CIRCULAR SAW MOUNTING DEVICE

Abstract

A circular saw mounting device which rotatably supports a saw blade in a grinding machine is disclosed. The mounting device comprises a base plate adapted for mounting in a grinding machine; a centering element comprising at least two engagement elements configured to be operated in a radial direction between a mounting position (M) and a locking position (L). According to the invention the mounting device further comprises an actuator comprising a pin being configured to be operated in an axial direction (A) and arranged to engage with pivot articulated couplings to each of the engagement elements to thereby transfer a radial displacement to the at least two engagement elements and to thereby operate the at least two engagement elements between the mounting position (M) and the locking position (L).

Claims

1. A circular saw mounting device (30) which rotatably supports a saw blade (80) in a grinding machine, which the mounting device (30) comprises a base plate (40) adapted for mounting in a grinding machine; and a centering element (50) comprising at least two engagement elements (51) configured to be operated in a radial direction between a mounting position (M) and a locking position (L); characterised in that the mounting device (30) further comprises an actuator (60) comprising a pin (61) being configured to be operated in an axial direction (A) and arranged to engage with pivot articulated couplings (63, 64, 65) to each of the engagement elements to thereby transfer a radial displacement to the at least two engagement elements (51) and to thereby operate the at least two engagement elements (51) between the mounting position (M) and the locking position (L).

2. A mounting device (30) according to claim 1, wherein the centering element (50) comprises at least three engagement elements (51).

3. A mounting device (30) according to anyone of the preceding claims, wherein the pin (61) is spring-loaded by an elastic means (67) towards a resting position in which the at least two engagement elements (51) are set to the locking position (L).

4. A mounting device (30) according to anyone of the preceding claims, wherein the mounting device (30) on a first surface (30-1) thereof has a mounting bracket (41) which is arranged for mounting the mounting device (30) in a grinding machine.

5. A mounting device (30) according to anyone of the preceding claims, wherein each of the at least two engagement elements (51) are formed as segments of a circle, wherein a peripheral outer edge portion of each segment forms an engagement surface (51-1) adapted to radially engage an inner edge (81-1) of a central bore (81) of a saw blade (80).

6. A mounting device (30) according to anyone of the preceding claims, wherein the mounting device (30) has, on a first surface (30-1) thereof, a centrally arranged dowel (43) having a through axially extending bore (44), and wherein the pin (61) is coaxially received and axially operable inside said bore (44).

7. A mounting device (30) according to anyone of the preceding claims, wherein the mounting device (30), on a second surface (30-2) opposite the first surface (30-1), comprises a cap (66), said cap (66) being arranged to extend coaxially with the pin (61) and circumferentially surround said pin (61).

8. A mounting device (30) according to claim 7, wherein the pin (61) is arranged to extend from within the bore (44) of the dowel (43) to the second surface (30-2) of the mounting device (30) while being axially guided by the bore (44) of the dowel (43) and by a centrally arranged through-hole (68) in a surface of the cap (66) facing the second surface (30-2) of the mounting device (30).

9. A mounting device (30) according to anyone of claims 7-8, wherein an inner surface (66-1) of the cap (66) provides an abutment (66-1) for the elastic means (67).

10. A mounting device (30) according to anyone of the preceding claims, wherein the base plate (40) on the second surface (30-2) of the mounting device (30) has, in a peripheral outer section, an engagement surface (45) adapted to engage a side surface (80-1) of a saw blade (80).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0026] The invention will be described in more detail with reference to the appended schematic drawings, which show an example of a presently preferred embodiment of the invention.

[0027] FIG. 1 is a front view showing a mounting device according to prior art.

[0028] FIG. 2 is a cross-sectional view showing the mounting device of FIG. 1 with a saw blade mounted thereon.

[0029] FIG. 3 is a perspective front view showing a mounting device according to one embodiment of the present invention.

[0030] FIG. 4 is a perspective back view of the mounting device of FIG. 3 seen from behind.

[0031] FIG. 5 is a partial cross-sectional view of the mounting device of FIG. 3 with the engagement elements in a mounting position.

[0032] FIG. 6 is a partial cross-sectional view of the mounting device of FIG. 3 together with a saw blade, and with the engagement elements in a locking position.

[0033] FIG. 7 is an exploded view showing the different parts of the mounting device of FIG. 3.

DETAILED DESCRIPTION

[0034] The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which a currently preferred embodiment of the invention is shown. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiment set forth herein; rather, this embodiment is provided for thoroughness and completeness, and to fully convey the scope of the invention to the skilled addressee. Like reference characters refer to like elements throughout.

[0035] FIG. 1 and FIG. 2 shows a mounting device 1 according to prior art. The mounting device according to prior art comprises a disk 11 having an outermost collar 12 with magnets 13 peripherally arranged in recesses. A hub 14 is arranged centrally in the disc 11, which hub 14 has an outermost diameter approximately corresponding to a bore diameter of a circular saw blade for mounting. The mounting device further has a bore 15 arranged within the center of the disc 11. This bore 15 is used for the assembling of the mounting device with the saw blade 80 within a grinding machine. As disclosed above such a mounting device give rise to tripled transfer of standard deviations, with a first standard deviation in the manufacturing of the saw blade 80 and the formation of the inner bore thereof, a second standard deviation of the hub 14 of the mounting device 1, and a third standard deviation of the center bore 15 in the mounting device, which center bore is then used for the mounting on a spindle within the grinding machine.

[0036] FIGS. 3-7 show a mounting device 30 according to one embodiment of the present invention. The mounting device 30 comprises a base plate 40, a centering element 50, and an actuator 60.

[0037] In FIG. 4, a first surface 30-1 of the mounting device 30 is shown. This is the surface which faces and interacts with a mount within a grinding machine. In this embodiment a mounting bracket 41 is arranged for interaction with the mount within the grinding machine and in particular for locking the mounting device 30 with the saw blade 80 within the grinding machine. Further on this first surface 30-1, a stop shoulder 42 may be arranged. This stop shoulder 42 may interact with a corresponding recess in the mount within a grinding machine to prevent the base plate 40 from rotating within the grinding machine. Also on this first surface 30-1 of the mounting device 30, a centrally arranged dowel 43 may be arranged. The dowel 43 may be used for securing and/or locking the mounting device 30 during the loading and/or unloading of a saw blade onto and off the mounting device 30. The dowel 43 may, as shown in this embodiment be screw fasten to the base plate 40. In the shown embodiment the dowel 43 has a through axially extending bore 44, which is more evident from FIGS. 5 and 6.

[0038] In FIG. 3, a second surface 30-2 of the mounting device 30 is shown. This is the surface which faces and interacts with a saw blade 80 for securing and mounting the saw blade 80 onto the mounting device 30, and it is on this surface the centering element 50 is arranged.

[0039] In the shown embodiment, the centering element 50 comprises three engagement elements 51, three linear guideways 52, and a rotating disc 53. The engagement elements 51 are fasten to one linear guideways 52 each, and, in this embodiment, the linear guideways 52 are arranged within recesses 54 in the rotation disc 53. However, the linear guideways may not necessarily be arranged in recesses, instead the rotation disc 53 may be without any recesses, and instead have a uniform flat surface upon which the linear guideways are arranged.

[0040] In the shown embodiment, and more particular as shown in FIGS. 5, 6 and 7, the centering element 50 is rotatably arranged in relation to the base plate 40 with bearings 55.

[0041] Further, the actuator 60 comprises a pin 61, which is configured to be operated in an axial direction A, and in the shown embodiment the pin 61 is a locating pin 61 comprising a shoulder 62. Further, in the shown embodiment the pin 61 is coaxially received in the through axially extending bore 44 in the dowel 43.

[0042] The actuator 60, according to this embodiment, further comprises a transmission cross 63 arranged in cooperation with the shoulder 62 of the pin 61. The transmission cross 63 is further coupled with three pivot brackets 64 with articulated couplings 65, and the three pivot brackets 64 are fastened to one engagement element 51 each.

[0043] Even further, the actuator 60, within the shown embodiment, comprises a cap 66, which is arranged on the second surface 30-2 of the mounting device 30 and arranged to extend coaxially with the pin 61 and circumferentially surround the pin 61 and also the transmission cross 63. The actuator 60 further comprises an elastic means 67, which elastic means 67 is arranged with springload between the transmission cross 63 and an inner surface 66-1 of the cap 66. Thus, this inner surface 66-1 of the cap 66 forms an abutment surface for the elastic means 67 in one end, while one surface of the transmission cross 63 forms an abutment surface for an opposite end of the elastic means 67. The cap 66 further has apertures 69 evenly arranged around the cap 66, which apertures 69 are arranged to allow movement of the articulated couplings 65 linking the transmission cross 63 arranged on the inside the cap 66 and the pivot brackets 64 arranged outside the cap 66.

[0044] Even further, in the shown embodiment, the cap 66 has a centrally arranged through-hole 68 in a surface of the cap 66 facing the second surface 30-2 of the mounting device 30. The pin 61 is, in the shown embodiment, arranged to extend from within the bore 44 and out through the centrally arranged through-hole 68 to the second surface 30-2 of the mounting device 30 being axially guided by the bore 44 in the dowel 43 and by the centrally arranged through-hole 68.

[0045] In a resting position, the pin 61 is spring-loaded by the elastic means 67 such that the engagement elements 51 are set to a locking position L, as shown in FIG. 6.

[0046] When loading a saw blade 80 onto the mounting device 30, the actuator 60 is activated by applying, through the bore 44 of the dowel 43, a pressure on the pin 61 to force the pin 61 in an axial direction A against the springload and towards the second surface 30-2 of the mounting device 30. The axial movement of the pin 61, via the shoulder 62, the transmission cross 63, the articulated couplings 65 and the pivot brackets 64, then brings the engagement elements 51 to slide radially inwards on the linear guideways 52 to a mounting position M, which position is shown in FIG. 5. A saw blade is thereafter loaded onto the mounting device 30 on the second surface 30-2 of the mounting device 30, placing the saw blade 80 to rest upon an engagement surface 45 adapted to engage a part of a side surface 80-1 of the saw blade 80. The cap 66 and the engagement elements 51 are positioned within a central bore 81 of the saw blade 80. The pressure applied on the pin 61 is relieved, and the spring-load urges the pin in the opposite axial direction towards the first surface 30-1, and this axial movement brings the engagement elements back towards the locking position L, pressing a peripheral outer edge portion 51-1 of each engagement element 51 to engage and press against an inner edge 81-1 of a bore 81 of the saw blade 80, thereby locking the saw blade 80 onto the mounting device 30.

[0047] When finalizing the loading of the saw blade 80 onto the mounting device 30, the mounting device 30 carrying the saw blade 80 is mounted into the grinding machine via the mounting bracket 41, and the stop shoulder 42 is positioned in a corresponding recess in the mount of the grinding machine, and the same is true for the dowel 43.

[0048] The mounting device 30 may be used for manually loading the saw blade 80 onto the mounting device 30, and then manually mounting of the mounting device 30 with the saw blade 80 into a grinding machine. However, the mounting device 30 of the present invention is especially advantageous in that it may be operated by automatic robot handling, both for the part of loading/unloading of the saw blade 80 onto/off the mounting device 30, but also the handling of mounting/unmounting the mounting device 30 with the saw blade 80 in and/or out of the grinding machine.

[0049] With an automatic robot handling, the cup 66 may be the gripping position for a robot grip. When loading or unloading the saw blade 80 onto or off the mounting device 30, the mounting device 30 may rest upon a flat surface with an opening for receiving the dowel 43, the mounting bracket 41 and the stop shoulder and a locking arrangement to engage the dowel 43 on the first surface 30-1 to secure the mounting device onto such a flat surface.

[0050] When the mounting device 30 with the saw blade 80 is mounted into a grinding machine, the mounting bracket 41 may be used to lock and secure the mounting device with the saw blade within the grinding machine. The dowel 43 and the stop shoulder 42 rest in corresponding recesses in the mount within the grinding machine.

[0051] The shown embodiment further has recesses 46 (see FIG. 3) arranged on the engagement surface 45 of the base plate 40. Within these recesses magnets 47 are arranged and fastened. These magnets 47 are arranged to slow down the rotation of the saw blade 80 within the grinding machine. However, these magnets 47 are also part of the prior art solution, as shown in FIG. 1 with reference number 13. The magnets 47 may be screw fastened through recesses 48 arranged in the peripheral outer edge 40-1 of the base plate 40, but other fastening methods are also possible.

[0052] When the mounting device 30 and a thereon loaded saw blade 80 is mounted within a grinding machine, the base plate 40 together with the dowel 43 and the pin 61 has a fixed position not rotating within the grinding machine. When the successive teeth 82 on the edge of the saw blade 80 are placed one after the other in the grinding position within the grinding machine, the saw blade 80, the engagement elements 51, the rotation disc 53, the linear guideways 52, the pivot brackets 64, the articulated couplings 65, the transmission cross 63, the elastic means 67, and the cap 66 are all rotated together.

[0053] With the claimed mounting device 30, the centering of the saw blade 80 will quicky and accurately be accomplished, as the engagement elements 51 are equally radially displaced by the actuator 60. Accordingly, any standard deviations present within the central bore 81 of the saw blade 80 will be compensated for within the mounting device 30 according to the present invention.

[0054] Even further, the way a saw blade 80 is loaded and mounted upon the mounting device 30, and is kept locked thereon, enables automatic mounting of saw blade 80 onto the mounting device 30 and automatic mounting of saw blade 80 and mounting device 30 into an out of the grinding machine.

[0055] In one embodiment, the pin 61 may have an end part 61-1, extending out through the trough-hole 68 to the second side 30-2 and having a form which is configured to interact with a part of a robot head of an automatic mounting station to ensure proper automatic mounting within a grinding machine. In the shown embodiment, the end part 61-1 of the pin has two parallell rectangular surfaces 61-2, which surfaces may interact with corresponding surfaces of a robot head of an automatic mounting station.

[0056] The skilled person realises that a number of modifications of the embodiment described herein are possible without departing from the scope of the invention, which is defined in the appended claims.

[0057] For instance, a centering element 50 having three engagement elements is shown, but the centering element 50 may comprise only two engagement elements 51, two linear guideways 52 and a rotating disc 53, but also four or more engagement elements 51, corresponding number of linear guideways 52, and a rotating disc 53.