DE2419411B2 - Tensioning device for a belt - Google Patents

Description

The invention relates to a clamping device for a Band saw for sawing wood, in which a first wheel is arranged in a holder and parallel to a longitudinal plane is guided movably against a second wheel and with which the tension of one around the wheels guided saw blade is adjustable, wherein the first wheel is elastic on a pin by a spring mounted, articulated support arm is mounted.

Such a clamping device is known from DE-PS 46 982, here with a horizontal lying spiral spring is used to compensate for the tension in the saw blade. With this device the clamping force changes very significantly if the upper wheel is bent or deflected and it mechanical hysteresis losses occur in the spring, which generally result in losses in the system can not be regenerated, a lateral deflection of the saw blade causes an increased Voltage exceeding the working voltage and the consequence is a shortening of the service life of the Saw blade. In addition, fluctuations in the saw blade tension can occur with such a spring tensioning system not reduced sufficiently or even switched off.

There is also a proposal from US-PS 31 11 146 known in which in a jig for a Band saw an air spring is used. Here is an upper wheel through a pneumatic membrane mounted, the ram of which is located immediately below the upper wheel.This wheel is in Sliding blocks stored and is through these sliding blocks touching parallel guides in a vertical movement forced. The vertical movement not only takes the changes in the sawing force, but also the elongation of the saw blade and the movement of the wheels for changing the saw blade. the end because of this, there is a greater range of motion

ίο required as the one who just needs to absorb the Saw force fluctuations is required. In order to withstand sawing forces, are required for the assembly of the wheel Adequate guides are required, with multiple areas of metal touching each other, to allow vertical movement to support and to withstand the forces without jamming. The individual components of such a Setup must be carried out very precisely, as this is ensured during the entire wheel movement must be that no lateral forces are transmitted to the membrane and that between the Guides and the sliding blocks no loosening or slack of tension occurs. Already relatively low Inaccuracies can lead to malfunctions, so that despite considerable manufacturing costs, a satisfactory Iendes Result is not achieved. In this known device is also one with the air chamber Communicating compressor and an expansion tank are required, which also add to the complexity contribute to the construction.

The object of the invention is to provide a clamping device for a band saw for sawing wood, largely with the fluctuations in the saw blade tension can be reduced by achieving a constant tension and undesirable time lag effects the friction and inertia in the tensioning mechanism are reduced, the tensioning device itself can be manufactured compactly and economically.

This object is achieved by a clamping device of the type mentioned in that the Support arm arranged rotatably with respect to the bracket and the spring ems miuinsm under pressure standing gas supply is connected air spring, which extends between the bracket and the support arm.

Appropriate designs of the clamping device according to the invention are described in the subclaims.

The one at the jig for the first wheel provided articulated or rotatable support arm reduces friction to a minimum, but secures at the same time sufficient inertia to restrain the wheel and resistance to the forces of the saw to counteract without frictional losses occurring in the sliding guides. Through the hinged Furthermore, the entire movement of the first wheel and thus the saw blade elongation is reduced as well accommodates a change in the distance between the wheels caused by replacing the saw blade. In a particularly advantageous embodiment, the support arm is articulated to a bracket arrangement which in turn is movably mounted parallel to a wheel longitudinal plane and a change in the wheel spacing buried over a larger area. This measure is used to adjust the wheel spacing a replacement of the saw blade as well as an adjustment of the saw blade tension and a medium one Working position of the air spring before starting the saw. The carrier arm itself then only has to go along one relatively small arc moved to low

To absorb fluctuations in the sawing force, which of Saw blade tints.

The main advantages of the air spring in the tensioning device according to the invention are as follows:

The chamber of the air spring communicates with a sufficiently large storage chamber, whereby the The spring constant is essentially stable regardless of changes in volume in the chamber.

The result is constant saw blade tension. That in turn means that the saw comes in handy can operate at optimal voltage without reducing their service life. The air spring can relatively small, sharp movements of the upper wheel adjust, with negligible friction in the air spring itself, since there is no sliding in it There is an air seal The air spring has a membrane that is simply rolled or folded, only an insignificant, in any case negligible work occurs on the membrane itself Most parts of the clamping device do practically no or only a very small amount Internal work if there is no pivot friction.

Since the carrier arm is now very little moved during the movement of aes wheel, this friction can through Use of low friction bearings can be reduced. The membrane of the air spring can be used without Difficulty to be designed leak-tight, so that there is practically no loss in the system again a substantially constant air tension is achieved provided that the air temperature is constant. This can be ensured in a simple manner by arranging a thermostat. Finally, the tension of the saw blade can easily be changed by changing the air pressure and the lifting device that moves the guides is adjusted accordingly.

The arrangement of the components of the tensioning device according to the invention makes it possible to provide a twin arrangement of the support arm air spring mechanism.

The invention is explained in more detail with the aid of some exemplary embodiments shown in the drawings. It shows

F i g. 1 is a partial side view of a band saw, in which individual parts are omitted in order to separate individual parts in FIG To illustrate inside the device

F i g. 2 is a partial perspective view of an upper one Wheel of the band saw according to F i g. 1,

F i g. 3 a horizontally arranged band saw,

4 shows a simplified partial side view of a Section of a modified embodiment of a tensioning device with an air spring,

Fig. 5 is a simplified plan view of another Modification of the device according to FIG. 4,

6 along a simplified partial sectional view the line 8-8 in FIG. 5, which is part of an amended. Embodiment of a joint illustrated.

The band saw 10 according to the invention (FIG. 1) has an upper or first wheel 11 and a lower or second wheel Wheel 12 on. These wheels carry and drive an endless saw blade 14 (shown in dashed lines), the upper one Wheel 11 around the pin 16 and the lower wheel 12 around the Pin 17 rotates. The axes (not shown) of the pins are coplanar with a central longitudinal plane the band saw, which is perpendicular to diametrical planes of the wheels. The central longitudinal plane 19 (dashed in Fig. 1) intersects the centers of the pins 16 and

17. The lower wheel 12 is driven by a motor 21 via a common drive 22 (shown in dashed lines) driven,

Common saw guides 24 and 25 cooperate with the saw blade 14 to this within a to hold the selected cutting plane. A piece of wood to be sawed (not shown) goes through the sawing plane in a plane running parallel to the longitudinal plane 13. The band saw 10 has one of a base 29

lu protruding stand 27, which is provided at the upper end 30 with a recess for the upper wheel 11. In this way, the parts of the upper end 30 are sufficiently removed to spread the wheel 11 ( Fig. 2). The band saw is essentially symmetrical arranged around a central vertical plane that is perpendicular to the longitudinal plane 19 and coplanar with the central one Diametrical planes of the wheels 11 and 12 runs

The band saw 10 is provided with a clamping device 32 which is connected to the upper or first wheel 11 cooperates and this moves within the longitudinal plane 19 with respect to the lower wheel 12 to tension the saw blade. The clamping device ti (Fig. 2) has two similar sections, of which only section 33 is described. A support arm 34, on which the pin 16 of the wheel 11 is arranged on one end is provided with a hinge portion which connects the carrier to a hinge 35 on a bracket assembly 36 (Figs. 1 and 2) At the other end of the An air spring 38 is provided on the carrier arm 34. These extends between the support arm 34 and the Bracket assembly 36 and is extendible and retractable to provide support arm 34 with respect to bracket assembly 36 rotate, tensioning the saw blade and creating a substantially frictionless attachment, to absorb the fluctuations in the saw load.

The air spring 38 communicates via a pressure line 46 with a pressurized gas that is in is enclosed in a tank. The pressure line 46 opens into a passage channel in the air spring 38 (Fig. 1).

The pin 16 is stationary and one of its ends 51 is inserted into a bore 50 of the support arm 34 (Fig. 2). The end 51 of the pin 16 is by gripping and clamping elements 70 firmly and positively in the Bore 50 of the support arm 34 held. That opposite end 52 of the pin 16 engages in a bore 53 of a similar support arm 54 and the upper wheel 11 is arranged between the two support arms 34 and 54. The second support arm 54 is in one Bracket assembly 56 rotatably mounted one of the air springs 38 similar air spring (not shown) extends between the yoke assembly 56 and the support arm 54 and is designed so that it extends or retracts simultaneously with the air spring 38 to the rotation of the Support ..rtne to prevent the bracket arrangement. Of the Support arm 54 and the bracket assembly 56 belong to a second section 55 of the clamping device, the corresponds essentially to the first section and is connected to and interacts with it

μ second section is therefore not described in more detail.

The support arm 34 has an inner end 60 and an outer end 61, the outer end 61 cooperating with the air spring 38 and the inner end being hinged to the bracket assembly 36. This ironing

h5 order 36 has a bracket member 63 with a pair vertically protruding articulation parts 65 and 66 arranged at a distance from one another. The distance is like that selected that the inner end 60 of the support arm 34

fits in.

A hinge pin 67 is located in the articulation parts 65 and 66 arranged, which is provided with a ball sliding bearing 69 which is inserted through the inner end 60 and this rotatable. The ball sliding bearing 69 allows a limited rolling of the support arm 34 to a Longitudinal axis, with simultaneous pivoting of the hinge pin 67 about a horizontal axis, which in the runs substantially perpendicular to the central longitudinal plane 19. The inner end 60 of the support arm 34 and the Articulation parts 65 and 66 serve as hinge sections, the cooperate with the hinge pin 67.

The bracket assembly 36 is releasably attached to a bracket support 62, for example by bolts 68. the Threaded holes in the bracket member 63 are screwed. Oval slots (not shown) in bracket bracket 62 receive the screws and allow some movement between the bracket member 63 and the Büeelträeer 62. by an essentially man-made man To create adjustment range. The screws and slots serve as a single and adjustable lilac to make a Allow movement of the bracket member 63 in relation to the bracket carrier 62 zj and thereby the pin 16 Adjust the upper wheel ti with the pin 17 of the lower wheel 12 in alignment.

The air spring 38 communicates with an upper end 78 (FIG. 2) of the pressure line 46 (FIG. I), which passes through a hole (not shown) in the upper wall of the bracket member 63 is pushed through. The pressure line, opens, as mentioned, in the gas supply45 (Fig. 1).

To limit the rotational movement of the support arm 34 with respect to ajf the bracket assembly 36 is a A threaded shaft or a shaft 80 is provided which is inserted through a bore in the support arm 34. That inner end 81 of this shaft is attached to the bracket member 63 and the outer end of the shaft 80 has a adjustable stop 82, for example a pair of secured nuts: rn, on. The stop 82 acts with the Support arm 34 together and limits the upward movement or upward rotation of the support arm. the downward rotation can be achieved by a similar pair of jam nuts (not shown) or by a on the bracket assembly 36 attached detent are limited.

Since during sawing the saw tension is instantaneous due to fluctuations in the load on the saw blade increases, occur small, substantially vertical movements of the pin 16 by one Equilibrium position. First, the pin 16 moves down, according to the Load increase, for example when the saw blade moves sideways due to a knot in the wood. These Movement rotates support arm 34 about hinge pin 67, thereby compressing air spring 38. the Movement or the response of the wearer occurs quickly after the increase in load, as the Friction is negligible and the inertia is relatively low. Friction loss occurs at the hinge pin 67, while the friction losses in the air spring 38 are negligible. The inertia of the wheel 11 and of the support arm 34 is relatively small, since there are no counterweights. The support arm 34 goes quickly up again and establishes the equilibrium position, as he hardly changes this equilibrium position oscillates In this way, only a short damping time is given, which results in a low level of inertia of the system, which in turn is due to the fact that counterweights faila

Since the tensioner uses compressed gas as a spring, hysteresis energy losses are compared with a mechanical spring relatively low. The jig is extremely sensitive versus the small increase in voltage. The band saw can be designed, for example, so that an increase of 0.0686 bar in the air spring results in a theoretical increase in tension of 112 to 114 kg causes, depending on the tension.

In the case of the band saw 10 (FIGS. 1 and 2), the upper wheel II is arranged approximately in the center of the wheel journal, while the opposite ends 51, 52 of the journal 16 are mounted in the support arms 34 and 54. Consequently, the wheel 11 is arranged between the support arms 34/54. Another embodiment of a band saw uses a flying wheel in which the upper wheel journal is held in a cantilevered manner by a support arm. The wheel is adjacent to the end of the 7anfpn5 mrmtiprt With corresponding;? "Abä" dsr ""srcr; the clamping device according to the invention can be arranged in such a band saw, the advantages of which are low friction and low inertia. A band saw of this type is required only part of the tensioning device, i.e. an air spring and associated components. The difficulties encountered in such an arrangement when used with high tension band saws are known and care must be taken to ensure that tenons are kept and support arms are sufficiently strong and rigid to withstand the stresses resulting from the sawing tension.

Another embodiment is a horizontally mounted band saw (FIG. 3). Such a band saw 145 has coplanar gears 146 and 147 that drive saw blade 148. Adjacent to one Conventional saw guides 149 and 150 are provided in the cutting area of the saw blade. The top wheel 146 rotates about a pin 151, which is mounted in a support arm 153. The upper end of the support arm 153 is rotatably mounted in a bracket assembly 155 and the lower end of this support arm works with a balanced air spring 157 together. This extends between the bracket assembly 155 and the Support arm 153, similar to the air spring 38, but at 90 ° with respect to the position shown in FIGS. 1 and 2 offset. The changes to this arrangement affect the air spring, which is balanced and with an im essential horizontal central axis can work together.

Another modified embodiment of the clamping device 165 according to the invention (FIG. 4 in J. 5) consists of a support arm 160 having an inner end and an outer end 162. The inner end 161 is provided with a hinge part 163 that the support arm 160 on a for this embodiment designed bracket assembly 164. This consists of a bracket base 166 and a hinge part 168, which complements the joint part 163 of the carrier 160 (FIG. 6). The joint parts 163, 168 form a section of the hinge 169 to articulate the support arm 160 on the bracket assembly 164, such that the Can rotate support arm with respect to this bracket assembly.

The bracket 160 supports a pin 172 of the upper wheel with which a lower wheel is associated As with the wheels 11 and ί 2 (Fig. 1), the saw blade is around the wheels guided

The support arm 160 is provided with a bore 174

provided, into which one end of the pin 172 is inserted. Corresponding wedge arrangements 176 prevent rotation of the pin 172 with respect to the support arm 160. The wheel rotates about a central axis 183 of the stationary pin 172. A bridge and screw arrangement 173 enables the pin 172 to be aligned with respect to the support arm. A entsprecl <"ide lock 177 consists of a proceeding from the support arm 160 boom 178 having a bore 179, in which an outgoing from the base 166 pin is inserted 180th At the upper and lower end of the bolt is each an adjusting nut 181 and 182 , which form upper and lower detents, respectively, and spread the boom 178 to limit the rotation of the support arm 160 with respect to the bracket assembly 614 .

A extends between the outer end 162 of the support arm 160 and the bracket assembly 164

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Communicates gas supply (not shown), through an inlet connected to a pressure line 187. The air spring 185 works similarly to the air spring 38 (FIG. 1). The air spring 185, the support arm 160 and the yoke assembly 164 are housed in a first section 188 of the modified embodiment of the tensioning device and are designed so that the upper wheel is moved within the longitudinal plane with respect to the second wheel.

A substantially identical second section (not shown) is operational with the first section. tied together. The pin 172 is inserted with its ends in the corresponding section and the first wheel is arranged between the support arms.

The joint 169 (FIG. 6) has a joint pin 249 with a central axis and an eccentric 251 . which is arranged between coaxially aligned outer ends 253 and 254 of the pivot pin. One end 154 is provided with opposite flattened areas 255 which enable the pivot pin 249 to be rotated about the axis 250. The joint portion 168 of the base of the bracket assembly 164 has two spaced apart oil joint members 256 and 257 with aligned bores into which the outer ends 253 and 254 of the pivot pin 249 are inserted and which are spaced apart in order to spread the eccentric 251. The joint section 163 of the support arm 160 has a hinge bore 260 which complements the eccentric 251. The hinge bore and the eccentric mount the support arm 160 rotatably (FIG. 6).

The hinge bore 260 is provided with an inner, partially spherical bearing surface which is centered on a hinge axis 263 and is coated with a coating exhibiting low friction, for example polytetrafluoroethylene. The eccentric 251 has a partially spherical bearing bush 262 . the bearing surface of which complements the hinge bore 260. The two surfaces form a ball bearing 264 with limited thin ^ ΓΓ! £ ΐΓί ^ ** icton Hpt 7anfonc IA 711 apctattpn One end of the pin is raised from the other end in order to maintain the center track of the saw blade on the wheel.

A gap 265 between the axis 250 of the pivot pin 249 and the axis 263 of the ball bearing 264 of the eccentric 251 limits the deflection of the joint 169. When the eccentric 251 is in its central position (Fig. 6), the axis 263 of the ball bearing 264 is in distance 249. now, if the hinge pin 249 rotates about the axis 250 of the pivot in any direction about the axis, the axis 263 of the ball bearing 264 moves substantially horizontally with respect to the axis 250 of the pivot pin 249th The result is a limited, substantially perpendicular movement of the support arm 160 to the central longitudinal plane 19 of the band saw. The wheel can be aligned with this eccentric adjustment device. It is an alternative to the limited movement between the bracket bracket 62 and bracket member 63 (Fig. 2).

For this purpose 4 sheets of drawings

Claims (4)

Claims; 1. Clamping device for a band saw for sawing wood, in which a first wheel is arranged in a holder and is guided movably against a second wheel parallel to a longitudinal plane, and with which the tension of a saw blade guided around the wheels is adjustable, the first Wheel is mounted on a pin of a hinged support arm elastically supported by a spring, characterized in that the support arm (34; 160) is arranged rotatably with respect to the holder and the spring is an air spring (45) connected to a pressurized gas supply (45). 38; 185) extending between the bracket and the support arm (34; 160) 2. Clamping device according to claim 1, characterized in that the holder consists of a bracket arrangement (36; 164) to which the support arm (34; 160) is articulated by a hinge (35; 169) 3. Clamping device according to claim 1 and 2, characterized in that a second support arm (54) is provided and rotatably mounted in a second bracket arrangement (56), a second air spring being arranged between this support arm (54) and the bracket arrangement (56) the first wheel (11) is mounted between the first and the second support arm (34/54) 4. Clamping device according to claim 1, 2 and 3, characterized in that each support arm (34, 54; 160 ) is rotatably mounted with its inner end (60; 161) in the corresponding '-, bracket arrangement (36, 56; 164) while its outer end (61 ; 612) cooperates with the corresponding air spring (38; 185)