CN205270631U - Self -adaptation sheet material positioning mechanism - Google Patents

Abstract

The utility model relates to a self -adaptation sheet material positioning mechanism belongs to lathe technical field. One side border of this positioning mechanism's sheet material load -bearing platform is equipped with and supplies the sheet material to support the location flange that leans on, and sheet material load -bearing platform is equipped with the goat's horn frame with the border of the adjacent side of location flange, and goat's horn frame place plane is on a parallel with sheet material load -bearing platform's top surface, and the bight of goat's horn frame is connected with the goat's horn frame hinge of perpendicular to sheet material load -bearing platform top surface, and the lower extreme of goat's horn frame hinge articulates on goat's horn frame drive block, the goat's horn frame roller shaft of axis perpendicular to sheet material load -bearing platform top surface is installed respectively to two ends of goat's horn frame, installs goat's horn frame gyro wheel on the goat's horn frame roller shaft respectively. Goat's horn frame drive block supports on the X1 guide rail and can follow the translation of X1 guide rail, and the X1 guide rail is fixed in the border of sheet material load -bearing platform and the adjacent side of location flange. Sheet material load -bearing platform's both sides are along being equipped with X crank and Y crank respectively. This positioning mechanism can reliably fix a position special -shaped panel.

Description

Self adaptation panel veneer positioning mechanism

Technical field

This utility model relates to a kind of lathe, particularly to a kind of self adaptation panel veneer positioning mechanism, belongs to machine tool technology field.

Background technology

Metal blank part must be accurately positioned being punched out, before cut, Bending Processing. Traditional panel veneer positioning mechanism includes plate carrying platform, plate carrying platform is evenly distributed with multiple rolling steel balls to reduce frictional force when plate moves, orthogonal two limits of plate carrying platform be respectively equipped with for plate edge against location rib, after plate is placed on plate carrying platform, it is pushed to location rib, until plate edge is resisted against on the rib of location, so that plate obtains location.

There is following weak point in traditional panel veneer positioning mechanism: 1. right-angle side must be relied on to position, if cannot realize stable position when sheet metal parts is arbitrary shape. 2., when the size and dimension of sheet metal parts changes, it is necessary to positioner is readjusted and arranges, this results in automatic production line when processing different parts, it is necessary to shutdown operation, has a strong impact on production efficiency; 3. as shown in Figure 1, if first certain angle of sheet metal parts touches location rib 2 (location gear refers to move), location rib and location gear refer to produce frictional force f between plate, easily occur that the position made a concerted effort acting on plate produces locking phenomenon within angle of friction, cause that plate is stuck to refer to slide along location rib and location gear, also allow for the location failure of plate.

Utility model content

The purpose of this utility model is in that, overcomes problems of the prior art, it is provided that a kind of self adaptation panel veneer positioning mechanism, it is possible to heterotype profiled sheet is reliably positioned.

For solving above technical problem, a kind of self adaptation panel veneer positioning mechanism of the present utility model, including plate carrying platform, the edge, side of described plate carrying platform be provided with mean for plate against location rib, described plate carrying platform and the edge positioning rib sides adjacent are provided with sheep horn shelf, described sheep horn shelf place plane is parallel to the end face of described plate carrying platform, the corner of described sheep horn shelf is connected to the sheep horn shelf hinge being perpendicular to plate carrying platform end face, and the lower end of described sheep horn shelf hinge is hinged on sheep horn shelf drive block; Two terminations of described sheep horn shelf are separately installed with axis and are perpendicular to the sheep horn shelf roller shaft of plate carrying platform end face, and described sheep horn shelf roller shaft is separately installed with sheep horn shelf roller.

Relative to prior art, this utility model achieves following beneficial effect: when two adjacent edges of plate are not mutually perpendicular to, but when being acute angle or obtuse angle relation, first a limit is pushed against on the rib of location, when adjacent edge touches a termination of sheep horn shelf, along with the continuation of plate advances, sheep horn shelf stress produces to rotate, until the two of sheep horn shelf terminations all produce to contact with the edge of plate, now sheep horn shelf is not rotated further by, and jointly plate is formed secure support with location rib. Plate is in sheep horn shelf progradation, effect due to sheep horn shelf roller, the frictional force along this direction, edge being subject to towards the plate edge of sheep horn shelf is minimum, before two terminations of sheep horn shelf all contact plate edge, what this edge was subject to be perpendicular to, and the power of self is also only small, therefore will not there is stuck phenomenon in the direction in plate, it is possible to realizes being accurately positioned irregularly shaped part.

As improvement of the present utility model, described sheep horn shelf drive block is supported on X1 guide rail and can translate along X1 guide rail, and described X1 guide rail is fixed on the edge of described plate carrying platform and location rib sides adjacent. Sheep horn shelf drive block can adjust position with sheep horn shelf on X1 guide rail; the change of the shape and size of different batches plate can be better adapted to, in automatic production line, when processing different parts without shutdown operation; automatization's efficiency is high, simultaneously without stuck phenomenon occur. X1 detent mechanism has the single-degree-of-freedom along X1 guide rail, it is possible to by the adjusting and optimizing of its Support Position is supported location.

As improvement of the present utility model, described plate carrying platform and the edge positioning rib sides adjacent are provided with X drive block, described X drive block is hinged with two X cranks being parallel to each other, described in two, the far-end of X crank is connected by X connecting rod, and the center hinge of described X connecting rod is connected to the X connecting rod vertical pivot being perpendicularly oriented to plate carrying platform end face; The root of one of them X crank is hinged with X crank and drives cylinder, and described X crank drives the piston rod end of cylinder to be hinged on the middle part of another X crank. X crank drives the piston rod of cylinder stretch out or retract, X crank can be driven to swing on X drive block, after plate is placed on plate carrying platform, the far-end of X crank swings to rib direction, location, when X connecting rod vertical pivot touches the edge of plate, plate is pushed location rib to, until being resisted against on the rib of location completely obtain location.

As further improvement of the utility model, the lower end of described X connecting rod vertical pivot is hinged with X localization handspike, described X localization handspike is parallel to the end face of described plate carrying platform, the two ends of described X localization handspike are separately installed with axis and are perpendicular to the X localization handspike roller shaft of plate carrying platform end face, and described X localization handspike roller shaft is separately installed with X localization handspike roller. The thrust that X connecting rod vertical pivot produces is passed on X localization handspike, when a termination of X localization handspike touches plate edge, X localization handspike stress produces to rotate, until the two of X localization handspike terminations all produce to contact with the edge of plate, now X localization handspike is not rotated further by, and plate is pushed to location rib under the promotion of X crank. At plate in the rib progradation of location, the frictional force along this direction, edge being subject to towards the plate edge of X localization handspike is only small, before two terminations of X localization handspike all contact plate edge, what this edge was subject to be perpendicular to, and the power of self is also only small, and therefore plate, in X-direction, stuck phenomenon will not occur. Two terminations of X localization handspike are respectively mounted X localization handspike roller, it is simple to slide swimmingly along plate edge.

As further improvement of the utility model, described X drive block is supported on X guide rail and can translate along X guide rail. X drive block can adjust position with X detent mechanism on X guide rail, the change of the shape and size of different batches plate can be better adapted to, plate is made to be pushed to the force-bearing situation positioning rib better, X localization handspike roller is dynamically controlled with the contacting points position of plate, at optimal location, plate can be supported, position more stable; And in automatic production line, when processing different parts without shutdown operation, automatization's efficiency is high.

As improvement of the present utility model, described plate carrying platform and the edge positioning rib sides adjacent are provided with Y drive block, described Y drive block is hinged with two Y cranks being parallel to each other, described in two, the far-end of Y crank is connected by Y connecting rod, and the center hinge of described Y connecting rod is connected to the Y connecting rod vertical pivot being perpendicularly oriented to plate carrying platform end face; The root of one of them Y crank is hinged with Y crank and drives cylinder, and described Y crank drives the piston rod end of cylinder to be hinged on the middle part of another Y crank. Y crank drives the piston rod of cylinder stretch out or retract, Y crank can be driven to swing on Y drive block, after plate is placed on plate carrying platform, the far-end of Y crank swings to sheep horn shelf direction, when Y connecting rod vertical pivot touches the edge of plate, pushing plate to sheep horn shelf, obtaining location until being resisted against on sheep horn shelf completely.

As further improvement of the utility model, the lower end of described Y connecting rod vertical pivot is hinged with Y localization handspike, described Y localization handspike is parallel to the end face of described plate carrying platform, the two ends of described Y localization handspike are separately installed with axis and are perpendicular to the Y localization handspike roller shaft of plate carrying platform end face, and described Y localization handspike roller shaft is separately installed with Y localization handspike roller. The thrust that Y connecting rod vertical pivot produces is passed on Y localization handspike, when a termination of Y localization handspike touches plate edge, Y localization handspike stress produces to rotate, until the two of Y localization handspike terminations all produce to contact with the edge of plate, now Y localization handspike is not rotated further by, and plate is pushed to location rib under the promotion of Y crank. At plate in the rib progradation of location, the frictional force along this direction, edge being subject to towards the plate edge of Y localization handspike is only small, before two terminations of Y localization handspike all contact plate edge, what this edge was subject to be perpendicular to, and the power of self is also only small, and therefore stuck phenomenon will not occur plate in the Y direction. Two terminations of Y localization handspike are respectively mounted Y localization handspike roller, it is simple to slide swimmingly along plate edge.

As further improvement of the utility model, described Y drive block is supported in Y guide rail and can translate along Y guide rail. Y drive block can adjust position with Y detent mechanism in Y guide rail, the change of the shape and size of different batches plate can be better adapted to, plate is made to be pushed to the force-bearing situation of sheep horn shelf better, Y localization handspike roller is dynamically controlled with the contacting points position of plate, at optimal location, plate can be supported, position more stable; And in automatic production line, when processing different parts without shutdown operation, automatization's efficiency is high.

As improvement of the present utility model, described X1 guide rail parallel is in described X guide rail.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, this utility model being described in further detail, accompanying drawing only provides reference and use is described, is not used to restriction this utility model.

Fig. 1 is stress analysis chart during existing detent mechanism generation self-locking.

Fig. 2 is the front view of this utility model self adaptation panel veneer positioning mechanism.

Fig. 3 is the axonometric chart of Fig. 2.

Fig. 4 is the working state figure after X drive block moves to rib direction, location on X guide rail.

Fig. 5 is the axonometric chart of plate carrying platform.

Fig. 6 is the working state figure two for abnormity plate of this utility model self adaptation panel veneer positioning mechanism.

Fig. 7 is the working state figure three for abnormity plate of this utility model self adaptation panel veneer positioning mechanism.

Fig. 8 is the stress analysis chart of this utility model self adaptation panel veneer positioning mechanism.

In figure: 1. plate carrying platform; 1a. rolling steel balls; 2. location rib; 3. plate; 4.X1 guide rail; 5. sheep horn shelf drive block; 6. sheep horn shelf; 6a. sheep horn shelf hinge; 6b. sheep horn shelf roller shaft; 6c. sheep horn shelf roller; 7.X guide rail; 8.X drive block; 9.X crank; 9a.X connecting rod vertical pivot; 9b.X localization handspike; 9c.X localization handspike roller shaft; 9d.X localization handspike roller; 10.X crank drives cylinder; 11.Y guide rail; 12.Y drive block; 13.Y crank; 13a.Y connecting rod vertical pivot; 13b.Y localization handspike; 13c.Y localization handspike roller shaft; 13d.Y localization handspike roller; 14.Y crank drives cylinder.

Detailed description of the invention

As shown in Fig. 2 to Fig. 8, self adaptation panel veneer positioning mechanism of the present utility model includes plate carrying platform 1, plate carrying platform 1 is evenly distributed with multiple rolling steel balls 1a, the edge, side of plate carrying platform 1 be provided with mean for plate against location rib 2, plate carrying platform 1 and the edge positioning rib sides adjacent are provided with sheep horn shelf 6, sheep horn shelf 6 place plane is parallel to the end face of plate carrying platform 1, the corner of sheep horn shelf 6 is connected to the sheep horn shelf hinge 6a being perpendicular to plate carrying platform end face, and the lower end of sheep horn shelf hinge 6a is hinged on sheep horn shelf drive block 5; Two terminations of sheep horn shelf 6 are separately installed with axis and are perpendicular to the sheep horn shelf roller shaft 6b of plate carrying platform end face, and sheep horn shelf roller shaft 6b is separately installed with sheep horn shelf roller 6c.

When two adjacent edges of plate 3 are not mutually perpendicular to, but when being acute angle or obtuse angle relation, first a limit is pushed against on the rib 2 of location, when adjacent edge touches a termination of sheep horn shelf 6, along with the continuation of plate 3 advances, sheep horn shelf 6 stress produces to rotate, until the two of sheep horn shelf 6 terminations all produce to contact with the edge of plate 3, now sheep horn shelf 6 is not rotated further by, and jointly plate 3 is formed secure support with location rib 2. Plate 3 is in sheep horn shelf 6 progradation, effect due to sheep horn shelf roller 6c, the frictional force along this direction, edge being subject to towards the plate edge of sheep horn shelf 6 is minimum, before two terminations of sheep horn shelf 6 all contact plate edge, what this edge was subject to be perpendicular to, and the power of self is also only small, therefore will not there is stuck phenomenon in the direction in plate 3, it is possible to realizes being accurately positioned irregularly shaped part.

Sheep horn shelf drive block 5 is supported on X1 guide rail 4 and can translate along X1 guide rail 4, and X1 guide rail 4 is fixed on the edge of plate carrying platform 1 and location rib sides adjacent. X1 guide rail 4 can be parallel to X guide rail 7. Sheep horn shelf drive block 5 can adjust position with sheep horn shelf 6 on X1 guide rail 4; the change of the shape and size of different batches plate can be better adapted to, in automatic production line, when processing different parts without shutdown operation; automatization's efficiency is high, simultaneously without stuck phenomenon occur.

Plate carrying platform 1 and the edge positioning rib sides adjacent are provided with X drive block 8, X drive block 8 is hinged with two X cranks 9 being parallel to each other, the far-end of two X cranks 9 is connected by X connecting rod, and the center hinge of X connecting rod is connected to the X connecting rod vertical pivot 9a being perpendicularly oriented to plate carrying platform end face; The root of one of them X crank is hinged with X crank and drives cylinder 10, X crank to drive the piston rod end of cylinder 10 to be hinged on the middle part of another X crank. X crank drives the piston rod of cylinder 10 stretch out or retract, X crank 9 can be driven to swing on X drive block 8, after plate is placed on plate carrying platform 1, the far-end of X crank swings to rib 2 direction, location, when X connecting rod vertical pivot 9a touches the edge of plate, plate is pushed location rib 2 to, until being resisted against on the rib 2 of location completely obtain location.

The lower end of X connecting rod vertical pivot 9a is hinged with X localization handspike 9b, X localization handspike 9b is parallel to the end face of plate carrying platform 1, the two ends of X localization handspike 9b are separately installed with axis and are perpendicular on X localization handspike roller shaft 9c, the X localization handspike roller shaft 9c of plate carrying platform end face and are separately installed with X localization handspike roller 9d. The thrust that X connecting rod vertical pivot 9a produces is passed on X localization handspike 9b, when a termination of X localization handspike 9b touches plate edge, X localization handspike 9b stress produces to rotate, until two terminations of X localization handspike 9b all produce to contact with the edge of plate, now X localization handspike 9b is not rotated further by, and plate is pushed to location rib 2 under the promotion of X crank 9. At plate in rib 2 progradation of location, the frictional force along this direction, edge being subject to towards the plate edge of X localization handspike 9b is only small, before two terminations of X localization handspike 9b all contact plate edge, what this edge was subject to be perpendicular to, and the power of self is also only small, and therefore plate, in X-direction, stuck phenomenon will not occur. Two terminations of X localization handspike 9b are respectively mounted X localization handspike roller 9d, it is simple to slide swimmingly along plate edge.

X drive block 8 is supported on X guide rail 7 and can translate along X guide rail 7. X drive block 8 can adjust position with X detent mechanism on X guide rail 7, the change of the shape and size of different batches plate can be better adapted to, plate is made to be pushed to the force-bearing situation positioning rib 2 better, X localization handspike roller 9d is dynamically controlled with the contacting points position of plate, at optimal location, plate can be supported, position more stable; And in automatic production line, when processing different parts without shutdown operation, automatization's efficiency is high.

Plate carrying platform 1 and the edge positioning rib sides adjacent are provided with Y drive block 12, Y drive block 12 is hinged with two Y cranks 13 being parallel to each other, the far-end of two Y cranks is connected by Y connecting rod, and the center hinge of Y connecting rod is connected to the Y connecting rod vertical pivot 13a being perpendicularly oriented to plate carrying platform end face; The root of one of them Y crank is hinged with Y crank and drives cylinder 14, Y crank to drive the piston rod end of cylinder 14 to be hinged on the middle part of another Y crank. Y crank drives the piston rod of cylinder 14 stretch out or retract, Y crank 13 can be driven to swing on Y drive block 12, after plate is placed on plate carrying platform 1, the far-end of Y crank 13 swings to sheep horn shelf 6 direction, when Y connecting rod vertical pivot 13a touches the edge of plate, plate being pushed to sheep horn shelf 6, obtaining location until being resisted against on sheep horn shelf 6 completely.

The lower end of Y connecting rod vertical pivot 13a is hinged with Y localization handspike 13b, Y localization handspike 13b is parallel to the end face of plate carrying platform 1, the two ends of Y localization handspike 13b are separately installed with axis and are perpendicular on Y localization handspike roller shaft 13c, the Y localization handspike roller shaft 13c of plate carrying platform end face and are separately installed with Y localization handspike roller 13d. The thrust that Y connecting rod vertical pivot 13a produces is passed on Y localization handspike 13b, when a termination of Y localization handspike 13b touches plate edge, Y localization handspike 13b stress produces to rotate, until two terminations of Y localization handspike 13b all produce to contact with the edge of plate, now Y localization handspike 13b is not rotated further by, and plate is pushed to location rib 2 under the promotion of Y crank 13. At plate in rib 2 progradation of location, the frictional force along this direction, edge being subject to towards the plate edge of Y localization handspike 13b is only small, before two terminations of Y localization handspike 13b all contact plate edge, what this edge was subject to be perpendicular to, and the power of self is also only small, and therefore stuck phenomenon will not occur plate in the Y direction. Two terminations of Y localization handspike 13b are respectively mounted Y localization handspike roller 13d, it is simple to slide swimmingly along plate edge.

Y drive block 12 is supported in Y guide rail 11 and can translate along Y guide rail 11. Y drive block 12 can adjust position with Y detent mechanism in Y guide rail 11, the change of the shape and size of different batches plate can be better adapted to, plate is made to be pushed to the force-bearing situation of sheep horn shelf 6 better, Y localization handspike roller 13d is dynamically controlled with the contacting points position of plate, at optimal location, plate can be supported, position more stable; And in automatic production line, when processing different parts without shutdown operation, automatization's efficiency is high.

Irregularly shaped various sizes of plate can be accurately positioned by self adaptation panel veneer positioning mechanism of the present utility model, and wherein X, Y detent mechanism is plane two-freedom mechanism, it is possible to realizes the support of plate optimal location is positioned, positions more stable. X1 detent mechanism has the single-degree-of-freedom along X1 guide rail 4, it is possible to realize the adjustment to its Support Position, optimizes and supports location; To the positioning stablity of plate and accurately.

As shown in Figure 8, self adaptation panel veneer positioning mechanism of the present utility model does not have self-locking, stuck phenomenon, sheep horn shelf roller 6c, X localization handspike roller 9d and Y localization handspike roller 13d of the present utility model there's almost no frictional force along the direction at plate edge, the thrust F that plate edge is produced is directed to the normal direction at edge, place, roller rolls along slab edge, is conducive to the slip of plate, it is possible to realize more stable location. Roller is dynamically controlled with the contacting points position of plate, it is possible at optimal location, plate is being supported.

The foregoing is only the preferably possible embodiments of this utility model, non-therefore limit to scope of patent protection of the present utility model. In addition to the implementation, this utility model can also have other embodiments. All employings are equal to replacement or the technical scheme of equivalent transformation formation, all fall within the protection domain of this utility model requirement. This utility model can pass through without the technical characteristic described or adopt existing techniques in realizing, does not repeat them here.

Claims (9)

1. a self adaptation panel veneer positioning mechanism, including plate carrying platform, the edge, side of described plate carrying platform be provided with mean for plate against location rib, it is characterized in that: described plate carrying platform and the edge positioning rib sides adjacent are provided with sheep horn shelf, described sheep horn shelf place plane is parallel to the end face of described plate carrying platform, the corner of described sheep horn shelf is connected to the sheep horn shelf hinge being perpendicular to plate carrying platform end face, and the lower end of described sheep horn shelf hinge is hinged on sheep horn shelf drive block; Two terminations of described sheep horn shelf are separately installed with axis and are perpendicular to the sheep horn shelf roller shaft of plate carrying platform end face, and described sheep horn shelf roller shaft is separately installed with sheep horn shelf roller.

2. self adaptation panel veneer positioning mechanism according to claim 1, it is characterised in that: described sheep horn shelf drive block is supported on X1 guide rail and can translate along X1 guide rail, and described X1 guide rail is fixed on the edge of described plate carrying platform and location rib sides adjacent.

3. self adaptation panel veneer positioning mechanism according to claim 1 and 2, it is characterized in that: described plate carrying platform and the edge positioning rib sides adjacent are provided with X drive block, described X drive block is hinged with two X cranks being parallel to each other, described in two, the far-end of X crank is connected by X connecting rod, and the center hinge of described X connecting rod is connected to the X connecting rod vertical pivot being perpendicularly oriented to plate carrying platform end face; The root of one of them X crank is hinged with X crank and drives cylinder, and described X crank drives the piston rod end of cylinder to be hinged on the middle part of another X crank.

4. self adaptation panel veneer positioning mechanism according to claim 3, it is characterized in that: the lower end of described X connecting rod vertical pivot is hinged with X localization handspike, described X localization handspike is parallel to the end face of described plate carrying platform, the two ends of described X localization handspike are separately installed with axis and are perpendicular to the X localization handspike roller shaft of plate carrying platform end face, and described X localization handspike roller shaft is separately installed with X localization handspike roller.

5. self adaptation panel veneer positioning mechanism according to claim 3, it is characterised in that: described X drive block is supported on X guide rail and can translate along X guide rail.

6. self adaptation panel veneer positioning mechanism according to claim 1 and 2, it is characterized in that: described plate carrying platform and the edge positioning rib sides adjacent are provided with Y drive block, described Y drive block is hinged with two Y cranks being parallel to each other, described in two, the far-end of Y crank is connected by Y connecting rod, and the center hinge of described Y connecting rod is connected to the Y connecting rod vertical pivot being perpendicularly oriented to plate carrying platform end face; The root of one of them Y crank is hinged with Y crank and drives cylinder, and described Y crank drives the piston rod end of cylinder to be hinged on the middle part of another Y crank.

7. self adaptation panel veneer positioning mechanism according to claim 6, it is characterized in that: the lower end of described Y connecting rod vertical pivot is hinged with Y localization handspike, described Y localization handspike is parallel to the end face of described plate carrying platform, the two ends of described Y localization handspike are separately installed with axis and are perpendicular to the Y localization handspike roller shaft of plate carrying platform end face, and described Y localization handspike roller shaft is separately installed with Y localization handspike roller.

8. self adaptation panel veneer positioning mechanism according to claim 6, it is characterised in that: described Y drive block is supported in Y guide rail and can translate along Y guide rail.

9. self adaptation panel veneer positioning mechanism according to claim 5, it is characterised in that: described X1 guide rail parallel is in described X guide rail.