KR102032538B1 - Assembly for grinding wheel with multi arrange type - Google Patents

Abstract

The present invention relates to a multi-arrangement grinding wheel assembly to have an assembly structure capable of variable adjustment by a plurality of grinding stones on a single rotary shaft mounted on a lathe and positions of machining portions of a workpiece (60) while sturdily assembling the grinding stones to grind machining surfaces (61) which are a plurality of separated machining portions on the surface of the workpiece when grinding or in a grinding process to increase the surface roughness of the workpiece by the lathe or a grinding machine. The multi-arrangement grinding wheel assembly (10) comprises a wheel body (100), a first grinding stone (20a), a first binding body (200), a second binding body (300), and a second grinding stone (20b) and has an integrated coupling structure. The integrated grinding wheel assembly (10) is used to simultaneously grind a plurality of grinding portions in a single process to smoothly machine the surfaces of the grinding portions of the workpiece and maximally increase roughness. In order to simultaneously perform grinding processes of two or more separated machining surfaces (61) on a single workpiece in a process of grinding the surface of the workpiece (60) by a grinding apparatus (50), the number of grinding stones for grinding the machining surfaces (61) mounted on a single grinding wheel assembly (10) is equal to the number of the machining surfaces (61) to simultaneously grind the machining surfaces (61).

Description

Multi-stage polishing wheel assembly {ASSEMBLY FOR GRINDING WHEEL WITH MULTI ARRANGE TYPE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi-stage polishing wheel assembly, and more particularly, to polish a processing surface that is a plurality of processing portions spaced apart from the surface of a workpiece during a grinding or grinding process to increase the roughness of the workpiece surface in a lathe or a grinding machine. Polishing a plurality of polishing sites simultaneously in one process using an integrated polishing wheel assembly with an assembly structure that can be variably adjusted according to the position of the workpiece processing part while solidly assembling a plurality of abrasive stones on one rotating shaft mounted on the lathe The present invention relates to a multi-stage polishing wheel assembly, which allows the surface of the workpiece to be smoothly processed and at the same time increases the roughness.

In general, the surface of the workpiece is processed by transferring the power to bite, abrasive stone, etc. by turning the workpiece on the lathe for machining the surface of the workpiece, and at this time, Polishing Work or Grinding Work It is a processing method to trim the surface of an object to the desired shape and dimensions.

In general, the polishing process is to fix the frame to the polishing machine, attach a workpiece to the frame, and then polish the surface of the workpiece with a polishing wheel to improve the roughness while polishing the surface of the workpiece.

In general, the grinding device is a device for polishing the surface of the workpiece, such as various metal parts by the rotational force of the polishing wheel.

Such a conventional polishing apparatus mounts a workpiece on a mounting part and polishes a workpiece by a grinding wheel while the movable block moving forward and backward by a rod of a fixed or rotating cylinder flows out or flows into the polishing chamber while the workpiece is pressed and fixed. It will be processed.

At this time, the polishing wheel is to be polished to the surface of the workpiece while rotating by the drive motor. In other words, the workpiece is polished around the polishing site, the periphery of one working surface by the polishing wheel.

Therefore, in the conventional polishing apparatus, after machining one machining surface in order to polish two machining surfaces to the work, the workpiece is remounted at the mounting part so that the new machining surface is positioned at the position of the polishing wheel and then polished again in the polishing chamber. Since the grinding work by the two machining processes to be processed takes a lot of time, there was a problem that the processing and production efficiency is lowered.

In addition, the processing surface should be processed by mounting the abrasive stone proportional to the width of the polishing stone constituting the polishing wheel corresponding to the width of the workpiece processing surface to the polishing wheel, when the processing surface has a different width on one workpiece After machining one machining surface through the wheel, the work position is changed, and at the same time, the abrasive wheel having the width of the grinding stone corresponding to the width of the other machining surface is again cumbersome to be mounted on the grinding wheel.

In this regard, the present inventors have endeavored to develop a polishing wheel assembly that increases the processing and production efficiency because two machining surfaces are simultaneously polished in one machining.

1. Republic of Korea Patent No. 1149586 (Invention name: disc fixing module for rough machining) 2. Republic of Korea Patent No. 1558483 (Invention name: grinding wheel assembly for grinding machine) 3. Republic of Korea Patent No. 1900817 (Name of the invention: Dual-type grinding wheel and its manufacturing method)

An object of the present invention is to solve the problems of the prior art as described above, when simultaneously polishing a plurality of processing surfaces on the workpiece at the same time without changing the position of the workpiece and the polishing wheel at the same time to reduce the work time by half The aim is to significantly improve processing and production efficiency.

In addition, by using a single fastening and fixing means to the rotating shaft for transmitting power to a plurality of abrasive stones mounted on the abrasive wheel assembly of the present invention to solve the obstacles due to the vibration of the abrasive wheel itself during machining Its purpose is to extend operator stability and the surface of the polishing wheel assembly.

In order to solve the problems described above, the problem is solved through the following embodiments.

According to the present invention, one side portion is connected to the center of the cylindrical cover portion and the other side of the cover portion and extends to a predetermined horizontal length, and has an outer diameter smaller than the outer diameter of the cover portion in the center of the first mounting portion and the other side of the first mounting portion. Connected to extend a predetermined horizontal length and formed in one body in the order of a cylindrical binding portion having an outer diameter smaller than the outer diameter of the first mounting portion, the first penetrating through the inside from the center of one side of the cover portion A first body in which a plurality of bolt holes are horizontally penetrated to a first step surface of the other side of the first mounting part, around the first fastening hole and the first fastening hole of the cover part;

A first abrasive stone having a cylindrical shape in which a first insertion hole corresponding to the outer diameter and the width of the first mounting portion penetrates the center of both sides so as to be bound to the first mounting portion of the wheel body;

A first binding hole having an inner diameter equal to the outer diameter of the binding portion is formed to penetrate through the center of the entire both sides so as to be coupled to one outer peripheral surface of the binding portion of the wheel body, and the inner side of the cylindrical shape having the same outer diameter to the outer diameter of the cover portion while being adjacent to the cover portion. It is connected to the center of the cover portion and the other inner side of the inner cover portion is extended to a predetermined horizontal length and composed of a cylindrical second mounting portion having the same outer diameter as the outer diameter of the first mounting portion is the position corresponding to the first bolt hole A first binding body of one body in which a second bolt hole penetrates to the other side of the second mounting portion around the first binding hole of the cover portion,

A second binding hole having an inner diameter equal to the outer diameter of the binding portion is formed to penetrate through the center of the both sides so as to be coupled to the other outer peripheral surface of the binding portion of the wheel body, and one end of the second mounting portion is in close contact with the other end of the second mounting portion. The first outer side having the same outer diameter to the outer diameter of the mounting portion and having a same outer diameter to the outer diameter of the inner cover portion while being connected to the inner side of the third mounting portion of the cylindrical shape extending to a predetermined horizontal length and the other side of the third mounting portion. A second binding body of one body having a cover part and having a third bolt hole penetrating to the other side of the first outer cover part around the second binding hole of the third mounting part, which is a position corresponding to the second bolt hole,

In the outer diameter and the width of the second mounting portion and the third mounting portion so as to be engaged in the entire length direction of the second mounting portion and the third mounting portion formed between the inner cover portion of the first binding body and the first outer cover portion of the second binding body. A cylindrical second abrasive stone in which a corresponding second insertion hole penetrates the center of both sides, and

The wheel body, the first polishing stone, the first binding body, the second polishing stone, and the first bolt hole of the wheel body, the second bolt ball of the first binding body and the third bolt ball of the second binding body in order. Provided is a multi-stage polishing wheel assembly including fastening means fastened by a number corresponding to the number of first bolt balls while integrally coupling two binding bodies.

In addition, the binding unit of the wheel body further extends horizontally and at least one is arranged in the binding unit extending the coupling unit of the first binding body and the second binding body, wherein the number of abrasive stones corresponding to the number of the coupling unit is Provided is a multi-stage polishing wheel assembly fastened by fastening means having a corresponding length to engage and to be sequentially connected through a first bolt hole.

In addition, a first abrasive stone having a smaller width than the outer peripheral surface width of the first abrasive stone is mounted, the first abrasive stone having an inner peripheral surface of the first insertion hole corresponding to the outer peripheral surface width of the first abrasive stone is the first mounting portion of the wheel body A cylindrical shape having an outer diameter equal to the outer diameter of the cover part while the first connection hole corresponding to the width of the remaining mounting surface S1 except for the outer circumferential surface of the first mounting part to which the first abrasive stone is bound passes through the center of both sides. It provides a multi-stage polishing wheel assembly further comprises a first connection of the.

In addition, a second abrasive stone having a smaller width than the outer peripheral surface width of the second abrasive stone is mounted, the second abrasive stone having an inner peripheral surface of the second insertion hole corresponding to the outer peripheral surface width of the second abrasive stone is the first binding body The second connection hole is coupled to the second mounting portion or the third mounting portion of the second binding body, and the second connection hole corresponding to the width of the remaining mounting surface S2 except for the outer circumferential surface of the second mounting portion or the third mounting portion outer circumferential surface where the second polishing stone is bound Provided is a multi-stage polishing wheel assembly further comprising a circumferential second connecting portion having an outer diameter equal to the outer diameter of the inner cover portion or the first outer cover portion while penetrating the center thereof.

In addition, a first abrasive stone having a larger width than the outer peripheral surface width of the first abrasive stone is mounted, the first abrasive having an inner peripheral surface of the first insertion hole corresponding to the outer peripheral surface width of the first abrasive stone is the first mounting portion of the wheel body Bound to,

A cylindrical type having a width corresponding to the width of the remaining insertion surface P1 except for the outer circumferential surface of the first insertion hole first insertion hole interviewed on the outer circumferential surface of the first mounting portion and interviewing the other side of the first mounting portion facing one side. Connected to the center of the connecting portion and the other side of the connecting portion is composed of a connecting cover portion having the same outer diameter to the outer diameter of the cover portion to have the same outer diameter to the outer diameter of the binding portion so as to bind to the binding portion of the wheel body A plurality of third connection holes penetrating to the center of the side portion and the outer peripheral circumference of the third connection hole formed in the center of one side portion of the third connection portion are formed so as to be spaced in the circumferential direction corresponding to the first bolt hole formed on the first step surface of the wheel body Further comprising an integral first connection body having a fourth bolt hole penetrating to the outer periphery of the center of the other side of the connection cover portion;

The stepped screw hole having a thread formed inside the first fastening hole formed at the other side of the body coupling portion horizontally to the other side or the other side of the binding portion of the wheel body to a length corresponding to the horizontal length of the third connecting hole of the first connecting body It is formed to communicate with the first fastener and connected to the first fastening portion formed on the outer circumferential surface to be screwed into the screw hole and the other side of the first fastening portion exposed by the screw hole and having the same outer diameter as the outer diameter of the fastening portion of the wheel body. An extension part is formed so as to communicate with the first fastening hole of the wheel body and have the same inner diameter as the inner diameter of the first fastening hole so that a second fastening hole penetrating from the center of one side of the first fastening part to the center of the other side of the extension part is formed. Provided is a multi-stage polishing wheel assembly including a first connection socket.

In addition, a second fastening portion having a screw thread formed on an outer circumferential surface of the wheel body is formed such that a stepped screw hole having a screw thread formed inside the first fastening hole formed at the other side of the fastening portion of the wheel body communicates with the first fastening hole. And a circumferential fourth mounting portion and the fourth mounting portion having one outer side connected to the other side of the second fastening portion exposed by the screw hole and extending to a predetermined horizontal length and having the same outer diameter to the outer diameter of the third mounting portion of the second binding body. A second outer cover part which is connected to the other side of the first outer cover part and has a second outer cover part having an outer diameter equal to the outer diameter of the first outer cover part, and is a position corresponding to the first fastening hole of the wheel body; The fourth mounting portion one side second so as to correspond to the third fastening hole and the third bolt hole of the second fastening body having an inner diameter equal to the inner diameter of the first fastening hole while penetrating to the center of the other outer portion of the second outer cover part. And a third coupling body in which the second outer cover parts of the third fastener plurality spaced around the circumference by penetrating the horizontal in a circumferential direction one fifth bolt holes formed in the difference plane,

The multi-stage polishing wheel assembly further includes a cylindrical grinding wheel having a third insertion hole corresponding to the outer diameter and the width of the fourth mounting portion penetrating the center of both sides to be coupled to the fourth mounting portion of the third binding body. to provide.

In addition, the stepped screw hole formed with a screw thread inside the first fastening hole formed in the other side of the binding portion of the wheel body is formed so as to communicate with the first fastening hole, the stepped cylindrical contact grooves on the outer peripheral end of the other side of the binding portion Formed,

An expansion pipe having an inner diameter larger than the inner diameter of the first fastener is formed while having an outer diameter equal to the outer diameter of the binding unit and having a larger inner diameter than the inner diameter of the first fastening tool. A thread is formed on the outer circumferential surface so as to be connected to the inner circumferential side of one side of the first coupling portion to form a column-shaped inclined cut-off surface of which the inner diameter gradually decreases, and to be screwed to the other side of the screw hole. A third fastening portion having a coupling tool formed therein so as to be in communication with the expansion tool and the first fastening member, and being connected at an outer circumferential end of one side of the first coupling part, and a close groove is formed between the outer circumferential surface and the inner circumferential surface of the third fastening portion. A binding groove is formed so that the end of the binding portion is formed so that the end of the binding portion is fitted into the binding groove, and the outer circumferential surface thereof has the same outer diameter as that of the binding portion. Complex doedoe provided with a guide body having a structure of integrally including a, and the length of the first coupling part protruding portion side of the guide body protrudes with a longer length than the contact portion length,

An expansion pipe tight part having an expansion hole having a shape corresponding to the outer circumferential surface on the inner circumferential surface of the guide body and having an outer circumferential surface shape corresponding to the expansion lubrication tool and the inclined cut-off surface by being closely connected to the inner circumferential surface of the expansion pipe holding tool; A second coupling part connected at one side of the expansion pipe tight part and closely attached to the inner peripheral surface of the coupling hole of the third fastening part, and an outer circumferential surface of the second coupling part at one side thereof is protruded to be screwed to one side of the coupling screw hole. An expansion pipe body having an integral structure including a fourth fastening portion having a thread formed therein is formed, and communicates with the expansion pipe through the inside of the second coupling portion at the center of one side of the fourth fastening portion, the same as the inner diameter of the first fastening hole. Provided is a multi-stage polishing wheel assembly in which a fourth fastener having an inner diameter is formed.

Meanwhile, an integral unit of the third fastening portion and the close contact portion formed on one side of the guide body is connected to the other side of the guide body in a symmetrical direction, and an integral unit of the second coupling portion and the fourth fastening portion formed on one side of the expansion coupling body. Is connected to the other side of the expandable coupling body in the right and left symmetrical to provide a multi-stage polishing wheel assembly that is the same shape as the wheel body and the coupling portion of the other wheel body of the left and right symmetry is coupled.

The present invention is a rotary multi-stage array type in which a plurality of abrasive stones are coupled in front of the workpiece while the workpiece is fixed in the form of a fixed, free rotation or power rotation by mounting the workpiece in the form of outflow or inflow into the polishing chamber. The grinding wheel assembly is configured for simultaneous grinding at once, so that there is no change in the position of the workpiece and the machining surface located in plural parts of the workpiece without changing the grinding wheel of the grinding wheel, that is, the plane processing surface, the cylindrical processing surface or the length and the long diameter Simultaneous grinding of small tubular machining surfaces at once reduces cutting time by half, and greatly improves processing and production efficiency.

1 is an exemplary installation of the multi-stage polishing wheel assembly of the present invention installed in a polishing apparatus.
Figure 2 is a front view showing the structure of a multi-stage polishing wheel assembly of the present invention.
Figure 3 is a cross-sectional view showing the structure of a multi-stage polishing wheel assembly of the present invention.
Figure 4 is an exploded cross-sectional view showing the structure of the multi-stage polishing wheel assembly of the present invention.
Figure 5 is an exploded perspective view showing the structure of the multi-stage polishing wheel assembly of the present invention.
6 is a front view showing a structure in which the first connection portion is installed in the multi-stage polishing wheel assembly of the present invention.
7 is a cross-sectional view showing a structure in which the first connection portion is installed in the multi-stage polishing wheel assembly of the present invention.
FIG. 8 is a cross-sectional view illustrating a structure in which the first connection part is installed in the multi-stage polishing wheel assembly of the present invention.
9 is a front view showing a structure in which the second connection portion is installed in the multi-stage polishing wheel assembly of the present invention.
10 is a cross-sectional view showing a structure in which the second connection portion is installed in the multi-stage polishing wheel assembly of the present invention.
FIG. 11 is a cross-sectional view illustrating a structure in which a second connection part is installed in the multi-stage polishing wheel assembly of the present invention.
12 is a cross-sectional view showing a structure in which the first connection body is installed in the multi-stage polishing wheel assembly of the present invention.
Figure 13 is a separate coupling cross-sectional view showing a structure in which the first connecting body is installed in the multi-stage polishing wheel assembly of the present invention.
14 is a cross-sectional view showing a structure in which the first connection body and the first connection socket are installed in the multi-stage polishing wheel assembly of the present invention.
FIG. 15 is a cross-sectional view illustrating a structure in which a first connection body and a first connection socket are installed in a multi-stage polishing wheel assembly according to the present invention.
16 is a front view showing a structure in which the third binding body and the third polishing stone are installed in the multi-stage polishing wheel assembly of the present invention.
17 is a cross-sectional view showing a structure in which the third binding body and the third polishing stone are installed in the multi-stage polishing wheel assembly of the present invention.
Figure 18 is a separate coupling diagram showing a structure in which the third binding body and the third polishing stone is installed in the multi-stage polishing wheel assembly of the present invention.
Figure 19 is a front view showing a structure in which the guide body and the expansion coupling body is installed in the multi-stage polishing wheel assembly of the present invention.
20 is a cross-sectional view showing a structure in which the guide body and the expansion coupling body are installed in the multi-stage polishing wheel assembly of the present invention.
21 is an exploded coupling diagram showing a structure in which the guide body and the expansion coupling body are installed in the multi-stage polishing wheel assembly of the present invention.

In order to achieve the above object, the following embodiments will be described in detail with reference to the accompanying drawings.

In the multi-stage arrangement of the present invention, the polishing wheel assembly 10 is a polishing wheel assembly 10 mounted to a polishing device 50 such as a lathe, a polishing machine, etc., as shown in the exemplary diagram of FIG. One polishing wheel assembly 10 for simultaneously performing a polishing process on two or more processing surfaces 61 spaced apart from one work piece 60 in the process of machining the surface polishing of the work piece 60 as a work piece). The abrasive stone for polishing the processed surface 61 is mounted in a number corresponding to the number of the processed surfaces 61 so as to perform simultaneous polishing.

Looking at the overall structure of the present invention, as shown in Figures 2 to 5, one side portion is connected to the center of the cylindrical cover portion 110 and the other side of the cover portion 110 is extended to a predetermined horizontal length cover portion ( The outer diameter smaller than the outer diameter of 110 is connected to the center of the first mounting portion 120 and the other side of the first mounting portion 120 of the cylindrical shape and is extended to a predetermined horizontal length while being smaller than the outer diameter of the first mounting portion 120. The first fastener 101 is formed in one body in the order of the columnar binding unit 130 having an outer diameter and penetrates from the center of one side of the cover unit 110 to the center of the other side of the binding unit 130. A body 100 in which the plurality of first bolt holes 102 penetrates horizontally to the first step surface 121 of the other side of the first mounting part around the first fastening hole 101 of one side of the cover part 110; Wow,

Cylindrical first polishing stones in which the first insertion hole 21a corresponding to the outer diameter and the width of the first mounting portion 120 penetrates the centers of both sides to be coupled to the first mounting portion 120 of the wheel body 100. (20a); and,

The first binding hole 201 having an inner diameter equal to the outer diameter of the binding unit 130 is formed to penetrate through the centers of both sides so as to be coupled to one outer peripheral surface of the binding unit 130 of the wheel body 100. The first mounting part is connected to the center of the inner cover portion 210 and the other side of the inner cover portion 210 of the cylindrical shape having the same outer diameter to the outer diameter of the cover portion 110 and adjacent to 110 and extending to a predetermined horizontal length. Around the first binding hole 201 of the inner cover part 210, which is composed of a cylindrical second mounting portion 220 having the same outer diameter as the outer diameter of 120 and corresponding to the first bolt hole 102. A first binding body 200 of one body through which the second bolt hole 202 penetrates to the other side of the second mounting portion 220; and,

The second binding hole 301 having an inner diameter equal to the outer diameter of the binding unit 130 is formed to penetrate through the centers of both sides to be coupled to the other outer peripheral surface of the binding unit 130 of the wheel body 100, and the second mounting unit One end portion of the other end portion is in close contact with the other end portion and has the same outer diameter with the outer diameter of the second mounting portion 220, and has a cylindrical third mounting portion 310 and the third mounting portion extending to a predetermined horizontal length. (310) It is connected to the other side is composed of a first outer cover portion 320 facing the inner cover portion 210 and having the same outer diameter to the outer diameter of the inner cover portion 210 to the second bolt hole 202 The second binding body of the body in which the third bolt hole 302 penetrates to the other side of the first outer cover part 320 around the second binding hole 301 of the third mounting part 310, which is a corresponding position ( 300);

The entirety of the second mounting portion 220 and the third mounting portion 310 formed between the inner cover portion 210 of the first binding body 200 and the first outer cover portion 320 of the second binding body 300. A circumferential second abrasive stone 20b through which a second insertion hole 21b corresponding to the outer diameter and the width of the second mounting portion 220 and the third mounting portion 310 passes through the center of both sides to be bound in the longitudinal direction; And,

Pass through the first bolt ball 102 of the wheel body 100, the second bolt ball 202 of the first binding body 200 and the third bolt ball 302 of the second binding body 300 in the order. The number of the first bolt holes 102 by combining the wheel body 100, the first abrasive stone 20a, the first binding body 200, the second polishing stone 20b and the second binding body 300 integrally It provides a multi-stage polishing wheel assembly (10, hereinafter referred to as "abrasive wheel assembly") that includes; fastening means 30 is fastened to the number corresponding to (iii).

As shown in FIGS. 3 to 5, the abrasive wheel assembly 10 of the present invention includes a wheel body 100, a first polishing stone 20a, a first binding body 200, a second binding body 300 and a second body. It has an integral coupling structure composed of the abrasive stone 20b.

As shown in FIG. 4 and FIG. 5, the wheel body 100 has a structure of one body composed of a cover part 110, a first mounting part 120, and a binding part 130. As a cylindrical disk shape, the outer circumferential surface is formed in a horizontal plane, the first mounting portion 120 is formed in a cylindrical shape in which one side portion is connected to the center of the other portion facing one side portion of the cover portion 110 and extends to a predetermined horizontal length. As an outer diameter of the cover part 110, the binding part 130 is connected to the center of the other side of the first mounting part 120 and has a cylindrical shape extending to a predetermined length. It has a smaller outer diameter than the outer diameter of the mounting portion 130.

Thus, the wheel body 110 is a structure of one body that is connected in the order of the cover unit 110, the first mounting unit 120 and the binding unit 130, the binding unit in the center of one side of the cover unit 110 ( 130) the first fastening hole 101 penetrates horizontally to the center of the other side, and the rotation shaft 40 which transmits power through the first fastening hole 101 is inserted and rotated to rotate the wheel body 100. A power generating unit (not shown) is directly or indirectly connected to an end of the rotating shaft 40 to transmit power to the rotating shaft 40.

A plurality of first bolt holes 102 are formed to penetrate horizontally to the first step surface 121 of the other side of the first mounting part in the circumferential direction around the first fastener 101 of one side of the cover part 110, The first stepped surface 121 is a position at which the binding unit 130 is connected, and if one side of the binding unit 130 is connected to the inner outer surface of the other side of the first mounting unit 120, the outer side of the other side of the first mounting unit 120 is connected. Corresponds to

4 and 5, the first polishing stone 20a is inserted into and coupled to the first mounting portion 120 of the wheel body 100, and the outer circumferential surface is interviewed with the machining surface 61 of the work piece 60. As polishing, first insertion holes 21a penetrating through the centers of both sides of the first abrasive stone 20a are formed, and the inner diameter of the first insertion holes 21a is equal to the outer diameter of the first mounting part 120. While the inner diameter of the first grinding stone (20a) is a horizontal horizontal length of the inside of the first insertion hole (21a) of the first polishing stone (20a) so that it is precisely bound to the width, which is the horizontal length of the first mounting portion 120 without step The width is the same as the width of the first mounting portion 120.

The diameter of the first abrasive stone 20a has a larger diameter than the diameter of the cover part 110 of the wheel body 100 so that the outer peripheral surface of the first abrasive stone 20a interviews the machined surface 61 of the workpiece 60. Polishing

4 and 5, the first binding body 200 is inserted into and coupled to one outer circumferential surface of the binding unit 130 of the wheel body 100, and the entire outer circumferential surface of the binding unit 130 is left. The first binding body 200 is located on one side of the outer peripheral surface and the other outer peripheral surface of the right side and the binding unit is located, the inner cover portion 210 and the second mounting portion 220 has a structure of one body A first binding hole 201 having the same inner diameter is formed in the outer diameter of the binding portion 130 of the wheel body 100 while penetrating from the center of one side of the inner cover portion 210 to the other portion of the second mounting portion 220. The binding unit 130 is inserted and coupled to one outer peripheral surface.

The inner cover portion 210 is adjacent to the cover portion 110 of the wheel body 100 and has the same diameter and outer diameter as the diameter and outer diameter of the cover 110, the wheel through the first binding hole (201) The outer peripheral surface of the first binding hole 201 formed on one side of the inner cover part 210 is inserted and coupled to one outer peripheral surface of the binding part 130 of the body 100, and the first mounting part 120 of the wheel body 100 is formed. The first stepped surface 121 is in close contact with and intermittent.

The first mounting part 120 is connected to extend from the center of the other side of the inner cover portion 210 to a predetermined length, the outer diameter of the first mounting portion 120 is smaller than the outer diameter of the inner cover portion 210 It has, but has the same outer diameter as the outer diameter of the first mounting portion 120 of the wheel body (100).

The first bolt hole 202 formed in the circumference of the first binding hole 201 formed in the center of one side portion of the inner cover portion 210 in the circumferential shape of the first mounting hole 120 201) the first bolt hole 202 is formed in a shape corresponding to the first bolt hole 202 formed on the first stepped surface 121 of the first mounting part 120 of the wheel body 100 while horizontally penetrating toward the outer periphery.

4 and 5, the second binding body 300 has the same structure as the first binding body 200 by being inserted into and coupled to the outer peripheral surface of the binding part 130 of the wheel body 100. The first binding body 200 is disposed on the other outer circumferential surface of the binding unit 130 in the left and right symmetry, and has a total length corresponding to the length of the other outer circumferential surface of the binding unit 130, and the third mounting unit 310 and the first outer side. The binding unit 130 of the wheel body 100 has a structure of one body having a cover 320 and penetrates from the center of one side of the third mounting part 310 to the center of the other side of the first outer cover part 320. A second binding hole 301 having the same inner diameter in the outer diameter is formed and inserted into and coupled to the outer peripheral surface of the other side of the binding unit 130.

The third mounting portion 310 has a cylindrical shape, and when the binding portion 130 is bound to the other outer peripheral surface of the second mounting portion 220, the outer peripheral end of the second mounting portion 220 is in close contact with the outer peripheral end of one side of the third mounting portion 310. The outer diameter of the third mounting portion 310 has the same outer diameter as that of the second mounting portion 220.

The first outer cover portion 320 is connected to the center of the other side portion of the third mounting portion 310 and protrudes in the circumferential direction, the inner cover portion having the same outer diameter to the outer diameter of the inner cover portion 210 ( Is formed to face 210.

The third bolt hole 302 formed in a plurality of equal intervals in the circumferential direction in the peripheral circumference of the second binding hole 301 formed at the center of the other side of the third mounting part 310 is the other side of the first outer cover part 320. It is formed in a shape corresponding to the number and position of the second bolt hole 202 formed in the second mounting portion 220 while penetrating horizontally around the center of the second binding hole 301.

As shown in FIGS. 4 and 5, the second polishing stone 20b includes a second mounting part 220 and a first mounting part 220 of the first binding body 200 coupled to the binding part 130 of the wheel body 100. The second mounting portion 310 of the binding body 300 is coupled to the second and third mounting portions 220 and 310 coincident in the entire longitudinal direction, and the same as the outer diameter of the second and third mounting portions 220 and 310. As the second insertion hole 21b having an inner diameter is formed through the center of both sides, the second polishing stone 20a is precisely bound to the width, which is the left and right horizontal lengths of the second and third mounting parts 220 and 310, without stepping. The width of the left and right horizontal lengths in the second insertion hole 21b of the second polishing stone 20b has the same width as that of the second and third mounting parts 220 and 310.

The diameter of the second abrasive stone 20b has a larger diameter than the diameter of the inner / first outer cover parts 210 and 320 of the first and second binding bodies 200 and 300 and thus the second abrasive stone 20b. The outer circumferential surface is polished by interviewing the processing surface 61 of the workpiece 60, and may be formed the same, smaller or larger than the diameter of the first abrasive stone 20a and the horizontal length of the outer peripheral surface, which is the workpiece 60 According to the shape of the processing surface 61 of the second abrasive stone 20b having a corresponding shape can be used.

3 to 5, the fastening means 30 includes a first bolt hole 102 of the wheel body 100, a second bolt hole 202 and a second of the first binding body 200. Passes in the order of the third bolt hole 302 of the binding body 300, the wheel body 100, the first polishing stone 20a, the first binding body 200, the second polishing stone 20b and the second binding body While integrally coupling the 300, the number of bolts corresponding to the number of the first bolt hole 102 is fastened, and the first bolt hole of the wheel body 100 through the fastening means 30 ( 102, the first mounting portion 120 of the wheel body 100 by fastening and fixing the second bolt hole 202 of the first binding body 200 and the third bolt hole 302 of the second binding body 300. The first polishing stone 20a coupled to both sides of the cover part 110 of the wheel body 100 and the inner cover part 210 of the first binding body 200 are tightly pressed to each other. ) Is fixed, and the amount of the second abrasive stone 20b coupled to the second and third mounting parts 220 and 310 of the first and second binding bodies 200 and 300. A is fixed to the inner cover portion 210 and the second first outer cover portion 320 and a second grinding stone (20b) respectively firmly contact pressure of the coupling body 300 of the first coupling body 200.

Moreover, when the number of the process surfaces 61 of the workpiece | work 60 is provided in two or more of the above-mentioned, it will have an arrangement structure as follows.

An integral coupling unit to which the first and second binding bodies 200 and 300 and the second polishing stone 20b are coupled is coupled to the binding unit 130 of the wheel body 100, and the wheel body 100 The binding unit 130 has a form that extends further.

More specifically, the binding unit 130 of the wheel body 100 further extends horizontally to the binding unit 130 extending the coupling unit of the first binding body 200 and the second binding body 300 is extended. At least one is arranged, wherein the fastening means having a corresponding length such that the abrasive stone is coupled and sequentially connected through the first bolt hole 102 in a number corresponding to the number of coupling units ( 30) to provide a polishing wheel assembly 10 which is fastened to it.

6 to 8, a first abrasive stone 20a having a smaller width than that of the outer peripheral surface of the first abrasive stone 20a is mounted and corresponding to the outer peripheral surface width of the first abrasive stone 20a. A first abrasive stone 20a having an inner circumferential surface of the first insertion hole 21a is coupled to the first mounting portion 120 of the wheel body 100, but the first mounting portion 120 to which the first abrasive stone 20a is bound. Circumferential first connection portion 400a having an outer diameter equal to the outer diameter of the cover portion 110 while the first connection hole 401 corresponding to the width of the remaining mounting surface S1 except for the outer circumferential surface thereof passes through the center of both sides. Provides a polishing wheel assembly 10 further comprises a).

The first polishing stone 20a having a small outer circumferential surface width, which is a polishing surface, is mounted on the first mounting portion 120 of the wheel body 100 to correspond to the inner circumferential surface width of the first insertion hole 21a of the first polishing stone 20a. The first connecting portion 400a is inserted into and coupled to the mounting surface S1, which is the other outer peripheral surface of the first mounting portion 120 except for the outer peripheral surface of one side of the first mounting portion 120, and the first connecting portion 400a has both sides. The first connection hole 401 having the same inner diameter is formed in the outer diameter of the first mounting portion 120 while penetrating and inserted into the mounting surface S1 of the first mounting portion 120, and the outer diameter of the first connecting portion 400a. Has the same outer diameter to the outer diameter of the cover portion 110 of the wheel body 100 when coupling the abrasive wheel assembly 10 through the fastening means 30 both sides of the first abrasive stone (20a) wheel body 100 The cover portion 110 and the first connection portion 400a of each is strongly pressed to fix the first polishing stone 20a.

In addition, as shown in FIGS. 9 to 11, the second abrasive stone 20b having a smaller width than the outer peripheral surface width of the second abrasive stone 20b is mounted, and corresponds to the outer peripheral surface width of the second abrasive stone 20b. The second abrasive stone 20b having the inner circumferential surface of the second insertion hole 402 is bound to the second mounting portion 220 of the first binding body 200 or the third mounting portion 310 of the second binding body 300. The second connection hole 402 corresponding to the width of the remaining mounting surface S2 excluding the outer circumferential surface of the second mounting portion 220 or the outer circumferential surface of the third mounting portion 310 to which the second abrasive stone 20b is bound is centered on both sides. It provides a polishing wheel assembly 10 further comprises a cylindrical second connection portion 400b having an outer diameter equal to the outer diameter of the inner cover portion 210 or the first outer cover portion 320 while penetrating through.

The second abrasive stone 20b having a small outer circumferential surface width, which is a polishing surface, is mounted on the second and third mounting parts 220 and 310 of the first and second binding bodies 200 and 300, and the second abrasive stone 20b One side outer circumferential surface of the second mounting portion 220 corresponding to the inner circumferential surface width of the second insertion hole 21b, one outer circumferential surface of the third mounting portion 310 or one outer circumferential surface of the entire length of the second and third mounting portions 220 and 310. The mounting surface S2 which is the other outer peripheral surface of the second mounting portion 220, the mounting surface S2 which is the other outer peripheral surface of the third mounting portion 310 or the mounting surface which is the other outer peripheral surface of the second and third mounting portions 220 and 310 full length. The second connector 400b is inserted into and coupled to the second connector 400b, and the second connector 400b penetrates both sides, and has a second connector hole having the same inner diameter at the outer diameter of the second and third mounting parts 220 and 310. A 402 is formed to be inserted into the mounting surface S2 of the second and third mounting parts 220 and 310, and the outer diameter of the second connection part 400b may be defined by the first and second binding bodies 200 and 300. Outer diameter equal to outer diameter of inner / first outer cover parts 210 and 320 When the polishing wheel assembly 10 is coupled through the fastening means 30, both surfaces of the second polishing stone 20b may be disposed on the inner cover portion 210 and the second connection portion 400b of the first binding body 200. The second outer connecting portion 400b and the first outer cover portion 320 of the second binding body 300 are firmly pressed against each other to fix the second polishing stone 20b.

12 to 15, a first abrasive stone 20a having a larger width than that of the outer peripheral surface of the first abrasive stone 20a is mounted and corresponding to the outer peripheral surface width of the first abrasive stone 20a. The first abrasive stone 20a having the inner circumferential surface of the first insertion hole 21a is bound to the first mounting portion 120 of the wheel body 100,

The first side facing one side having a width corresponding to the width of the remaining insertion surface P1 except for the inner circumferential surface of the first abrasive hole 20a and the first insertion hole 21a that is interviewed on the outer circumferential surface of the first mounting portion 120. A connecting cover portion 520 having the same outer diameter as the outer diameter of the cover 110 is connected to the center of the third connection portion 510 of the cylindrical shape and the other side of the third connection portion 510 to be interviewed on the other side of the mounting portion 120. And having the same outer diameter as the outer diameter of the binding unit 130 so as to be bound to the binding unit 130 of the wheel body 100, and at the center of one side of the third connection part 510, the other side of the connection cover part 520. A plurality of wheel bodies 100 are formed while being spaced apart in a circumferential direction on a peripheral outer circumference of the third connection hole 501 and a third connection hole 501 formed in the inner center of the third connection part 510 penetrating through the circumferential direction. Peripheral periphery of the central third connection hole 501 of the other side of the connection cover part 520 corresponding to the first bolt hole 102 formed on the first step surface 121 Perforated fourth bolt holes 502, the first connection body 500 of the integrally formed, and further comprising,

Binding body (130) of the body 100 to the length corresponding to the horizontal length of the third connecting hole (501) of the first connecting body 500 to the other side horizontally or the binding portion 130 of the wheel body (100) ) The stepped screw hole 101-1 having a thread formed inside the first fastening hole 101 formed at the other side is formed to communicate with the first fastening hole 101, thereby screwing the screw hole 101-1. To the outer diameter of the binding unit 130 of the wheel body 100 while being connected to the other side of the first fastening portion 610 and the first fastening portion 610 exposed by the screw hole (101-1) is formed on the outer peripheral surface An extension part 620 having the same outer diameter is configured to communicate with the first fastener 101 of the wheel body 100, and have the same inner diameter to the inner diameter of the first fastener 101. Provides a polishing wheel assembly including an integral first connecting socket 600, the second fastening hole 601 is formed to penetrate from the center of one side portion to the center of the other portion.

As shown in FIGS. 13 and 15, the outer circumferential surface width of the first polishing stone 20a is formed to be large so as to exceed the width of the first mounting part 120 of the wheel body 100, and thus the first polishing stone 20a may be firstly mounted. The insertion surface P1 is mounted by the entire inner circumferential surface of the insertion hole 21a corresponding to the insertion surface P1 of the inner circumferential surface of the first insertion hole 21a corresponding to the width exceeding the entire outer circumferential surface of the first mounting portion 120. The first connection body 500 may be included.

As shown in FIG. 13 and FIG. 15, the first connection body 500 is a structure of one body composed of a third connection part 510 and a connection cover part 520, and the entire outer circumferential surface of the third connection part 510. Has an outer circumferential surface corresponding to the insertion surface P1, and the third connection portion 510 is inserted into the binding portion 130 of the wheel body 100 so that one side outer circumferential surface of the first mounting portion 120 of the wheel body 100 is provided. ) Has an outer diameter equal to the outer diameter of the first mounting portion 120 while being in close contact with the first step surface 121.

The connection cover part 520 is connected to the center of the other side of the third connection part 510 and protrudes in the circumferential direction, and has the same outer diameter as the outer diameter of the cover part 110 of the wheel body 100.

As shown in FIGS. 13 and 15, the other of the connection cover part 520 at the center of one side of the third connection part 510 so that the first connection body 500 is inserted into the binding part 130 of the wheel body 100. A third connecting hole 501 penetrates to the center of the side portion, and a fastening means 30 fastened through the first bolt hole 102 of the wheel body 100 is integrally bonded to the polishing wheel assembly 10. The third connection hole at the center of one side of the third connection part 510 so as to correspond to the first bolt hole 102 formed on the first mounting surface 120, the first step surface 121 of the wheel body 100 to have a ( The fourth bolt hole 502 is formed in the circumferential direction on the outer circumference thereof and penetrates to the outer circumference of the center portion of the third cover hole 501 of the other side of the connection cover part 520.

As shown in FIGS. 12 and 14, the first insertion hole 21a of the first polishing stone 20a is the first mounting portion 120 of the wheel body 100 and the third connection portion of the first connecting body 500 ( 510 is connected to the cover 110 of the wheel body 100 and the first cover body 520 of the first connection body (20a), both sides of the center of the first polishing stone (20a) is coupled through the fastening means 30 when disposed throughout the outer peripheral surface ) Are pressed against each other strongly to fix the first polishing stone 20a.

12 and 13, the first connection body 500 is disposed on the binding unit 130 of the wheel body 100, so that the first and second binding bodies 200 and 300 are in close contact with each other. For the structure, the binding unit 130 of the wheel body 100 is further extended to a length corresponding to the horizontal length of the third connection hole 501 of the first connection body 500 so that the first and second binding bodies 200 are extended. 300 will be combined.

In addition, the binding unit 130 of the wheel body 100 has a basic length structure, not an extended form, the first connection socket 600 is further coupled to the other side of the binding unit 130.

First, as shown in FIG. 15, a stepped screw hole 101-1 having a thread formed inside the first fastening hole 101 formed at the other side of the binding part 130 of the wheel body 100 is provided with a first fastening hole. It is formed to communicate with (101).

As shown in FIGS. 14 and 15, the first connection socket 600 has a structure of one body composed of a first fastening part 610 and an extension part 620, and the first fastening part 610 A screw thread is formed on the outer circumferential surface while being screwed into the screw hole 101-1 of the other side of the binding part 130, and the extension part 620 is a screw hole 101-1 which is the other side of the first fastening part 610. One side portion is connected to an end portion of the first fastening portion 610 exposed through) and is formed to have the same outer diameter to the outer diameter of the binding portion 130, and the horizontal length of the extension portion 620 is the first connection body. The third connection hole 501 of the 500 is formed to have a length corresponding to the horizontal length.

In addition, the first fastening part 610 is screwed into the screw hole 101-1 and is fixed. In this case, the fixed screwing direction is formed in the same direction as the rotational direction of the polishing wheel assembly 10, thereby polishing the wheel. When the assembly 10 is rotated, the first fastening part 610 is prevented from loosening from the screw hole 101-1.

The center of the first fastening portion 610 of the first connection socket 600 so as to communicate with the first fastening hole 101 of the wheel body 100 to have the same inner diameter to the inner diameter of the first fastening hole 101. In the extension portion 620 is formed a second fastening hole 601 penetrating to the other side center.

In addition, when the three machining surfaces 61, that is, the other machining surface 61 of the work piece 60, are further included as follows.

As shown in FIGS. 16 to 18, a stepped screw hole 101-1 having a thread formed inside the first fastening hole 101 formed at the other side of the binding part 130 of the wheel body 100 is first fastened. A second fastening portion 710 formed in communication with a sphere 101 and having a screw thread formed on an outer circumferential surface thereof so as to be screwed into the screw hole 101-1, and a second fastening portion exposed by the screw hole 101-1; A circumferential fourth mounting portion 720 having the same outer diameter as the outer diameter of the third mounting portion 310 of the second binding body 300 is connected to one side at the other side and extends to a predetermined horizontal length. The second outer cover part 730 is connected to the other side of the fourth mounting part 720 to face the first outer cover part 320 and has the same outer diameter to the outer diameter of the first outer cover part 320. The first fastening while penetrating from the center of the second fastening portion 710, which is a position corresponding to the first fastening hole 101 of the wheel body 100, to the center of the other side of the second outer cover part 730. A second stepped surface of one side of the fourth mounting part 720 so as to correspond to the third fastening hole 701 having the same inner diameter as the inner diameter of the 101 and the third bolt hole 302 of the second binding body 300 ( A third binding body 700 in which a plurality of fifth bolt holes 702 are formed to be spaced apart horizontally through the circumferential direction in the circumference of the third fastening hole 701 of the second outer cover part 730 at 721. Wow,

A cylindrical insert having a third insertion hole 21c corresponding to the outer diameter and the width of the fourth mounting portion 720 penetrating the center of both sides so as to be coupled to the fourth mounting portion 720 of the third binding body 700. It provides a polishing wheel assembly further comprises a tri-polishing stone (20c).

First, as shown in FIG. 18, a stepped screw hole 101-1 having a screw thread formed inside the first fastening hole 101 formed at the other side of the binding part 130 of the wheel body 100 has a first fastening hole. It is formed to communicate with (101).

As shown in FIGS. 17 and 18, the third binding body 700 is coupled to the other side of the wheel body 100 and extends, and includes a second fastening part 710, a fourth mounting part 720, and a second fastening part 720. It has a structure of one body composed of two outer cover portion (730).

The second fastening portion 710 has a screw thread formed on an outer circumferential surface thereof and is screwed into a screw hole 101-1 formed inside the other side of the binding portion 130 of the wheel body 100, and the second fastening portion 710 ) Is screwed into the screw hole (101-1) is fixed, wherein the fixed screwing direction is formed in the same direction as the rotational direction of the polishing wheel assembly 10 to the second when the polishing wheel assembly 10 is rotated The fastening part 710 is prevented from loosening from the screw hole 101-1.

The fourth mounting portion 720 extends to a predetermined horizontal length by connecting a central portion of one side to an end portion of the second fastening portion 710 exposed by the screw hole 101-1, which is the other side of the second fastening portion 710. And a cylindrical shape having an outer diameter equal to the outer diameter of the third mounting portion 310 of the second binding body 300, without being stepped on the binding part 130 of the wheel body 100, wherein the second When the other side portion of the fastening portion 710 is connected to the center of one side portion of the fourth mounting portion 720, a second step surface 721 is formed on the outer outer surface of the other side of the fourth mounting portion 720 of the connection portion.

The second outer cover part 730 has a shape in which a center of one side part is connected to the other part of the fourth mounting part 720 so as to protrude in a circumferential shape, and faces the first outer cover part 320 while facing the first outer cover part 320. It has the same outer diameter as the outer diameter of the part 320.

The first fastener 101 is penetrated from the center of one side of the second fastening part 710, which is a position corresponding to the first fastener 101 of the wheel body 100, to the center of the other side of the second outer cover part 730. The third fastening hole 701 having the same inner diameter is formed in the inner diameter of the third, and the third binding body 700 is coupled to the second binding body 300 through the fastening means 30. The second stepped surface of the fourth mounting portion 720 so as to be in communication with the third bolt hole 302 formed on the other side of the first outer cover portion 320 of the second binding body 300 when the assembly structure is fastened. A fifth bolt hole 702 is formed in a plurality of horizontal lengths so as to be spaced apart in the circumferential direction on the outer circumference of the third fastening hole 701 at the center of the other side of the second outer cover part 730 at 721.

In addition, the third polishing stone 30c is tightly bound to the fourth mounting portion 720 of the third binding body 700, and has a third insertion corresponding to the width and the horizontal length of the fourth mounting portion 720. Ball 21c is formed through the center of both sides, when the third polishing stone 20c is disposed in the fourth mounting portion 720 of the third binding body 700 by the fastening means 30 by the abrasive wheel assembly ( 10, the inner both sides of the third polishing stone 20c are fastened by the fastening structure of the second binding body 300 of the first outer cover portion 320 and the second outer cover portion 730 of the third binding body 700. ) Is pressed tightly to fix the third polishing stone (20c).

In addition, the following structure is further included such that an integral assembly unit composed of the above-described polishing wheel assembly 10 is coupled to the other side of the binding unit 130 of the wheel body 100.

As shown in FIGS. 19 to 21, a stepped screw hole 101-1 having a thread formed inside the first fastening hole 101 formed at the other side of the binding part 130 of the wheel body 100 is first fastened. While being formed to communicate with the sphere 101, the contact portion 131 of the stepped cylindrical shape is formed at the outer peripheral end of the binding portion 130,

The expansion pipe 811 having an inner diameter larger than the inner diameter of the first fastening hole 101 is formed while having the same outer diameter as the outer diameter of the binding unit 130 and extending to a predetermined horizontal length. The first coupling portion 810 and the first coupling portion of the circumferential inclined cut-off surface 812 is formed on both side ends of the duct oil tool 811 is formed symmetrically with each other to gradually decrease the inner diameter It is connected to the inner circumference of one side of the part 810 to form a screw thread on the outer circumferential surface so as to be screwed to the other side of the screw hole 101-1 so as to communicate with the expansion lube tool 811 and the first fastening hole 101. A third fastening portion 820 having a coupling hole 821 formed thereon, and a close groove 131 connected between an outer circumferential surface and an inner circumferential surface of the third fastening portion 820 by being connected at an outer circumferential end of one side of the first coupling portion 810. Binding groove 831 is formed so that the end portion of the binding portion 130 is formed is a coupling portion 13 to the binding groove 831. A guide body 800 having an integral structure including an adhesion part 830 having an outer diameter equal to the outer diameter of the binding part 130 while the end portion of 0) is fitted therein is provided, and the guide body 800 has one side. The length of the first coupling portion 810 protruding negatively protrudes longer than the length of the contact portion 830,

A shape corresponding to the outer circumferential surface on the inner circumferential surface of the guide body 800 has an outer circumferential surface shape corresponding to the expansion lubrication tool 811 and the inclined cut-off surface 812 by being extended to the inner circumferential surface of the expansion pipe 811 of the guide body 800. Expanded close contact portion 910 is formed with an expansion hole 911 having a second coupling portion connected to one side of the expansion close contact portion 910 is in close contact with the inner peripheral surface of the coupling hole 821 of the third fastening portion 820 920 and a fourth fastening part in which a thread is formed on an outer circumferential surface of the second coupling part 920 so that an outer circumferential surface is protruded from one side of the second coupling part 920 so as to be screwed to one side of the screw hole 101-1. Expanded coupling body 900 having an integral structure including a 930 is configured, through the inside of the second coupling portion 920 from the center of one side of the fourth fastening portion 930 to the expansion pipe 911 A multi-stage polishing wheel in which a fourth fastener 901 having an inner diameter equal to that of the first fastener 101 is formed while being in communication. It provides ripche.

First, as shown in FIG. 21, a stepped screw hole 101-1 having a thread formed inside the first fastening hole 101 formed at the other side of the fastening portion 130 of the wheel body 100 includes a first fastening hole. It is formed to communicate with (101) is formed in the outer peripheral end of the binding portion 130, the stepped cylindrical contact groove 131 is formed.

20 and 21, the guide body 800 is coupled to the other side of the coupling part 130 and extends in a horizontal length, and the first coupling part 810 and the third fastening part 820. And it has a structure of one body consisting of the contact portion 830.

The first coupling portion 810 has the same outer diameter as the outer diameter of the binding unit 130 and extends to a predetermined horizontal length, and has a larger inner diameter than the inner diameter of the first fastening hole 101 while penetrating the center of both sides. An expansion tool 811 is formed, and each side end of the expansion tool 811 is formed symmetrically with each other to form a circumferential inclined cut-off surface 812 whose inner diameter is gradually reduced.

The third fastening part 820 is connected to an inner circumference of one side, which is a portion facing the binding part 130 of the first coupling part 810, and is screwed on the outer circumferential surface to be screwed to the other side of the screw hole 101-1. A coupling hole 821 is formed therein so that the expansion pipe 811 and the first fastening hole 101 communicate with each other, and the screw hole 101-is formed inside the other side of the third fastening part 820. 1) The third fastening portion 820 is screwed to the other side of the screw hole 101-1 while being divided into one side portion on the left side and the other side portion on the right side of the inner circumferential surface.

The close contact portion 830 is connected at the outer circumferential end of one side of the first coupling part 810 and the other end of the binding part 130 having a close contact groove 131 formed between the outer circumferential surface and the inner circumferential surface of the third fastening part 820. Binding groove 831 is formed so that the coupling is coupled to the outer circumferential end of the binding portion 130 is formed into the binding groove 831 and the outer peripheral surface has the same outer diameter as the outer diameter of the binding portion 130 The outer circumferential surface of the portion 130 and the outer circumferential surface of the contact portion 830 and the outer circumferential surface of the first coupling portion 810 have a horizontal plane without a step.

The length of the first coupling part 810 protruding to one side of the guide body 800 coupled to the binding part 130 of the wheel body 100 is protruded to a horizontal length longer than the length of the contact part 830. Is extended.

As shown in FIGS. 20 and 21, the expansion coupling body 900 is closely coupled to the inside of the guide body 800 such that the expansion coupling unit 910, the second coupling unit 920, and the fourth coupling unit are closely coupled to each other. It has a structure of one body consisting of (930).

The expansion pipe contact portion 910 extends through the center of both sides and is closely connected to the inner peripheral surface of the expansion pipe 811 to have an outer peripheral surface shape corresponding to the expansion pipe 811 and the inclined cut-off surface 812 while having an inner circumferential surface thereof. An expansion pipe 911 having a shape corresponding to the outer circumferential surface is formed, and corresponds to the expansion pipe tool 811 and the inclined cut-off surface 812 formed therein in the first coupling portion 810 of the guide body 800. In order to form the expansion hole 911, first, the outer peripheral surface corresponding to the expansion tool 811 and the inclined cut-off surface 812 of the first coupling portion 810 into the expansion hole 911 having an inner circumferential surface of the horizontal plane Using the expansion mechanism (not shown) having the expansion inside the expansion hole 911 of the expansion tube 910 of the expansion pipe fitting portion 811 of the expansion coupling tool 811 of the first coupling portion 810 By expanding, the outer circumferential surface of the expansion hole 911 is pressed against the expansion lubrication tool 811 and the inclined cut-off surface 812 of the first coupling part 810 to provide a firm texture. It has a internal structure.

The second coupling part 920 has a length corresponding to the length of the third fastening part 820 and is connected at one side of the expansion pipe contact part 910 so that the inner circumferential surface of the coupling part 821 of the third fastening part 820 is provided. Close to

The fourth fastening part 930 is connected to the outer circumferential surface protruding from one side of the second coupling part 920, so that a thread is formed on the outer circumferential surface of the second fastening part 920 so as to be screwed to one side of the screw hole 101-1. do.

The fourth fastening hole having the same inner diameter as the inner diameter of the first fastening hole 101 while communicating with the expansion hole 911 through the inside of the second coupling part 920 at the center of one side of the fourth fastening part 930 ( 901 is formed.

As such, the guide body 800 and the expansion pipe coupling body 900 are coupled to the binding unit 130 of the wheel body 100 so as to have a solid binding force and a supporting force, so that the wheel body 100 and the first polishing stone 20a, A first connection portion 400a and a second connection portion 400b to the polishing wheel assembly 10 or the polishing wheel assembly 10 including the first and second binding bodies 200 and 300 and the second polishing stone 20b. Or an integral assembly unit consisting of the first connection body 500 is coupled to the outer peripheral surface of the first coupling portion 810 of the guide body 800 coupled to the other side of the binding portion 130.

Then, the third fastening portion 820 and the fourth fastening portion 930 of the expansion coupling body 900 of the guide body 800 is screwed into the screw hole (101-1) of the body 100 is coupled The screw coupling direction is formed in the same direction as the rotation direction of the polishing wheel assembly 10, so that the guide body 800 and the expansion coupling body 900 from the screw hole 101-1 when the polishing wheel assembly 10 rotates. It will prevent loosening.

In addition, when the assembly unit of the polishing wheel assembly 10 is coupled to the outer peripheral surface of the first coupling portion 810 of the guide body 800 coupled to the wheel body 100, the binding portion 130, the polishing wheel assembly 10 Fastening means (30) for fastening the) allows to simultaneously fasten the polishing wheel assembly (10) disposed in the guide body (800) first binding portion (810).

In addition, the assembly unit of the above-described polishing wheel assembly 10 is arranged in the first coupling portion 810 of the guide body 800 while the other assembly unit is coupled to the other side of the guide body 800 as follows: Is further formed.

As shown in FIG. 21, an integral unit of the third fastening part 820 and the close contact part 830 formed on one side of the guide body 800 is connected to the other side of the guide body 800 in left and right symmetry, and the expansion coupling The integral unit of the second coupling part 920 and the fourth fastening part 930 formed on one side of the body 900 is connected to the other side of the expansion coupling body 900 in left and right symmetry, and the wheel body 100 and It provides a polishing wheel assembly in which the binding unit 130 of the other wheel body 100 of the same shape and symmetrical side is coupled.

The above description is merely illustrative of the technical idea of the present embodiment, and those skilled in the art will appreciate that various modifications and changes can be made without departing from the essential characteristics of the present embodiment. Therefore, the present embodiments are not intended to limit the technical idea of the present embodiment but to describe the embodiments, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present embodiment.

Polishing Wheel Assembly 10 First Grinding Stone 20a Second Grinding Stone 20b
3 grinding wheel 20c 1st hole 21a 2nd hole 21b
Insertion hole 21c Fastening means 30 Wheel body 100
First tightening hole 101 Screw hole 101-1 First bolt hole 102
Cover part 110 1st mounting part 120 First stepped surface 121
Binding unit 130 Contact groove 131 First binding body 200
1st binding hole 201 2nd bolt hole 202 Inner cover part 210
2nd mounting part 220 2nd binding body 300 2nd binding hole 301
3rd bolt hole 302 3rd mounting part 310 1st outer cover part 320
First connector 400a Second connector 400b First connector 401
Second connection hole 402 First connection body 500 First connection hole 501
4th bolt 502 3rd connection part 510 connection cover part 520
First connection socket 600 Second fastener 601 First fastener 610
Extension 620 Third Binding Body 700 Third Fastening Hole 701
5th bolt 702 2nd fastening part 710 4th mounting part 720
2nd step surface 721 2nd outer cover part 730 Guide body 800
First coupling part 810 Expansion pipe tool 811 Inclined cut-off surface 812
3rd fastening part 820 tight part 830 binding groove 831
Expansion pipe body 900 4 fasteners 901 Expansion pipe fittings 910
Expansion pipe 911 Second coupling part 920 Fourth connection part 930

Claims (8)

The cylindrical cover portion 110 and one side portion connected to the center of the other side of the cover portion 110 extends to a predetermined horizontal length and has a smaller outer diameter than the outer diameter of the cover portion 110. ) And the first mounting portion 120 is connected to the center of the other side portion and extends to a predetermined horizontal length, in the order of the cylindrical coupling portion 130 having a smaller outer diameter than the outer diameter of the first mounting portion 120. It is formed around the first fastener (101) and the cover portion 110 one side fastening hole 101 through the inside from the center of one side of the cover portion 110 to the center of the other side. A plurality of first bolt holes 102 are horizontally penetrated to the first step surface 121 of the other side of the first mounting portion, the thread is formed inside the first fastening hole 101 formed on the other side of the binding portion 130 The stepped screw hole 101-1 is formed to communicate with the first fastening hole 101, and the stepped round circle is formed at the outer circumferential end of the other side of the binding part 130. Wheel body 100 is formed in the contact groove 131 of the mold; And,
Cylindrical first polishing stones in which the first insertion hole 21a corresponding to the outer diameter and the width of the first mounting portion 120 penetrates the centers of both sides to be coupled to the first mounting portion 120 of the wheel body 100. (20a); and,
The first binding hole 201 having an inner diameter equal to the outer diameter of the binding unit 130 is formed to penetrate through the centers of both sides so as to be coupled to one outer peripheral surface of the binding unit 130 of the wheel body 100. The first mounting part is connected to the center of the inner cover portion 210 and the other side of the inner cover portion 210 of the cylindrical shape having the same outer diameter to the outer diameter of the cover portion 110 and adjacent to 110 to extend a predetermined horizontal length Around the first binding hole 201 of the inner cover part 210, which is composed of a cylindrical second mounting portion 220 having the same outer diameter as the outer diameter of 120 and corresponding to the first bolt hole 102. A first binding body 200 of one body through which the second bolt hole 202 penetrates to the other side of the second mounting portion 220; and,
The second binding hole 301 having an inner diameter equal to the outer diameter of the binding unit 130 is formed to penetrate through the centers of both sides to be coupled to the other outer peripheral surface of the binding unit 130 of the wheel body 100, and the second mounting unit One end portion of the other end portion is in close contact with the other end portion and has the same outer diameter with the outer diameter of the second mounting portion 220, and has a cylindrical third mounting portion 310 and the third mounting portion extending to a predetermined horizontal length. (310) It is connected to the other side is composed of a first outer cover portion 320 facing the inner cover portion 210 and having the same outer diameter to the outer diameter of the inner cover portion 210 to the second bolt hole 202 A second binding body of one body in which the third bolt hole 302 penetrates to the other side of the first outer cover part 320 around the second binding hole 301 of the third mounting part 310, which is a corresponding position ( 300);
The entirety of the second mounting portion 220 and the third mounting portion 310 formed between the inner cover portion 210 of the first binding body 200 and the first outer cover portion 320 of the second binding body 300. A circumferential second abrasive stone 20b through which a second insertion hole 21b corresponding to the outer diameter and the width of the second mounting portion 220 and the third mounting portion 310 passes through the center of both sides to be bound in the longitudinal direction; and,
Pass through the first bolt ball 102 of the wheel body 100, the second bolt ball 202 of the first binding body 200 and the third bolt ball 302 of the second binding body 300 in the order. The number of the first bolt holes 102 by combining the wheel body 100, the first abrasive stone 20a, the first binding body 200, the second polishing stone 20b and the second binding body 300 integrally Fastening means 30 fastened to a number corresponding to (iii); and,
The expansion pipe 811 having an inner diameter larger than the inner diameter of the first fastening hole 101 is formed while having the same outer diameter as the outer diameter of the binding unit 130 and extending to a predetermined horizontal length. The first coupling portion 810 and the first coupling portion of the circumferential inclined cut-off surface 812 is formed on both side ends of the duct oil tool 811 is formed symmetrically with each other to gradually decrease the inner diameter It is connected to the inner circumference of one side of the part 810 and the thread is formed on the outer circumferential surface so as to be screwed to the other side of the screw hole 101-1 so as to communicate with the expansion pipe tool 811 and the first fastening hole 101. A third fastening portion 820 having a coupling hole 821 formed thereon, and a close groove 131 connected between an outer circumferential surface and an inner circumferential surface of the third fastening portion 820 by being connected at an outer circumferential end of one side of the first coupling portion 810. Binding groove 831 is formed so that the end portion of the binding portion 130 is formed is a coupling portion 13 to the binding groove 831. A guide body 800 having an integral structure including a close contact portion 830 having an outer diameter equal to the outer diameter of the binding portion 130 while the end portion of 0) is fitted;
The length of the first coupling part 810 protruding to one side of the guide body 800 protrudes longer than the length of the contact part 830,
A shape corresponding to the outer circumferential surface on the inner circumferential surface of the guide body 800 has an outer circumferential surface shape corresponding to the expansion lubrication tool 811 and the inclined cut-off surface 812 by being extended to the inner circumferential surface of the expansion pipe 811. Expanded close contact portion 910 is formed with an expansion hole 911 having a second coupling portion connected to one side of the expansion close contact portion 910 is in close contact with the inner peripheral surface of the coupling hole 821 of the third fastening portion 820 920 and a fourth fastening part in which a thread is formed on an outer circumferential surface of the second coupling part 920 so that an outer circumferential surface thereof is protruded from one side of the second coupling part 920 so as to be screwed to one side of the screw hole 101-1. Expanded coupling body 900 having an integral structure including a (930);
The fourth fastening hole having the same inner diameter as that of the first fastening hole 101 while communicating with the expansion hole 911 through the inside of the second coupling part 920 at the center of one side of the fourth fastening part 930 ( 901 is formed, characterized in that the multi-stage polishing wheel assembly. The method of claim 1,
The binding unit 130 of the wheel body 100 further extends horizontally and at least one is arranged in the binding unit 130 in which the coupling unit of the first binding body 200 and the second binding body 300 extends. In this case, the fastening means 30 has a corresponding length such that the abrasive stone is coupled and sequentially connected through the first bolt hole 102 in a number corresponding to the number of coupling units. Multi-stage polishing wheel assembly, characterized in that. The method of claim 1,
The first abrasive stone 20a having a smaller width than the outer peripheral surface width of the first abrasive stone 20a is mounted, and has an inner peripheral surface of the first insertion hole 21a corresponding to the width of the outer peripheral surface of the first abrasive stone 20a. The first polishing stone 20a is coupled to the first mounting portion 120 of the wheel body 100, but the remaining mounting surface S1 is removed except for the outer circumferential surface of the first mounting portion 120 to which the first polishing stone 20a is bound. Multi-stage arrangement, characterized in that the first connection hole 401 corresponding to the width of the penetrating the center of both sides, the outer diameter of the column-shaped first connection portion 400a having the same outer diameter as the outer diameter of the cover 110 is further included. Polishing wheel assembly. The method of claim 1,
The second abrasive stone 20b having a smaller width than the outer peripheral surface width of the second abrasive stone 20b is mounted, and has an inner peripheral surface of the second insertion hole 402 corresponding to the outer peripheral surface width of the second abrasive stone 20b. The second polishing stone 20b is bound to the second mounting portion 220 of the first binding body 200 or the third mounting portion 310 of the second binding body 300, wherein the second polishing stone 20b is bound. The outer diameter of the inner cover portion 210 is the outer diameter of the second mounting portion 220 or the second connection hole 402 corresponding to the width of the remaining mounting surface (S2) excluding the outer peripheral surface of the third mounting portion 310 penetrates both centers thereof. Or a second columnar connecting portion 400b having a same outer diameter as the outer diameter of the first outer cover portion 320, wherein the multi-stage polishing wheel assembly is further included. The method of claim 1,
The first polishing stone 20a having a larger width than the outer circumferential surface width of the first polishing stone 20a is mounted, and has an inner circumferential surface of the first insertion hole 21a corresponding to the width of the outer circumferential surface of the first polishing stone 20a. The first abrasive stone 20a is bound to the first mounting portion 120 of the wheel body 100,
The first side facing one side having a width corresponding to the width of the remaining insertion surface (P1) excluding the outer peripheral surface of the first abrasive hole 20a, the first insertion hole (21a) interviewed on the outer peripheral surface of the first mounting portion 120 A connecting cover portion 520 having the same outer diameter as the outer diameter of the cover 110 is connected to the center of the third connection portion 510 of the cylindrical shape and the other side of the third connection portion 510 to be interviewed on the other side of the mounting portion 120. And having the same outer diameter as the outer diameter of the binding unit 130 so as to be bound to the binding unit 130 of the wheel body 100, and at the center of one side of the third connection part 510, the other side of the connection cover part 520. A plurality of wheel bodies 100 are formed while being spaced apart in the circumferential direction on the outer circumference of the third connecting hole 501 and the third connecting hole 501 formed at the center of one side of the third connecting part 510. The outer circumference of the center of the third connection hole 501 of the other side of the connection cover portion 520 corresponding to the first bolt hole 102 formed on the first step surface 121 Tong fourth bolt holes multistage array type grinding wheel assembly characterized in that (502) further comprises a first connection body 500 is integrally formed in that. delete delete The method of claim 1,
An integral unit of the third fastening portion 820 and the close contact portion 830 formed on one side of the guide body 800 is connected to the other side of the guide body 800 in the right and left symmetry and one of the expansion coupling body 900 The integral unit of the second coupling part 920 and the fourth fastening part 930 formed on the side part is connected to the other side of the expansion coupling body 900 in left and right symmetry, and has the same shape as that of the wheel body 100, The binding unit 130 of the other wheel body 100, characterized in that coupled to the multi-stage polishing wheel assembly.

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