DE29615634U1 - Jigsaw - Google Patents

Description

Jigsaws with straight, reciprocating tools clamped on one or two sides are well known. The cutting edges on the tool in the feed direction remove chips from the material in accordance with the number of strokes. The same cutting edges in the stroke area are always involved in the cut. Reciprocating saws with rotating and simultaneously reciprocating tools according to the application G 93 15 498.4 use all cutting edges in the cutting area, but due to the shape of the tool they can only be used for certain applications.

The use of known tools with cutting edges on the front and back leads to better mobility when cutting curves and, thanks to the option of changing tools, to an extension of the tool life, but is only possible for easily chippable material due to the achievable cutting quality, additional cutting and reduced cutting force support, particularly when cutting backwards. With jigsaws, chip removal always occurs with a pulling cut.

The increase in cutting performance of the commonly known jigsaws has objective limits due to the cutting principle used, in which the cutting edges always engage one after the other and the chip removal is carried out by the cutting geometry. The use of the saws described is therefore not possible or only possible to a limited extent for certain materials, since the achievable values of the feed rate and the tool life as well as the achievable cutting quality do not meet the desired requirements.

problem

The invention specified in the main claim 1 is based on the solution to the problem of superimposing the cutting edges on the cutting tool in a special shape in addition to the pulling cut with a suitable impact frequency during the entire movement sequence and thus driving them forcefully into the material to be processed in order to loosen the material and improve chip removal.

Invention " ** **

The problem is solved with the measures of the main claim 1 and the further developments according to the secondary claim 2 and the subclaims 3 to 8.

Advantageous effects of the invention

By superimposing the main back and forth movement of the jigsaw with the high frequency movement striking the material in the sawing direction, the material in the saw gap is released from its solid bond and removed more quickly.
The stress on the cutting edges is lower than with the generally known principle of impact drilling due to the straight-line main movement and the impact movement in the forward and return stroke as well as the specific impact distribution per cutting edge. Due to the targeted loosening of the material in the saw gap, the application area of the impact jigsaw described also extends to materials that could not be processed with conventional jigsaws due to unacceptable tool life and feed speeds.

In contrast to conventional jigsaws, where no chip removal is possible during the return stroke, the high impact frequency of the impact jigsaw loosens the material being processed during this time and can then be easily additionally chipped during the working stroke. The difference in stress is balanced in relation to the usual tool use.

The heating of the workpiece can be reduced to a minimum by the described superposition of the movements for chip removal. The use of the impact jigsaw for thermally sensitive materials is made possible by the modified material removal and the sensitive handling during cutting.

Further developments of the invention

A special embodiment of the invention according to main claim 1 is described in secondary claim 2. Subclaims 3 to 8 disclose advantageous further developments of the invention.

The further development of the invention according to the secondary claim 2 opens up the possibility under certain conditions of using the generally known jigsaw as a hammer jigsaw by using a special tool.

ns. CiO ■■"·..::

This embodiment of the invention has the advantage that the impact movement required for processing special materials is created directly by the tool inserted into the tool holder with the corresponding back contour.

The further development of the impact effect on the work tool according to subclaim 3 enables the use of compact tools for commercial use.

The design of the invention according to subclaim 4 enables the use of the impact jigsaw in the conventional, pulling material removal. In particular, this setting is intended for metallic materials.

Subclaim 5 has the advantage that the deflection of the tool is adjustable and thus the penetration depth into the material to be processed can be optimized.

The further development of the invention according to subclaim 6 discloses the possibility of sensitively adapting the impact effect to the material quality. The impact sensitivity of special materials is taken into account by the hand-guided feed and by the spring integrated in the impact system. This further development means that the impact effect stops immediately if the feed is interrupted, thus ensuring precise cutting. The soft start makes it possible to turn on the spot with specially selected cutting/impact tools.

Sub-claim 7 includes tools which, according to their cutting geometry and the use according to main claim 1 or the design with a special tool back according to secondary claim 2, are intended for the processing of materials with special mechanical properties or with which improved cutting conditions are achieved for conventional materials.

Claim 8 covers machines whose special technical design allows the use and application of tools with special cutting geometry and/or tool back design and thus enables the processing of selected materials.

Description of the invention

Embodiments of the invention are illustrated in Figures 1 to 4:

Show it:

Fig. 1 the partially sectioned side view of a jigsaw

Fig. 2 Detailed view of the gearbox

Fig. 3 the partially sectioned side view of a jigsaw with special

Tool
Fig. 4 shows the representation of tools for use in machines according to claim 1

Fig. 1 shows a jigsaw in which the lifting drive 1 is implemented and in which the pickup lever 7, which moves at a high impact frequency, is shown on the gear output wheel 5 via specially shaped knobs 6. The pickup lever 7, which is mounted in a compact design on the machine frame 8, transfers the movement directly from the guide roller 9 mounted in the lever to the back of the cutting tool 12. The cutting tool 12 thus carries out the impact movement 2 generated according to the invention in addition to the lifting movement 1 for improved material removal.

The action of the control lever 7 can be locked by means of the rotary handle 13 arranged in a suitable position on the machine frame 8. This sets the impact jigsaw for processing materials which can only be processed using the appropriate cutting geometry of the tool (metallic materials). The spring 14 can be used to adapt the impact frequency to the feed force during the cutting process. The sturdy support body 10 is positioned on the machine frame 8 in a suitable manner so that the bearing support forces required for impact sawing can be safely absorbed and residual vibrations can be dissipated in a reduced manner.
Due to the stepless adjustability of the tool deflection 17, the impact effect on the material to be processed with its specific properties can be realized.

Fig. 2 shows the gear driven wheel 5 of a jigsaw according to claim (1) with the knobs 6 arranged on the front _side, which, in accordance with the predetermined transmission ratio from the motor pinion 15 to the gear driven wheel 5, give the pickup lever 7 the impact frequency required for the superposition of the lifting movement 1 with the impact movement 2. The impact

• Jt

• · t ·

The frequency of the pick-up lever 7 can be adjusted to the material to be processed by means of the spring 14 which is adjustable in the movement system.

The elastic support 16 of the lifting rod dampens the vibrations occurring in the impact jigsaw and, together with the lifting rod guide bearing 18, which is also used in the generally known pendulum jigsaws, forms the essential force balance between the support bearing 4 and the machine frame 8.

Fig. 3 shows a section of a jigsaw in which the lifting movement 1 is superimposed with an impact movement 2, which is created as a result of the contour 3 incorporated into the back of the tool 12 during rapid rolling on the compact support bearing 4 and the support on the anvil 4a. The contour on the tool 12 is designed for the processing of certain materials and is designed differently accordingly.

Fig. 4 shows tools 12 that can be used for machining materials in which the high-frequency impact movement 2 enables or improves the material removal of the stroke movement 1. The impact movement 2 can be generated by tapping the gear output gear 5 or by the contour 3 provided on the back of the tool 12. If both options are used in a machine, the impact frequencies that can be achieved are correspondingly higher. Dynamic and mechanical influencing factors then limit the application. By designing the cutting/impact edges in accordance with the illustration of the tool 12a, tight radii and angle cuts can be achieved.

Claims (8)

Protection claims 1. Impact jigsaw with straight, reciprocating tool clamped on one side and with special cutting edge design (12) characterized, that in addition to the lifting drive (1), a second movement (2) is implemented which acts on the material in the sawing direction and is derived from the gear, by means of which the tool enables or improves the material removal with a high impact frequency. 2. Impact jigsaw according to claim 1 characterized, that a wave-shaped contour (3) is incorporated into the tool, the purpose of which is to excite an impact movement (2) acting in the feed direction, which is created by the rolling of the tool (12) on the support bearing (4). 3. Impact jigsaw according to claim 1 characterized, that the impact effect on the back of the cutting tool (12) is effected by other mechanical or electrical means (11). 4. Impact jigsaw according to claim 1 characterized, that the impact effect is only possible through a certain rotary handle position (13) on the machine. 5. Impact jigsaw according to claim 1 characterized, that the deflection of the tool (12/12a) can be varied by means of a preselectable lever setting on the machine or by using a corresponding tool with an integrated contour (3), thus taking into account the influence of the material quality. ♦♦ · · 7t · · 6. Impact jigsaw according to claim 1 characterized, that tools (12/12a) are equipped with cutting edges in such a way that they enable chip removal even during the tool return stroke and which enable or improve the machining of certain materials under the influence of high impact frequencies. 7. Impact jigsaw according to claim 1 characterized, that the impact effect depends on overcoming an adjustable spring force of the spring (14) installed in the stroke guide system of the machine, counteracting the feed force. 8. Impact jigsaw according to claim 1 characterized, that the generally known guide of the lifting rod (15), which acts in the cutting direction, forms a dynamically optimized system with the elastically embedded second lifting rod bearing point (16) and the support bearing (4).