DE3712792A1 - Circular saw - Google Patents

Abstract

The circular saw contains a saw blade (1), on the periphery of which grooves (2) with guides (3) are made on a circular arc which exceeds an angle of 180@. Inserted teeth (4) are arranged and held in place in the guides (3). The inserted teeth (4) have a profiled inside (10) and a profiled outside (7). The opposed teeth (4) bear with the profiled outsides (7) over the entire periphery of the guides (3) against the saw blade (1). The inside (10) of the profile of the inserted teeth (4) is arranged for the mounting of the latter in the guides (3) of the grooves (2) as well as for the chip breaking and removal. <IMAGE>

Description

The present invention relates to the span contrasting shaping of materials and affects in particular other circular saws.

The circular saws designed according to the invention can NEN expediently for cutting panel or Sheet materials, for example, from chipboard in in the woodworking industry.

The invention can also be used for dividing and separating of metallic and non-metallic materials different profile can be used.

Circular saws with inserted teeth are known with cutting elements made of a hard alloy (US, A, 35 28 465, 32 70 786, 32 36 271). This circle saws consist of a saw blade, on the circumference of which Nu with guides to accommodate inserted counts are spared in it. Sticking the one set teeth in the groove is done by means of a lock direction of the spring type, the relatively large head has dimensions that the attachment of the inserted tough ne on the circumference of the saw blade in the largest possible Do not allow number.

The teeth used usually point from the Outside and inside flank forth a complicated pro through which they prevent spinning in the grooves secured and their assembly is made possible.

With the circular saws of this type, a good interchangeability of the teeth used as well as favorable chip reduction conditions create. At the same time, however, with these designs a high level of security when attaching the toughness used ne not achieved with considerable impact loads the. It can also behave with these circular saws major main dimensions of the lock device (of a spring element) the largest possible number of set teeth are not attached.

A circular saw (FI, A, 66 306) with a saw blade 1 ( FIG. 1) is known, on the circumference of which grooves 2 are designed with guides 3 , in which there are 5 inserted teeth 4 with a cutting element. The inserted teeth 4 are held in the grooves 2 by means of pins 6 .

The groove 2 is formed by a section ∪ akb 180 ° and an adjacent straight section.

The inserted tooth 4 lies on the saw blade 1 over the circumference of the section ∪ akb and is designed con structively in the form of a resilient half ring, whereby the inserted tooth 4 can be held by the pin 6 and locking to the latter.

The location of the pin 6 on the straight section bd with an inclination angle ϕ relative to the horizontal is determined by the angle a 180 °, which passes through the outermost support point a of the groove 2 on the circumference of the saw blade 1 and the center of the pin 6 Straight lines are formed, which can be attributed to the assembly conditions of the teeth 4 used and the functionality of the circular saw. The security of the attachment of the inserted tooth 4 in the groove 2 depends on the location of the pin 6 on the inclined straight portion bd .

The straight section bd has a relatively small range of change in the angle of inclination ϕ in the particular circular section ∪ akb of the groove 2 , because the change in the angle ϕ to ϕ ₁ is limited by the contact point a _{1 of} the saw blade 1 resting on the cutting element 5 and the enlargement of the angle from ϕ to ϕ ₂ is limited by the point of support a _{2 of} the saw blade 1 , which is closer to the center of the saw blade 1 at a distance from the cutting element 5 , which causes the inserted tooth 4 to be unloaded relative to this point. The layers I and II of the inserted tooth 4 in the saw blade 1 correspond to these embodiments, where at ∪ akb = ∪ a ₁ kb ₁ = ∪ a ₂ kb ₂ .

It follows that for a certain value of the arc section of the groove 2, the location of the pin 6 on the straight section bd is limited by the position of the outermost support point a and the angle α 180 °, which is normally the position of the pin 6 closer to the arc section of the Groove 2 ( ∪ akb) determined.

The arrangement of the pin 6 on the straight section bd closer to the circumference of the saw blade 1 , ie at large values of the angle α , leads to the enlargement of the main dimensions of the pin 6 , so that the security of the attachment of the tooth 4 used can not be achieved and the greatest possible number of teeth 4 to be attached (position III) is reduced.

If the section akb ₁ <180 ° at a certain position of the support point a , this also leads to the enlargement of the main dimensions of the pin 6 (position IV), because this is due to the position of the straight section b ₁ d ₁ it is inadmissible from the assembly condition for the inserted teeth 4 to arrange the pin 6 on the straight section bb ₁ delimited by akb ₁ <180 °.

From the above it follows that in the presence of the inclined straight portion bd of the groove 2, the greatest possible number of teeth 4 to be inserted on the circumference of the saw blade 1 is reduced, while the limited arrangement of the pin 6 on the straight section bd of the groove 2 there is no way to achieve a relatively high security of fastening the inserted teeth 4 for circular saws working at high cutting speeds under the action of relatively large cutting forces. For circular saws with a diameter of 200 to 500 mm, it is practically impossible to attach the teeth used in a number of 24 to 48, which is necessary to ensure the functionality of the circular saw and the cutting quality of materials.

Since the cutting element 5 is made of a hard alloy in the known circular saw and has a certain grinding geometry, the cutting force components are distributed in such a way that the normal component may only insignificantly exceed the tangential component of the cutting force, otherwise this would cause the tooth 4 to be pressed together and lead to its unloading from the groove 2 .

The use of an over-hard material as a cutting element 5 for the known circular saw is undesirable, since the use of an over-hard material is ne certain bevel geometry, which differs from the bevel geometry of the hard alloy cutting elements 5 , and thus results in a redistribution of the cutting force components . Since the hard material has an increased brittleness and a reduced impact resistance compared to the hard alloy, its use in the known circular saw is also unfavorable because of vibrations of the teeth 4 acting as springs under the effect of considerable cutting forces.

The present invention is based on the object de, a circular saw in such a constructive way to create leadership that is relatively safe the fastening of the teeth used, an increase guaranteed cutting quality of materials and the service life of the circular saw is significantly increased.

This object is achieved in that in a circle saw containing a saw blade with out on its circumference led grooves with guides in which inserted teeth arranged and held, which is a profiled Inside for chip removal and a profiled, on have the outside of the saw blade, fiction according to the grooves with the guides on an arc are performed, which exceeds the angle of 180 °, and the inserted teeth on the saw blade over the entire order  beginning of the guides, the inside of the Profiles of the teeth used to assemble the latter in the guides of the grooves and for chip reduction is set up.

The inside of the profile of the inserted teeth can usefully be executed as a circular arc the.

This enables a relatively high technology justice of the circular saw and a relief of Conditions for the assembly of the teeth used and the operation when operating the circular saw.

The inside of the profile of the inserted teeth can be curved with a projection relative to the outside of the teeth used the.

The inside of the profile of the inserted teeth can also be curvilinear with a return relative to the outside of the teeth used who trained the.

Due to the curved lines of the inner sense te of the profile of the teeth used is achieved that the chip is shredded according to quality and from scratch can be removed.

The circular saw in the constructive according to the invention Execution ensures a relatively high level of security the attachment of the teeth used, an increased Cutting quality of materials extends considerably the service life of the circular saw.

Below is the description of a concrete one Embodiment for the circular saw with reference cited on the drawings. In the drawing shows

Fig. 1 - a portion of a circular saw according to the preceding state of the art,

Fig. 2 - a section of a circular saw according to the invention,

Figure 3 to 7 -. The embodiments of the inside of the profile of a tooth used.

The circular saw contains a saw blade 1 ( Fig. 2), on the circumference of which grooves 2 are designed with guides 3 , in which there are inserted teeth 4 with cutting elements 5 . The teeth 4 used who who in the guides 3 of the groove 2 with pins 6 festgehal th. The teeth 4 are with their outsole te 7 on the saw blade 1 over the entire circumference of the guides 3 of the groove. The grooves 2 with the guides 3 are carried out over a circular arc of more than 180 °. The pin 6 is located in recesses 8 and 9 of the tooth 4 and the saw blade 1 used accordingly. The location of the pin 6 is limited by a plane A which passes through the pivot point of the saw blade 1 (not shown) and the main cutting edge of the cutting element 5 from the side of the front surface of the latter. The cutting element 5 is made of a hard material.

The inside 10 of the tooth 4 used can have a different profile.

In Fig. 3, the inside 10 a of the profile of the tooth 4 used is formed as a continuous curve, which ensures good chip removal.

In Fig. 4, the inside 10 b of the profile of the tooth 4 used is curved with a back jump relative to the outside 7 of the tooth 4 used , which ensures good chip removal and reduces the noise level during operation of the circular saw.

In Fig. 5, the inside 10 c of the profile of the tooth 4 used is curved with a before jump relative to the outside 7 of the tooth Nes 4 used , which is good conditions for the chip reduction and removal as well as a relatively high stability of the circular saw in which ensures the grooves. You can attach an additional cutting element II on this projection to improve the chipping conditions and the quality of the cutting.

In Fig. 6, the inside 10 d of the profile of the tooth 4 used is designed as a broken cross, which represents a succession of projections and recesses re relative to the outside 7 of the tooth used. This also contributes to the improvement of tank crushing conditions.

The circular saw is installed at a mounting distance (not shown). The inserted teeth 4 ( Fig. 3) are inserted into the groove 2 along the guides 3 with the aid of a key, the position of which is determined by a hole 12 and the inside 10 a of the profile of the inserted tooth 4 , the key being on this inside is supported. The inserted tooth 4 is inserted into the groove 2 in an angular position so that the cutting element 5 of the tooth 4 used in the groove 2 comes closer to the center of the circular saw. Furthermore, one rotates the inserted tooth 4 in the guides 3 of the groove 2 until the recesses 8, 9 ( FIG. 2) of the inserted tooth 4 and the saw blade 1 coincide accordingly. Then the inserted tooth 4 is held in the groove 2 by means of the pin 6 .

The circular saw designed according to the invention working do the following.

There were test samples of the circular saws with one Diameter of 360 mm, with 36 teeth each, a saw blade thickness of 2.5 mm and a 3.6 to 3.8 mm wide main cutting edge of the cutting element. The teeth used were made with cutting elements a hard material.

The tests of this circular saw when cutting Chipboard, clad and unclad panels resulted in an extension of the service life compared to the ge circular saw manufactured according to the prototype by a 10 to 20 times. The energy consumption is reduced by 30%  while the cutting quality of Materia lien has improved. The average tool life with this Circular saw when cutting clad panels 160 to 200 h, while the average service life at Circular saw according to the prototype was 16 to 20 hours. The mitt The service life was cut according to the criterion quality of materials determined.

The service life of the circular saw according to the invention was 10,000 to 20,000 m when cutting clad, 38 to 40 mm thick plates.

The circular saw according to the invention can with the following Number of teeth used:

200 mm ägen circular saws - with 18 to 20, 250 mm ⌀ circular saws with 24, 315 mm ⌀ circular saws with 30 (32), 350 to 360 mm ⌀ Circular saws with 36 (40), 500 mm ⌀ circular saws with 48 (50). For comparison, must be used to attach 48 (50) Teeth on the circular saw according to the prototype their diameter 1400 mm, i.e. H. on the circular saw according to the invention under other identical conditions, a second up to 3 times the number of inserted teeth be brought.

The circular saw according to the invention has the advantage of a extended operating time, easier operation and reduced operating costs.

Claims (5)

1. Circular saw containing

• - A saw blade ( 1 ) with running on its circumference
• - Grooves ( 2 ) with guides ( 3 ) in which
• - Inserted teeth ( 4 ) are arranged and held, which have a profiled inside ( 10 ) for chip removal and a profiled, on the saw blade ( 1 ) lying on the outside ( 7 ),

characterized in that

• - The grooves ( 2 ) with the guides ( 3 ) are carried out on a circular arc, which increases the angle of 180 ° and
• - The teeth ( 4 ) on the saw blade ( 1 ) rest over the entire circumference of the guides ( 3 ), where at
• - The inside ( 10 ) of the profile of the teeth ( 4 ) used for mounting the latter in the guides ( 3 ) of the grooves ( 2 ) and for chip reduction.

2. Circular saw according to claim 1, characterized in that the inside ( 10 a) of the profile of the teeth used ( 4 ) forms out as a circular arc. 3. Circular saw according to claim 1, characterized in that the inside ( 10 e) of the profile of the inserted teeth ( 4 ) is curved with a projection relative to the outside ( 7 ) of the inserted teeth ( 4 ) is formed. 4. Circular saw according to claim 1, characterized in that the inside ( 10 b) of the profile of the inserted teeth ( 4 ) is curved with a recess relative to the outside ( 7 ) of the inserted teeth ( 4 ).