FI64527C - RAMSAOG - Google Patents

Description

RSSFH [B] (11) * ^ u UI-UTU Sj U LKAISU

Jjsrv lpj V 'UTLAGGNI NGSSKRIFT 64t) Z / c (45) 12 12 1953 ^ (51) Kv.ik. ^ nt.a.3 B 27 B 3/12 FINLAND— »FINLAND (21) p * Mnttih * k« n »i« -p * t.nt *> * kninf 763017 (22) HtkemUpeiv · —'AmOknlnpdag 22.10.76

(23) Alkuptlvft — GHtlgh «t * d« g 22 1Q

(41) Tullut | ulklMksl - Bllvlt ofUntllj ^ ^ ^

Patent ·] a registrihltu · / 44) Nlht * vllulp * non J »moonLKkakaiam pvm. -

Patent · och reglstentyrelsen '' AfMttkaii uthfd eeh utUkrHtwi published 31.0o.o3 (32) (33) (31) Fjrjrdetty «Tuoikeis — B« gird prlorite

Sweden-Sweden (SE) 7512603-7 (71) Aktiebolaget Iggesunds Bruk, S-825 00 Iggesund, Sweden-Sweden (SE) (72) Harding Tannerstal, Söderhamn, Sweden-Sweden (SE) (7 * 0 Oy Kolster Ab ( The present invention relates to a frame saw having a frame and a loose frame with a saw blade provided substantially parallel in the frame, movably guided in the frame by guide pieces arranged on the upper and lower ends of the loose frame, the loose frame being rotatable and moving the loose frame up and down in the body by means of a drive mechanism.

When using a conventional frame saw, the loose frame is moved up and down by means of a crank mechanism or the like, the rotating rod of which is connected to the loose frame. The log to be sawn is fed continuously through the loose frame towards the saw blade, whereby the sawing takes place as the loose frame moves downwards. In order to reduce the load on the saw blades during the upward movement of the loose frame, the blades are brought upstream, which means that the saw blades are tilted towards the feed direction of the log in a bottom-up direction. However, in the pivoting positions of the loose frame, the continuously fed log places a heavy load on the saw blade. The problem is greatest in the lowering position of the loose frame, in which case the crankshaft causes the loose frame to stand for a moment when the log is fed into the blades without interruption. This causes high chain loads on the blades.

Various proposals have been made to solve the problem, e.g. that it would not allow the loose frame to move in a straight line, but instead allow circular or octagonal movements to be performed, especially in the end positions.

The present invention has solved the problem differently and is intended to provide a simple and reliable arrangement which allows a limited movement of the saw blades, avoiding the supply pressure of the log, especially when the upper part of the loose frame is in the downward position. Another specific object of the invention is to provide an arrangement by means of which the upstream adjustment and checking of saw blades can be achieved in a simple, fast and reliable manner.

These and other objects are achieved in such a way that the arrangement according to the invention has the features indicated in the following claims.

Other features and advantages of the invention will become apparent from the following description taken in conjunction with the drawings of a preferred embodiment.

Figure 1 is a front view of the loose frame and shows the loose frame with its guides and also schematically shows the guides of the frame saw body.

Fig. 2 shows a side view of Fig. 1 arranged.

Figure 3 shows, on a larger scale, in partial section, the upper bearing of the loose frame.

Fig. 4 shows a section taken along the line IV-IV in Fig. 3.

The frame saw usually comprises a frame from which only two guides 12, 14 are shown in broken lines, which run mainly vertically and form guide tracks for the upper and lower guides 16 and 18 of the loose frame 10. Although the guides 12, 14 are shown entirely in the drawing, that they are usually made of two upper and two lower separate parts. A horizontal shaft 20 is arranged between the lower guides 18, around which is mounted a partially tensioned beam 22 forming part of the loose frame 10, partly a rotary rod 24 forming part of a crank mechanism (not excreted) fitted under the loose frame 10 to the frame saw body. the up-and-down movement of the loose frame is effected in a manner known per se. Rising from the lower clamping beam 22 are two tubes 26 rigidly connected 64527 to both the lower clamping beam 22 and the upper clamping beam 28, the parts 22, 26, 28 forming an actual loose frame 10. The saw blades 30, only one of which is schematically indicated by dashed lines 2 in between holders 32 located on the upper and lower clamping beams 28 and 22, together with interpreters 29 located between the saw blades, which generally correspond to the desired thickness of the sawn goods, e.g. as disclosed in the patent (pat. an. 7511123-7). Above the upper fastening, blade tensioners (not shown) are arranged in a known manner, the function of which is to provide the desired tightening of the tensioned saw blades.

To reduce the load on the saw blades 30 during the upward connection of the loose frame 10, with the log (not shown) continuously pressing against the teeth of the saw blades, these are placed upstream, i.e. the saw blades tilt in the log feed direction as shown at angle c <in Figure 2. the loose frame 10 with the tensioned saw blade 30 is placed obliquely around the lower shaft 20.

Placing the saw blades upstream can to some extent alleviate the pressure on the saw blade when the lower part of the loose frame 10 is in the pivot position, but it increases the load when its upper part is in the pivot position. To reduce this load, the loose frame 10 according to the invention is so mounted at least at its upper end that the loose frame 10 with the tensioned saw blade 30 flexibly recedes when the predetermined pressure exerted by the applied log against the teeth of the saw blades 30 is reached and exceeded. The bearing also allows for quick and simple upstream adjustment.

Since the bearing on both sides of the loose frame 10 is identically similar but mirror image, only one bearing will be explained below, so that it is clear that the description also applies to the other side. As also shown in detail on a larger scale in Figures 3 and 4, a bearing 32 is fitted to the guide body 16, on which a pin 34 is mounted together with a substantially straight arm 36 fixed to the pin 34 or formed integrally with the pin 34 at its upper end non-rotatably mounted on the shaft 40. 40 extends from the arm 36 directly over the guide piece 16 and forms a bearing pin for the bearing sleeve 42 fixedly connected to the upper clamping beam 28 of the loose frame 10 shown by dashed lines in Figure 4. A fixed connection is provided by the bearing sleeve 42 substantially perpendicularly downwards. 46, which engages a corresponding hole in the clamping beam 28, and a guide base 45 attached to the beam; 28 by welding or the like.

This fastening is insulated to the clamping beams of the existing loose frames, but it can of course be modified if desired, for example in connection with the remanufacturing of the loose frame. On the same side of the guide 40 as the guide piece 16 where the holder 44 is located, there is a fixed arm 48 having at its other end a rod 52 pivotally mounted around the pin 50 on the arm 48. The rod 52 is threaded from the arm 48 away end, as in 54 and screwed into the thread is a cap nut 56 which forms a resistor for a spring 58 arranged around the rod 52, the second resistor being formed by a screw sleeve 60 through which the rod 52 passes and threaded into a cylindrical sleeve 62 provided with a bottom batch with a nut 56 supported by the pressure exerted by the spring. The sleeve 62, in turn, can be moved within the chamber 64, which is secured by a screw 67 to a base 66 located in a loose frame upper clamping beam 28 or bearing holder 44. The sleeve 62 is held in a position inside the body 64 by a sleeve engaging pin 68 belonging to a control device. .

The described bearinging of the upper tension beam 28 allows the loose frame 10 to be displaced to the right as seen in Figure 2, with a pressure being applied to the leading edge of the saw blades that exceeds a predetermined pressure determined by the springs 58. The bearing operates so that the clamping beam 28 mounted on the shaft 40 moves according to the arc of the circle with the lower shaft 20 of the loose frame 10 acting as the center. Since the shaft 40 is non-rotatably mounted on an arm 36 which is engaged in the rotation of the tension beam but with the bearing 34 at the center, the shaft 40 and the arm 48 attached thereto pivot relative to the tension beam 28 and the beam spring chamber 64. , when the pressure on the saw blade exceeds a predetermined value, the described movement may occur, whereby the spring 58 is caught between the nut 56 attached to the compression rod and the fixed screw sleeve in the sleeve 62. By dimensioning the spring 58, it is possible to determine the pressure at which the loose frame 10 - when in the downturn position - springs out of the way of the continuously fed log. When the pressure is relieved after the loose frame has turned, the spring 58 pushes the nut 56 back to the bottom of the sleeve 62 and thus returns the parts to the initial position as shown in Figure 3.

It can be seen from the above that the position of the nut 56 when it bases the sleeve 62 of the S 5 64527 determines the amount of inclination of the saw frame 10, i.e. the upstream of the saw blades 30 on which it works (Fig. 2). By changing the rest position of the nut 56 relative to the other parts, the inclination of the loose frame 10 and thus the magnitude of the upstream can therefore be adjusted and varied in a simple manner. This is accomplished in the illustrated embodiment by releasably engaging the sleeve 62 in the chamber 64, with the second arm 68 of the angle lever 69 engaging the sleeve 62. This angle lever is mounted around a pin 70 located in a portion of the clamping beam 28 (Fig. 1). The second arm 72 of the angle lever engages a nut 74 fitted to a threaded rod 76 which may be common to both sides of the clamping beam 28. As shown in Figure 1, the rod can be twisted by a drive mechanism 78 nuts 74 back and forth at the outer ends of the rod 76. As a result, the horizontal position of the angle lever 72 changes, which position is moved through the bearing point 70 to a perpendicular change in the position of the angle lever 68, which angle lever engages the movable sleeve 62 (Fig. 3). In this way, the bottom surface of the sleeve 62 and thus also the cylindrical bore is simply adjusted to different heights relative to the chamber 64, thereby determining the second end position of the rod 52 and thus the arm 48, i.e. the rest position, as the spring 58 always tends to press the nut 56 against the bottom surface.

It can be seen from the above description that in a simple and reliable way it is possible to quickly and accurately adjust the inclination of the loose frame 10 and thus the upstream of the saw blades 30, and on the loose frame to dodge the force of the spring 58 when the pressure against the teeth of the saw blades 30 exceeds a certain value. when the feed force of the log increases against the saw blade, with the loose frame 10 in the downward position.

It is clear that the structure shown is only an example of the implementation of the invention and that it can be modified within the scope of the following claims. The loose frame can, of course, also be mounted on its lower part as shown and explained, if this would be desirable. Likewise, the suspension and bearing of the tension beams of the frame 10 can be modified from the secreted embodiment so that the bearing in the bearing sleeve 42 occurs other than as shown with the holder 44, which, however, is particularly suitable for use with commercially available loose frame types.

Claims (6)

6,64527 A frame saw having a frame and a parallel frame (10) extending substantially vertically in the frame with a saw blade movably guided in the frame by guide pieces arranged at the upper and lower ends of the loose frame, in which the loose frame is pivotally mounted on the guide frame, and the guide body moving up and down in the frame by means of a drive mechanism, characterized in that the loose frame (10) is mounted on its own guide piece on both sides of its upper part or clamping beam (28) by means of a first arm (36) pivotally mounted on the guide piece (16) ) and one end of which non-rotatably supports a shaft (40) on which the loose frame (10) is pivotally mounted and which shaft (40) is provided with a fixed second arm (48) connected to the loose frame (10) by a spring device (58, 60), allowing flexible rotation of the loose frame (10) between the lower guide pieces (18) around the essentials in the feed direction of the material to be sawn, while the movement of the loose frame (10) against said feed direction is limited by a stop (56, 62) with which the inclination of the loose frame can be adjusted. A frame saw according to claim 1, characterized in that the clamping beam (28) is provided on each side with a holder (44) fixedly connected to a bearing sleeve (42) pivotally mounted on the shaft (40). Frame saw according to Claim 1 or 2, characterized in that the spring arrangement comprises a spring (58) which is clamped by a resistor (60) in the chamber and a rod switch (60) connected to the spring arm (64) connected to the clamping beam (28) of the loose frame (10). 52), the spring force of the end (56) of which is normally held against the part of the chamber (62) which forms said stop. A frame saw according to claim 3, characterized in that said chamber part (62) is displaceable and lockable relative to the loose frame (10). Frame saw according to claim 4, characterized in that said part consists of a sleeve (62) movable inside the chamber (64), in the bottom hole of which a spring (58) is mounted and against the bottom of which the end (56) of the rod switch (52) is held by a spring. I 7 64527 and each sleeve engages one end of a corner lever (69) mounted on a loose frame, the other end of which lever engages a nut (74) of a threaded feed bar (70) fitted to the clamping beam (28) of the loose frame (10). , 80) so that the torsion of the feed rod | Frame saw according to Claim 5, characterized in that the feed rod (70) is common to both guide pieces (16) by the upper clamping beam (28) of the loose frame (10). 8,64527