Wall saw having a locking device

Abstract

Wall saw having a locking device (41). A saw blade flange (25) of the wall saw is adjustable by the locking device (41) between a locked state and an unlocked state, wherein, in the locked state, the saw blade flange (25) is connected to the drive spindle (33) for rotation therewith, and, in the unlocked state, is adjustable in relation to the drive spindle (33). In the unlocked state of the saw blade flange, the drive spindle is blocked in the direction of rotation of the saw blade and is designed to be rotatable about the axis of rotation in a counter direction directed counter to the direction of rotation.

Claims

1. A wall saw comprising: a drive spindle mounted rotatably about an axis of rotation; a drive motor and a transmission connecting the drive motor to the drive spindle, wherein the transmission is at least partially arranged in a saw arm housing; a saw blade fastened to a saw arm and rotatable by the drive spindle in a direction of rotation about the axis of rotation; a saw blade flange, the saw blade arrangeable via the saw blade flange on the drive spindle for rotation therewith; and a lock device, the saw blade flange being adjustable by the lock device between a locked state and an unlocked state, in the locked state the saw blade flange being connected to the drive spindle for rotation therewith, and, in the unlocked state, the saw blade flange being adjustable in relation to the drive spindle, in the unlocked state of the saw blade flange, the drive spindle being blocked in the direction of rotation of the saw blade and rotatable about the axis of rotation in a counter direction counter to the direction of rotation.

2. The wall saw as recited in claim 1 further comprising a motorized feed unit with a guide carriage and a feed motor, the saw head being arranged on the guide carriage and movable by the feed motor along a guide rail in a feed direction.

3. The wall saw as recited in claim 1 wherein the lock device has a tie rod guided in an interior of the drive spindle, and a first connector, and the saw blade flange has a second connector, wherein the first and second connectors are connectable with a force-ft or form-fit.

4. The wall saw as recited in claim 3 wherein, in the locked state, the first and second connectors are connected in the force-fit or the form-fit.

5. The wall saw as recited in claim 1 further comprising a safety device.

6. The wall saw as recited in claim 5 wherein the safety device has a lever, a latch and an axle element connecting the lever and the latch to each other.

7. The wall saw as recited in claim 6 wherein in the locked state of the saw blade flange, the lever is adjustable between a first and second end position, wherein the latch blocks a transmission of torque in the direction of rotation of the saw blade in the first end position of the lever and releases same in the second end position of the lever.

8. The wall saw as recited in claim 6 wherein in the unlocked state of the saw blade flange, the latch blocks a rotation of the drive spindle in the direction of rotation of the saw blade and releases same in the counter direction directed counter to the direction of rotation.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) In the figures:

(2) FIG. 1 shows an equipment system having a guide rail and a wall saw which comprises a processing and feed unit which is arranged displaceably along the guide rail and has a saw head and a motorized feed unit;

(3) FIG. 2A and FIG. 2B show the saw head of FIG. 1 in a front view (FIG. 2A) and a rear view (FIG. 2B):

(4) FIG. 3 shows the saw head of FIG. 1 without a saw blade which can be arranged on a drive spindle by means of a saw blade flange, in a side view;

(5) FIG. 4A and FIG. 4B show the drive spindle and the saw blade flange of FIG. 3 which are connectable to each other by means of a locking device, in an unlocked state (FIG. 4A) and in a locked state (FIG. 4B);

(6) FIG. 5A and FIG. 5B show a safety device in a first end position which corresponds to the unlocked state of the saw blade flange that is illustrated in FIG. 4A; and

(7) FIG. 6A and FIG. 6B show the safety device in a second end position which corresponds to the locked state of the saw blade flange that is illustrated in FIG. 4B.

DETAILED DESCRIPTION

(8) FIG. 1 shows an equipment system 10 with a machine tool 11, which is in the form of a wall saw, and a guide rail 12. The wall saw 11 comprises a processing and feed unit 13 arranged displaceably on the guide rail 12, and a remote control 14. The processing and feed unit 13 comprises a processing unit 15 and a motorized feed unit 16. The processing unit 15 is in the form of a saw head and comprises a saw blade 17 which is fastened to a saw arm 18 and is driven about an axis of rotation 19 by a drive motor.

(9) In order to protect the operator, the saw blade 17 is surrounded by a saw blade guard 21 which is fastened to the saw arm 18 by means of a blade guard holder 22. The saw arm 18 is designed to be pivotable about a pivot axis by means of a pivoting motor. The pivot angle of the saw arm 18 together with a saw blade diameter of the saw blade 17 determines the depth to which the saw blade 17 enters into a workpiece to be processed. The motorized feed unit 16 comprises a guide carriage 23 and a feed motor. The saw head 15 is fastened on the guide carriage 23 and is designed to be displaceable along the guide rail 12 in a feed direction 24 (double arrow) via the feed motor.

(10) FIGS. 2A and 2B show the saw head 15 of the wall saw 11 with the pivotable saw arm 18 in detail, wherein the saw blade 17 and the saw blade guard 21 have been removed. FIG. 2A shows the saw head 15 in a front view facing the saw arm, and FIG. 2B shows the saw head 15 in a rear view facing away from the saw arm.

(11) The saw blade 17 is mounted on the saw arm 18 by means of a saw blade flange 25 and, during operation of the wall saw 12, rotates in one direction of rotation 26 about the axis of rotation 19. The saw arm 18 is designed to be pivotable about a pivot axis 28 by means of a pivoting motor 27; alternatively, the saw arm 18 can be designed to be adjustable by means of a linear drive or another drive device.

(12) FIG. 3 shows the saw head 15 of the wall saw 11 without saw blade 17 and saw blade guard 21, in a side view. The saw blade 17 is connectable by means of the saw blade flange 25 to the saw arm 18 for rotation therewith. The saw blade 17 is driven about the axis of rotation 19 via a drive motor 31, a transmission device 32 and a drive spindle 33. The drive motor 31 is arranged in a motor housing 34 and is connected to the transmission device 32, which is in the form of a planetary transmission in the exemplary embodiment, for rotation therewith. The planetary transmission 32 is at least partially arranged in a saw arm housing 35 of the saw arm 18. In the exemplary embodiment, the final stage of the planetary transmission 32 is connected to the drive spindle 33 (see FIGS. 4A and 4B) in a torque-transmitting manner.

(13) The saw head 15 is fastened on the guide carriage 23 and is moved along the guide rail 12 by a feed motor 36. The feed motor 36, the pivoting motor 27 and the drive motor 31 can be in the form of separate motors or can be integrated into one or more motors. In the exemplary embodiment, all of the motors 27, 31, 36 of the wall saw 11 are arranged in the motor housing 34.

(14) In the exemplary embodiment of FIG. 3, the saw blade flange 25 is formed in multiple parts and comprises an inner flange 37, an outer flange 38 and a fastening screw 39. The inner flange 37 is mounted on the drive spindle 33 for rotation therewith (see FIGS. 4A and 4B), the saw blade 17 and the outer flange 38 are subsequently pushed successively onto the drive spindle 33 and, finally, the outer flange 38 is fastened via the fastening screw 39. The fastening screw 39 is tightened until the saw blade 17 is clamped between the inner flange 37 and the outer flange 38 for rotation therewith. Alternatively to the shown multi-part saw blade flange 25 consisting of inner flange and outer flange 37, 38, a single-part saw blade flange can be used for flush cuts, and is also referred to as a flush cut flange.

(15) FIGS. 4A and 4B show the drive spindle 33 and the saw blade flange 25 (see FIG. 3), which is arranged on the drive spindle 33, in an unlocked state (FIG. 4A) and in a locked state (FIG. 4B). The saw blade flange 25 consists of the inner flange 37, which is connected to the drive spindle 33 for rotation therewith, and of the outer flange 38 and the fastening screw 39 (see FIG. 3). In the unlocked state, the inner flange 37 is designed to be adjustable in relation to the drive spindle 33 and, in the locked state, the inner flange 37 is connected to the drive spindle 33 for rotation therewith.

(16) The inner flange 37 is locked via a locking device 41 which is formed in multiple parts in the exemplary embodiment. The locking device comprises a rod 42 which is in the form of a tie rod and is guided in the interior of the drive spindle 33, a tool holder 43 and a first connecting element 44. The tool holder 43 is provided at an end of the tie rod 42 that faces away from the inner flange 37 and, in the exemplary embodiment, is in the form of a recessed Torx receptacle. The first connecting element 44 is provided at an end of the tie rod 42 that faces the inner flange 37 and, in the exemplary embodiment, is in the form of an external thread.

(17) The external thread 44 is formed in a complementary manner to a bore with an internal thread 45, which bore is provided in the inner flange 37 and forms a second connecting element. The drive spindle 33 is hollow and in the interior forms a guide for the tie rod 42. The tie rod 42 is preloaded in the tensile direction by a spring 46 which is arranged in a cavity of the drive spindle 33, the cavity surrounding the tie rod 42. The tie rod 42 is moved via a tool which is connectable to the tie rod 42 via the tool holder 43 and which, in the exemplary embodiment, is in the form of a Torx wrench.

(18) In order to transfer the inner flange 37 from the unlocked state (FIG. 4A) into the locked state (FIG. 4B), the Torx wrench is pushed into the tool holder 43. The tie rod 42 is first of all displaced by means of the Torx wrench in the axial direction along the axis of rotation 19 counter to the spring tension of the spring 46 until the external thread 44 of the tie rod 42 engages in the internal thread 45 of the inner flange 37. By rotation of the Torx wrench about the axis of rotation 19, the external thread 44 is screwed into the internal thread 45. The external thread 44 of the tie rod 42 and the internal thread 45 of the inner flange 37 form a force-fitting and form-fitting connection between the inner flange 37 and the tie rod 42. The threaded connection between the inner flange 37 and the tie rod 42 is completely formed if the tool holder 43 is formed flush in relation to the saw arm housing 35 or is set back in relation to the saw arm housing 35 toward the inner flange 37.

(19) In order to ensure that, during operation of the saw blade 17, the inner flange 37 is securely connected to the drive spindle 33, the external thread 44 of the tie rod 42 has to be screwed over a minimum height into the internal thread 45 of the inner flange 37. The wall saw 12 has a safety device 47 which ensures that the external and internal threads 44, 45 are connected in a form-fitting manner over the minimum height. That side of the saw arm housing 35 which faces away from the flange is provided with a lever 48 which is part of the safety device 47 and which is adjustable about an adjustment axis 49 between a first end position and a second end position (see FIG. 5A and FIG. 6A). The position of the lever 48 illustrated in FIG. 4A is referred to as the first end position and the position of the lever 48 illustrated in FIG. 4B is referred to as the second end position.

(20) FIGS. 5A and 5B show the safety device 47 in a first position which corresponds to the first end position of the lever 48, and FIGS. 6A and 6B show the safety device 47 in a second position which corresponds to the second end position of the lever 48. In addition to the lever 48, the safety device 47 comprises a latch 51, an axle element 52 which connects the lever 48 and the latch 51 rigidly to each other, and a pushbutton 53.

(21) FIG. 5A shows the lever 48 in the first end position which corresponds to the unlocked state of the inner flange 37 that is illustrated in FIG. 4A; and FIG. 6A shows the lever 48 in the second end position which corresponds to the locked state of the inner flange 37 that is illustrated in FIG. 4B. The lever 48 can be adjusted by the operator from the first end position into the second end position only when the tool holder 43 for the Torx wrench is recessed in the saw arm housing 35.