CN115922564A

CN115922564A - Mounting structure of emery wheel

Info

Publication number: CN115922564A
Application number: CN202310218945.XA
Authority: CN
Inventors: 陈启国
Original assignee: Zhenjiang Fengcheng Special Tools Co ltd
Current assignee: Zhenjiang Fengcheng Special Tools Co ltd
Priority date: 2023-03-09
Filing date: 2023-03-09
Publication date: 2023-04-07
Anticipated expiration: 2043-03-09
Also published as: CN115922564B

Abstract

The invention provides a mounting structure of a grinding wheel, belonging to the technical field of grinding devices, comprising: one end of the cylinder is fixedly connected with the hollow boss, and the other end of the cylinder is fixedly connected with the grinding wheel body; a linkage shaft and the cylinder are adapted to each other; the assembling barrel is hooped on the outer surface of the linkage shaft and can move towards the linkage shaft; the fastening modules are arranged on the outer peripheral surface of the linkage shaft at equal intervals in a ring shape and are connected with the assembling cylinder, the fastening modules can be controlled to be buckled with the lug boss by changing the assembling cylinder, and then the cylinder is buckled with the linkage shaft; the scarf module can stop the assembling cylinder when the fastening module is buckled on the lug boss. The invention solves the problems that the existing mounting structure of the grinding wheel is complicated in assembly and disassembly processes, is labor-consuming and is not beneficial to assembly and disassembly of the grinding wheel.

Description

Mounting structure of emery wheel

Technical Field

The invention belongs to the technical field of polishing devices, and particularly relates to an installation structure of a grinding wheel.

Background

Sanding, which is one of the surface modification techniques, generally refers to a process of changing the physical properties of the material surface by friction with the aid of a rough object, mainly for the purpose of obtaining a specific surface roughness. When polishing, a processed product is generally polished by using a grinding wheel or sand paper and the like, wherein the grinding wheel is used as a grinding tool and is suitable for removing corners, welding spots, burrs and rough edges on the surface of a metal material and repairing unevenness on the surface.

The mounting structure of current emery wheel adopts the lead screw to fix the emery wheel in the pivoted pivot on the polisher mostly, need aim at the pilot hole on the emery wheel each other with the epaxial pilot hole of commentaries on classics during the assembly, screw one by one with a plurality of lead screw after aiming at to this reaches the fixed to the emery wheel, when disassembling, need again to screw down one by one a plurality of lead screw, then just can pull down the emery wheel, this assembly and disassemble comparatively loaded down with trivial details and power consumption of process, be unfavorable for the assembly and the disassembly of emery wheel.

Disclosure of Invention

The invention provides an installation structure of a grinding wheel, which aims to solve the problems that the existing installation structure of the grinding wheel mostly adopts a lead screw to fix the grinding wheel on a rotating shaft on a grinding machine, the assembly holes on the grinding wheel and the assembly holes on the rotating shaft need to be aligned with each other during assembly, a plurality of lead screws are used for screwing one by one after alignment so as to fix the grinding wheel, the lead screws need to be screwed down one by one during disassembly, and then the grinding wheel can be disassembled, so that the assembly and disassembly processes are complicated and labor-consuming, and are not beneficial to the assembly and disassembly of the grinding wheel.

The embodiment of the invention provides a mounting structure of a grinding wheel, which comprises:

one end of the cylinder is fixedly connected with the hollow boss, and the other end of the cylinder is fixedly connected with the grinding wheel body;

a linkage shaft and the cylinder are adapted to each other;

the assembling barrel is hooped on the outer surface of the linkage shaft and can move towards the linkage shaft;

the fastening modules are arranged on the outer peripheral surface of the linkage shaft at equal intervals in a ring shape and are connected with the assembling cylinder, the fastening modules can be controlled to be buckled with the lug boss by changing the assembling cylinder, and then the cylinder is buckled with the linkage shaft;

the scarf module can stop the assembling cylinder when the fastening module is buckled on the lug boss.

Further, fastening module contains linkage strip and fastening strip, fastening strip connects via the pin rod soon the outside of universal driving shaft, reserve on the fastening strip and detain the interface, one end of linkage strip connects via the pin rod soon on the fastening strip, and another connects via the pin rod soon the outside of an assembly section of thick bamboo, via the change an assembly section of thick bamboo can drive two pairs jointly the fastening strip rotates, lets then the notch in the boss outside is detained in detaining the interface to this lets drum and universal driving shaft link up firmly.

Furthermore, an assembly opening is reserved on the side wall of the linkage shaft, an embedding opening with two through ends is reserved on the assembly cylinder, the embedding module comprises a first spiral beryllium copper wire and a second movable table, the first spiral beryllium copper wire is arranged between the bottom wall of the second movable table and the bottom wall of the assembly opening, then one end of the second movable table can be pressed to move away from the assembly opening, when the embedding opening is moved to be opposite to the assembly opening, one end of the second movable table can be moved into the embedding opening, and then the assembly cylinder is fixedly connected with the linkage shaft.

Further, the mounting structure still include the module of disassembling, the module of disassembling includes disassembling a section of thick bamboo, a movable table one and wedge platform, a movable table one is portable installs in inlay the interface, install linking section of thick bamboo on the outer peripheral face of universal driving shaft, after the fastening strip with the drum lock joint, an assembly section of thick bamboo changes to link a section of thick bamboo with in the cavity between the universal driving shaft, it reserves two linking ports on the linking section of thick bamboo, after one of a movable table two reaches the inside of inlaying the interface, can oppress one of a movable table one moves in the interface, let the assembly section of thick bamboo with link a section of thick bamboo, disassemble a section of thick bamboo link on the outer wall surface of a section of thick bamboo, the wedge platform links firmly on the inner wall surface of a disassembling section of thick bamboo, and portable installs in the linking port, a slope one has reserved on the wedge platform, a slope one is laminated on a movable table one, can pull through rotating the section of thick bamboo, then oppress the movable table one move from in the linking port, move out the movable table two move out from the inlaying the interface.

Furthermore, a second spiral beryllium copper wire is arranged between the assembling cylinder and the connecting cylinder.

Furthermore, a slope surface II is reserved on the movable table II, when the assembling cylinder moves towards one side of the connecting cylinder, the assembling cylinder can be attached to the slope surface II and moves towards the slope surface II, and then the movable table II is pressed into the assembling opening.

Furthermore, stop sheets are reserved on the peripheral surface of the linkage shaft, two pairs of stop sheets are arranged on the linkage shaft, and the assembling barrel can change between the stop sheets and one end close to the connecting barrel.

Furthermore, the mounting structure comprises two pairs of fastening modules, and the two pairs of fastening modules are arranged on the outer wall surface of the linkage shaft at equal intervals in a ring shape.

Further, mounting structure still contain the module of counterpointing rapidly, the module of counterpointing rapidly contains and links firmly the round platform of linkage shaft tip and the assembly piece two that links firmly on the wall in the drum, connect the urceolus soon via slewing bearing on the outer peripheral face of round platform, the domatic three of circle form is reserved to the left surface of urceolus, the urceolus inlays in the inside of drum, a pair of assembly piece one is installed to the mirror image on the other limit wall of round platform, strong magnet one is being linked firmly on the assembly piece one, strong magnet two is being linked firmly on the assembly piece two, strong magnet one and strong magnet two actuation each other, strong magnet one and strong magnet two's contact surface with the vertical central line coplane of a pair of notch on the boss vertically.

The invention has the beneficial effects that:

1. the invention controls a plurality of fastening modules through the assembling cylinder, and the cylinder can be fixedly connected to the linkage shaft only by changing the direction of the assembling cylinder, so that the assembly between the grinding wheel body and the linkage shaft is more convenient, faster and more convenient.

2. The invention stops the assembly cylinder through the scarf module, so that the fastening module can stably assemble the cylinder without adopting a lead screw and the like to fixedly connect the grinding wheel body and the linkage shaft, and the invention has simple and convenient operation and firm use.

3. According to the invention, through the arranged disassembling module, the assembling cylinder can be disassembled by rotating the disassembling cylinder, and meanwhile, under the cooperation of the spiral beryllium copper wire II, the assembling cylinder can be automatically changed and the fastening module can be disassembled, so that the cylinder and the linkage shaft are mutually disassembled, the convenience of disassembling between the grinding wheel body and the linkage shaft is improved, and the time and the labor are saved.

4. According to the invention, through the installed rapid alignment module, when the grinding wheel body is assembled, the left side surface of the outer cylinder is provided with the third slope surface, so that the cylinder on the grinding wheel body can be rapidly hooped on the outer cylinder, and meanwhile, the outer cylinder and the circular table are rotatably connected through the slewing bearing, so that the cylinder on the grinding wheel body can rotate and attract each other under the strong suction force of the first strong magnet and the second strong magnet, and then the notch on the boss is opposite to the fastening port on the fastening strip, and the boss does not need to be calibrated, so that the grinding wheel body can be rapidly assembled.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural view of a main section of an assembly of a grinding wheel body and a linkage shaft according to an embodiment of the invention;

FIG. 2 is a schematic diagram of a right-view structure of an assembly of a grinding wheel body and a linkage shaft according to an embodiment of the invention;

FIG. 3 is a schematic cross-sectional view along the direction B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a cross-sectional structural view of a linkage shaft according to an embodiment of the present invention;

FIG. 5 is an enlarged view of the structure at M in FIG. 4 according to the present invention;

FIG. 6 is a schematic view of a boss mounting structure according to an embodiment of the present invention;

FIG. 7 is a left side view of a rapid alignment module according to an embodiment of the present invention;

reference numerals: 1. a grinding wheel body; 2. a linkage shaft; 21. a stop sheet; 22. an assembly port; 23. a joining cylinder; 231. a mouthpiece; 3. assembling the cartridge; 31. embedding an interface; 4. a linkage bar; 5. fastening strips; 51. buckling an interface; 6. disassembling the barrel; 61. a wedge-shaped table; 611. a first slope surface; 7. a first movable table; 8. a second movable table; 81. a slope surface II; 91. a second spiral beryllium copper wire; 92. a first spiral beryllium copper wire; 10. a cylinder; 101. a boss; 111. a circular truncated cone; 112. an outer cylinder; 113. assembling a first sheet; 114. strong magnet I; 115. assembling a second sheet; 116. and a second strong magnet.

Detailed Description

In order to make the objects, technical solutions and advantages of the technical solutions of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the drawings of the specific embodiments of the present invention. Like reference symbols in the various drawings indicate like elements. It should be noted that the described embodiments are only some embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the invention without any inventive step, are within the scope of protection of the invention.

Referring to fig. 1 to 6, an embodiment of the present invention provides a mounting structure for a grinding wheel, including: the device comprises a cylinder 10, a linkage shaft 2, an assembly cylinder 3, a plurality of fastening modules and an embedding module.

One end of the cylinder 10 is fixedly connected with a hollow boss 101, and the other end of the cylinder 10 is fixedly connected with the grinding wheel body 1; the universal driving shaft 2 and the cylinder 10 are matched with each other, the assembling cylinder 3 is hooped on the outer surface of the universal driving shaft 2 and can move towards the universal driving shaft 2, a plurality of fastening modules are arranged on the outer peripheral surface of the universal driving shaft 2 at equal intervals in a ring shape and are connected with the assembling cylinder 3, the assembling cylinder 3 can be changed to control the fastening modules to be fastened with the boss 101, then the cylinder 10 is fastened with the universal driving shaft 2, and when the fastening modules are fastened on the boss 101, the fastening modules can stop the assembling cylinder 3.

Fastening module contains linkage 4 and fastening strip 5, fastening strip 5 connects via the pin rod soon the outside of universal driving shaft 2, it detains interface 51 to reserve on fastening strip 5, one end of linkage 4 connects via the pin rod soon on fastening strip 5, and another connects via the pin rod soon the outside of an assembly section of thick bamboo 3, via the change an assembly section of thick bamboo 3 can drive two pairs jointly fastening strip 5 rotates, lets then the notch in the boss 101 outside is detained in detaining interface 51 to this lets drum 10 and universal driving shaft 2 link up firmly.

An assembly opening 22 is reserved on the side wall of the linkage shaft 2, an embedding opening 31 with two through ends is reserved on the assembly cylinder 3, the embedding module comprises a spiral beryllium copper wire 92 and a movable table II 8 which are arranged in the assembly opening 22, the spiral beryllium copper wire 92 is arranged between the bottom wall of the movable table II 8 and the bottom wall of the assembly opening 22, then one end of the movable table II 8 can be pressed to move away from the assembly opening 22, when the embedding opening 31 is moved to be opposite to the assembly opening 22, one end of the movable table II 8 can be moved into the embedding opening 31, and then the assembly cylinder 3 is fixedly connected with the linkage shaft 2.

The mounting structure further comprises a disassembling module, the disassembling module comprises a disassembling barrel 6, a first movable table 7 and a wedge-shaped table 61, the first movable table 7 is movably arranged in the embedded port 31, a linking barrel 23 is arranged on the outer peripheral surface of the linkage shaft 2, after the fastening strip 5 is fastened with the cylinder 10, the assembling barrel 3 is changed into a cavity between the linking barrel 23 and the linkage shaft 2, two through linking ports 231 are reserved on the linking barrel 23, when one end of the second movable table 8 is moved into the embedded port 31, one end of the first movable table 7 can be pressed into the linking port 231, then the assembling barrel 3 is connected with the linking barrel 23, the disassembling barrel 6 is connected onto the outer wall surface of the linking barrel 23, the wedge-shaped table 61 is fixedly connected onto the inner wall surface of the first movable table 6 and movably moved into the linking port 231, a slope surface is reserved on the wedge-shaped table 61, the first movable table 7 is attached to the first movable table 611, the disassembling barrel 7 is further attached to the movable table 61, and the movable table is pulled out of the first movable table 61 and then changed from the embedded port 31 by the disassembling barrel 611, and the movable table is pressed out of the second movable table 61.

A second spiral beryllium copper wire 91 is arranged between the assembling cylinder 3 and the connecting cylinder 23.

A slope surface two 81 is reserved on the movable table two 8, when the assembling cylinder 3 moves towards one side of the connecting cylinder 23, the assembling cylinder 3 can be attached to the slope surface two 81 and move towards the slope surface two 81, and then the movable table two 8 is pressed into the assembling opening 22.

The outer peripheral surface of the linkage shaft 2 is reserved with two pairs of stop sheets 21, and the assembling barrel 3 can change between the stop sheets 21 and one end close to the connecting barrel 23.

The mounting structure comprises two pairs of fastening modules, and the two pairs of fastening modules are arranged on the outer wall surface of the linkage shaft 2 at equal intervals in a ring shape. Two pairs of fastening modules can be jointly engaged with the boss 101 under the manipulation of the fitting cylinder 3.

Referring to fig. 1 and 7, the mounting structure further includes a quick alignment module, the quick alignment module includes a circular truncated cone 111 fixedly connected to an end of the linkage shaft 2 and a second assembly plate 115 fixedly connected to an inner wall surface of the cylinder 10, the outer circumferential surface of the circular truncated cone 111 is screwed to the outer cylinder 112 through a slewing bearing, a third circular sloping surface is reserved on a left side surface of the outer cylinder 112, the outer cylinder 112 is embedded in the cylinder 10, a pair of first assembly plates 113 is arranged on another side wall of the circular truncated cone 111 in a mirror image manner, a first strong magnet 114 is fixedly connected to the first assembly plates 113, a second strong magnet 116 is fixedly connected to the second assembly plates 115, the first strong magnet 114 and the second strong magnet 116 attract each other, a contact surface of the first strong magnet 114 and the second strong magnet 116 and a vertical central line of a pair of vertical recesses on the boss 101 are coplanar, when the grinding wheel body 1 is assembled, the left side surface of the outer cylinder 112 has the third sloping surface, so that the cylinder 10 on the grinding wheel body 1 can be quickly fastened to the outer cylinder 112, and the boss 112 and the boss 101 and the rotary magnet 112 and the boss 101 rotate to be coplanar, so that the rotary joint of the rotary magnet 101 and the rotary magnet 1 is aligned to each other without the rotary joint of the rotary magnet 1.

The implementation mode is specifically as follows: in use, when the grinding wheel body 1 is assembled, the cylinder 10 on the grinding wheel body 1 is engaged with the linkage shaft 2 on the grinding equipment, because the left side surface of the outer cylinder 112 has the third slope surface, the cylinder 10 on the grinding wheel body 1 can be rapidly hooped on the outer cylinder 112, and the outer cylinder 112 and the circular table 111 are screwed through the rotary support, so that the grinding wheel body 1 rotates and attracts each other under the strong attraction of the first strong magnet 114 and the second strong magnet 116, then the notch on the boss 101 is opposite to the fastening port 51 on the fastening strip 5, the boss 101 is not needed to be calibrated, then the assembling cylinder 3 is pressed towards one side of the connecting cylinder 23, the two pairs of fastening strips 5 are respectively drawn together through the two pairs of linkage strips 4 to rotate, the fastening port 51 and the notch on the boss 101 are fastened, the cylinder 10 and the linkage shaft 2 are further fastened, and when the assembling cylinder 3 moves towards one side of the connecting cylinder 23, the movable platform 8 is pressed into the assembling port 22 through the second slope surface 81, the movable platform 8 is opposite to the movable platform 31, the movable platform 2 is pressed into the movable platform 31, and the movable platform 2 is inserted into the movable connecting port 31, and the movable platform 7 is inserted into the movable connecting platform 31, so that the movable platform 1 and the movable connecting platform 2 is inserted into the movable connecting platform 31, and the movable connecting platform 7 is rapidly inserted into the movable connecting platform 1, and the movable connecting platform 31, so that the movable platform 7 is inserted into the movable platform 1 and the movable connecting platform 1 and the movable joint.

When the grinding wheel body 1 is disassembled, the disassembling cylinder 6 is rotated, the disassembling cylinder 6 drives the wedge-shaped table 61 to move, the movable table I7 moves downwards under the pressing of the slope I611, the movable table II 8 moves downwards and presses the spiral beryllium copper wire I92, when the movable table I7 moves into the embedding port 31, the movable table II 8 moves into the assembling port 22, the assembling cylinder 3 moves towards one side of the stopping piece 21 under the cooperation of the spiral beryllium copper wire II 91, the fastening strip 5 is driven to rotate reversely through the linkage strip 4, the cylinder 10 and the linkage shaft 2 are disassembled from each other, and finally the grinding wheel body 1 is pulled out, so that the purpose of quickly disassembling the grinding wheel body 1 is achieved.

The foregoing shows and describes the general principles and features of the present invention, together with the advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A mounting structure for a grinding wheel, said mounting structure comprising:

one end of the cylinder (10) is fixedly connected with a hollow boss (101), and the other end of the cylinder (10) is fixedly connected with the grinding wheel body (1);

-a linkage shaft (2) and said cylinder (10) being adapted to each other;

the assembling barrel (3) is hooped on the outer surface of the linkage shaft (2) and can move towards the linkage shaft (2);

the fastening modules are arranged on the outer peripheral surface of the linkage shaft (2) at equal intervals in a ring shape and are connected with the assembling barrel (3), the fastening modules can be controlled to be buckled with the lug boss (101) by changing the assembling barrel (3), and then the cylinder (10) is buckled with the linkage shaft (2);

an engagement module which can stop the assembly cylinder (3) when the fastening module is fastened on the boss (101).

2. The mounting structure of a grinding wheel according to claim 1, wherein: fastening module contains linkage strip (4) and fastening strip (5), fastening strip (5) via the pin rod revolve and connect the outside of universal driving shaft (2), reserve on fastening strip (5) and detain interface (51), one end of linkage strip (4) via the pin rod revolve and connect on fastening strip (5), another via the pin rod revolve and connect the outside of an assembly section of thick bamboo (3), via the change an assembly section of thick bamboo (3), can drive two pairs jointly fastening strip (5) rotate, let then the notch in the boss (101) outside is detained in detaining interface (51) to this lets drum (10) and universal driving shaft (2) link up firmly.

3. The mounting structure of a grinding wheel according to claim 2, wherein: an assembly opening (22) is reserved on the side wall of the linkage shaft (2), an embedding opening (31) with two ends communicated with each other is reserved on the assembly barrel (3), the embedding module comprises a first spiral beryllium copper wire (92) and a second movable table (8) which are arranged in the assembly opening (22), the first spiral beryllium copper wire (92) is arranged between the bottom wall of the second movable table (8) and the bottom wall of the assembly opening (22), then one end of the second movable table (8) can be pressed to move away from the assembly opening (22), and when the embedding opening (31) is moved to be opposite to the assembly opening (22), one end of the second movable table (8) can be moved into the embedding opening (31), so that the assembly barrel (3) is fixedly connected with the linkage shaft (2).

4. A mounting structure of a grinding wheel according to claim 3, wherein: the mounting structure further comprises a disassembling module, the disassembling module comprises a disassembling barrel (6), a first movable table (7) and a wedge-shaped table (61), the first movable table (7) is movably arranged in the embedded port (31), a linking barrel (23) is arranged on the outer peripheral surface of the linkage shaft (2), after the fastening strip (5) and the cylinder (10) are fastened, the assembling barrel (3) is changed to a cavity between the linking barrel (23) and the linkage shaft (2), the linking port (231) with two through ends is reserved on the linking barrel (23), after one end of the second movable table (8) is moved to the inside of the embedded port (31), one end of the first movable table (7) can be pressed to move into the linking port (231), the assembling barrel (3) is connected with the linking barrel (23), the first movable table (6) is connected with the linking barrel (6) in the outer wall surface of the linking barrel (23), the first movable table (61) is arranged on the movable table (6) in the disassembling table, and the slope surface of the movable table (61) is pulled out, the first movable table (6) moves out, the slope surface of the linking port (231), and the movable table (6) is pulled out, the slope surface (61), and the linking table (61) moves out, and the first movable table (6) moves out, the linking port (6) and the linking table (6) moves out And then the second movable table (8) is pressed to move out of the embedded port (31).

5. The mounting structure of a grinding wheel according to claim 4, wherein: a second spiral beryllium copper wire (91) is arranged between the assembling cylinder (3) and the connecting cylinder (23).

6. The mounting structure of a grinding wheel according to claim 5, wherein: a slope surface II (81) is reserved on the movable table II (8), when the assembling cylinder (3) moves towards one side of the connecting cylinder (23), the assembling cylinder (3) can be attached to the slope surface II (81) and moves towards the slope surface II (81), and then the movable table II (8) is pressed into the assembling opening (22).

7. The mounting structure of a grinding wheel according to claim 1, wherein: the outer peripheral surface of the linkage shaft (2) is reserved with two stop sheets (21), and two pairs of stop sheets (21) are arranged on the linkage shaft (2), so that the assembling barrel (3) can move between the stop sheets (21) and one end close to the connecting barrel (23).

8. The mounting structure of a grinding wheel according to claim 1, wherein: the mounting structure comprises two pairs of fastening modules, and the two pairs of fastening modules are arranged on the outer wall surface of the linkage shaft (2) at equal intervals in a ring shape.

9. The mounting structure of a grinding wheel according to claim 1, wherein: mounting structure still contain the quick module of counterpointing, the quick module of counterpointing contains and links firmly round platform (111) of universal driving shaft (2) tip and the assembly piece two (115) of linking firmly on drum (10) interior wall face, go up the outer peripheral face of round platform (111) and connect urceolus (112) soon via slewing bearing, the domatic three of circle form is reserved to the left surface of urceolus (112), urceolus (112) are inlayed in the inside of drum (10), a pair of assembly piece one (113) is being installed to the mirror image on the another side wall of round platform (111), link firmly strong magnet one (114) on assembly piece one (113), link firmly strong magnet two (116) on assembly piece two (115), strong magnet one (114) and strong magnet two (116) actuation each other, strong magnet one (114) and strong magnet two (116) the contact surface and the vertical central line of a pair of vertical coplane on boss (101).