is that the detached cylindrical body remains in the blade, from which it must be removed before the next drilling by removing the blade and tapping the blade upside down to release it.

DE-A-3 737 024 discloses a drilling rig to be connected to a hydraulic power unit of a drill-25 chute. This accessory drilling rig is intended for use in precision drilling in the construction industry where the exact location and dimensions of the hole are important. The device is especially suitable for road construction work and for drilling hard concrete and stone cores in power plants, 30 buildings.

In contrast, the device is ill-suited for upward drilling because it must be attached to the drill base by means of a base piece: attaching the base piece to the drill base is slow because auxiliary tools such as bolts, racks, mounting arms, 3 83051 bolting equipment are required. In addition, attaching the device leaves a mark on the base. The higher the object to be drilled (roof), the more difficult it becomes to drill. In addition, upward drilling requires some type of boom to which the device 5 with its power units is attached. A special feature of this known device is drilling at a constant feed pressure, which can be advantageous when drilling into a homogeneous material. However, when drilling into concrete walls, the wall material may include steel, cavity, or other material that makes the material to be drilled inhomogeneous. In this case, it would be advantageous from the point of view of the speed of the drilling work that the magnitude of the drilling pressure could be adjusted according to the hardness variations and inhomogeneity of the drill bit material. Therefore, this known device is very slow, for example in the drilling of ventilation ducts, where it would be advantageous that the device could be moved quickly from one place to another and the punching could be performed quickly.

It is an object of the present invention to obviate the problems associated with known devices. To accomplish this, the device according to the invention is essentially characterized in that the support structure consists of a telescopic jacket structure arranged around an axis rotating the drill, said jacket structure comprising an outer jacket movable by pushing means relative to the inner jacket of the telescopic outer jacket. wherein a drilling chamber surrounding the drill bit is arranged at the end facing the drill bit of the jacket structure, the end facing away from the casing structure being open and moving according to the telescopic movement of the casing structure. Preferably, the outer and inner sheaths of the sheath structure are circular in diameter and that the shaft rotating the drill is mounted on the inner sheath of the sheath structure, which is fixedly mounted on the base structure of the device. This embodiment enables a low-cost and simple structure.

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The present invention is based on the idea of providing a drill bit and a rotating shaft inside a telescopic structure, which telescopic structure allows good support of the device between the roof and the floor without additional means, utilizing a drilling chamber surrounding the drill bit connected to the telescopic structure. The telescopic structure is preferably used to adjust the height of the drill bit and the drilling chamber is preferably used to provide a cooling water jet for the drill bit and to protect the user of the device from splashing cooling water.

The main advantages of the device according to the invention are that it is easy and quick to use while being sturdy and can be made lightweight. The total weight of the device is typically only about one-third the weight of known devices. During the working day (about 8 hours) the device can drill about 300 holes with a diameter of 10 to 200 mm, while with known devices a maximum of 120-150 holes can be drilled in the same time. Thanks to the Li-20 drill chamber surrounding the drill bit, the device is noise-free. The device allows the use of a drill bit with a simple and inexpensive design, as the drill bit does not need to have cooling channels.

The invention will now be described in detail by means of one preferred embodiment with reference to the accompanying drawing, in which Figure 1 shows an overview of a device according to the invention in its lower position, Figure 2 shows the device of Figure 1 in its upper position 1 supported between a roof and a floor, Figure 3 shows a cross-sectional view of the device of Figure 1 Fig. 4 shows the structure of Fig. 3 seen from above, Fig. 5 shows the telescopic structure of Fig. 3 seen along the section line V-V and Fig. 6 shows the telescopic structure with its actuators seen from the side.

The apparatus for drilling holes in roof structures and the like shown in Fig. 1 comprises at the top a transfer means for a drill bit (not shown), a drill rotating shaft (not shown), a drill bit and said shaft, generally supported by reference numeral 10 1, a lever 3 used by the handle 2 to press the drill bit against the drilling target (roof), a power source placed in the housing 4 to rotate the rotating shaft of the drill bit, and a wheeled base structure generally indicated by reference numeral 15. The base structure 5 includes a push / pull handle 6 arm 7 to move from one place to another. The support structure 1 consists of a telescopic jacket structure arranged around an axis rotating the drill. The telescopic sheath structure comprises 20 tubular outer sheath 8, which is movable by means of the pushing means generally indicated by reference numeral 9, with respect to the tubular inner sheath 10 arranged telescopically inside the outer sheath. The pushing means 9 comprise a motor-driven transfer screw fixed inside the outer casing 8 and arranged inside the tubular element 11, to which return will be made below. A drilling chamber 12 is arranged at the upper end of the outer casing 8. A water supply line 13 is connected to the drilling chamber 12 to apply water cooling to the drill bit. The drilling chamber 30 12 has openings 13 'for water supply lines 13. The water supply is arranged using a quick connector 14 arranged in connection with the linkage 3. Reference numeral 15 denotes a valve faucet for controlling the water supply. Attached to the bottom of the drilling chamber 12 is a drainage hose 16 for removing spent cooling water 35.

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In Figure 2, the device according to the invention is adapted to its position of use, i.e. so that the drilling chamber 12 presses against the roof, in which position the device is well supported. The installation of the device in the described position is made possible by a telescopic support structure 1, which allows the outer jacket 8 to move vertically with respect to the base structure 5 of the device with respect to the fixed inner jacket 10. The same reference numerals are used in Fig. 2 as in Fig. 1. Fig. 2 shows a transfer screw 36 belonging to the lifting means 9 for lifting. Figs. 1 and 2 illustrate that thanks to the telescopic support structure, effective height adjustment is obtained for the drill bit arranged inside the drilling chamber. The force with which the drill bit is pressed against the roof is provided by the lever 3 by pushing 15 the handle 2 downwards. If desired, the housing 4 can be used as a standing platform during drilling.

Figure 3 shows a cross-section of the telescopic structure of the device in the position of Figure 1. It can be seen from the figure that 20 annular slip rings 17, for example of polyamide, are arranged between the outer jacket 8 and the inner jacket 10. The drill bit 18 arranged inside the drilling chamber 12 is cylindrical and has a plurality of blade pieces 19 at the top, which are preferably diamond-shaped. A plurality of dashed holes 20 are provided on the side surfaces of the drill bit for supplying coolant through hoses 13. Cooling water exits through holes 21 in the lower part of the drill bit into the drilling chamber 12, from where it is removed by the hose 16 shown in Figure 1. An annular elastic seal 30 22 is fitted to the upper end of the drilling chamber 12 against the roof with high friction.

The drill bit 18 is attached by a quick coupling 23 to the upper part of a shank rotating the drill, which shank comprises a tubular shaft 24, inside which is arranged a second shaft 7, 73051, which is hollow. At the lower end of the tubular shaft 24 there is a pulley 26 driven by an electric motor (cf. Fig. 6). The hollow shaft 25 derives its rotational movement from the tubular shaft 24 by means of a wedge connection 27. In addition to the force-transmitting joint, the wedge joint 27 acts as a guide member which enables telescopic movement between the tubular shaft 24 and the hollow shaft 25 to move the drill bit 18 in the height direction in the drilling chamber 12. Said movement is controlled by the linkage 3 shown in Fig. 1. Fig. 3 shows the push rods 28 belonging to the linkage 3, which are attached at their lower end to the outer jacket 8 and which at their upper end are connected to an annular bearing part 29 fixed to the hollow shaft 25 so that the bearing point allows vertical movement of the hollow shaft 15 via push rods 28 3 using. The tubular shaft 24 is supported by three bearings 30-32 on the inner shell 10 of the shell structure.

It can be further seen from Figure 3 that an ejection rod 33 extending from the lower end of the tubular shaft 24 to which it is height-adjustably attached is arranged inside the hollow shaft 25 in the drilling chamber 12 almost to the upper edge inside the drill bit 18. The distance of the upper end of the ejection rod 33 from the upper edge of the drilling chamber 12 is adjusted to correspond to the thickness of the wall to be drilled. The purpose of the ejector rod 33 is to remove the cylindrical drill bit that enters the cylindrical drill bit 18 after drilling. After drilling, the cylindrical drill bit can be ejected from the drill bit 18 by lowering the drill bit on the lever 3. The drill bit removal mechanism may further include a means for pushing the drill bit 30 from the side (not shown).

Fig. 4 shows the structure of Fig. 3 from above and Fig. 5 along the structure of Fig. 3 along the section line V-V. It can be seen from Figs. 3 and 4 that the drilling chamber 12 is open from above.

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Figure 6 shows a side view of the telescopic structure with its actuators. In Fig. 6, for the sake of simplicity, the upper part of the telescopic structure and the linkage 3, which according to Fig. 1 is fixed to the tubular member 11 of the lifting means 5 9, are omitted. The figure shows that internal threads 34 are arranged in the lower part of the tubular member 11. a rotatable screw 36, rotatable by an electric motor 35, mounted on the base 5 of the vessel-10 and having a length substantially corresponding to the difference between the maximum and minimum lengths of the telescopic structure. In practice, the length is preferably 50 to 100% of the length of the inner sheath 10. The electric motor 35 rotates the transfer screw 36 via a pulley. The electric motor 37 rotating the tubular shaft 24 is also shown in Fig. 6. The motors 35 and 37 may be, for example, internal combustion engines instead of electric motors, although the electric motor is more advantageous for several applications.

For the sake of clarity, the operation of the device is briefly explained in the following. The telescopic structure 1 is lifted by means of work tools 9 so that the device is fixed between the roof and the floor. The electric motor 37 is then started and the valve tap 15 is opened, whereby water flows to the drill bit 18 along the water supply line 13 and drilling 25 can be started by turning the handle 2. The thickness of the object to be drilled is usually only 5 cm, whereby the drilling time is about 15 s. After the drill bit 18 has passed through the drilling object, the electric motor 37 is switched off and the telescopic structure 1 can be lowered, the drill bit protruding from the drill bit then the device is ready for use again for the next drilling.

The invention has been described above by means of only one preferred embodiment. It is therefore to be understood that the invention is practically feasible in many ways within the scope of the appended claims. Thus, for example, it is conceivable that the arm rotating the drill is mounted on the outer jacket of the telescopic structure, which is supported on the inner jacket, although in that case the structure 5 would be more difficult to implement. It is also conceivable that the cross-section of the outer and inner sheath is not circular, although a circular mutation is highly recommended. Furthermore, it is clear that the chamber structure does not have to be cylindrical, it can be, for example, square-shaped. However, the cylindrical shape is cheaper to implement. The height adjustment linkage 3 of the drill bit 18 may deviate from that shown in the figure and the lifting means for lengthening and shortening the telescopic structure may deviate from the tube-screw arrangement 15 shown, although the lifting means shown are highly recommended due to their precise and fast operation. In addition, the transfer screw enables a long transfer compared to, for example, hydraulic cylinders. It is also conceivable that the telescopic body of the device with its actuators can be turned-20 horizontally, whereby vertical objects can be drilled with the device.

Claims (9)

10 83051 A device for drilling holes in prefabricated structures, in particular horizontal concrete hollow core slabs, perpendicular to the slab sides of the hollow core slabs, comprising a drill bit (18), a drill bit rotating shaft (24, 25), a drill bit and a drill rotating shaft support (1) , transfer means (3) for pressing the drill bit against the drilling-10 target, a power source (37) for rotating the drill bit rotating shaft and a base structure (5), characterized in that the support structure consists of a telescopic jacket structure (1) arranged on the drill bit rotating shaft (18) (24, 25), said jacket structure comprising an outer jacket (8) telescopically displaceable by pushing means (9) relative to the tubular inner jacket (10) arranged inside the outer jacket, the jacket structure having an end facing the drill bit (18). fitted drill a drill chamber (12) surrounding the blade, the end of which is open away from the shell structure and which moves according to the movement of the telescope of the shell structure. Device according to Claim 1, characterized in that the outer and inner sheaths 25 of the jacket structure are circular in diameter and that the shaft (24, 25) rotating the drill is mounted on the inner jacket (10) of the jacket structure fixedly mounted on the base structure (5) of the device. Device according to claim 2, characterized in that the shaft rotating the drill bit comprises a tubular shaft (24), inside which a second shaft (25) is arranged, which is connected to the tubular shaft (24) so as to obtain its rotational movement from the tubular shaft (24), said second shaft (25) being telescopically movable 35 within the tubular shaft (24) for moving the drill bit (18) in the drilling chamber (12). 11 83051 Device according to Claim 3, characterized in that there is a wedge connection (27) between the tubular shaft (24) and the second shaft (25), which acts both as a force-transmitting connection between the tubular shaft and the second shaft and as a guide member for the shafts (24). , For telescopic movement between. Device according to Claim 4, characterized in that the second shaft (25) is also hollow, in which an ejection rod (33) is arranged inside it for separating the cylindrical body formed in the drilling from the drill bit (18), the ejection rod extending into the tubular shaft (24). from the lower end to which it is height-adjustably attached, to the drilling chamber (12) inside the drill bit. Device according to claim 3, characterized in that the lifting means (9) for moving the outer jacket (8) relative to the inner jacket (10) comprise an internally threaded tubular member (11) fixedly attached to the outer jacket (8). a motor (35) rotatable threaded transfer screw (36) mounted on the base structure (5) of the device. Device according to claim 3, characterized in that it comprises a lever (3) comprising a drive handle (2) connecting the outer casing (8) of the casing structure and said second shaft (25) so that the position of the drill bit (18) in the drilling chamber is adjustable and the drill bit can be pressed against the surface to be drilled. Device according to claim 7, characterized in that the linkage (3) is connected to said second shaft (25) by means of a bearing part (29), which bearing part allows the transmission of axial force to said second shaft (25). Device according to claim 1, characterized in that the edges of the end of the drilling chamber (12) facing away from the jacket structure 35 are provided with a seal (22) for placing the drilling chamber tightly against the drilling surface, and that the wall structure of the drilling cone has an opening (13 ') for cooling for applying the medium to the drill bit (18) and an opening through which the cooling medium and the slurry accumulated therewith are removed from the drilling chamber. i3 83051