CN205087443U - Work or material rest auxiliary positioning device - Google Patents

Abstract

The utility model relates to a work or material rest auxiliary positioning device is including a support body, a conveyor components and a drive assembly, conveyor components has put at least one first gyro wheel along the horizontal direction with extending, first gyro wheel can use a first virtual pivot to rotate the ground pivot as the relative support body in axle center and locate the support body, conveyor components has a fluid pressure machine and a second gyro wheel, the fluid pressure machine sets up in the support body, the second gyro wheel can use a virtual pivot of second to locate the fluid pressure machine as the relative support body free rotation ground pivot in axle center, the virtual pivot of second is parallel each other with first virtual pivot, the second gyro wheel can release position and clamping position between remove, drive assembly connects in the support body and can drive the rotation of first gyro wheel, the mode of utilizing first gyro wheel and second gyro wheel centre gripping stock can increase the frictional force between first gyro wheel and the stock, make first gyro wheel drive the stock easily smoothly.

Description

Bin auxiliary locator

Technical field

The utility model relates to a kind of auxiliary locator, particularly a kind of bin auxiliary locator.

Background technology

The process technology of present industrial is very flourishing, can process workpiece in many ways, for promoting work efficiency, the stock in strip can be used, and push stock through feeder, stock to be moved and close to the cutter of processing machine along its long axis direction, the action of cutting is carried out in order to processing machine, common feeder arranges several parallel to each other and roller side by side in the horizontal direction, and stock is positioned over above roller, rotate through motor driving roller, roller then can drive stock to move along its long axis direction again.

But, adopt the feeder of said structure to promote in the process of stock movement through roller, because there is greasy dirt or too smooth and cause the relative stock idle running of roller on stock surface, may cannot promotes stock smoothly and advance.

Utility model content

For solving the problems of the technologies described above, the purpose of this utility model is: provide a kind of bin auxiliary locator, the mode utilizing this first roller and this second roller to clamp stock can increase the friction force between this first roller and stock, this first roller is made easily to drive stock smoothly, prevent because there is greasy dirt or too smooth and cause the idle running of roller relative stock on stock surface, the situation that stock advances cannot be promoted smoothly and occur.

For achieving the above object, the technical scheme that the utility model adopts is:

A kind of bin auxiliary locator, it includes: a support body, this support body is provided with first support portion, second support portion and the 3rd support portion, and the 3rd support portion is arranged at this first support portion and this second support portion along the top side of vertical and the 3rd support portion forms a conveying space between this first support portion and this second support portion;

A conveying assembly, this conveying assembly is provided with at least one first roller with extending in the horizontal direction, one end of this first roller is connected to this first support portion and the one end being different from this first support portion is connected to this second support portion, this first roller can with first virtual axle for axle center this support body relative be hubbed between this first support portion and this second support portion rotationally, this conveying assembly also has a fluid press and second roller, this fluid press includes a cylinder and a piston rod, this cylinder is arranged at the 3rd support portion, one end of this piston rod is inserted in this cylinder and one end that this piston rod is different from this cylinder is arranged at this conveying space, this piston rod can move back and forth along virtual this cylinder axially relative passing through axle, this virtual axle that passes through extends along vertical, this second roller can with second virtual axle for axle center this support body relative be hubbed at one end that this piston rod is different from this cylinder freely to rotate, this second virtual axle and this first virtual axle parallel to each other, this second roller can drive and move between the inherent releasing position of this conveying space and clip position by this fluid press hard to bear, this second roller is moved to from releasing position in the process of clip position and moves toward the direction near this first roller, this second roller is moved in the process of releasing position from clip position and moves toward the direction away from this first roller,

A driven unit, this driven unit is connected to this support body and this first roller can be driven to rotate.

Described bin auxiliary locator, the quantity of described first roller is two, first virtual axle of two the first rollers is parallel to each other and be positioned in the plane in same level direction, between first virtual axle of the extension line that this is virtual passes through axle by these two the first rollers.

Described bin auxiliary locator, one end that this piston rod is different from this cylinder is provided with a base, and this second roller is hubbed at the base of this piston rod.

Described bin auxiliary locator, this support body is provided with a column along vertical, one end of this column is arranged at the side that this first support portion is different from this second support portion, and one end that this column is different from this first support portion upwards extends along vertical and is connected to the 3rd support portion.

Described bin auxiliary locator, this cylinder is arranged in the mode be fixedly connected with the side that the 3rd support portion is different from this conveying space.

Described bin auxiliary locator, the side of contiguous 3rd support portion of this base is provided with two guide rods along this virtual direction passing through axle axis parallel, the 3rd support portion is run through in one end that this guide rod is different from this base, this guide rod can move back and forth this cylinder with this piston rod locking phase, and these two guide rods are arranged at the both sides of this cylinder respectively.

Described bin auxiliary locator, this cylinder outside wall surface is radially provided with an induction installation, and this induction installation can the position of perception piston.

Described bin auxiliary locator, one end of this first roller is run through this second support portion and is convexly exposed to the side that this second support portion is different from this first support portion, this driven unit includes a pedestal and a motor, this pedestal is fixedly connected on this support body, this motor is connected to this pedestal, this motor is provided with an imput shaft along vertical, this driven unit has a driving gear and a driven gear, this driving gear is sheathed on this imput shaft with this imput shaft synchronous axial system, this driven gear with these two the first rollers one of them synchronous axial system be sheathed on this first roller and protrude one end that this second support portion is different from this side, the first support portion, this driving gear can drive this driven gear to rotate.

Described bin auxiliary locator, this driving gear and this driven gear are helical wheel and are engaged with each other.

Described bin auxiliary locator, this driven unit has two sprocket wheels and a chain, and these two sprocket wheels can be sheathed on this two the first rollers with these two the first roller synchronous axial system respectively, and this chain is simultaneously sheathed and be engaged in this two sprocket wheels.

Compared with prior art, the utility model has the advantage of of technique scheme is adopted:

The utility model bin auxiliary locator, wherein auxiliary locator includes a support body, a conveying assembly and a driven unit, this support body is provided with first support portion, second support portion and the 3rd support portion, 3rd support portion is arranged at this first support portion and this second support portion along the top side of vertical and the 3rd support portion forms a conveying space between this first support portion and this second support portion, this conveying assembly is equipped with at least one first roller with extending in the horizontal direction, one end of this first roller is connected to this first support portion and the one end being different from this first support portion is connected to this second support portion, this first roller can with first virtual axle for axle center this support body relative be hubbed between this first support portion and this second support portion rotationally, this conveying assembly has a fluid press and second roller, this fluid press includes a cylinder and a piston rod, this cylinder is arranged at the 3rd support portion, one end of this piston rod is inserted in this cylinder and one end that this piston rod is different from this cylinder is arranged at this conveying space, this piston rod can move back and forth along virtual this cylinder axially relative passing through axle, this virtual axle that passes through extends along vertical, this second roller can with second virtual axle for axle center this support body relative be hubbed at one end that this piston rod is different from this cylinder freely to rotate, this second virtual axle and this first virtual axle parallel to each other, this second roller can drive and move between the inherent releasing position of this conveying space and clip position by this fluid press hard to bear, this second roller is moved to from releasing position in the process of clip position and moves toward the direction near this first roller, this second roller is moved in the process of releasing position from clip position and moves toward the direction away from this first roller, this driven unit is connected to this support body and this first roller can be driven to rotate, the mode utilizing this first roller and this second roller to clamp stock can increase the friction force between this first roller and stock, this first roller is made easily to drive stock smoothly.

Accompanying drawing explanation

Fig. 1 is the stereo appearance figure of the utility model bin auxiliary locator;

Fig. 2 is the three-dimensional exploded view that the utility model bin auxiliary locator removes driven unit shell;

Fig. 3 is the three-dimensional exploded view of the utility model bin auxiliary locator conveying assembly;

Fig. 4 is the three-dimensional exploded view of the utility model bin auxiliary locator driven unit;

Fig. 5 is the sectional structure chart of the utility model bin auxiliary locator conveying assembly first roller;

Fig. 6 is the using state figure that the utility model bin auxiliary locator is connected to feeder;

Fig. 7 is the using state figure in the action of the utility model bin auxiliary locator;

Fig. 8 is the using state figure at another visual angle in the action of the utility model bin auxiliary locator.

Description of reference numerals: 10-auxiliary locator; 20-support body; 21-first support portion; 22-second support portion; 23-the 3rd support portion; 24-conveying space; 25-column; 30-conveying assembly; 31-first roller; 32-fluid press; 321-cylinder; 322-piston rod; 323-induction installation; 324-base; 325-guide rod; 33-second roller; 40-driven unit; 41-pedestal; 42-motor; 43-imput shaft; 44-driving gear; 45-driven gear; 46-sprocket wheel; 47-chain; 90-stock; C1-first virtual axle; C2-second virtual axle; L-is virtual passes through axle.

Detailed description of the invention

Further describe the utility model below in conjunction with specific embodiments and the drawings, advantage and disadvantage of the present utility model will be more clear along with description.

With reference to shown in Fig. 1 and Fig. 2, be the stereo appearance figure of the utility model bin auxiliary locator and the three-dimensional exploded view of dismounting driven unit shell.The utility model auxiliary locator 10 includes a support body 20 and a conveying assembly 30 and a driven unit 40; Wherein:

Continue referring to shown in Fig. 3 to Fig. 5, it is the sectional structure chart of the three-dimensional exploded view of the utility model bin auxiliary locator conveying assembly, the three-dimensional exploded view of driven unit and the first roller.This support body 20 is provided with first support portion 21 and second support portion 22 along vertical, and this first support portion 21 is parallel to each other and toward each other with this second support portion 22.This support body 20 is provided with the 3rd support portion 23, support portion the 23, three in the horizontal direction and is arranged at this first support portion 21 and this second support portion 22 along the top side of vertical and the 3rd support portion 23 forms a conveying space 24 between this first support portion 21 and this second support portion 22.This support body 20 is provided with a column 25 along vertical, one end of this column 25 is arranged at the side that this first support portion 21 is different from this second support portion 22, and one end that this column 25 is different from this first support portion 21 upwards extends along vertical and is connected to the 3rd support portion 23.

This conveying assembly 30 is equipped with at least one first roller 31 with extending in the horizontal direction, one end of this first roller 31 is connected to this first support portion 21 and the one end being different from this first support portion 21 is connected to this second support portion 22, this first roller 31 can with a first virtual axle C1 for axle center this support body 20 relative be hubbed between this first support portion 21 and this second support portion 22 rotationally, one end of this first roller 31 is run through this second support portion 22 and is convexly exposed to the side that this second support portion 22 is different from this first support portion 21, this at least one the first roller 31 quantity is in the present embodiment two, first virtual axle C1 of these two the first rollers 31 is parallel to each other and be positioned in the plane in same level direction.

This conveying assembly 30 has a fluid press 32 and second roller 33, this fluid press 32 includes a cylinder 321 and a piston rod 322, this cylinder 321 is arranged in the mode be fixedly connected with the side that the 3rd support portion 23 is different from this conveying space 24, this cylinder 321 outside wall surface is radially provided with an induction installation 323, this induction installation 323 can the position of induction piston, confirms as the judgement of mechanism's start and the anti-system of misoperation.

One end of this piston rod 322 is inserted in this cylinder 321 and one end that this piston rod 322 is different from this cylinder 321 is arranged at this conveying space 24, this piston rod 322 can move back and forth along virtual this cylinder 321 axially relative passing through axle L, this virtual axle L that passes through extends along vertical, between the first virtual axle C1 of the extension line that this is virtual passes through axle L by these two the first rollers 31, one end that this piston rod 322 is different from this cylinder 321 is provided with a base 324, the side of contiguous 3rd support portion 23 of this base 324 is provided with two guide rods 325 along this virtual direction passing through axle L axis parallel, the 3rd support portion 23 is run through in one end that this guide rod 325 is different from this base 324, this guide rod 325 can move back and forth this cylinder 321 with this piston rod 322 locking phase, these two guide rods 325 are arranged at the both sides of this cylinder 321 respectively.

This second roller 33 can with a second virtual axle C2 for axle center relatively this support body 20 be hubbed at the base 324 of this piston rod 322 freely to rotate, this the second virtual axle C2 and this first virtual axle C1 is parallel to each other, and this second roller 33 can drive and move between this inherent releasing position of conveying space 24 and clip position by this fluid press 32 hard to bear.

This driven unit 40 is connected to this support body 20 and this first roller 31 can be driven to rotate, this driven unit 40 includes a pedestal 41 and a motor 42, this pedestal 41 is fixedly connected on this support body 20, this motor 42 is connected to this pedestal 41, and this motor 42 is provided with an imput shaft 43 along vertical.

This driven unit 40 has a driving gear 44 and a driven gear 45, this driving gear 44 is sheathed on this imput shaft 43 with this imput shaft 43 synchronous axial system, this driven gear 45 with these two the first rollers 31 one of them synchronous axial system be sheathed on this first roller 31 and protrude one end that this second support portion 22 is different from this side, the first support portion 21, this driving gear 44 can drive this driven gear 45 to rotate, and this driving gear 44 is helical wheel with this driven gear 45 and is engaged with each other.

This driven unit 40 has two sprocket wheels 46 and a chain 47, and these two sprocket wheels 46 can be sheathed on these two the first rollers 31 with these two the first roller 31 synchronous axial system respectively, and this chain 47 is simultaneously sheathed and be engaged in this two sprocket wheels 46.

Continue referring to shown in Fig. 6 to Fig. 8, be the using state figure of the utility model bin auxiliary locator.Stock 90 is positioned over after on this first roller 31, when this auxiliary locator 10 starts, this motor 42 rotates and through this driving gear 44, this driven gear 45, these two sprocket wheels 46 and this chain 47 drive this first roller 31 to rotate, this second roller 33 is when releasing position, contiguous 3rd support portion 23 of this second roller 33, now controlling this fluid press 32 drives this second roller 33 to move to clip position, this second roller 33 is moved to from releasing position in the process of clip position and moves toward the direction near this first roller 31, this first roller 31 and this second roller 33 can be made to clamp stock 90 and drive by this first roller 31 and move to and locate with (as shown in Figures 7 and 8) to be processed, the mode utilizing this first roller 31 and this second roller 33 to clamp stock 90 can increase the friction force between this first roller 31 and stock 90, this first roller 31 is made easily to drive stock 90 smoothly, this second roller 33 is moved in the process of releasing position from clip position and moves toward the direction away from this first roller 31.

The piston of this piston rod 322 is provided with magnet, when this second roller 33 is in releasing position, this induction installation 323 is switched to enable position by the magnet of the piston of this piston rod 322, learn whether this second roller 33 is positioned at releasing position really by this, have this second roller 33 only when releasing position, can stock 90 be sent to this auxiliary locator 10, when this second roller 33 moves to clip position, this induction installation 323 is switched to off position, learns that this fluid press 32 has certain start by this.

The utility model can be summarized with regard to the above to have the following advantages:

1. be the utility model bin auxiliary locator, wherein auxiliary locator includes a support body, a conveying assembly and a driven unit, this support body is provided with first support portion, second support portion and the 3rd support portion, 3rd support portion is arranged at this first support portion and this second support portion along the top side of vertical and the 3rd support portion forms a conveying space between this first support portion and this second support portion, this conveying assembly is equipped with at least one first roller with extending in the horizontal direction, one end of this first roller is connected to this first support portion and the one end being different from this first support portion is connected to this second support portion, this first roller can with first virtual axle for axle center this support body relative be hubbed between this first support portion and this second support portion rotationally, this conveying assembly has a fluid press and second roller, this fluid press includes a cylinder and a piston rod, this cylinder is arranged at the 3rd support portion, one end of this piston rod is inserted in this cylinder and one end that this piston rod is different from this cylinder is arranged at this conveying space, this piston rod can move back and forth along virtual this cylinder axially relative passing through axle, this virtual axle that passes through extends along vertical, this second roller can with second virtual axle for axle center this support body relative be hubbed at one end that this piston rod is different from this cylinder freely to rotate, this second virtual axle and this first virtual axle parallel to each other, this second roller can drive and move between the inherent releasing position of this conveying space and clip position by this fluid press hard to bear, this second roller is moved to from releasing position in the process of clip position and moves toward the direction near this first roller, this second roller is moved in the process of releasing position from clip position and moves toward the direction away from this first roller, this driven unit is connected to this support body and this first roller can be driven to rotate, the mode utilizing this first roller and this second roller to clamp stock can increase the friction force between this first roller and stock, this first roller is made easily to drive stock smoothly.

Above explanation and embodiment are only exemplary, do not form any restriction to scope of the present utility model.It will be understood by those skilled in the art that and do not departing under spirit and scope of the present utility model and can modify to the details of technical solutions of the utility model and form or replace, but these amendments and replacement all fall in protection domain of the present utility model.

Claims (10)

1. a bin auxiliary locator, is characterized in that, it includes:

A support body, this support body is provided with first support portion, second support portion and the 3rd support portion, and the 3rd support portion is arranged at this first support portion and this second support portion along the top side of vertical and the 3rd support portion forms a conveying space between this first support portion and this second support portion;

A conveying assembly, this conveying assembly is provided with at least one first roller with extending in the horizontal direction, one end of this first roller is connected to this first support portion and the one end being different from this first support portion is connected to this second support portion, this first roller can with first virtual axle for axle center this support body relative be hubbed between this first support portion and this second support portion rotationally, this conveying assembly also has a fluid press and second roller, this fluid press includes a cylinder and a piston rod, this cylinder is arranged at the 3rd support portion, one end of this piston rod is inserted in this cylinder and one end that this piston rod is different from this cylinder is arranged at this conveying space, this piston rod can move back and forth along virtual this cylinder axially relative passing through axle, this virtual axle that passes through extends along vertical, this second roller can with second virtual axle for axle center this support body relative be hubbed at one end that this piston rod is different from this cylinder freely to rotate, this second virtual axle and this first virtual axle parallel to each other, this second roller can drive and move between the inherent releasing position of this conveying space and clip position by this fluid press hard to bear, this second roller is moved to from releasing position in the process of clip position and moves toward the direction near this first roller, this second roller is moved in the process of releasing position from clip position and moves toward the direction away from this first roller,

A driven unit, this driven unit is connected to this support body and this first roller can be driven to rotate.

2. bin auxiliary locator according to claim 1, it is characterized in that, the quantity of described first roller is two, first virtual axle of two the first rollers is parallel to each other and be positioned in the plane in same level direction, between first virtual axle of the extension line that this is virtual passes through axle by these two the first rollers.

3. bin auxiliary locator according to claim 2, is characterized in that, one end that this piston rod is different from this cylinder is provided with a base, and this second roller is hubbed at the base of this piston rod.

4. bin auxiliary locator according to claim 3, it is characterized in that, this support body is provided with a column along vertical, one end of this column is arranged at the side that this first support portion is different from this second support portion, and one end that this column is different from this first support portion upwards extends along vertical and is connected to the 3rd support portion.

5. bin auxiliary locator according to claim 4, is characterized in that, this cylinder is arranged in the mode be fixedly connected with the side that the 3rd support portion is different from this conveying space.

6. bin auxiliary locator according to claim 5, it is characterized in that, the side of contiguous 3rd support portion of this base is provided with two guide rods along this virtual direction passing through axle axis parallel, the 3rd support portion is run through in one end that this guide rod is different from this base, this guide rod can move back and forth this cylinder with this piston rod locking phase, and these two guide rods are arranged at the both sides of this cylinder respectively.

7. bin auxiliary locator according to claim 6, is characterized in that, this cylinder outside wall surface is radially provided with an induction installation, and this induction installation can the position of perception piston.

8. bin auxiliary locator according to claim 2, it is characterized in that, one end of this first roller is run through this second support portion and is convexly exposed to the side that this second support portion is different from this first support portion, this driven unit includes a pedestal and a motor, this pedestal is fixedly connected on this support body, this motor is connected to this pedestal, this motor is provided with an imput shaft along vertical, this driven unit has a driving gear and a driven gear, this driving gear is sheathed on this imput shaft with this imput shaft synchronous axial system, this driven gear with these two the first rollers one of them synchronous axial system be sheathed on this first roller and protrude one end that this second support portion is different from this side, the first support portion, this driving gear can drive this driven gear to rotate.

9. bin auxiliary locator according to claim 8, is characterized in that, this driving gear and this driven gear are helical wheel and are engaged with each other.

10. bin auxiliary locator according to claim 8, it is characterized in that, this driven unit has two sprocket wheels and a chain, these two sprocket wheels can be sheathed on this two the first rollers with these two the first roller synchronous axial system respectively, and this chain is simultaneously sheathed and be engaged in this two sprocket wheels.