CN203708033U - Wire coil flat twisting mechanism - Google Patents

Wire coil flat twisting mechanism Download PDF

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Publication number
CN203708033U
CN203708033U CN201320890450.3U CN201320890450U CN203708033U CN 203708033 U CN203708033 U CN 203708033U CN 201320890450 U CN201320890450 U CN 201320890450U CN 203708033 U CN203708033 U CN 203708033U
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CN
China
Prior art keywords
slide block
washboard
coil
flat
installing hole
Prior art date
Application number
CN201320890450.3U
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Chinese (zh)
Inventor
黄剑兴
范圣秉
刘晋权
Original Assignee
深圳市双环全新机电股份有限公司
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Priority to CN201320890450.3U priority Critical patent/CN203708033U/en
Application granted granted Critical
Publication of CN203708033U publication Critical patent/CN203708033U/en

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Abstract

The utility model belongs to the coreless electromotor manufacture technology field and particularly relates to a wire coil flat twisting mechanism used in electromotor wire coil manufacture processes. The wire coil flat twisting mechanism is used for subjecting a hollow wire coil wound around a wire winding mold to flat twisting operation. The wire coil flat twisting mechanism comprises a clamping member, a flat twisting member, a moving member and a control member, wherein the clamping member is used for clamping the hollow wire coil, and the flat twisting member is used for subjecting a hollow wire coil to flat twisting operation; the moving member is used for driving the clamping member to move to the position of the wire winding mold; the control member is used for controlling operation of the clamping member, the flat twisting member and the moving member; the clamping member is connected with the flat twisting member, the flat twisting member is mounted on the moving member, the clamping member is moved to the position of the wire winding mold by the moving member, the hollow wire coil is taken down by the clamping member, the hollow wire coil placed on the clamping member is twisted into a flat shape by the flat twisting member, wire coil clamping operation and wire coil flat twisting operation are controlled by the control member, automatic operation is realized, a coreless electromotor wire coil manufacture cycle is shorten, and labor burdens of operation workers are alleviated.

Description

Coil Cuo Bian mechanism

Technical field

The utility model belongs to hollow-cup motor manufacturing technology field, relates in particular to the coil Cuo Bian mechanism in a kind of motor coil manufacture process.

Background technology

Hollow-cup motor belongs to direct current, permanent magnetism, servo small and special electric machine, adopt hollow cup rotor, thoroughly eliminate because iron core forms the electric energy loss that eddy current causes, its weight and moment of inertia significantly reduce simultaneously, thereby reduce the mechanical energy loss of rotor self, there is outstanding energy conservation characteristic, sensitive control characteristic easily and stable operation characteristic, simultaneously, the energy density of hollow-cup motor increases substantially, compared with the iron core motor of Same Efficieney, its weight, volume significantly reduces, as high efficiency energy transfer mechanism, hollow-cup motor has represented one of developing direction of motor.

The manufacturing process of hollow-cup motor coil comprises coiling, it is flat to rub with the hands, go the operation such as the end of a thread, wicking, enamelled wire is wound on winding former and forms the air core coil with multiple electrode tips, in the flat operation of stranding, air core coil need to be twisted into flat, then go the processing such as the end of a thread and wicking, but, the flat operation of existing stranding is by staff's manual operation, not only increase operating personnel's labour intensity, and production efficiency is low, extends the hollow-cup motor production cycle.

Utility model content

The utility model provides coil Cuo Bian mechanism, is intended to solve hollow-cup motor coil and adopts manual operation in the flat operation of stranding, increases operating personnel's labour intensity and the problem that extends the production cycle of hollow-cup motor.

For solving the problems of the technologies described above, the utility model provides the technical scheme of coil Cuo Bian mechanism to be, rub the air core coil being wound on winding former with the hands flat processing, comprise the gripping parts for air core coil described in gripping, described air core coil is rubbed with the hands to the flat parts of stranding of flat processing, for driving described gripping parts move to the moving-member at described winding former place and control described gripping parts, the control assembly of the flat parts of described stranding and the operation of described moving-member, described gripping parts are connected with the flat parts of described stranding, the flat parts of described stranding are installed on described moving-member.

Particularly, described gripping parts comprise and being oppositely arranged and for the first washboard of air core coil described in gripping, the second washboard and Pneumatic tailstock for driving relative described the second washboard of described the first washboard to open.

Particularly, the flat parts of described stranding comprise can make described the first washboard relative to described the second washboard dislocation mechanism that moves to rub with the hands flat described air core coil that misplaces, described the first washboard and described the second washboard are connected with described dislocation mechanism respectively, the flat parts of described stranding also comprise installing rack, described dislocation mechanism is installed on described installing rack, and described installing rack is fixedly arranged on described moving-member.

Particularly, described dislocation mechanism comprises the first slide block, be located at described the first slide block below the second slide block with described the first slide block engagement connection, described the first washboard is arranged on described the first slide block, and be rotationally connected by the first pin and described the first slide block, described the second washboard is arranged on described the first slide block, and be rotationally connected by the second pin and described the first slide block, described dislocation mechanism also comprise for driving described the second slide block to rotate so that described the first washboard relative to described the second washboard driven unit moving that misplaces, described the second slide block and described driven unit are rotationally connected, described the first slide block, described the second slide block, described driven unit is installed on respectively on described installing rack.

Particularly, described driven unit comprises gear, the tooth bar being meshed with described gear and the cylinder for driving described tooth bar to move of being located at described the second slide block below, described the second slide block comprises body and along the extended rotation section of described body central axis direction, described body and described the first slide block engagement connection, described geared sleeve is located on described rotation section, and be fixedly arranged on described rotation section by screw, described tooth bar is connected with described cylinder.

Further, described installing rack comprises upper cover plate and the supporting bracket for described the first slide block, described body are installed, described upper cover plate is covered in described supporting bracket and with described supporting bracket and is fixedly connected with, described the first slide block and described body rotate respectively and are installed on described upper cover plate, the end of described rotation section is rotated and is installed in described supporting bracket, described gear, described tooth bar are located between described upper cover plate and described supporting bracket, described upper cover plate is provided with the cylinder mounting plate for described cylinder is installed, and described cylinder is fixedly arranged on described cylinder mounting plate.

Particularly, described upper cover plate is provided with the first installing hole, described the first slide block is arranged with clutch shaft bearing, described body is arranged with the second bearing, described clutch shaft bearing and described the second bearing are installed in described the first installing hole along the axis direction of described the first installing hole, described supporting bracket is provided with second installing hole corresponding with described the first installing hole, the end of described rotation section is arranged with the 3rd bearing, and described the 3rd bearing is installed in described the second installing hole along the axis direction of described the second installing hole.

Preferably, described tooth bar is one side spur rack, described supporting bracket is provided with the tooth bar pad engaging with described gear for compressing described one side spur rack, described tooth bar pad is arranged with the 4th bearing, described the 4th bearing rotates and contacts with the transverse plane of described tooth bar, described upper cover plate is provided with the groove corresponding with described tooth bar pad, between described groove and described tooth bar pad, is filled with bolster.

Further, described the first slide block be provided with three installing hole suitable with described the first pin and with suitable the 4th installing hole of described the second pin, described the first pin is inserted in described the 3rd installing hole, described the second pin is inserted in described the 4th installing hole, described the first washboard is connected with described the first pin by the first connector, and described the second washboard is connected with described the second pin by the second connector.

Further, described moving-member comprises line slideway and for the mounting panel of described line slideway is installed, described supporting bracket is fixedly arranged on described mounting panel, and is fixedly connected with described mounting panel.

The beneficial effect of the coil Cuo Bian mechanism that the utility model provides is: geared sleeve is located on the second slide block, and be fixedly arranged on rotation section by screw, air cylinder driven tooth bar moves, rack and pinion engagement, therefore in the time that tooth bar moves, drive the second slide block to rotate, the first slide block and the second slide block engagement connection, the second slide block drives the first slide block to rotate, the first washboard is connected with the first slide block with the second washboard, when the first slide block rotates, there is dislocation relative to the first washboard and move in the second washboard, air core coil can be flattened to flat, compressing loop construction is stable, the hollow-cup motor result of use being made into is good, air core coil can be pressed into flat by dislocation mechanism, simple to operate, and do not need operating personnel to operate, alleviate operating personnel's work load, improve the production efficiency of hollow-cup motor coil, shorten the production cycle of hollow-cup motor.

Accompanying drawing explanation

The schematic perspective view of the coil Cuo Bian mechanism that Fig. 1 provides for the utility model embodiment;

Fig. 2 is that Fig. 1 removes the internal structure schematic diagram after upper cover plate;

The second slide block that Fig. 3 provides for the utility model embodiment and the scheme of installation of supporting bracket;

The schematic perspective view of the first slide block that Fig. 4 provides for the utility model embodiment;

The schematic perspective view of the second slide block that Fig. 5 provides for the utility model embodiment;

The schematic perspective view of the upper cover plate that Fig. 6 provides for the utility model embodiment;

The schematic perspective view of the supporting bracket that Fig. 7 provides for the utility model embodiment.

Reference numeral is as follows

Gripping parts 1 first washboard 11 second washboard 12 Pneumatic tailstock 13 first mount pad 14 second mount pads 15 are rubbed flat parts 2 first slide block 211 raised lines 2111 the 3rd installing hole 2112 the 4th installing hole 2,113 second slide block 212 body 2121 groove 21211 rotation section 2122 clutch shaft bearing 213 second bearing 214 the 3rd bearing 215 tooth bar pad 216 the 4th bearing 217 upper cover plate 221 first installing hole 2211 groove 2212 supporting bracket 222 second installing hole 2221 mounting groove 2222 cylinder mounting plate 223 gear 231 one side spur rack 232 cylinder 233 first pin 24 second pin 25 first connector 26 second connector 27 moving-member 3 line slideway 31 mounting panels 32 with the hands

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

Below in conjunction with specific embodiment, the utility model is described in detail.

As shown in Figure 1, a kind of coil Cuo Bian mechanism that the utility model embodiment provides, rub the air core coil being wound on winding former with the hands flat processing, comprise the gripping parts 1 for gripping air core coil, air core coil is rubbed with the hands to the flat parts 2 of stranding of flat processing, for driving gripping parts to move to moving-member 3 and the control assembly (not shown) at winding former place, control assembly control gripping parts 1, rub the operation of flat parts 2 and moving-member 3 with the hands, gripping parts 1 are connected with the flat parts 2 of stranding, rubbing flat parts 2 with the hands is installed on moving-member 3, enamelled wire is wound on moulding air core coil on winding former, in hollow-cup motor manufacture is processed, air core coil need to be twisted into flat, control assembly comprises the member such as Programmable Logic Controller and control circuit, in Programmable Logic Controller, be provided with control command, for controlling the operation of each member, after air core coil coiling completes, control assembly sends control command to moving-member 3, gripping parts 1 are moved to winding former place by moving-member 3, gripping parts 1 take off air core coil, rubbing flat parts 2 with the hands rubs with the hands flat by the air core coil being placed on gripping parts, become flat, the gripping of coil is flat all by control assembly controlling run with stranding, realize automation mechanized operation, shorten the fabrication cycle of hollow-cup motor coil, alleviate operating personnel's work burden simultaneously.

As shown in Figure 1, gripping parts 1 comprise the first washboard 11 being oppositely arranged, the second washboard 12, the first washboard 11 and the second washboard 12 are for gripping air core coil, gripping parts also comprise the Pneumatic tailstock 13 for driving relative the second washboard 12 of the first washboard 11 to open, Pneumatic tailstock 13 is installed on the below of the second washboard 12, the bottom of the first washboard 11 is installed with first mount pad 14 suitable with described Pneumatic tailstock 13, the bottom of described the second washboard 12 is installed with second mount pad 15 suitable with Pneumatic tailstock 13, one end of Pneumatic tailstock 13 is slidably mounted in the first mount pad 14, the other end is slidably mounted in the second mount pad 15, when Pneumatic tailstock 13 is inflated, the first mount pad 14 is supported to a side shifting in one end of Pneumatic tailstock 13, the other end of Pneumatic tailstock 13 is supported the second mount pad 15 and is moved to opposite side, because the first mount pad 14 is fixedly connected with the first washboard 11, the second mount pad 15 is fixedly connected with the second washboard 12, therefore, the first washboard 11 and the second washboard 12 are under the effect of Pneumatic tailstock 13, relatively folding for gripping air core coil, it is high that Pneumatic tailstock 13 has precision, profile is terse, do not take up space, ejecting function is outstanding, for the best sharp weapon of liftout attachment improvement, utilize air valve control, case type mould product is peeled off, with the principle of oxygen diffusion, product is come off in moment, reach the effect of automation, Pneumatic tailstock 13 entirety adopt stainless steel, can not get rusty, and are suitable for being exposed to for a long time airborne environment.

As shown in Figures 1 and 2, rub flat parts 2 with the hands and comprise dislocation mechanism (not shown), dislocation mechanism can make the first washboard 11 move relative to the second washboard 12 dislocation, realize air core coil is twisted into flat, the first washboard 11 is connected with dislocation mechanism respectively with the second washboard 12, rub flat parts 2 with the hands and also comprise installing rack (not shown), dislocation mechanism is installed on installing rack, installing rack is fixedly arranged on moving-member 3, moving-member 13 drives the first washboard 11 and the second washboard 12 to move to winding former place, the first washboard 11 and the second washboard 12 gripping air core coil under the effect of Pneumatic tailstock 13, the first washboard 11 and the second washboard 12 are provided with and viscoid, can be bonding with air core coil, move when the second washboard 12, relative to the first washboard 11, dislocation occurs, air core coil can be flattened to flat, compressing loop construction is stable, the hollow-cup motor result of use being made into is good, air core coil can be pressed into flat by dislocation mechanism, simple to operate, and do not need operating personnel to operate, alleviate operating personnel's work load, improve the production efficiency of hollow-cup motor coil, shorten the production cycle of hollow-cup motor.

As Fig. 1 to Fig. 3, dislocation mechanism comprises the first slide block 211, the second slide block 212, the second slide block 212 is located at the below of the first slide block 211, and with the first slide block 211 engagement connections, the first washboard 11 is arranged on the first slide block 211, and be rotationally connected by the first pin 24 and the first slide block 211, the second washboard 12 is arranged on the first slide block 211, and be rotationally connected by the second pin 25 and the first slide block 211, dislocation mechanism also comprises driven unit (not shown), driven unit is used for driving the second slide block 212 to rotate so that the first washboard 11 moves relative to the second washboard 12 dislocation, the second slide block 212 is rotationally connected with driven unit, driven unit drives the second slide block 212 to rotate, also rotate accordingly with the first slide block 211 of the second slide block 212 engagement connections, again due to, the first washboard 11 is connected with the first slide block 211 respectively with the second washboard 12, therefore, can make the first washboard 11, relative to the second washboard 12, dislocation occur moves, in the time that the first washboard 11 and the second washboard 12 misplace, air core coil is pressed into flat, press time is short, shorten air core coil and rub flat activity time with the hands, improve the production efficiency of hollow-cup motor coil, the first slide block 211, the second slide block 212 and driven unit are installed on respectively on installing rack.

As shown in Figures 1 to 5, driven unit comprises gear 231, the tooth bar 232 engaging with gear 231 and the cylinder 233 for driving tooth bar 232 to move, tooth bar 232 is connected with cylinder 233, the second slide block 212 comprises body 2121 and along the body 2121 extended rotation sections 2122 of central axis direction, the first slide block 211 has a raised line 2111, body 2121 is provided with the groove corresponding with raised line 2,111 21211, raised line 2111 detachable cards are located in groove 21211, body 2121 and the first slide block 211 engagement connections, gear 231 is located at the below of the second slide block 212, and be sheathed on rotation section 2122, and be fixedly arranged on rotation section 2122 by screw (not shown), in the time that the expansion link of cylinder 233 extends or shrinks, can drive tooth bar 232 to move, and gear 231 engages with tooth bar 232, therefore, in the time that tooth bar 232 moves, there is corresponding rotation in gear 231, again because gear 231 is fixedly arranged on rotation section 2122, in the time that gear 231 rotates, the second slide block 212 also rotates accordingly, the first slide block 211 and the second slide block 212 engagement connections, therefore, there is corresponding rotation with the rotation of gear 231 in the first slide block 211, the first washboard 11, the second washboard 12 is connected with the first slide block 211 respectively, realizing the first washboard 11 moves relative to the dislocation of the second washboard 12, rub air core coil with the hands flat moulding, coil molding is effective, and it is consuming time short to rub the flat time with the hands, shorten coil and rub flat man-hour with the hands, improve the production efficiency of hollow-cup motor coil.

As shown in Figure 1 to Figure 3, installing rack comprises upper cover plate 221 and the supporting bracket 222 for the first slide block 211 and body 2121 are installed, upper cover plate 221 is covered in supporting bracket 222, and be fixedly connected with supporting bracket 222 by screw, the first slide block 211 rotates and is installed on upper cover plate 221 respectively with body 2121, the end of rotation section 2122 is rotated and is installed in supporting bracket 222, gear 231, tooth bar 232 is located between upper cover plate 221 and supporting bracket 222, upper cover plate 221 is provided with the cylinder mounting plate 223 for cylinder 233 is installed, cylinder 233 is fixedly arranged on cylinder mounting plate 223, when installation, operating personnel are sheathed on gear 231 on rotation section 2122, by screw (not shown), gear 231 is fixedly arranged on rotation section 2122 again, again rotation section 2122 is rotated and is installed in supporting bracket 222, tooth bar 232 engages with gear 231, the first slide block 211 rotates and is installed on upper cover plate 221, again upper cover plate 221 is covered in supporting bracket 22, the first slide block 211 is installed on the second slide block 212, raised line 2111 is arranged in groove 21211, can complete installation, install simple.

As shown in Figures 2 to 7, upper cover plate 221 is provided with the first installing hole 2211, the first slide block 211 is arranged with clutch shaft bearing 213, body 2121 is arranged with the second bearing 214, clutch shaft bearing 213 and the second bearing 214 are installed in the first installing hole 2211 along the axis direction of the first installing hole 2211, the inwall of the outer ring of clutch shaft bearing 213 and the first installing hole 2211 bonds together by adhesive, the inwall of the second bearing 214 and the first installing hole 2211 bonds together by adhesive, the second slide block 212 is installed in the second bearing 214, in the time that the second slide block 212 rotates, owing to being provided with the second bearing 214 between the second slide block 212 and supporting bracket 222, reduce the friction between the second slide block 212 and the first installing hole 2211, slow down the surface damage of the second slide block 212, extend the useful life of the second slide block 212, same, in the time that the second slide block 212 drives the first slide block 211 to rotate, the first slide block 211 is installed in clutch shaft bearing 213, between the first slide block 211 and supporting bracket 222, be provided with clutch shaft bearing 213, reduce the friction between the first slide block 211 and the first installing hole 2211, slow down the surface damage of the first slide block 211, extend the useful life of the first slide block 211, supporting bracket 222 is provided with second installing hole 2221 corresponding with the first installing hole 2211, the end of rotation section 2122 is arranged with the 3rd bearing 215, the 3rd bearing 215 is installed in the second installing hole 2221 along the axis direction of the second installing hole 2221, when the second slide block 212 rotates, owing to being provided with the 3rd bearing 215 between rotation section 2122 and the second installing hole 2212, reduce the friction between rotation section 2212 and the second installing hole 2212, slow down the surface damage of rotation section 2212, extend the useful life of rotation section 2212.

As Fig. 2, shown in Fig. 6 and Fig. 7, tooth bar 232 is one side spur rack, supporting bracket 222 is provided with the tooth bar pad 216 engaging with gear 231 for compressing one side spur rack, tooth bar pad 216 is arranged with the 4th bearing 217, the 4th bearing 217 rotates and contacts with the transverse plane of tooth bar 232, upper cover plate 221 is provided with the groove corresponding with tooth bar pad 216 2212, supporting bracket 222 is provided with the mounting groove corresponding with groove 2,212 2222, because mismachining tolerance exists, when under the driving effect of tooth bar 232 pneumatic 233, be moved, rotate with tooth bar 232 meshed gears 231, the 4th bearing 217 contacts with the transverse plane of tooth bar 232, due to friction, the 4th bearing 217 rotates, thereby drive the two ends of tooth bar pad 216 in groove 2212 and the interior movement of mounting groove 2222, between tooth bar pad 216 and groove 2212, be filled with bolster (not shown), bolster is compressible, for engaging between adjusting gear rack 232 and gear 231.

As shown in Figures 1 and 2, the first slide block 211 be provided with three installing hole 2112 suitable with the first pin 24 and with suitable the 4th installing hole 2113 of the second pin 25, the first pin 24 is inserted in the 3rd installing hole 2112, the second pin 25 is inserted in the 4th installing hole 2113, the first washboard 11 is connected with the first pin 24 by the first connector 26, the second washboard 12 is connected with the second pin 25 by the second connector 27, in the time that the first slide block 211 rotates, impel the first washboard 11 to occur to move relative to dislocation with the second washboard 12, rub the air core coil of gripping with the hands flat moulding, simple in structure.

As shown in Figure 1, moving-member 3 comprises line slideway 31 and for the mounting panel 32 of described line slideway 31 is installed, supporting bracket 222 is fixedly arranged on mounting panel 32, and be fixedly connected with mounting panel 32, when straight line has been 31 while moving, the first washboard 11 and the second washboard 12 on drive installation plate 32 move to winding former place, and gripping air core coil is steadily mobile.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection range of the present utility model.

Claims (10)

1. coil Cuo Bian mechanism, rub the air core coil being wound on winding former with the hands flat processing, it is characterized in that: comprise for the gripping parts of air core coil described in gripping, by described air core coil rub the flat parts of stranding of flat processing with the hands, for driving described gripping parts to move to the moving-member at described winding former place and controlling described gripping parts, the flat parts of described stranding and the control assembly of described moving-member operation, described gripping parts are connected with the flat parts of described stranding, and the flat parts of described stranding are installed on described moving-member.
2. coil Cuo Bian as claimed in claim 1 mechanism, is characterized in that: described gripping parts comprise and being oppositely arranged and for the first washboard of air core coil described in gripping, the second washboard and Pneumatic tailstock for driving relative described the second washboard of described the first washboard to open.
3. coil Cuo Bian as claimed in claim 2 mechanism, it is characterized in that: the flat parts of described stranding comprise can make described the first washboard relative to described the second washboard dislocation mechanism that moves to rub with the hands flat described air core coil that misplaces, described the first washboard and described the second washboard are connected with described dislocation mechanism respectively, the flat parts of described stranding also comprise installing rack, described dislocation mechanism is installed on described installing rack, and described installing rack is fixedly arranged on described moving-member.
4. coil Cuo Bian as claimed in claim 3 mechanism, it is characterized in that: described dislocation mechanism comprises the first slide block, be located at described the first slide block below the second slide block with described the first slide block engagement connection, described the first washboard is arranged on described the first slide block, and be rotationally connected by the first pin and described the first slide block, described the second washboard is arranged on described the first slide block, and be rotationally connected by the second pin and described the first slide block, described dislocation mechanism also comprise for driving described the second slide block to rotate so that described the first washboard relative to described the second washboard driven unit moving that misplaces, described the second slide block and described driven unit are rotationally connected, described the first slide block, described the second slide block, described driven unit is installed on respectively on described installing rack.
5. coil Cuo Bian as claimed in claim 4 mechanism, it is characterized in that: described driven unit comprises gear, the tooth bar being meshed with described gear and the cylinder for driving described tooth bar to move of being located at described the second slide block below, described the second slide block comprises body and along the extended rotation section of described body central axis direction, described body and described the first slide block engagement connection, described geared sleeve is located on described rotation section, and be fixedly arranged on described rotation section by screw, described tooth bar is connected with described cylinder.
6. coil Cuo Bian as claimed in claim 5 mechanism, it is characterized in that: described installing rack comprises for described the first slide block is installed, the upper cover plate of described body and supporting bracket, described upper cover plate is covered in described supporting bracket and with described supporting bracket and is fixedly connected with, described the first slide block and described body rotate respectively and are installed on described upper cover plate, the end of described rotation section is rotated and is installed in described supporting bracket, described gear, described tooth bar is located between described upper cover plate and described supporting bracket, described upper cover plate is provided with the cylinder mounting plate for described cylinder is installed, described cylinder is fixedly arranged on described cylinder mounting plate.
7. coil Cuo Bian as claimed in claim 6 mechanism, it is characterized in that: described upper cover plate is provided with the first installing hole, described the first slide block is arranged with clutch shaft bearing, described body is arranged with the second bearing, described clutch shaft bearing and described the second bearing are installed in described the first installing hole along the axis direction of described the first installing hole, described supporting bracket is provided with second installing hole corresponding with described the first installing hole, the end of described rotation section is arranged with the 3rd bearing, and described the 3rd bearing is installed in described the second installing hole along the axis direction of described the second installing hole.
8. coil Cuo Bian as claimed in claim 6 mechanism, it is characterized in that: described tooth bar is one side spur rack, described supporting bracket is provided with the tooth bar pad engaging with described gear for compressing described one side spur rack, described tooth bar pad is arranged with the 4th bearing, described the 4th bearing rotates and contacts with the transverse plane of described tooth bar, described upper cover plate is provided with the groove corresponding with described tooth bar pad, between described groove and described tooth bar pad, is filled with bolster.
9. coil Cuo Bian as claimed in claim 4 mechanism, it is characterized in that: described the first slide block be provided with three installing hole suitable with described the first pin and with suitable the 4th installing hole of described the second pin, described the first pin is inserted in described the 3rd installing hole, described the second pin is inserted in described the 4th installing hole, described the first washboard is connected with described the first pin by the first connector, and described the second washboard is connected with described the second pin by the second connector.
10. the coil Cuo Bian mechanism as described in any one in claim 6 to 8, it is characterized in that: described moving-member comprises line slideway and for the mounting panel of described line slideway is installed, described supporting bracket is fixedly arranged on described mounting panel, and is fixedly connected with described mounting panel.
CN201320890450.3U 2013-12-31 2013-12-31 Wire coil flat twisting mechanism CN203708033U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201320890450.3U CN203708033U (en) 2013-12-31 2013-12-31 Wire coil flat twisting mechanism

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201320890450.3U CN203708033U (en) 2013-12-31 2013-12-31 Wire coil flat twisting mechanism

Publications (1)

Publication Number Publication Date
CN203708033U true CN203708033U (en) 2014-07-09

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CN201320890450.3U CN203708033U (en) 2013-12-31 2013-12-31 Wire coil flat twisting mechanism

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105773413A (en) * 2016-04-25 2016-07-20 东莞市秦智工业设计有限公司 Polishing machine with workpiece rotatable function and workpiece storage mechanism
CN105834877A (en) * 2016-04-25 2016-08-10 东莞市秦智工业设计有限公司 Polishing machine capable of rotating workpieces and having adjustable polishing wheel positions
CN105904327A (en) * 2016-04-25 2016-08-31 东莞市秦智工业设计有限公司 Polishing machine capable of rotating and storing workpiece
CN105922108A (en) * 2016-04-25 2016-09-07 东莞市秦智工业设计有限公司 Polishing machine capable of automatically rotating workpiece
CN105922114A (en) * 2016-04-25 2016-09-07 东莞市秦智工业设计有限公司 Polishing machine
CN105945703A (en) * 2016-04-25 2016-09-21 东莞市秦智工业设计有限公司 Polishing machine capable of conducting overall polishing on workpiece

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105773413A (en) * 2016-04-25 2016-07-20 东莞市秦智工业设计有限公司 Polishing machine with workpiece rotatable function and workpiece storage mechanism
CN105834877A (en) * 2016-04-25 2016-08-10 东莞市秦智工业设计有限公司 Polishing machine capable of rotating workpieces and having adjustable polishing wheel positions
CN105904327A (en) * 2016-04-25 2016-08-31 东莞市秦智工业设计有限公司 Polishing machine capable of rotating and storing workpiece
CN105922108A (en) * 2016-04-25 2016-09-07 东莞市秦智工业设计有限公司 Polishing machine capable of automatically rotating workpiece
CN105922114A (en) * 2016-04-25 2016-09-07 东莞市秦智工业设计有限公司 Polishing machine
CN105945703A (en) * 2016-04-25 2016-09-21 东莞市秦智工业设计有限公司 Polishing machine capable of conducting overall polishing on workpiece
CN105945703B (en) * 2016-04-25 2018-01-23 深圳磨霸智能科技有限公司 It is a kind of can be to the polishing machine of the comprehensive polishing of workpiece
CN105922108B (en) * 2016-04-25 2018-02-16 林家豪 It is a kind of can rotational workpieces automatically polishing machine
CN105922114B (en) * 2016-04-25 2018-04-20 中山超拓五金制品有限公司 A kind of polishing machine

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