TW200402347A - Belt-type grinding tool - Google Patents

Abstract

The present invention is to provide a belt-type grinding tool which can proceed with rotation direction of a grinding belt, and drive/stop the grinding belt. The present invention relates to a belt-type grinding tool which installs an endless grinding belt between a driven pulley installed at a front end of tension stick of a housing in a stretchable manner, and a drive pulley installed on an air drive motor in a housing. Said grinding belt is rotationally driven by said air motor, characterized in that a valve which exhausts gas toward said air motor is installed on the housing of said belt-type grinding tool, the air motor is stopped or is rotated by moving forward or moving back said valve, a right rotation or left rotation of said valve can rotate or stop the air motor, so as to make said air motor rotate in a clockwise direction or a counterclockwise direction.

Description

200402347 发明 Description of the invention: [Technical field to which the invention belongs] The present invention relates to a belt-type grinding tool provided with an endless grinding belt tensioned by a pair of driven pulleys and a driving pulley, and more particularly, by operating only one The valve can easily switch the driving and stopping of the grinding belt, and there is no problem with either the right-handed or left-handed operator. The belt-type grinding tool that can perform the grinding operation. [Prior Art] The structure of a conventional belt grinding tool will be described with reference to FIG. 9. In the figure, 101 is a handle, 102 is a prime mover (air motor: ak motor) integrated with the handle, and 103 is a roller. ) (Drive pulley), 104 is an arm with a built-in spring, 105 is a tension rod (tension ba 0, 106 is mounted on the rod), which is pressurized by the spring. (Supporting pulley) 107, 108 is a grinding belt stretched between the driving roller and driven roller, 109 is a shoe, and 110 is a belt cover. In addition, the belt type The grinding tool has a handle in the right hand, and drives the prime mover 102 to rotate the grinding belt 108 while contacting the belt with the surface of an object to be ground (not shown) to grind the surface of the object to be ground. As the above-mentioned belt grinding tool usually sets the positional relationship between the handle and the grinding belt in cooperation with the right-handed operator, the use of the grinding tool by the left-handed operator becomes unnatural. State, because the left-handed operator The left hand holds the handle to perform the grinding operation, so the belt position is more to the left than the left hand during the operation. The grinding operation is extremely difficult. Moreover, if the handle of the belt grinding tool is reversed 180 degrees (in the figure) In the state of 200402347, the handle is in front of the eyes, as if the grinding is brought to the drawing.) If the left hand has a handle to work, the installation angle or position relationship between the grinding belt and the handle makes the grinding belt contact the grinding. The posture when cutting the part becomes unnatural and the operation is difficult to perform. Moreover, in the conventional belt grinding tool, since the rotation direction of the grinding belt is constant, the rotation direction preferred by the operator cannot be selected, and the usability is poor. Furthermore, when the grinding belt is replaced due to a broken or worn-out grinding belt, the belt-type grinding tool needs to be inserted into the tension bar with a hand against the urging force of the spring, which causes problems such as difficulty in replacing the belt. Therefore, an object of the present invention is to provide a rotation direction of the grinding belt that can be freely selected by operating only one valve, and the rotation of the air motor can be stopped at any position, and grinding The belt-type grinding tool adopts a locking mechanism that can fix the tension rod when replacing the belt, and solves the problems of the conventional belt-type grinding tool described above. Moreover, the purpose is to provide easy up and down according to the state of use of the belt A belt-type grinding tool for changing the position of an offset bracket with a tensioning pulley. The present invention can forward and reverse the rotation direction of a grinding belt by moving a valve forward and rotating it to switch the air flow. In addition, the airflow can be simply cut off and the rotation of the grinding belt can be stopped simply by moving the valve back. Therefore, in this belt grinding tool, the direction of the grinding tool is left-handed and right-handed, even if The direction of rotation of the grinding belt can also be freely selected by upside-down, making it extremely easy to use. Therefore, even a left-handed operator can work with the same feeling as a right-handed operator. In addition, when the grinding belt is replaced, the position of the pulling rod can be fixed only by plugging the state of the pulling rod to lock it, and the grinding belt can be easily replaced. 0 200402347 In order to achieve the above object, the present invention uses The technical solution is a belt-type grinding tool, which is provided with an endless grinding between a driven pulley attached to the front end of a tension rod mounted on the housing freely and a drive pulley attached to an air motor installed in the housing. The cutting belt can rotate the grinding belt by the air motor, and is characterized in that a valve for supplying and exhausting the air motor is provided in a casing of the belt grinding tool, and the valve is advanced or Backwardly, the air motor can be rotated or stopped, and the right or left rotation operation can be performed while the valve is advanced to enable the aforementioned air motor to rotate forward or reverse. In addition, a belt-type grinding tool is characterized in that the valve is formed by a valve body forming an air supply passage and an air exhaust passage of the air, and a ring valve (valve) that can be slidably mounted on the valve body and cannot be rotated. ring), and an annular groove is formed on the inner peripheral surface of the annular valve to communicate the air supply passage formed on the valve body side with an air source, and is formed on both sides of the annular groove to block the air The sealing ring of the source is formed in a guide groove formed in the axial direction of the valve body with a projection that fits slidably, and the ring valve is advanced along the guide groove of the valve body. The annular groove communicates with the air source. In this state, the annular valve is operated by right or left rotation, and is also rotated through the protruding valve body to communicate with the air supply path formed in the valve body to the air installed in the housing. The air supply and exhaust holes of the motor can be turned forward or reverse. Furthermore, a belt-type grinding tool is characterized in that: one end of the ring valve is provided with a stopper made of an elastic body, and an inclined surface protruding inward is formed on an inner peripheral surface of an end portion of the facing housing, and is inclined here A passing portion through which the stopper can pass is provided. The ring valve is only possible to advance the ring valve when the stopper is in a position facing the 200402347 and the passing portion, and even if the ring valve is in any position, the stopper is still The ring valve can be retracted over the inclined surface. Furthermore, a belt-type grinding tool is characterized in that an annular member in which the passing portion and the inclined surface are formed is attached to an inner peripheral surface of an end portion of the housing. Furthermore, a belt-type grinding tool is characterized in that the tension lever is provided with a locking mechanism capable of locking the tension lever when the tension lever is inserted into the tension lever. Furthermore, a belt-type grinding tool is characterized in that an offset bracket having a tension pulley on a side of a driving pulley near the casing can be mounted at a different position and can be detachably mounted on the casing. [Embodiment] Hereinafter, an embodiment related to the present invention will be described with reference to the drawings. FIG. 1 is a plan view of a belt grinding tool according to this embodiment, FIG. 2 is a side view, and FIG. 3 is a flat view. Sectional views, (a) to (c) of FIG. 4 are explanatory diagrams of the structure and operation of the locking mechanism, FIG. 5 is an enlarged cross-sectional view of the air motor portion, and (a) and (b) of FIG. A sectional view of the operation of the valve and the valve body. Fig. 7 is a plan view of the valve body, (a) is a plan view, (b) and (c) are cross-sectional views, (d) is a side view, and Fig. 8 (a) to (c). ) Is an explanatory diagram of the operation of the valve, showing an expanded view of the state of the air supply and exhaust according to the cross section of the cylinder and the valve body. The belt-type grinding tool (hereinafter referred to as a grinding tool) related to the present invention includes a tensioning mechanism T holding a grinding belt, a grinding belt B stretched on a driving pulley and a driven pulley, and a built-in pair of grinding belts. The grip G of the air motor a that imparts rotational force, and the air V that is supplied to the air motor A and exhausted from the air motor 200402347 A are configured to operate the valve V mounted on the handle G to make air The rotation of the motor A is forward or reverse rotation, and the rotation is selected in the direction in front of the operator's eyes or in the opposite direction, so that the surface of the object to be ground can be ground. The following is a detailed description of each component. [Tension mechanism] In Figs. 2 and 3, 1 is a tension lever, and a pulley holding member 3 rotatably holding the driven pulley 2 is attached to the front end thereof. The pulley holding member 3 is swingably mounted on the front end of the tension rod 1 through the shaft 4 in the up-down (arrow) direction in FIG. 3. Furthermore, the screw 5 for adjusting the swing angle, the adjusting screw 6 and the spring 7 are matched. Set between the two. With this structure, in FIG. 3, the adjusting screw 6 is twisted or loosened by resisting the urging force of the spring 7, and the pulley holding member 3 is adjusted with the shaft 4 as the fulcrum to adjust the angle, thereby the grinding belt B can be positioned at On the center of the pull rod 1. At this time, the screw 5 pulley holding member 3 is fixed at an adjusted angle. The end of the tension rod 1 on the opposite side of the driven pulley 2 is slidably inserted into the long hole 8a provided in the housing 8. At the front end of the long hole 8a, the cylindrical member 9 is fixed to the housing 8 by the screw 10. The cylindrical member 9 is formed with a notch portion 1 1 (upper and lower in the third figure) parallel to the axis of the tension rod 1. A pin 12 attached to the tension rod 1 is inserted into the notch portion 11 and the pin 12 prevents the shaft of the tension rod 1 from rotating about its center. In FIGS. 3 and 4, a small diameter portion 1 3 a is formed at one end (right side in the drawing) of the tension rod 1 inserted into the long hole 8 a of the housing 8, and the small diameter portion 1 3 a and the large diameter are formed here. A circumferential groove 14 is formed in the stepped portion of the portion 13 b, and a plurality of protrusions 15 are formed at the end of the tension rod 1. Further, a spring support member 16 is disposed at the right end portion of the tension rod 1 in the drawing, and a tension spring 17 is disposed between the spring support member 1 6 -10- iu; z 200402347 and the housing 8. An L-shaped push button 18 is arranged in the housing 8 as shown in FIG. 4 (a), and a tension lever 1 is arranged through the control button 18. This control button 18 is urged to the lower part of the figure by a spring 19, and in the use state of the stretched grinding belt B, as shown in FIG. 4 (b), it becomes the small-diameter part 1 connected to the tension rod 1. 3 a state. With the above-mentioned configuration, when the grinding belt B is replaced, if it is pushed into the tension rod 1 against the urging force of the tension spring 17, the circumference of the stepped portion of the small-diameter portion 13 a and the large-diameter portion 13 b is formed. When the groove 14 reaches the position of the control button 18, the control button 18 falls into the circumferential groove 14 due to the urging force of the spring 19 (refer to FIG. 4 (a)). Replace the grinding belt B while it is operating. In addition, in the case where the grinding belt B is cut during operation, the tension lever 1 is intended to jump out of the state of FIG. 4 (b) to the left of the figure by the urging force of the tension spring 17, but because it is set to the tension Since the plurality of protrusions 15 at the end of the lever 1 are caught on the control button 18 (see FIG. 4 (c)), the jumping-out of the tension lever 1 is prevented. In addition, when returning to the state where the grinding belt B is replaced and replaced (the state in FIG. 4 (b)), the control button 18 is pushed against the urging force of the spring 19, and the control button 18 is formed by the aforementioned circumferential groove. 14 is disengaged, the tension lever slides to the left in the figure, and returns to the state of figure 4 (b). In FIG. 2, a space is formed between the housing 8 between the grinding belt B and the tension rod 1, and a tensioning pulley (for a curved surface for grinding a workpiece (not shown) is rotatably supported). Offset bracket 21 of tension pulley (20), this offset bracket (21) has a [shape] shape on the side of the tensioning pulley (20), and [piate] 21 a, 21b on both sides of the shape can be It is inserted into the guide groove 22 of the casing 8 and extends, and can be mounted on the casing 8 (in the second figure, the offset bracket 21 is inserted into the casing 8 from the bottom to the top in the figure). 200402347 This offset bracket 21 is pulled out below in the second figure, removed by the casing 8, so that the tensioning pulley 20 is on the upper side, and the offset bracket 2 can be inserted again from above the casing 8 downwards> Position bracket 2 1 (In this case, the left-handed operator uses the grinding tool by turning it 180 degrees). Furthermore, protrusions 23 and 23 protruding from the inner side are arranged on the flat plates 2 1 a and 2 1 b on both sides of the offset bracket 21, and a fitting recess (not shown) is formed on the housing 8 side, and the offset is inserted. The position bracket 21 fits the above-mentioned projection 23 to the recess on the side of the housing 8. This prevents the positioning of the housing 8 toward the offset bracket 21 and the falling off of the housing 8 from the offset bracket 21. Any of the protrusions 2 3 or fitting recesses for preventing such fall-off from being placed on the offset bracket 21 or the housing 8 can be freely set at design time. [Air Motor] The air motor has the same structure as a conventional grinding tool.-The rotor with a blade in the motor that supplies air rotates, and the grinding belt can be rotated by the drive pulley. In FIG. 5, the air motor A is composed of a cylinder 24 having an eccentric inner diameter mounted in the housing 8, a rotor 25 having blades 25 a rotatably disposed in the cylinder 24, and two sides of the cylinder 24. The flat plates φ 24c and 24d sandwiching the rotor 25 are configured. The shafts 26 at both ends of the rotor 25 are supported by bearings 27 arranged on the flat plates 24c and 2 4 d. Further, at the end of the shaft 27 on one side (lower side in the figure) of the rotor 25, the driving pulley 28 is fixed by the nut 29, and the driving pulley 28 and the driven pulley 2 disposed at the front end of the tension rod 1 are fixed. And the endless grinding belt B is attached to the tension pulley 20 (refer FIG. 1). Holes 24a and 24b for supplying and discharging air are formed in the cylinder 24 (the valve mechanism will be described in detail later), and a flow path 30 for exhausting air is formed between the outer periphery of the cylinder 24 and the casing 8. Further, on the wall of the housing 12-200402347 8 on the opposite side, holes 8a, 8a (refer to FIG. 8 to be described later) for supplying and discharging air to and from the air motor A are formed, and the flow The exhaust holes 3 1 and 3 1 'communicating with the path 30 are provided with the valve body 33 of the valve V described later at the holes 8 a and 8 a at these two positions. When the air motor A operates the valve V here, air is supplied into the air motor A and the rotor 25 is rotated. The air supplied into the cylinder 24 rotates the rotor 25 having the blades 25a, and then the air is exhausted from the exhaust hole 31 and the exhaust-side hole 8a to the outside through the flow path 30. Further, on the outside (lower side in Fig. 5) of the driving pulley 28, the cover 32 which is detachable for the purpose of changing the grinding belt B is detachably attached by a screw 32A (see Fig. 3). [Valve Mechanism] In Figs. 6, 7, and 8, the valve V is used to supply / exhaust air to the air motor A. The valve V is composed of the valve body 33 and the ring valve 34. The ring valve 34 cannot be used. It is attached to the outer periphery of the valve body 33 in a relatively rotatable and slidable manner. With this configuration, when the ring valve 34 is advanced on the valve body 33, the air motor a can be supplied with air through the valve body 33, and when the ring valve 34 is further advanced, the valve body 33 is also rotated. The interlocking rotation is such that air can be supplied to the air motor a from the valve body 33 (the details will be described later). The valve body 3 3 has the shape shown in FIG. 7. As shown in FIG. 6, one end of the valve body 33 is fixed by a fixed ring 35 and a ring nut 36, and its shaft center can rotate freely in the center. Fixed to the housing 8. In the central portion of the valve body 33, a first air supply passage 37 and a second air supply passage 38 are formed, and in each of the air supply passages 37 and 38, communication holes 39 and 40 communicating with the outer periphery of the valve body 33 are formed. Further, the second air supply passage 38 is provided with a cylinder 41 around the exit thereof, and -13-200402347 passes through the cylinder 41 and the housing 8 having two holes 8a for air supply and exhaust (refer to the eighth right-side development view). Face-to-face (refer to Figure 6). In the sixth figure, the upper half of the illustrated case 8 is an air supply / exhaust hole 8a, and the lower half is an air hole 31. The valve body 33 is provided with a pin 42 that regulates the rotation angle of the valve body 33. The pin 42 is fitted in a recessed portion 8b formed on the housing side. Therefore, the valve body 33 can move in the recessed portion 8b from the neutral position in Fig. 8 to the left and right walls of the pin 42 contact portion 8b. A gas supply pipe connection portion 52 is provided in one of the gas supply passages 37 as shown in FIG. An exhaust passage 43 is formed in the valve body 33 as shown in FIG. 6 and FIG. 7. The exhaust passage 43 is connected to an exhaust passage 53 formed outside the air-supply pipe connection portion 52 (refer to FIG. 6), the air can be released to the outside air via the exhaust pipe 54. On the outer periphery of the valve body 33, the ring valve 34 is arranged so as to be unable to rotate and slide. That is, a guide 45 is formed on the outer periphery of the valve body 33 in the axial direction, and the protrusion 46 formed on the inner periphery of the ring valve 34 in the guide groove 45 is configured to be unable to rotate relative to each other. An annular groove 47 is formed in the annular valve 34 to communicate with the communication holes 39 and 40 of the valve body 33. Sealing rings 48 are provided on both sides of the groove 47 to seal the outer peripheral surface of the valve body 33 and the inner peripheral surface of the housing 8. This seal ring is disposed between the communication hole 39 and the communication hole 40 when the ring valve 43 is retracted, and stops supplying air to the air motor A. Furthermore, a stopper 49 made of spring material is fixed at least one position of the ring valve 34 by being ejected and fixed in the inner and outer diameter directions. The housing 8 is further provided with a passing portion 50a through which the stopper 49 can pass and a section for preventing entry. In the figure, the white groove circumferential groove and the 48 stop side portion 200402347 50b and the valve stopper ring 50 having the inclined surface 51 are formed again due to the concave concavity. In this example, the passage portion 50a is constituted by partially missing the valve stopper ring 50. This valve stop ring 50 has a shape having an inclined surface 51 which protrudes inwardly as shown in Fig. 6. Therefore, the ring valve 34 can advance from the state of FIG. 6 (a) to the state of FIG. 6 (b) only when the stopper 49 passes through the passing portion 50a of the valve stopper ring 50, and becomes The ring valve 34 is configured such that the stopper 49 can be deformed and retracted to the housing 8 even at any position of the rotation angle. If it is desired to advance the ring valve from another position, the stopper 49 is engaged with the segment portion 50b to prevent the ring valve 34 from advancing. Although the segment portion 50b is formed in φ in this example, only the end portion may be used. In a state where the stopper 49 can pass through the passing portion 50 a of the stopper ring 50, if the ring valve 34 is advanced, the seal ring 48 provided on the inner peripheral side of the ring valve 34 is located in the passage hole. In front of 40, the aforementioned annular groove 47 exists across the communication hole 39 and the communication hole 40 on the valve body 33 side, and communicates with the first air supply path 37 and the second air supply path 38 (see FIG. 6 (b)). ). When the ring valve 34 is rotated in this state, the valve body 33 is rotated until the pin 42 contacts the wall of the recessed portion 8 b formed in the housing 8, and the second air supply passage 38 formed in the valve body 33 is communicated with On one side of the air supply and exhaust holes 8a of the housing 8, the other air supply and exhaust holes 8a communicate with the exhaust passage 43 formed in the valve body 33, and the air motor A can be rotated (see Section 8). Figure). When the air motor A rotates, the exhaust system from the air motor A passes through a flow path 30 (see FIG. 5) formed between the cylinder 24 and the casing 8 and an exhaust hole 31 formed in the casing 8. Then, an exhaust passage 43 formed in the valve body 33 is used to release air to the outside through an exhaust pipe 54. Further, when the ring valve 34 is moved backward during the rotation of the air motor A, the stop 200402347 and the stopper 4 9 elastically deform and move over the inclined surface 51 of the valve stopper ring 50. Accordingly, the seal ring 48 disposed on one side of the inner periphery of the ring valve 34 is located between the communication hole 34 and the communication hole 40, and the communication state of the first air supply path 37 and the second air supply path 38 is established. If it is blocked, the rotation of the air motor can be stopped. As shown in FIG. 8, the inner diameter eccentric cylinder 24 disposed facing the valve V configured as described above is provided with a rotor 25 having a blade 25 a inside, and two holes 24 a for exhaust and exhaust are formed. Used hole 24b. The casing 8 disposed on the outer periphery of the cylinder 24 is formed with the aforementioned hole 8a corresponding to the air supply / exhaust hole 24a of the cylinder 24. The casing 8 is provided with the valve body 3 3 composed of the aforementioned configuration φ (see the Figure 5 and Figure 6). Therefore, the ring valve 34 is advanced, and if the valve body 33 is rotated by the intermediate ring valve 34 in this state, air passes through the second air supply path 38 and the hole 8a formed on one side of the housing 8 and the air hole formed in the cylinder 24 The hole 24a on one side is supplied to the cylinder. The rotor 25 can be rotated through the blade 25a (see FIG. 8). At this time, the air exhausted by the air motor A passes through the exhaust hole 24b of the cylinder 24 and enters the passage 30 formed between the cylinder 24 and the housing 8. The exhaust hole 31 passes through the exhaust hole 31 to the valve. The exhaust passage 43 of the main body 33 reaches the exhaust passage 43 from the other hole φa for exhausting through φ to the exhaust passage 43 through the other hole 8a for exhausting, and both air is exhausted to the outside air through the exhaust pipe 54. The operation of the grinding tool configured as described above will be described. In FIG. 3, if the ring valve 34 is rotated, and the stopper 49 provided in the ring valve 34 is made to cooperate with the passage portion 50a of the valve stopper ring 50 provided in the housing 8, it is disposed at One side of the seal ring 48 on the inner periphery of the ring valve 34 is located in front of the communication hole 40, and the groove 47 communicates with the first and second air supply channels 37 and 38 across the communication hole 39 and the communication hole 40. At this time, -1¾ ¾ -16-200402347 air is not supplied to the neutral state of the air motor A (Fig. 8 (b)). When the ring valve 34 is rotated in this state, the valve body 33 is also rotated, and if the pin 42 disposed at the front end of the valve body 33 contacts the wall of the recessed portion 8b formed in the housing 8 (FIG. 8 ( a) state), the second air supply passage 38 communicates with a hole 8 a formed on one side of the housing 8 for air supply and exhaust, and the rotary air motor A is rotated by the rotary grinding belt B of the air motor A. For grinding operations. In addition, if the ring valve 34 is rotated in the reverse direction while the ring valve 34 is advanced, the valve body 33 is also rotated in the opposite direction, so that the pin 42 disposed on the valve body 33 is contacted to form To the wall of the recessed portion 8b on the opposite side of the case 8 side (state of FIG. 8 (c)), the second air supply passage 38 communicates with the side opposite to the hole 8a for the air supply and exhaust formed in the case 8. The hole 8a of FIG. 2 rotates the air motor A in the opposite direction to the above, the air motor A can be reversed, and the grinding belt B can be rotated in the reverse direction. When the ring valve 34 is retracted in this state after the grinding operation is completed, the stopper 49 is deformed over the inclined surface 51 of the valve stopper ring 50, and a reel disposed between the grooves 47 formed on the inner periphery of the ring valve 34 is disposed. One of the reel rings 48 is located between the communication hole 39 and the communication hole 40, and blocking the air can stop the rotation of the air motor A. When the grinding belt B is replaced, the rotation of the air motor A is stopped, the mounting screw 32A is operated to remove the cover 32, and the thrust rod 1 is further resisted against the urging force of the tension spring 17 to be formed in the tension rod 1 When the circumferential groove 14 reaches the position of the control button 18, the control button 18 falls into the circumferential groove 14 due to the urging force of the spring 19, in other words, the control button 18 is affected by the urging force of the spring 19. Push it to the outside (refer to Figure 4 (a)) and lock the action of the tension lever 1. In this state, the grinding belt B can be replaced. 200402347 Moreover, in the case where the grinding belt B is cut during operation, the tension rod 1 is caused to jump out to the left in the figure by the urging force of the tension spring 17, but the protrusion 1 provided on the end of the tension rod 1 5 is connected to one end of the control button 18 to prevent the tension rod 1 from jumping out of the casing 8. Furthermore, when the left-handed operator uses an air-type grinding tool in a normal state (the grinding belt B rotates in the counterclockwise direction), the offset bracket 21 mounted on the lower side of the housing 8 is changed to the upper side so that the grinding is performed. Reversing the tool 180 degrees advances the ring valve 34 and rotates the ring valve 34 in the opposite direction. The intermediary ring valve 34 rotates the valve body 33 in the forward and reverse directions according to the operating conditions, and the rotation direction of the grinding belt B can be switched, thereby switching the scattering direction of the grinding powder. Further, in the case where the work is completed or stopped, as described above, only the reverse ring valve 34 can stop the rotation of the air motor A. In the case where the above-mentioned offset bracket 21 is installed, curved surface grinding can be performed, and plane grinding is possible by removing the offset bracket. Although the embodiments related to the present invention have been described above, the air passages formed in the ring valve, the valve body, and the housing may have various passage shapes if the passages can achieve the above functions. In addition, the means for fixing the offset bracket can adopt various forms such as a spiral. In addition, the above-mentioned embodiments are merely illustrative, and the present invention can be implemented in various other forms without being limited by the spirit or main features of the present invention. [Effects of the Invention] As described in detail above, if the present invention is performed, the rotation and stop of the grinding belt can be performed by operating only one valve, and the rotation direction of the grinding belt can be freely selected. Operators, left-handed, can also perform grinding operations with the same feeling. In addition, since the scattering direction of the grinding powder can be selected by switching the rotation direction of the grinding belt, the work efficiency is improved. On the other hand, 200402347, it is easy to replace the grinding belt because a locking mechanism ′ can be used to simply fix the tension rod when replacing the belt. In addition, since the offset bracket having a tension pulley can be installed and disassembled freely, excellent effects such as being able to easily grind even curved surfaces can be achieved. [Brief description of the drawings] Fig. 1 is a plan view of a belt grinding tool according to the present embodiment. Figure 2 is the same side view. Figure 3 is a sectional view of the same plane. 4 (a) to (c) are diagrams illustrating the structure and operation of the locking mechanism. Fig. 5 is an enlarged sectional view of an air motor portion. 6 (a) and 6 (b) are cross-sectional views illustrating the operation of the ring valve and the valve body. Fig. 7 is a plan view of the valve body (a) is a plan view '(b), (c) is a sectional view' and (d) is a side view. Figs. 8 (a) to (c) are explanatory views of the operation of the valve ', which are development views showing the state of the air supply and exhaust according to the cross section of the cylinder and the valve body. Figure 9 shows a conventional belt grinding tool. Explanation of component symbols: 1: Pull rod 2: Driven pulley 3: Pulley holding member 4: Shaft 5: Spiral 6: Adjusting spiral 200402347 7: Spring 8: Housing 8 a: Long hole 9: Tube member 10: Spiral 1 1: Notch Part 12: Pin 1 3: Small diameter part 1 4: Circular groove 15: Protrusion 1 6: Spring support member 1 7: Tension spring 1 8: Control button 1 9: Spring 20: Tension pulley 2 1: Offset Position bracket 22: Guide groove 2 3: Protrusion 24: Cylinder 25: Impeller 26: Shaft 27: Bearing 2 8: Drive pulley 29: Nut 200402347 31: Hole 32: Cover 3 3: Valve body 34: Ring valve 3 5 : Fixing ring 3 6: Ring nut 3 7: First air supply path

3 8: second air supply path 39, 40: 孑 L 4 1: seal ring 42: pin 4 3: exhaust path 4 5: guide groove 46: protrusion 4 7: groove

4 8: Sealing ring 49: Stopper 5 0: Stopper ring 5 0 a: Passing portion 5 0 b: Segment portion 5 1: Inclined surface 53: Exhaust passage -21-

Claims (1)

200402347 Scope of patent application: 1. A belt-type grinding tool, which is attached between a driven pulley attached to the front end of a tension rod installed in the housing freely and retracted, and a space attached to the air pulley installed in the housing. The endless grinding belt is stretched, and the grinding belt can be driven to rotate by the air motor, which is characterized in that: a valve of the belt grinding tool is provided with a valve capable of supplying and exhausting air to the air motor. The valve can be rotated forward or backward to rotate or stop the air motor, and a right or left rotation operation is performed while the valve is advanced to enable the air motor to rotate forward or reverse. 2. For example, the belt-type grinding tool of the scope of patent application, wherein the valve is formed by a valve body formed with an air supply passage and an air exhaust passage, and the valve body is slidably installed without being able to rotate. An annular valve is formed on the inner peripheral surface of the annular valve. An annular groove that communicates the air supply passage formed on the valve body side with the air source is formed on both sides of the annular groove to block the annular groove. The sealing ring of the air source is formed in a guide groove formed in the axial direction of the valve body with a projection that fits slidably and advances the ring valve along the guide groove of the valve body. The air passage is in communication with the air source through the annular groove. In this state, the ring valve is operated by right or left rotation, and the valve body is also rotated in conjunction with the protrusion, so that the air supply passage and installation formed in the valve body. The air supply and exhaust holes of the air motor in the housing communicate with each other, and the air motor can rotate forward or reverse. 3. The belt-type grinding tool according to item 2 of the patent application, wherein a stopper made of an elastomer is provided at one end of the ring valve, and an inclined surface protruding inward is formed on the inner peripheral surface of the end portion of the facing shell. On this inclined surface, a passing portion through which the stopper can pass is provided, and the ring valve system can only advance when the stop-22-200402347 is in a position facing the passing portion ', and even if the ring valve is in any position, The stopper can also pass over the inclined surface to retreat the ring valve. 4. The belt-type grinding tool according to item 3 of the patent application, wherein an annular member having the passing portion and the inclined surface formed on the inner peripheral surface of the end portion of the housing is installed. 5. The belt grinding tool according to any one of claims 1 to 4, wherein the tension lever is provided with a locking mechanism capable of locking the tension lever when the tension lever is inserted into the tension lever. 6. The belt-type grinding tool according to any one of claims 1 to 5, wherein the offset bracket with a 'tensioning pulley' on the side of the driving pulley near the casing can be dismantled by changing its position. Mounts freely on the case. -twenty three-