CN104014868B - Annular saw - Google Patents

Abstract

A kind of annular saw includes：Pedestal；Rotatable saw blade；And saw blade adjusting means, its saw blade adjusting bracket for including being fixed on the front and rear bearing on pedestal and carry the saw blade, bearing is respectively equipped with guide groove before and after described, the saw blade adjusting bracket is provided with the guide pillar in insertion respective guide slots, and the guide pillar can slide that saw blade can be pivoted around a longitudinal pivot axis between the vertical sawing position perpendicular to the pedestal and the maximum inclination sawing position relative to the basement tilt maximum angle along the guide groove；Wherein, each guide groove is designed such that, during saw blade is pivoted from the vertical sawing position to the inclination sawing position, the increase of the distance between saw blade center and longitudinal pivot axis.Saw blade does not have related elements in tilting procedure and encounters workpiece surface, and saw blade it is in vertical position when maximum sawing depth it is unaffected.

Description

Annular saw

Technical field

The application is related to a kind of annular saw, and it has improved saw blade adjusting means.

Background technology

Existing various annular saws, for carrying out sawing to workpiece or material.Many annular saws have saw blade regulatory function.It is specific and Speech, blade shroud is supported by the saw blade adjusting bracket of front and rear extension, and the saw blade adjusting bracket can be pivoted around a pivot axis, thus be adjusted Therefore saw blade and determines saw blade sawing angle relative to the angle of inclination of annular saw pedestal.

The setting of above-mentioned pivot axis mainly has two ways in current annular saw, is schematically depicted in respectively in Fig. 1,2, its In, saw blade 1 is fastened on drive shaft by outside fastener such as packing ring 2 and trip bolt 3（It is not shown）On, and can be around it Central axis 4 rotates.The lower surface of pedestal 5 limits the working face 6 suitable for resting on the surface by sawing workpieces.Saw blade 1 It can be pivoted around longitudinal pivot axis 8, longitudinal pivot axis 8 extends perpendicular to central axis 4 and parallel to working face 6.Pass through Saw blade 1 is pivoted around longitudinal pivot axis 8 and be locked in some pivot position, it may be determined that saw blade 1 is relative to workpiece surface Angle, including saw blade tilts sawing relative to workpiece surface perpendicular to workpiece surface sawing and saw blade with an oblique angle.

In the example depicted in figure 1, longitudinal pivot axis 8 is located at the position of the top of working face 6, and this is current annular saw field In common saw blade pivot axis set-up mode.The problem of this pivot axis set-up mode is, when saw blade tilts sawing Sawing line（Intersection i.e. between saw blade and workpiece surface）Sawing line position during from vertical sawing is different, and this causes with different angles Spend accurate control sawing position during sawing more difficult.

On the other hand, in example shown in Fig. 2, longitudinal pivot axis 8 is located in working face 6.This pivot axis is set Mode have an advantage that saw blade tilt sawing when sawing line with vertical sawing when sawing line position it is identical, consequently facilitating with not With the accurate sawing workpieces of angle.However, the unfavorable factor that this pivot axis set-up mode is brought is, due to pivot axis position Decline, therefore fastener is easier to encounter workpiece surface on the outside of the packing ring 2 and the grade of trip bolt 3 on saw blade 1, in this way, then can shadow The inclined cut angle of saw blade 1 is rung, as shown in the encircled portion in Fig. 3.Fastener is touched when tilting sawing in order to avoid saw blade To workpiece surface, conventional measure at present is the vertical distance between the central axis and working face for increasing saw blade from structure. However, this can cause maximum sawing depth during the vertical sawing of saw blade to reduce.

The content of the invention

The purpose of the application is to solve the above-mentioned problems in the prior art.Specifically, the application aims to provide one Annular saw is planted, its saw blade adjusting means can avoid fastener during saw blade inclination sawing from encountering workpiece surface, while ensuring that saw blade hangs down Maximum sawing depth when rip is cut is unaffected.

Therefore, this application provides a kind of annular saw, it includes：Pedestal；Rotatable saw blade；And saw blade adjusting means, Its saw blade adjusting bracket for including being fixed on the front and rear bearing on pedestal and carry the saw blade, the front and rear bearing is respectively equipped with Guide groove, the saw blade adjusting bracket can slide to cause provided with the guide pillar in insertion respective guide slots, the guide pillar along the guide groove Saw blade can be around a longitudinal pivot axis in the vertical sawing position perpendicular to the pedestal and relative to basement tilt maximum Pivoted between the maximum inclination sawing position of angle；Wherein, each guide groove is designed such that, in saw blade from the vertical sawing position Put during being pivoted to the inclination sawing position, the increase of the distance between saw blade center and longitudinal pivot axis.

According to the embodiments possible of the application, the saw blade track that wherein the heart channel of Hang-Shaoyin is crossed in pivoting, which is limited to, to be corresponded to The starting point of the vertical sawing position and corresponding between the terminal of the maximum inclination sawing position, the starting point is located at institute State longitudinal pivot axis be the center of circle, to be in vertical sawing position when the distance between saw blade center and longitudinal pivot axis be half On the basic circle in footpath, the terminal is located at the radial outside of the basic circle.

According to the embodiments possible of the application, prolong with the track at saw blade center from the starting point towards the terminal Stretch, the distance between saw blade center and described longitudinal pivot axis gradually increase.

According to the embodiments possible of the application, the track at saw blade center is included on the basic circle from starting point extension The second segment of the terminal is extended to from the intermediate point to the first paragraph of an intermediate point and in the basic circle radial outside.

According to the embodiments possible of the application, the guide groove at least one bearing in the front and rear bearing includes difference The radial outside guide groove and radially inner side guide groove inserted by corresponding guide pillar.

According to the embodiments possible of the application, the guide groove at least one bearing in the front and rear bearing is single Guide groove, the saw blade adjusting bracket is provided with corresponding two guide pillars being inserted in the single guide groove.

According to the embodiments possible of the application, longitudinal pivot axis separates one jiao described in the spaced winding of described two guide pillars Degree, the angle is more than or equal to 45 degree.

According to the embodiments possible of the application, the guide pillar is configured to the form of roller.

According to the embodiments possible of the application, the saw blade adjusting bracket include the fore-end coordinated with preceding bearing and with The rear end part that fore-end is connected and coordinated with rear support.

According to the embodiments possible of the application, the saw blade adjusting bracket also includes being formed the depth on end part in the rear Spend adjustable plate.

According to the embodiments possible of the application, longitudinal pivot axis plane and pedestal lower surface where the saw blade Between intersection limit.

According to the embodiments possible of the application, longitudinal pivot axis is by plane where saw blade and positioned at pedestal following table Intersection below face and between the plane parallel with pedestal lower surface is limited.

According to the embodiments possible of the application, the annular saw also includes guide rail, and the bearing is rested on the guide rail, The lower surface of the guide rail limits described be located at below pedestal lower surface and the plane parallel with pedestal lower surface.

According to the embodiments possible of the application, each guide groove is designed such that, in saw blade pivoting, the longitudinal direction The position of pivot axis keeps substantially constant.

According to the embodiments possible of the application, the saw blade has the upper portion being located above the pedestal and is located at Lower portion below the pedestal；The annular saw also includes the shield for covering saw blade upper portion, the saw blade adjusting means The saw blade is carry by the shield.

According to the annular saw of the application with saw blade adjusting means by making saw blade be risen during being pivoted relative to working face It is high and avoid blade lock from encountering workpiece surface or guide rail.Meanwhile, maximum sawing depth during the upright position of saw blade not by Influence.Therefore, the application provides a kind of selection being highly profitable for user.

Brief description of the drawings

Fig. 1 is a kind of schematic diagram for set-up mode that saw blade in annular saw of the prior art tilts pivot axis；

Fig. 2 is the schematic diagram for another set-up mode that saw blade in annular saw of the prior art tilts pivot axis；

Fig. 3 is the schematic diagram that saw blade shown in Fig. 2 tilts the problem of pivot axis set-up mode is present；

Fig. 4 is a kind of perspective view of annular saw according to the application；

Fig. 5 is the perspective view of the saw blade adjusting means being arranged on pedestal in the annular saw shown in Fig. 4；

Fig. 6 is the side sectional view for showing the guide frame in conventional blade adjusting means；

Fig. 7 is the schematic diagram for the saw blade tilting action difference from prior art for explaining the annular saw of the application；

Fig. 8 is the side sectional view of the guide frame in the saw blade adjusting means for show the application；

Fig. 9 and 10 is that a kind of feasible saw blade adjusting bracket of the saw blade adjusting means of the application is made from front and rear sides respectively Perspective view；

Figure 11 is the side view of another feasible saw blade adjusting means of the saw blade adjusting means of the application；

Figure 12 is a kind of guide groove and the centrally disposed mode of saw blade in the front and rear bearing of the saw blade adjusting means of the application Schematic diagram；

Figure 13 is another guide groove and the centrally disposed mode of saw blade in the front and rear bearing of the saw blade adjusting means of the application Schematic diagram.

Embodiment

The annular saw of embodiments possible according to the application is described with reference to the accompanying drawings.

Annular saw involved by the application can carry out sawing to various workpiece.Here, " workpiece " refers to any block or plate Shape can sawing material, such as timber, plastics, glass, metal etc..

As shown in figure 4, the annular saw of example includes pedestal 5, it is preferably made up of robust material such as metal.In figure Shown in embodiment in, pedestal 5 be generally rectangular plate form, the lower surface with general planar.Certainly, other shapes Pedestal be also feasible.In rail type annular saw, pedestal 5 is arranged on guide rail.

Pedestal 5 or guide rail（If any）Basal surface limit working face 6, the working face 6 is in annular saw sawing operation In against on the surface of the workpiece.

Annular saw also includes motor cover 12 and the shield 14 in motor cover 12.Drive motor is housed in motor cover 12 （It is not shown）.

Annular saw also includes directly or indirectly being drive the saw blade for rotating and making sawing motion around transverse rotation axis by motor 1, it is fastened on unshowned drive shaft by outside fastener such as packing ring 2 and trip bolt 3（Such as motor drive shaft）On, and And can be rotated around its center axis.At this point, it may be noted that outside is the side back to motor of referred to as saw blade 1, inner side is The side towards motor of referred to as saw blade 1.

A part for the bottom of saw blade 1 passes through the opening in pedestal 5 and exposed from the basal surface of pedestal, to cut workpiece In.

Annular saw also includes the bottom auxiliary shield 15 for covering the bottom of saw blade 1, and it can be rolled in shield 14 and be kept Wherein, so as to expose the bottom of saw blade 1.

Referring to Fig. 5, annular saw also includes saw blade adjusting means, for adjusting angle and height of the saw blade 1 relative to pedestal 5, Thereby determine that the saw cutting angle and depth of saw blade 1.The saw blade adjusting means mainly includes the He of preceding bearing 16 being fixed on pedestal 5 Rear support 18, and the saw blade adjusting bracket 20 and can pivoted around longitudinal pivot axis 8 by front and rear bearing support.This is longitudinally pivoted Axis 8 is substantially by the place plane of saw blade 1（Such as saw blade outer surface, inner surface or midplane between surfaces externally and internally）With The intersection of working face 6 is limited, and is kept essentially constant at saw blade 1 in the different angles relative to working face 6.

Preceding bearing 16 and rear support 18 are generally made up of plastics or metal.The saw blade adjusting bracket 20 generally by metal for example Cast aluminium is made, including the rear end part for the fore-end 22 coordinated with preceding bearing 16 and for coordinating with rear support 18 24.Fore-end 22 can be joined directly together with rear end part 24, or connected by center section 26 as shown in Figure 9.In this Between part 26 can form one with fore-end 22 and rear end part 24, or independently form then with fore-end 22 and after End part 24 fits together to enable fore-end 22 and rear end part 24 around longitudinal pivot in unison of pivot axis 8.

In addition, provided with for by the fore-end 22 of saw blade adjusting bracket 20 relative to the cage knob 32 that preceding bearing 16 is locked（Such as Shown in Fig. 4）And/or for by the rear end part 24 of saw blade adjusting bracket 20 relative to the cage knob that rear support 18 is locked（Do not show Go out）.

The fore-end 22 of saw blade adjusting bracket 20 is provided with transverse support portion 34, the transverse support portion 34 and is formed with transverse holes 36, for installing transverse pivot 38（See Fig. 4）.In addition, saw blade adjusting bracket 20 is in the close center section 26 of rear end part 24 Position be provided with the generally arcuate depth-regulating plate 40 of upward projection, define arc guide barrel 42 in the depth-regulating plate 40, For by depth locking lever（It is not shown）Pass through.In addition, being formed with the depth-regulating plate 40 for indicating saw blade sawing depth Pointer portion 44.

Shield 14 passes through transverse pivot 38 in its front end（See Fig. 4）And saw blade adjusting bracket 20 is connected to, this is laterally pivoted Axle 38 limits transverse pivot line, and the transverse pivot line is parallel to working face 6 and perpendicular to longitudinal pivot axis 8.The center of circle of depth-regulating plate 40 and its arc guide barrel 42 is located on transverse pivot line.The rear side of shield 14 can be along depth Adjustable plate 40 is slided and can locked by the depth locking lever relative to depth-regulating plate 40.

By the way that shield 14 is pivoted around the transverse pivot line that transverse pivot 38 is limited relative to pedestal 5, it can adjust Sawing depth in the incision workpiece of saw blade 1；Then, shield 14 is locked on depth-regulating plate 40 using depth locking lever, saw blade Sawing depth be just fixed.

Generally, saw blade perpendicular to pedestal 5, i.e. saw blade perpendicular to workpiece surface sawing workpieces.It is sometimes desirable, however, that saw blade phase For working face 6 it is at an angle tilt sawing workpieces, now can by by saw blade adjusting bracket 20 with saw blade 1 around it is longitudinal pivot Axis 8 is pivoted relative to pedestal 5, to adjust the angle of inclination relative to working face 6 of saw blade 1.Saw blade 1 is from its upright position Pivot the part that it is located above longitudinal pivot axis to move laterally, the part below longitudinal pivot axis is inside Move side.Then, saw blade adjusting bracket 20 is locked relative to preceding bearing 16 and/or rear support 18 using cage knob 32, thereby determined that Angle of inclination of the saw blade relative to working face 6.

Part of the saw blade adjusting means at its preceding bearing in a kind of traditional annular saw is shown in Fig. 6.Shown in Fig. 6 It is that side of the facing fore-end 22 of preceding bearing 16.The pedestal 5 of annular saw is arranged on guide rail 46, the lower surface of guide rail 46 Limit working face 6.Annular saw is rested at working face 6 on the upper surface of workpiece 48.Two circular arcs are formed with preceding bearing 16 Shape guide groove 50, the center of circle of the two is located on longitudinal pivot axis 8.The fore-end of saw blade adjusting bracket 20（Not shown in Fig. 6）Shape Into having in insertion guide groove 50 respectively and the circular arc guide block that can be slided along direction shown in the arrow in Fig. 6 in respective guide slots 50 52.In addition, the locking bar 56 being also formed with preceding bearing 16 on the arc chute 54 concentric with guide groove 50, cage knob 32 passes through chute 54 and it can slide wherein.Although not shown, it will be understood that be provided with same or analogous guide block and guide groove at rear support 18. So, form what guiding saw blade adjusting bracket was pivoted relative to front and rear bearing around longitudinal pivot axis by above-mentioned guide block and guide groove Guide frame.

As it was previously stated, this structure is difficult to avoid on the premise of the maximum sawing depth when not sacrificing the vertical sawing of saw blade Fastener encounters workpiece surface or guide rail when saw blade tilts sawing.

The basic conception of the application is, in the tilting procedure of saw blade so that saw blade rises a small distance.Show in Fig. 7 Improvements of the application relative to prior art are shown.Left part in Fig. 7 shows saw blade 1 in prior art annular saw Tilting procedure, also sees and Fig. 3.When saw blade 1 relative to working face 6 is tilted up to certain angle（Such as 45 degree）When, the He of packing ring 2 Fastener encounters workpiece surface or guide rail on the outside of the grade of trip bolt 3.Left part in Fig. 7 shows the annular saw according to the application The tilting procedure of middle saw blade 1, wherein, in saw blade 1 by during inclined relative to working face 6, saw blade 1 is elevated.So, when Saw blade 1 tilts certain angle relative to working face 6（Such as 45 degree）When, saw blade 1 has been elevated a segment distance relative to working face 6 H, the distance make it that under equal angular fastener does not encounter workpiece surface or guide rail on the outside of packing ring 2 and the grade of trip bolt 3.

In order to realize this function of raising it in the tilting procedure of saw blade 1, the application is to saw blade adjusting means Saw blade adjusting bracket 20, preceding bearing 16, rear support 18 are made that improvement.Structure before in Fig. 8 at bearing 16 shows this change Enter.It is appreciated that having carried out same or analogous improvement at rear support 18.

According to a kind of embodiments possible of the application, as shown in figure 8, longitudinal pivot axis 8 is located substantially at guide rail 46 In the working face 6 that lower surface is limited.It is formed with preceding bearing 16 and is formed with corresponding a pair in a pair of guide grooves 50, rear support 18 and leads Groove（It is not shown）.Meanwhile, referring to Fig. 8 and combine Fig. 9, the fore-end 22 of saw blade adjusting bracket 20 is formed with insert respectively before bearing In 16 guide groove 50 and a pair of substantial cylindrical guide pillars 60 being slided in guide groove 50.Similarly, as shown in Figure 10, saw blade The rear end part 24 of adjusting bracket 20 is formed with can slide in the respective guide slots of insertion rear support 18 respectively and in guide groove one To substantial cylindrical guide pillar 60.

The track of each guide groove 50 extends to set distal point from starting point, and the track includes saw blade and is in The first point 50a during upright position where corresponding guide pillar 60（See Figure 12,13）Accordingly led when being in maximum tilt angle with saw blade Second point 50b where post 60（See Figure 12,13）.First point 50a and second point 50b can be located between starting point and distal point （Such case not shown in figure）, or can be overlapped respectively with starting point and distal point（Situation as shown in Figure 12,13）.

Difference from prior art is, the track of each guide groove 50 is not using the point on longitudinal pivot axis 8 in The heart, but with extending from the first point 50a to second point 50b, the distance between each guide groove 50 and longitudinal pivot axis 8 increase Greatly, with cause the second distance between second point 50b in the track of guide groove 50 and longitudinal pivot axis 8 be more than the first point 50a with The first distance between longitudinal pivot axis 8.

By the slip in guide groove of the guide pillar 60 of front side and rear side in front and rear bearing, the inclination and lift of saw blade 1 are realized It is high.So, above-mentioned guide pillar and guide groove constitute guiding saw blade adjusting bracket 20 and pivoted relative to front and rear bearing around longitudinal pivot axis And the guide frame raised relative to front and rear bearing.

The through hole 62 being respectively formed in front and rear bearing is also show in Fig. 9,10, for being worn by the locking bar on corresponding cage knob Cross.Have respectively in addition, fore-end 22 is formed with a pair of transverse support portions 34 relative to each other, each transverse support portion 34 Transverse holes 36, for improve support strength, to install transverse pivot 38.

It may be noted that formed respectively on preceding bearing 16 and rear support 18 two guide pillars 60 be in order that shield 14 it is relative There is higher positioning precision in pedestal 5.In fact, in the case where disclosure satisfy that the positioning precision of shield 14, can be preceding Upper formed on two guide pillars 60, another in front and rear bearing of one of rear support only forms a guide pillar 60（Corresponding bearing In only form a corresponding guide groove）.

In addition, the slip for the ease of guide pillar in guide groove, guide pillar can be configured to roller or other knots for being easy to roll Structure.

According to another embodiments possible of the application, can before and after at least one in bearing can only form one Two guide pillars in guide groove, the respective front ends or rear end part of saw blade adjusting bracket 20 are inserted in the guide groove.For example, referring to Figure 11, Preceding bearing 16（Not shown in Figure 11）In be formed with single guide groove 50, the fore-end 22 of saw blade adjusting bracket 20 formed two Guide pillar 60, the two is all inserted into the guide groove 50 and slided in it.It is appreciated that the rear end of rear support 18 and saw blade adjusting bracket 20 Part 24 can have similar guide frame.In order to ensure saw blade adjusting bracket 20 is reliably rotated relative to preceding bearing 16, two The longitudinal pivot axis 8 of the spaced winding of individual guide pillar 60 separates an angle, θ.The angle, θ is change in saw blade tilting procedure, but preferably Always greater than or equal to 45 degree.In other words, seen along the direction of longitudinal pivot axis 8, the center of two guide pillars 60 and longitudinal pivot The angle, θ formed between line between shaft axis 8 is preferably greater than or equal to 45 degree.

Guide frame for being inserted with two guide pillars 60 in a this guide groove 50, equally, for each guide pillar 60, its First point when saw blade is in vertical position in the track of guide groove 50, when saw blade is in maximum tilt angle be located at guide groove 50 Second point in track, the second distance between second point and longitudinal pivot axis 8 be more than first point with longitudinal pivot axis 8 it Between the first distance.

It is appreciated that the guide frame shown in Figure 11 can be combined and/or mutual with the guide frame shown in Fig. 8-10 Change and use.

On the setting of guide groove 50, as it was previously stated, it is required that, with extending from the first point 50a to second point 50b, lead The distance between groove 50 and longitudinal pivot axis 8（The vertical range of point i.e. on guide groove 50 to longitudinal pivot axis 8）Increase, from And the second distance between the second point 50b of guide groove 50 and longitudinal pivot axis 8 is more than its first point 50a and longitudinal pivot axis The first distance between 8.First distance can progressively increase to second distance, can also increase in the way of rank becomes second away from From.Furthermore, it is possible to since first point or close to increase the point after first point between guide groove 50 and longitudinal pivot axis 8 away from From the distance can also be increased at some between the first point 50a and second point 50b or some positions.No matter which kind of situation, Guide groove 50 is increase with the distance between longitudinal pivot axis 8 along the first point 50a to second point 50b, to ensure saw blade 1 in pivot It will not decline during turning.Herein, the increase can not have rule, can also be mutated increase.

Even if in addition, the distance is that staged is increased, it is also preferred that so that having between guide groove 50 and longitudinal pivot axis 8 Have between each section of different distance and seamlessly transit, in order to pivot action.

A kind of feasible trajectory of guide groove 50 is shown in Figure 12, wherein, two guide grooves 50 on same bearing are illustrated, often Individual guide groove 50 is gradually deviated from the corresponding imaginary circle using the point on longitudinal pivot axis 8 as the center of circle with away from its first point 50a （It is not shown）, so that gradually the distance between increase and longitudinal pivot axis 8.In addition, the track of two guide grooves 50 is associated with each other Ground is set, and to cause the distance between position that two guide pillars 60 occupy in two guide grooves 50 respectively to keep constant, saw blade is adjusted Save the smooth sliding of frame 20.

According to the Trajectory Design mode of previously described guide groove 50, in saw blade 1 around longitudinal pivot axis 8 relative to pedestal 5 Pivot（Tilt）During, the track at the center of saw blade 1 do not have any part fall with longitudinal pivot axis 8 for the center of circle, with The distance between the center of saw blade 1 when being in vertical sawing position and longitudinal pivot axis 8 are the inner side of the basic circle 64 of radius. In the example shown in Figure 12, the track at the center of saw blade 1 is from the starting point 66a on the basic circle 64（Corresponding to guide groove 50 First point 50a）Start, gradually outwardly away from the basic circle 64, finally reach home 66b（Corresponding to the second point 50b of guide groove 50）. Another feasible trajectory of guide groove 50 is shown in Figure 13, wherein, each guide groove 50 its first point 50a and second point 50b it Between intermediate point 50c sentence the mode of rank change and deviate corresponding imaginary circle using the point on longitudinal pivot axis 8 as the center of circle so that from Intermediate point 50c the distance between starts to increase in the way of rank becomes with longitudinal pivot axis 8.Correspondingly, in saw blade 1 The track of the heart is from the starting point 66a on the basic circle 64（Corresponding to the first point 50a of guide groove 50）Start, along the basic circle The 64 intermediate point 66c extended on the basic circle 64（Corresponding to the intermediate point 50c of guide groove 50）.Then, from intermediate point 66c Start in the way of rank becomes to deviate to the outside of the basic circle 64.Then, the track at the center of saw blade 1 is tapered to positioned at institute State the terminal 66b in the outside of basic circle 64（Corresponding to the second point 50b of guide groove 50）.So, the track at the center of saw blade 1 includes being located at First paragraph on the basic circle 64, the second segment positioned at the outside of basic circle 64 and the transition between first paragraph and second segment Section.The second segment can be the arc section concentric with the basic circle 64, can also gradually further out lateral deviation from the basic circle 64。

It is appreciated that the thought based on the application, those skilled in the art can design various suitable rails for guide groove Mark, to cause the center of saw blade that there is the track outwardly away from the basic circle, the i.e. terminal of the track at saw blade center to be indulged with described It is more than the distance between starting point and longitudinal pivot axis to the distance between pivot axis, so that saw blade is relative to work Face is pivoted（Tilt）When be elevated.In addition, guide groove is preferably designed to, and in saw blade pivoting, longitudinal pivot axis Position keep it is substantially constant.Specific guide groove Trajectory Design can be realized by modes such as calculating, simulations.For example, given The track at saw blade center, it may be determined that go out the track of guide groove.

It can be seen that, in the annular saw according to the application, saw blade adjusting means employs the guide pillar of uniqueness and guide groove matches The guide frame of conjunction, to cause saw blade to be raised during pivot is tilted relative to working face, to avoid blade lock Encounter workpiece surface or guide rail.Meanwhile, when saw blade is in perpendicular to the position of working face, the maximum sawing depth of saw blade not by Influence.

Although describing the application herein with reference to specific embodiment, scope of the present application is not limited to shown Details.In the case of the general principle without departing from the application, various modifications can be made for these details.

Claims (15)

1. a kind of annular saw, including：

Pedestal；

Rotatable saw blade；And

Saw blade adjusting means, its saw blade adjusting bracket for including being fixed on the front and rear bearing on pedestal and carry the saw blade, institute State front and rear bearing and be respectively equipped with guide groove, the saw blade adjusting bracket is provided with the guide pillar in insertion respective guide slots, and the guide pillar being capable of edge The guide groove slide with cause saw blade can around a longitudinal pivot axis the vertical sawing position perpendicular to the pedestal with it is relative Pivoted between the maximum inclination sawing position of the basement tilt maximum angle, longitudinal pivot axis is perpendicular to saw blade Central axis and parallel to pedestal lower surface extend；

Wherein, each guide groove is designed such that, is pivoted in saw blade from the vertical sawing position to the inclination sawing position During, the increase of the distance between saw blade center and longitudinal pivot axis.

2. annular saw as claimed in claim 1, wherein, the saw blade track that wherein the heart channel of Hang-Shaoyin is crossed in pivoting, which is limited to, to be corresponded to The starting point of the vertical sawing position and corresponding between the terminal of the maximum inclination sawing position, the starting point is located at institute State longitudinal pivot axis be the center of circle, to be in vertical sawing position when the distance between saw blade center and longitudinal pivot axis be half On the basic circle in footpath, the terminal is located at the radial outside of the basic circle.

3. annular saw as claimed in claim 2, wherein, prolong with the track at saw blade center from the starting point towards the terminal Stretch, the distance between saw blade center and described longitudinal pivot axis gradually increase.

4. annular saw as claimed in claim 2, wherein, the track at saw blade center is included on the basic circle from starting point extension The second segment of the terminal is extended to from the intermediate point to the first paragraph of an intermediate point and in the basic circle radial outside.

5. the annular saw as any one of Claims 1-4, wherein, at least one bearing in the front and rear bearing Guide groove includes the radial outside guide groove and radially inner side guide groove inserted respectively by corresponding guide pillar.

6. the annular saw as any one of Claims 1-4, wherein, at least one bearing in the front and rear bearing Guide groove is single guide groove, and the saw blade adjusting bracket is provided with corresponding two guide pillars being inserted in the single guide groove.

7. annular saw as claimed in claim 6, wherein, longitudinal pivot axis separates one jiao described in the spaced winding of described two guide pillars Degree, the angle is more than or equal to 45 degree.

8. the annular saw as any one of Claims 1-4, wherein, the guide pillar is configured to the form of roller.

9. the annular saw as any one of Claims 1-4, wherein, the saw blade adjusting bracket includes what is coordinated with preceding bearing Fore-end and the rear end part for being connected with fore-end and coordinating with rear support.

10. annular saw as claimed in claim 9, wherein, the saw blade adjusting bracket also includes being formed on end part in the rear Depth-regulating plate.

11. the annular saw as any one of Claims 1-4, wherein, longitudinal pivot axis by plane where saw blade and Intersection between pedestal lower surface is limited.

12. the annular saw as any one of Claims 1-4, wherein, longitudinal pivot axis by plane where saw blade and Intersection between pedestal lower surface lower section and the plane parallel with pedestal lower surface is limited.

13. annular saw as claimed in claim 12, wherein, the annular saw also includes guide rail, and the bearing rests on the guide rail On, the lower surface of the guide rail limits described be located at below pedestal lower surface and the plane parallel with pedestal lower surface.

14. annular saw as claimed in claim 12, wherein, each guide groove is designed such that, in saw blade pivoting, described vertical Keep substantially constant to the position of pivot axis.

15. annular saw as claimed in claim 13, wherein, each guide groove is designed such that, in saw blade pivoting, described vertical Keep substantially constant to the position of pivot axis.