CN215557753U - Aluminum foil paper accelerating roller device - Google Patents

Abstract

The utility model relates to an aluminium foil paper accelerating roller device relates to aluminium foil paper conveyor's field, and it includes the support, accelerates roller and two slides, two slide one-to-one fixed connection is in the both ends of support, be equipped with the long waist hole that the roller was worn to establish with higher speed for the confession on the slide, be equipped with the one end that will accelerate the roller on the slide and install in long waist hole and carry out horizontal automatically regulated's adjusting part. The problem of aluminium paper transport position skew easily, need the renewal roller, influence production efficiency is improved, this application has the connection structure who will accelerate the roller and changes into elasticity adjustable structure from rigid structure, need not to change the renewal roller, and has prolonged the roller live time on the roller with higher speed, reduces maintenance and change number of times, has improved production efficiency's effect.

Description

Aluminum foil paper accelerating roller device

Technical Field

The application relates to the field of aluminum foil paper conveying devices, in particular to an aluminum foil paper accelerating roller device.

Background

The aluminum-foil paper accelerating device is a conveying device which accelerates the conveying of the cut aluminum-foil paper to separate the aluminum-foil paper from the next aluminum-foil paper and reach the working position. The main working part of the device is a conveying roller pair consisting of two pairs of parallel steel rollers and a rubber accelerating roller, and the lining paper is accelerated and conveyed by the pressure and the friction force between the roller pairs during working.

In view of the above-mentioned related technologies, the inventor believes that the aluminum paper acceleration roller adopts a rigid structure, when the rubber covered roller on the acceleration roller is worn, the aluminum paper conveying position is easy to shift, and the roller needs to be replaced with a new roller, which affects the production efficiency, and there is still room for improvement.

SUMMERY OF THE UTILITY MODEL

In order to improve the easy skew in aluminium paper transport position, need change new roller, influence production efficiency's problem, this application provides an aluminium foil paper accelerating roller device.

The application provides an aluminium foil paper accelerating roller device adopts following technical scheme:

the utility model provides an aluminium foil paper accelerating roller device, includes the support, accelerates roller and two slides, two slide one-to-one fixed connection is in the both ends of support, be equipped with the long waist hole that the roller was worn to establish with higher speed by the confession on the slide, be equipped with on the slide and install the one end of roller with higher speed in long waist hole and carry out horizontal automatically regulated's adjusting part.

Through adopting above-mentioned technical scheme, change the connection structure of roller with higher speed from the rigidity structure into elasticity adjustable structure, can revise the problem of aluminium paper skew to suitable position through adjusting roller with higher speed, need not to change new roller, and prolonged roller with higher speed service time on the roller, reduced maintenance and change number of times, improved production efficiency.

Optionally, the adjusting part includes compression spring, slider and bearing, the slider inlays to be established and slides along the length direction in long waist hole and connect in long waist downthehole, be equipped with the arc groove with bearing looks adaptation on the slider, one side butt of bearing is on long waist hole is close to the lateral wall of support, one side that long waist hole is close to the lateral wall of support is kept away from to the bearing inlays to be located the bottom of arc inslot and butt in the arc groove, compression spring locates and orders about the slider and is close to the support between the lateral wall that the support was kept away from in slider and long waist hole.

Through adopting above-mentioned technical scheme, compression spring orders about the slider and drives the bearing all the time and remove to one side that long waist hole is close to the support for can carry out elastic fixation through compression spring when the rubber roll wearing and tearing, the roller is the butt all the time on the steel roller with higher speed, need not that the user adjusts or change can the position of automatically regulated roller with higher speed, has effectively solved the wearing and tearing problem, has improved the life of roller with higher speed.

Optionally, the sliding block is further fixedly connected with two positioning blocks, the two positioning blocks are respectively arranged on two sides of the arc groove and abutted against two opposite side walls of the bearing, and the positioning blocks are provided with avoidance grooves for the acceleration roller to pass through.

Through adopting above-mentioned technical scheme, the setting of locating piece for difficult the left and right sides rocks when the bearing is installed on the slider, has improved the stability of wearing to locate the roller installation with higher speed on the bearing.

Optionally, the adjusting component further comprises a supporting column, the supporting column is fixedly connected to one side, far away from the bearing, of the sliding block, a through hole for the supporting column to penetrate through is formed in the side wall, far away from the support, of the long waist hole, and the supporting column is sleeved with the compression spring.

Through adopting above-mentioned technical scheme, the setting of support column for compression spring is difficult on breaking away from the slider because of rocking, thereby makes compression spring be difficult for losing drive effect, has improved compression spring's life and regulation stability.

Optionally, the regulating assembly still includes the control tube, the control tube cover is established and is slided on the support column, compression spring's one end butt is on the slider, compression spring's other end butt is on the control tube, long waist hole is equipped with the both ends one-to-one that supplies the control tube on the double-phase relative lateral wall on the length direction and inlays the hole of sliding of establishing and sliding, the both ends of control tube are all rotated and are connected with the locking piece, the hole of sliding is equipped with a plurality of locking piece male locking grooves that supply on the double-phase relative lateral wall on the length direction, the locking groove is located one side that the hole of sliding is close to the lateral wall of slide and is run through the lateral wall of slide.

Through adopting above-mentioned technical scheme, the regulating tube can slide under the effect of locking piece to the downthehole arbitrary adjusting position of long waist and fixed for compression spring can adjust the extrusion force of slider, thereby can adjust the degree that compresses tightly of bearing and long waist hole, reduces the wearing and tearing of bearing and acceleration roller, has improved the life of bearing.

Optionally, the locking piece includes the locking pipe and slides the post, the locking pipe rotates and connects in the both ends of control tube, the one end that the locking pipe is close to rotation department is equipped with the movable groove that supplies the post of sliding to wear to establish and slide, be equipped with the magnetic path on the diapire of movable groove, the post of sliding has magnetism, the post of sliding and magnetic path magnetism repel each other, the locking pipe is inlayed respectively with the post of sliding and is located the locking inslot of symmetry.

Through adopting above-mentioned technical scheme, the locking piece is after rotating, and the post roll-off in the locking pipe is followed to the post that slides to inlay respectively and locate the locking inslot that corresponds, lock the position of adjusting tube in the hole that slides, improved the stability of adjusting tube in the downthehole position of long waist.

Optionally, the movable groove is fixedly connected with a snap ring on the inner side wall close to the opening, the sliding column is fixedly connected with a convex ring on one side close to the groove bottom of the movable groove, and the convex ring is abutted to one side, close to the groove bottom of the movable groove, of the snap ring.

Through adopting above-mentioned technical scheme, the setting of snap ring and bulge loop for the slip post is difficult for following the intraductal roll-off of locking and losing, has improved the life of slip post, has improved the stability of locking piece to the locking of adjusting pipe.

Optionally, the regulating pipe includes regulating part and connecting portion, the regulating part is disc setting and the cover is located on the support column, compression spring butt is on the regulating part, the quantity of connecting portion is two and equal fixed connection on the lateral wall of regulating part, the one end one-to-one that the regulating part was kept away from to connecting portion wears to locate the sliding hole, the locking piece rotates to be connected in the one end that the regulating part was kept away from to connecting portion.

Through adopting above-mentioned technical scheme, the regulation part is the disk setting, has increased the area of contact of compression spring and regulating tube for compression spring reduces the pressure of regulating tube, and the drive is more stable, has improved compression spring's drive efficiency.

Optionally, one end fixedly connected with strengthening rib that compression spring was kept away from to the governing pipe, the strengthening rib wears to locate on the lateral wall that long kidney hole kept away from the support and extends to outside the slide.

Through adopting above-mentioned technical scheme, the structural strength of control tube has been strengthened in the setting of strengthening rib for the control tube is difficult for having improved the life of control tube because of receiving compression spring's pressure and breaking.

Optionally, the sliding block is fixedly connected with protrusions, the number of the protrusions is two, and the protrusions are embedded in the sliding holes in a one-to-one correspondence mode.

Through adopting above-mentioned technical scheme, bellied setting guides the slider to slide along the length direction in the hole that slides for the slider is difficult to break away from in the long waist hole, has improved the life of slider.

In summary, the present application includes at least one of the following beneficial technical effects:

the connecting structure of the accelerating roller is changed from a rigid structure to an elastic adjustable structure, so that the roller does not need to be replaced newly, the service time of the rubber roller on the accelerating roller is prolonged, the maintenance and replacement times are reduced, and the production efficiency is improved;

the arrangement of the compression spring effectively solves the abrasion problem and prolongs the service life of the accelerating roller;

the setting of control tube for compression spring can adjust the extrusion force of slider, thereby reduces the wearing and tearing of bearing and acceleration roller, has improved the life of bearing.

Drawings

Fig. 1 is a schematic structural diagram of an aluminum-foil paper acceleration roller device in an embodiment of the present application.

Fig. 2 is an exploded view of an aluminum-foil acceleration roller device in an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a slider in an embodiment of the present application.

Figure 4 is a top view of the carriage and adjustment assembly in an embodiment of the present application.

Fig. 5 is a sectional view taken along the line a-a in fig. 4.

Description of reference numerals: 1. a support; 2. a slide base; 21. a long waist hole; 22. a sliding hole; 23. a through hole; 24. a locking groove; 3. an acceleration roller; 4. an adjustment assembly; 41. a slider; 411. an arc groove; 412. positioning blocks; 4121. an avoidance groove; 413. a protrusion; 42. a bearing; 43. a compression spring; 44. a support pillar; 45. an adjusting tube; 451. an adjustment section; 452. a connecting portion; 453. a locking member; 4531. locking the tube; 45311. a movable groove; 45312. a snap ring; 45313. a magnetic block; 4532. sliding the column; 45321. a convex ring; 454. and (5) reinforcing ribs.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses aluminium foil paper acceleration roller device. Referring to fig. 1, the aluminum foil acceleration roller 3 device comprises a bracket 1, a slide carriage 2, an acceleration roller 3 and an adjusting assembly 4.

The quantity of slide 2 is two, and two slide 2 are equal fixed connection on support 1 and are located the both ends of support 1 respectively to supply the installation of accelerating roller 3. The long waist holes 21 are formed in the sliding seat 2, the long waist holes 21 are arranged in the direction perpendicular to the support 1, and the two ends of the accelerating roller 3 are embedded in the long waist holes 21 in a one-to-one correspondence mode and connected in a sliding mode, so that the positions of the two ends of the accelerating roller 3 can be adjusted. The adjusting component 4 is arranged in the long waist hole 21 and automatically adjusts the horizontal position of the part of the accelerating roller 3 penetrating into the long waist hole 21.

Referring to fig. 2, the mounting structure of the adjustment assembly 4 is as follows: the adjustment assembly 4 comprises a slider 41, a bearing 42, a compression spring 43, a support post 44 and an adjustment tube 45. The two bearings 42 are embedded in the long waist hole 21 in a one-to-one correspondence manner, and the two ends of the accelerating roller 3 are respectively arranged in the two bearings 42 in a penetrating manner, so that the two ends of the accelerating roller 3 are arranged in the long waist hole 21.

Referring to fig. 2 and 3, the slider 41 is embedded and slides along the length direction of the long waist hole 21, an arc groove 411 is formed on one side of the slider 41 close to the bearing 42, and one end of the bearing 42 away from the bracket 1 abuts against the slider 41, so that the bearing 42 moves towards one side of the long waist hole 21 close to the bracket 1 under the driving of the slider 41. The slider 41 is provided with two positioning blocks 412, the two positioning blocks 412 are respectively located at two sides of the arc slot 411, and the two positioning blocks 412 are respectively abutted against two opposite sidewalls of the bearing 42, so that the bearing 42 is not easy to slide relative to the slider 41. The positioning block 412 is provided with an avoiding groove 4121, and the accelerating roller 3 is arranged in the avoiding groove 4121 in a penetrating manner, so that the positioning block 412 is not easy to interfere with the accelerating roller 3. The long waist hole 21 is provided with the sliding holes 22 along two opposite side walls in the length direction, the sliding holes 22 are arranged along the length direction of the long waist hole 21, when the sliding base 2 is in a step shape, the sliding holes 22 are also in the step shape, the sliding holes 22 penetrate through the side walls of the sliding base 2, the upper side and the lower side of the sliding block 41 are fixedly connected with protrusions 413, the protrusions 413 are arranged in a hemispherical shape, the two protrusions 413 are embedded and slid in the sliding holes 22 in a one-to-one correspondence mode, and therefore the sliding block 41 is enabled to slide along the length direction of the sliding holes 22 and is not prone to being separated from the long waist hole 21.

Referring to fig. 2, the compression spring 43 is installed in the long waist hole 21, and one end of the compression spring 43 abuts against one side of the slider 41 away from the bearing 42 to drive the slider 41 to move toward one side of the long waist hole 21 close to the bracket 1. The support column 44 is fixedly connected to one side of the slider 41 far away from the bearing 42, the side wall of the long waist hole 21 far away from the support 1 is provided with the through hole 23, the support column 44 penetrates through the through hole 23, and the compression spring 43 is sleeved on the support column 44, so that the compression spring 43 is not easy to break away from the long waist hole 21.

Referring to fig. 2, in order to provide a support at an end of the compression spring 43 away from the slider 41, the adjusting tube 45 is sleeved on the supporting pillar 44 and abuts against an end of the compression spring 43 away from the slider 41. The adjustment pipe 45 includes an adjustment portion 451 and a connection portion 452. The adjustment part 451 is formed in a disc shape with a hole in the middle, and increases the contact area between the adjustment pipe 45 and the compression spring 43. The adjusting portion 451 is sleeved on the supporting post 44, the number of the connecting portions 452 is two, and the two connecting portions 452 are both fixedly connected to the outer circumferential side wall of the adjusting portion 451 and are symmetrically arranged. The connecting portion 452 is inserted into the sliding hole 22, so that the adjusting tube 45 can slide along the length direction of the long waist hole 21.

The adjusting pipe 45 is fixedly connected with a reinforcing rib 454, and here, the reinforcing rib 454 may be fixedly connected to the adjusting part 451, or may be fixedly connected to the connecting part 452. Here, the reinforcing rib 454 is a rod-shaped structure, and the reinforcing rib 454 is inserted into the side wall of the long waist hole 21 far away from the bracket 1 and extends out of the sliding seat 2, so that the structural strength of the adjusting pipe 45 is enhanced.

Referring to fig. 4 and 5, in order to fix the adjusting pipe 45 after sliding in the long waist hole 21, a locking member 453 is rotatably connected to an end of the connecting portion 452 remote from the adjusting portion 451. The locking member 453 includes a locking tube 4531 and a slip post 4532. A locking tube 4531 is rotatably coupled to the coupling portion 452, a movable groove 45311 is formed on an end wall of the locking tube 4531 near the rotation portion, and a slide post 4532 is inserted into and slidably coupled to the movable groove 45311 so that the locking member 453 can be extended and contracted. The bottom wall of the movable groove 45311 is provided with a magnetic block 45313, where the magnetic block 45313 can be embedded in the movable groove 45311 or fixedly connected in the movable groove 45311. The sliding column 4532 has magnetism, and the sliding column 4532 and the magnetic block 45313 repel magnetically to drive the sliding column 4532 to move to the side away from the bottom of the movable groove 45311. The movable groove 45311 is fixedly connected with snap ring 45312 on being close to the open-ended inside wall, and snap ring 45312 and movable groove 45311 are coaxial setting, and the post 4532 that slides is close to one side fixedly connected with bulge loop 45321 of the tank bottom of movable groove 45311, and bulge loop 45321 and the post 4532 that slides are coaxial setting. When the sliding column 4532 moves to the bottom of the groove far from the movable groove 45311, the convex ring 45321 abuts against the side of the snap ring 45312 close to the bottom of the groove 45311, so that the sliding column 4532 is not easy to disengage from the locking tube 4531. The hole 22 that slides is equipped with locking groove 24 on the ascending double-phase relative lateral wall of length direction, and locking groove 24 is located the one side that the hole 22 that slides is close to the lateral wall of slide 2, and locking groove 24 runs through the lateral wall of slide 2, and locking groove 24 is the symmetry setting, and locking pipe 4531 inlays with the post 4532 that slides and locates in the locking groove 24 of symmetry for the difficult slip of governing pipe 45.

The implementation principle of an aluminium foil paper acceleration roller device of this application embodiment does: the locking tube 4531 and the sliding column 4532 are pressed, the sliding column 4532 retracts into the locking tube 4531, then the locking tube 4531 is rotated to enable the locking tube 4531 and the connecting portion 452 to be arranged in the same straight line, then the adjusting tube 45 is slid to a designated position to adjust the pressure parameter of the compression spring 43, then the locking tube 4531 is rotated, the locking tube 4531 is embedded into the corresponding locking groove 24, the sliding column 4532 extends out of the locking tube 4531 under the magnetic action and is embedded into the symmetrical locking groove 24, and locking is completed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an aluminium foil paper acceleration roller device which characterized in that: including support (1), accelerating roller (3) and two slide (2), two slide (2) one-to-one fixed connection is in the both ends of support (1), be equipped with long waist hole (21) that the confession was worn to establish with higher speed roller (3) on slide (2), be equipped with on slide (2) with higher speed roller (3) one end install in long waist hole (21) and carry out horizontal automatically regulated's adjusting part (4).

2. The aluminum-foil paper accelerating roller device as set forth in claim 1, wherein: adjust subassembly (4) including compression spring (43), slider (41) and bearing (42), slider (41) inlay to establish and slide along the length direction in long waist hole (21) and connect in long waist hole (21), be equipped with arc groove (411) with bearing (42) looks adaptation on slider (41), one side butt of bearing (42) is on long waist hole (21) is close to the lateral wall of support (1), one side that long waist hole (21) are close to the lateral wall of support (1) is kept away from in bearing (42) inlays and locates in arc groove (411) and butt in the tank bottom of arc groove (411), compression spring (43) are located slider (41) and long waist hole (21) and are kept away from between the lateral wall of support (1) and order about slider (41) to be close to support (1).

3. The aluminum-foil paper accelerating roller device as set forth in claim 2, wherein: the sliding block (41) is further fixedly connected with two positioning blocks (412), the two positioning blocks (412) are respectively arranged on two sides of the arc groove (411) and abut against two opposite side walls of the bearing (42), and an avoiding groove (4121) for the acceleration roller (3) to penetrate through is formed in each positioning block (412).

4. The aluminum-foil paper accelerating roller device as set forth in claim 2, wherein: adjusting part (4) still include support column (44), support column (44) fixed connection keeps away from one side of bearing (42) in slider (41), long waist hole (21) are kept away from and are equipped with through-hole (23) that supply support column (44) to wear to establish on the lateral wall of support (1), compression spring (43) cover is located on support column (44).

5. The aluminum-foil paper accelerating roller device as set forth in claim 4, wherein: adjusting part (4) still include control tube (45), control tube (45) cover is established and is slided on support column (44), the one end butt of compression spring (43) is on slider (41), the other end butt of compression spring (43) is on control tube (45), long waist hole (21) are equipped with the both ends one-to-one that supplies control tube (45) along length direction on the double-phase to the lateral wall and inlay the slip hole (22) of establishing and sliding, the both ends of control tube (45) are all rotated and are connected with locking piece (453), slip hole (22) are equipped with a plurality of locking groove (24) that supply locking piece (453) to insert on the double-phase to the lateral wall on the length direction, locking groove (24) are located one side that slip hole (22) are close to the lateral wall of slide (2) and are run through the lateral wall of slide (2).

6. The aluminum-foil paper accelerating roller device as set forth in claim 5, wherein: locking piece (453) are including locking pipe (4531) and post (4532) that slides, locking pipe (4531) rotate to be connected in the both ends of adjusting pipe (45), locking pipe (4531) are close to the one end of rotation department and are equipped with and supply to slide movable groove (45311) that post (4532) worn to establish and slide, be equipped with magnetic path (45313) on the diapire of activity groove (45311), slide post (4532) have magnetism, slide post (4532) and magnetic path (45313) magnetism repel each other, locking pipe (4531) and slide post (4532) are inlayed respectively in locking groove (24) of symmetry.

7. The aluminum-foil paper accelerating roller device as set forth in claim 6, wherein: the utility model discloses a sliding column, including activity groove (45311), slip post (4532), activity groove (45311), one side fixedly connected with bulge loop (45321) of the tank bottom that activity groove (45311) is close to the opening on the inside wall fixedly connected with snap ring (45312), bulge loop (45321) butt is close to the one side of the tank bottom of activity groove (45311) in snap ring (45312).

8. The aluminum-foil paper accelerating roller device as set forth in claim 5, wherein: the adjusting pipe (45) comprises an adjusting portion (451) and a connecting portion (452), the adjusting portion (451) is arranged in a disc shape and sleeved on the supporting column (44), the compression spring (43) abuts against the adjusting portion (451), the connecting portions (452) are two in number and are fixedly connected to the outer side wall of the adjusting portion (451), one end, far away from the adjusting portion (451), of the connecting portion (452) penetrates through the sliding hole (22) in a one-to-one correspondence mode, and the locking portion (453) is rotatably connected to one end, far away from the adjusting portion (451), of the connecting portion (452).

9. The aluminum-foil paper accelerating roller device as set forth in claim 5, wherein: one end fixedly connected with strengthening rib (454) of compression spring (43) are kept away from in regulating tube (45), strengthening rib (454) wear to locate long waist hole (21) and keep away from on the lateral wall of support (1) and extend to outside slide (2).

10. The aluminum-foil paper accelerating roller device as set forth in claim 5, wherein: fixedly connected with arch (413) on slider (41), the quantity of arch (413) is two, arch (413) one-to-one inlays and locates in hole of sliding (22).

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