CN204509665U - The friction feeding mechanism of artificial eye machine - Google Patents
The friction feeding mechanism of artificial eye machine Download PDFInfo
- Publication number
- CN204509665U CN204509665U CN201520088798.XU CN201520088798U CN204509665U CN 204509665 U CN204509665 U CN 204509665U CN 201520088798 U CN201520088798 U CN 201520088798U CN 204509665 U CN204509665 U CN 204509665U
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- China
- Prior art keywords
- line slideway
- artificial eye
- erecting bed
- underarm
- linear reciprocating
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Abstract
The utility model discloses a kind of friction feeding mechanism of artificial eye machine, it can complete after an artificial eye makes at artificial eye machine, the working region that the another location of cuff cloth can be placed into artificial eye machine in the mode of mechanization is made to prepare next artificial eye, to form continuous print operation.Comprise jig arm, this jig arm is made up of upper arm and underarm, by the first linear reciprocating mechanism, upper arm is opened relative to underarm or closed, underarm is connected with the output of the second linear reciprocating mechanism, second linear reciprocating mechanism is fixed on erecting bed, erecting bed is fixed on cross slid platform, erecting bed can along the longitudinal and mould to movement; Erecting bed is also formed with one end of connector in the vertical and is slidably connected, and erecting bed is formed with one end of connector in the horizontal and is connected, the other end of connector is fixedly connected with the slide block of the first line slideway, first line slideway is horizontally set, and the slide block of the first line slideway is provided with horizontal slave unit.
Description
Technical field
The utility model belongs to the technical field of artificial eye machine, specifically relates to a kind of friction feeding mechanism of artificial eye machine.
Background technology
Artificial eye machine is a kind of equipment for making the artificial eye on cuff cloth.The Chinese invention patent application file that publication number is CN103343427A, publication date is on October 09th, 2013 discloses a kind of pay-off of artificial eye machine, and it can make to make processing platform can move in X-direction and Y direction.The pay-off of this artificial eye machine comprises processing platform, the bar hole being provided with tooth bar and extending along the bearing of trend of tooth bar; First motor and the second motor, the axis of both output shafts is all perpendicular to the bearing of trend of tooth bar; Be connected with the first motor and the gear matched with tooth bar; Be limited in the slide block in bar hole slidably; Can change slide block during rotation at the tumbler perpendicular to the position on bearing of trend, tumbler has turning cylinder, and slide block is arranged on tumbler; Coordinate with tumbler, can drive the cam that tumbler rotates during rotation, it is connected with the second motor.In rack and pinion engagement on processing platform, it is meshed to realize rack and pinion by extension spring and processing platform arm-tie.The artificial eye machine of this structure, when making multiple artificial eye, completes after one of them artificial eye makes work at it, needs the working region manually another location of cuff cloth being placed into artificial eye machine to make to prepare next artificial eye.As can be seen here, its mechanization degree is low, moreover poor continuity.
Summary of the invention
The purpose of this utility model is to provide a kind of friction feeding mechanism of artificial eye machine, it can complete after an artificial eye makes at artificial eye machine, the working region that the another location of cuff cloth can be placed into artificial eye machine in the mode of mechanization is made to prepare next artificial eye, to form continuous print operation.
The purpose of this utility model is achieved in that a kind of friction feeding mechanism of artificial eye machine, comprise working plate, working plate is arranged on board, also comprise the jig arm be positioned at above described working plate, this jig arm is made up of upper arm and underarm, by the first linear reciprocating mechanism, upper arm is opened relative to underarm or closed, described underarm is connected with the output of the second linear reciprocating mechanism, jig arm transverse shifting is made by described second linear reciprocating mechanism, described second linear reciprocating mechanism is fixed on erecting bed, erecting bed is fixed on cross slid platform, erecting bed can along the longitudinal and mould to movement, described erecting bed is also formed with one end of connector in the vertical and is slidably connected, and erecting bed is formed with one end of connector in the horizontal and is connected, the other end of connector is fixedly connected with the slide block of the first line slideway, first line slideway is horizontally set, the slide block of the first line slideway is provided with horizontal slave unit, and driving shaft makes the slide block of described first line slideway move by this horizontal slave unit.
On the basis of such scheme and as the preferred version of such scheme: described horizontal slave unit comprises mandrel and mount pad, described mandrel is arranged in mount pad, and mandrel and mount pad are slidably matched, described mount pad is provided with port, described mandrel is provided with installing hole, described driving shaft through described port be inserted on installing hole, the internal diameter of installing hole and the external diameter of driving shaft suitable.
On the basis of such scheme and as the preferred version of such scheme: described underarm is connected by the output of driving mechanism with described second linear reciprocating mechanism, described driving mechanism comprises axle, described axle is installed in rotation on support, support is fixed on the output of the second linear reciprocating mechanism, described axle and described underarm are connected, described axle is also connected with gear-linked, described gear is meshed with driving gear, the output of driving gear and the first motor is in transmission connection, and the first motor is fixed on support; Working plate is fixed with pin, and described underarm is provided with pin stopper slot, and described pin and stopper slot are formed and be slidably matched.
On the basis of such scheme and as the preferred version of such scheme: described second linear reciprocating mechanism comprises the second line slideway, this second line slideway is horizontally set, the guide rail of the second line slideway is fixed on erecting bed, erecting bed is also provided with the second motor, and the output of the second motor makes the slide block of the second line slideway move by synchronous belt drive mechanism.
On the basis of such scheme and as the preferred version of such scheme: described first motor is stepper motor.
On the basis of such scheme and as the preferred version of such scheme: described second motor is stepper motor.
On the basis of such scheme and as the preferred version of such scheme: described first linear reciprocating mechanism is slide unit cylinder.
On the basis of such scheme and as the preferred version of such scheme: the slide unit of described slide unit cylinder is fixedly connected with underarm, and the cylinder body of described slide unit cylinder is fixedly connected with upper arm.
On the basis of such scheme and as the preferred version of such scheme: described cross slid platform comprises the 3rd line slideway and the 4th line slideway, described erecting bed is fixed on the slide block of described 3rd line slideway, the guide rail of described 3rd line slideway is transversely fixed on the slide block of the 4th line slideway, and the guide rail of the 4th line slideway is in longitudinally arranging.
On the basis of such scheme and as the preferred version of such scheme: described erecting bed is formed by one end of the 5th line slideway and connector and is slidably connected, described erecting bed is fixedly connected with the slide block of the 5th line slideway, one end of described connector is fixedly connected with the guide rail of the 5th line slideway, and the guide rail of the 5th line slideway is in longitudinally arranging.
The utility model gives prominence to compared to existing technology and useful technique effect is:
1, the friction feeding mechanism of artificial eye machine of the present utility model, by horizontal slave unit and the first line slideway, make slide block and working plate in the horizontal can synchronizing moving, and slide block synchronously drives erecting bed by connector, make jig arm on erecting bed also subsidiary synchronizing moving, thus cuff cloth is unlikely move making in artificial eye process to be pind down but working plate can be attached; Make jig arm by crosswise pushing certain distance to change the relative position of jig arm and working plate by the second linear reciprocating mechanism, make artificial eye machine can continue to make artificial eye in the another location of cuff cloth, formation is worked continuously.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Fig. 2 is polycrystalline substance schematic diagram of the present utility model.
Fig. 3 is partial sectional view of the present utility model.
Fig. 4 is the structural representation of driving mechanism of the present utility model and the second linear reciprocating mechanism.
Fig. 5 is the structural representation of horizontal slave unit of the present utility model.
Detailed description of the invention
The utility model is further described with specific embodiment below in conjunction with accompanying drawing, see Fig. 1 mono-Fig. 5;
It should be noted that, term " first " in an embodiment, " second ", " the 3rd ", " the 4th ", " the 5th ", only for describing object, distinguishing corresponding parts, and can not be interpreted as the restriction to quantity.
The board 2 width d1 direction of artificial eye machine is defined as Y direction, i.e. term " longitudinal direction ", it is the range direction of working plate 1 by tooth bar movement; X-direction is defined as, i.e. term " transverse direction " by perpendicular to Y direction.
The friction feeding mechanism of the artificial eye machine that the present embodiment provides, feeding auxiliary equipment when it makes artificial eye as artificial eye machine on a cuff cloth (machined object), when artificial eye machine complete an artificial eye make work time, this friction feeding mechanism pushes cuff cloth and continues to make artificial eye in the another location of cuff cloth to enable artificial eye machine, thus can make artificial eye machine on a cuff cloth, complete multiple artificial eye continuously make work.
The friction feeding mechanism of artificial eye machine comprises working plate 1, and working plate 1 is arranged on board 2.Jig arm 3 is positioned at above described working plate 1.This jig arm 3 is made up of upper arm 31 and underarm 32.Jig arm 3 is for clamping cuff cloth, and make cuff cloth be laid on working plate 1, in use, cuff cloth is clamped between upper arm 31 and underarm 32.
By the first linear reciprocating mechanism 4, upper arm 31 is opened relative to underarm 32 or closed.In the present embodiment, described first linear reciprocating mechanism 4 adopts slide unit cylinder 41.Preferably, the slide unit of described slide unit cylinder 41 is fixedly connected with underarm 32, and the cylinder body of described slide unit cylinder 41 is fixedly connected with upper arm 31.When slide unit cylinder 41 works, the piston rod of slide unit cylinder 41 stretches out, and upper arm 31 pushed away from underarm 32, and upper arm 31 is opened relative to underarm 32, now, cuff cloth can be put into or taken off by cuff cloth; The piston rod indentation of slide unit cylinder 41, makes upper arm 31 close relative to underarm 32, is firmly clamped in jig arm 3 to make cuff cloth.Certain slide unit cylinder 41 and jig arm 3 also can adopt other assembly structure.
Described underarm 32 is connected with the output of the second linear reciprocating mechanism 5, makes jig arm 3 transverse shifting by described second linear reciprocating mechanism 5, and described second linear reciprocating mechanism 5 is fixed on erecting bed 6.The friction feeding mechanism of this artificial eye machine, after the second linear reciprocating mechanism 5 works, jig arm 3 to change jig arm 3 and the relative position of working plate 1, is made artificial eye machine can continue to make artificial eye in the another location of cuff cloth by crosswise pushing certain distance.Preferably, as shown in Figure 4, described second linear reciprocating mechanism 5 comprises the second line slideway 51, second motor 52 and synchronous belt drive mechanism 53.This second line slideway 51 is in horizontally set, and the guide rail of the second line slideway 51 is fixed on erecting bed 6, and the slide block 511 of the second line slideway 51 is as the output of the second linear reciprocating mechanism 5.Second motor 52 is located on erecting bed 6.In the present embodiment, the second motor 52 preferably adopts stepper motor.The output of the second motor 52 makes the slide block of the second line slideway 51 move by synchronous belt drive mechanism 53.Specifically, synchronous belt drive mechanism 53 is by the first synchronous pulley 531, second synchronous pulley 532 and Timing Belt 533, first synchronous pulley is fixed on the output shaft of the second motor 52, second synchronous pulley is installed in rotation on erecting bed 6 that, as driven pulley, the two ends of Timing Belt 533 are separately fixed at the two ends of the slide block 511 of the second line slideway 51.Wherein, the first synchronous pulley 531, second synchronous pulley 532 and Timing Belt 533 form V belt translation assembling.Certainly, the second linear reciprocating mechanism 5 also can adopt other structure.
Erecting bed 6 is fixed on cross slid platform 7, erecting bed 6 can along the longitudinal and mould to movement.Described erecting bed 6 is also formed with one end of connector 8 in the vertical and is slidably connected, and erecting bed 6 is formed with one end of connector 8 in the horizontal and is connected.In other words, erecting bed 6 can relative movement relative to connector 8 in a longitudinal direction; And in a lateral direction, when connector 8 transverse shifting, connector 8 drives erecting bed 6 transverse shifting, make erecting bed 6 attach connector 8 and move.
The other end of connector 8 is fixedly connected with the slide block 91 of the first line slideway 9, and the guide rail 92 of the first line slideway 9 is in horizontally set.The slide block of the first line slideway 9 is provided with horizontal slave unit 10, and driving shaft 50 makes the slide block of described first line slideway 9 move by this horizontal slave unit 10.Be understandable that, the friction feeding mechanism of artificial eye machine, by horizontal slave unit 10 and the first line slideway 9, make slide block 91 and working plate 1 in the horizontal can synchronizing moving, and slide block synchronously drives erecting bed 6 by connector 8, make jig arm 3 on erecting bed 6 also subsidiary synchronizing moving, be unlikely to make cuff cloth and move making in artificial eye process to be pind down but working plate 1 can be attached, thus make artificial eye machine be accomplished artificial eye to make.
Described driving shaft 50 is also for driving working plate 1 transverse shifting, and the movement locus of driving shaft is camber line.Movement in a curve can be converted to rectilinear motion by horizontal slave unit 10.In the present embodiment, see Fig. 5, described horizontal slave unit 10 comprises mandrel 101 and mount pad 102, described mandrel 101 is arranged in mount pad 102, and mandrel 101 and mount pad 102 are slidably matched, described mount pad 102 is provided with port 103, and port length is in a longitudinal direction greater than the external diameter of mandrel, and driving shaft is movable in port for driving shaft when the position of longitudinal direction changes.Described mandrel 101 is provided with installing hole 104, described driving shaft through described port be inserted on installing hole, the internal diameter of installing hole and the external diameter of driving shaft suitable, can movable slider be with to make driving shaft when the position of transverse direction changes.Certainly, horizontal slave unit 10 also can adopt other structure, being slidably matched of such as chute and slide block, and chute extends longitudinally.
For enabling the friction feeding mechanism of this artificial eye machine make oblique artificial eye, described underarm 32 is connected by the output of driving mechanism 20 with described second linear reciprocating mechanism 5.Described driving mechanism 20 comprises axle 201, and described axle 201 is installed in rotation on support 202.In the present embodiment, described axle 201 is arranged on support 202 by mounting bracket 203.See Fig. 4, middle part and the mounting bracket 203 of axle 201 are rotatably connected, and mounting bracket 203 is fixed on support 202.Support 202 is fixed on the output of the second linear reciprocating mechanism 5.Described axle 201 is connected with described underarm 32, and it drives underarm to rotate by axle.Described axle 201 is also connected with gear 204, and it is rotated by gear band moving axis.In the present embodiment, gear adopts sector gear.Described gear 204 is meshed with driving gear 205, and the output of driving gear 205 and the first motor 206 is in transmission connection, and the first motor 206 is fixed on support 202.In the present embodiment, the first motor 206 preferably adopts stepper motor.Working plate 1 is fixed with pin 30, and described underarm 32 is provided with pin stopper slot 321, and stopper slot 321 extends along the length direction of underarm 32, and the width of stopper slot 321 is fitted mutually with the external diameter of pin 30.Described pin and stopper slot are formed and are slidably matched.The course of work of this driving mechanism 20 is, the first motor 206 drives driving gear 205 to rotate, and driving gear driven gear 204 turns over an angle, thus jig arm 3 can be driven to rotate, because jig arm 3 is by the position-limiting action of pin, erecting bed 6 vertically moves, thus makes jig arm 3 form oblique putting.Be understandable that, cuff cloth, by oblique placement, therefore can sew oblique artificial eye by artificial eye machine.It is worth mentioning that, under the drive of the first motor, gear turns over from initial position the artificial eye that an angle can be used to make a cuff cloth (left cuff cloth); Motor rotates backward, and gear oppositely turns over from initial position the artificial eye that an angle can be used to make another cuff cloth (right cuff cloth); And initial position can be used to make forward artificial eye.
In the present embodiment, described cross slid platform 7 comprises the 3rd line slideway 71 and the 4th line slideway 72, described erecting bed 6 is fixed on the slide block of described 3rd line slideway 71, the guide rail of described 3rd line slideway 71 is transversely fixed on the slide block of the 4th line slideway 72, and the guide rail of the 4th line slideway 72 is in longitudinally arranging.Described erecting bed 6 to be formed with one end of connector 8 by the 5th line slideway 40 and is slidably connected, described erecting bed 6 is fixedly connected with the slide block 401 of the 5th line slideway 40, one end of described connector 8 is fixedly connected with the guide rail 402 of the 5th line slideway 40, and the guide rail of the 5th line slideway 40 is in longitudinally arranging.The basis of cross slid platform 7 is also provided with the 5th line slideway, makes erecting bed 6 mobile more stable in a longitudinal direction, and mobile more smooth and easy.As the another kind of assembly structure of cross slid platform, 3rd line slideway of cross slid platform is in longitudinally setting, the 4th line slideway are horizontally set, 3rd line slideway is positioned at the top of the 4th line slideway, and one end of connector is connected with the slide block of the 4th line slideway.
Above-described embodiment is only preferred embodiment of the present utility model, not limits protection domain of the present utility model according to this, therefore: all equivalence changes done according to structure of the present utility model, shape, principle, all should be covered by within protection domain of the present utility model.
Above-described embodiment is only preferred embodiment of the present utility model, not limits protection domain of the present utility model according to this, therefore: all equivalence changes done according to structure of the present utility model, shape, principle, all should be covered by within protection domain of the present utility model.
Claims (10)
1. the friction feeding mechanism of an artificial eye machine, comprise working plate, working plate is arranged on board, it is characterized in that: also comprise the jig arm be positioned at above described working plate, this jig arm is made up of upper arm and underarm, by the first linear reciprocating mechanism, upper arm is opened relative to underarm or closed, described underarm is connected with the output of the second linear reciprocating mechanism, jig arm transverse shifting is made by described second linear reciprocating mechanism, described second linear reciprocating mechanism is fixed on erecting bed, erecting bed is fixed on cross slid platform, erecting bed can along the longitudinal and mould to movement, described erecting bed is also formed with one end of connector in the vertical and is slidably connected, and erecting bed is formed with one end of connector in the horizontal and is connected, the other end of connector is fixedly connected with the slide block of the first line slideway, first line slideway is horizontally set, the slide block of the first line slideway is provided with horizontal slave unit, and driving shaft makes the slide block of described first line slideway move by this horizontal slave unit.
2. the friction feeding mechanism of artificial eye machine according to claim 1, it is characterized in that: described horizontal slave unit comprises mandrel and mount pad, described mandrel is arranged in mount pad, and mandrel and mount pad are slidably matched, described mount pad is provided with port, described mandrel is provided with installing hole, described driving shaft through described port be inserted on installing hole, the internal diameter of installing hole and the external diameter of driving shaft suitable.
3. the friction feeding mechanism of artificial eye machine according to claim 1, it is characterized in that: described underarm is connected by the output of driving mechanism with described second linear reciprocating mechanism, described driving mechanism comprises axle, described axle is installed in rotation on support, support is fixed on the output of the second linear reciprocating mechanism, described axle and described underarm are connected, described axle is also connected with gear-linked, described gear is meshed with driving gear, the output of driving gear and the first motor is in transmission connection, and the first motor is fixed on support; Working plate is fixed with pin, and described underarm is provided with pin stopper slot, and described pin and stopper slot are formed and be slidably matched.
4. the friction feeding mechanism of artificial eye machine according to claim 1, it is characterized in that: described second linear reciprocating mechanism comprises the second line slideway, this second line slideway is horizontally set, the guide rail of the second line slideway is fixed on erecting bed, erecting bed is also provided with the second motor, and the output of the second motor makes the slide block of the second line slideway move by synchronous belt drive mechanism.
5. the friction feeding mechanism of artificial eye machine according to claim 3, is characterized in that: described first motor is stepper motor.
6. the friction feeding mechanism of artificial eye machine according to claim 4, is characterized in that: described second motor is stepper motor.
7. the friction feeding mechanism of artificial eye machine according to claim 1, is characterized in that: described first linear reciprocating mechanism is slide unit cylinder.
8. the friction feeding mechanism of artificial eye machine according to claim 7, is characterized in that: the slide unit of described slide unit cylinder is fixedly connected with underarm, and the cylinder body of described slide unit cylinder is fixedly connected with upper arm.
9. the friction feeding mechanism of artificial eye machine according to claim 1, it is characterized in that: described cross slid platform comprises the 3rd line slideway and the 4th line slideway, described erecting bed is fixed on the slide block of described 3rd line slideway, the guide rail of described 3rd line slideway is transversely fixed on the slide block of the 4th line slideway, and the guide rail of the 4th line slideway is in longitudinally arranging.
10. the friction feeding mechanism of artificial eye machine according to claim 9, it is characterized in that: described erecting bed is formed by one end of the 5th line slideway and connector and is slidably connected, described erecting bed is fixedly connected with the slide block of the 5th line slideway, one end of described connector is fixedly connected with the guide rail of the 5th line slideway, and the guide rail of the 5th line slideway is in longitudinally arranging.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520088798.XU CN204509665U (en) | 2015-02-09 | 2015-02-09 | The friction feeding mechanism of artificial eye machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520088798.XU CN204509665U (en) | 2015-02-09 | 2015-02-09 | The friction feeding mechanism of artificial eye machine |
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| Publication Number | Publication Date |
|---|---|
| CN204509665U true CN204509665U (en) | 2015-07-29 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201520088798.XU Withdrawn - After Issue CN204509665U (en) | 2015-02-09 | 2015-02-09 | The friction feeding mechanism of artificial eye machine |
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| Country | Link |
|---|---|
| CN (1) | CN204509665U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104630992A (en) * | 2015-02-09 | 2015-05-20 | 林元强 | Continuous feed mechanism of mock button hole machine |
| CN108313685A (en) * | 2018-03-27 | 2018-07-24 | 东风汽车车轮有限公司 | A kind of product tumbling conveyer |
-
2015
- 2015-02-09 CN CN201520088798.XU patent/CN204509665U/en not_active Withdrawn - After Issue
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104630992A (en) * | 2015-02-09 | 2015-05-20 | 林元强 | Continuous feed mechanism of mock button hole machine |
| CN108313685A (en) * | 2018-03-27 | 2018-07-24 | 东风汽车车轮有限公司 | A kind of product tumbling conveyer |
| CN108313685B (en) * | 2018-03-27 | 2024-04-05 | 东风汽车底盘***有限公司 | Workpiece overturning and conveying device |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| EE01 | Entry into force of recordation of patent licensing contract |
Assignee: Wenzhou Hengtai Sewing Equipment Co., Ltd. Assignor: Lin Yuanqiang Contract record no.: 2016330000137 Denomination of utility model: Continuous feed mechanism of mock button hole machine Granted publication date: 20150729 License type: Exclusive License Record date: 20160911 |
|
| LICC | Enforcement, change and cancellation of record of contracts on the licence for exploitation of a patent or utility model | ||
| AV01 | Patent right actively abandoned | ||
| AV01 | Patent right actively abandoned |
Granted publication date: 20150729 Effective date of abandoning: 20170222 |