CN217915659U - Automatic transverse adjusting structure of trimming and coiling machine - Google Patents

Abstract

The utility model discloses a transverse automatic adjusting structure of a trimming lapper, which comprises a trimming lapper body, wherein the trimming lapper body comprises a cutter mechanism, a mop plate, a first beam and a second beam; the trimming lapper body also comprises a first ball screw module, the cutter mechanism is connected with a first screw nut of the first ball screw module, and the cutter mechanism is driven by the first screw nut to be arranged on the first cross beam in a transverse translation manner; the mop plate is driven by the second lead screw nut to be arranged on the second cross beam in a transverse translation manner; the horizontal automatically regulated structure of side cut lapper of this scheme design, with the function that current cutter mechanism and mop board realized horizontal translation through the ball screw module respectively, can satisfy the clearance adjustment of different breadth products, realize the automatically regulated demand of longitudinal knife mechanism and mop board.

Description

Automatic transverse adjusting structure of trimming and coiling machine

Technical Field

The utility model relates to a mechanized equipment structural design technical field, concretely relates to side cut lapper horizontal automatically regulated structure.

Background

The slitting knife mechanism and the mop plate of the existing trimming lapper are fixedly connected on the cross beam through bolts, the connecting structure enables the positions of different slitting knife mechanisms on the upper cross beam to be fixed through bolts, the mop plate is also fixed on the lower cross beam through bolts, when a user does products with different widths at every time, the user needs to stop the machine firstly, the operator stands on the device to adjust the distance between two slitting knives, and meanwhile, when the distance between two mop plates is adjusted, the operator needs to drill into the device, the adjustment is very difficult and dangerous, and the production efficiency is also very low.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects, the utility model aims to provide a lateral automatic adjusting structure of a trimming lapper, which effectively solves the technical problems through the structural design of the cutter mechanism and the lateral translation of the mop cloth plate.

In order to achieve the above purpose, the utility model discloses a technical scheme is: the automatic transverse adjusting structure of the trimming lapper comprises a trimming lapper body, wherein the trimming lapper body comprises a cutter mechanism, a mop plate, a first beam and a second beam; the trimming lapper body further comprises:

the cutter mechanism is connected with a first lead screw nut of the first ball screw module and is driven by the first lead screw nut to be arranged on the first cross beam in a transverse translation manner;

and the mop plate is driven by the second screw nut to be transversely and translationally arranged on the second cross beam.

The utility model has the advantages that: the horizontal automatically regulated structure of side cut lapper of this scheme design realizes the function of horizontal translation with current cutter mechanism and mop board respectively through the ball module, can satisfy the clearance adjustment of different breadth products, realizes the automatically regulated demand of slitting knife mechanism and mop board.

Furthermore, the first ball screw module and the second ball screw module are simultaneously connected with a driving motor through a synchronous transmission assembly; first ball screw module and second ball screw module can all realize the rotation of lead screw through the motor, set up a synchronous drive subassembly simultaneously, can all be connected a motor with two ball screw modules simultaneously, realize both through the synchronous pivoted function of single motor drive realization.

Further, the synchronous drive assembly comprises a first synchronous chain drive and a second synchronous chain drive, wherein: the first synchronous chain transmission mechanism comprises a first chain wheel, a second chain wheel and a first synchronous chain; the second synchronous chain transmission mechanism comprises a third chain wheel, a fourth chain wheel and a second synchronous chain; the first chain wheel is coaxially connected with the driving motor, and the first chain wheel is connected with the second chain wheel through the first synchronous chain; the second chain wheel and the third chain wheel are sleeved on a first screw rod of the first ball screw module and synchronously rotate with the first screw rod, the third chain wheel is connected with the fourth chain wheel through the second synchronous chain, and the fourth chain wheel is sleeved on a second screw rod of the second ball screw module and synchronously rotates with the second screw rod; the first chain wheel is driven to rotate through the motor, the first chain wheel drives the second chain wheel to rotate through the first synchronous chain, the second chain wheel drives the screw rod and the third chain wheel of the first ball screw module to rotate, the third chain wheel drives the fourth chain wheel to rotate through the second synchronous chain, and finally the fourth chain wheel drives the screw rod of the second ball screw module to rotate.

Further, the driving motor is a stepping motor; by using the stepping motor, the translation positions of the cutter mechanism and the mop plate can be more accurate.

Furthermore, two symmetrical first fixed supports are arranged on the left side and the right side of the first ball screw module, and the first ball screw module is fixedly connected with the first cross beam through the first fixed supports.

Furthermore, two symmetrical second fixing supports are arranged on the left side and the right side of the second ball screw module, and the second ball screw module is fixedly connected with the second cross beam through the second fixing supports.

Furthermore, the first cross beam and the second cross beam are both provided with transverse translation rails, and the cutter mechanism and the mop plate are both provided with sliding blocks and movably arranged on the transverse translation rails through the sliding blocks; the transverse translation of the cutter mechanism and the mop plate on the corresponding cross beams is realized through a combined structure of the slide block and the transverse translation track.

Drawings

Fig. 1 is an overall structure front view of an embodiment of the present invention.

Fig. 2 is a perspective view of the overall structure of an embodiment of the present invention.

In the figure: 1. a cutter mechanism; 2. a mop plate; 3. a first cross member; 4. a second cross member; 5. a first ball screw module; 6. a second ball screw module; 7. a drive motor; 8. a first sprocket; 9. a second sprocket; 10. a first synchronization chain; 11. a third sprocket; 12. a fourth sprocket; 13. a second synchronization chain; 14. a first fixed support; 15. a second fixed support; 16. a transverse translation track; 17. a slider;

5.1, a first lead screw nut; 5.2, a first screw rod; 6.1, a second lead screw nut; 6.2 and a second screw rod.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Referring to fig. 1-2, an embodiment of the present invention provides a horizontal automatically adjusting structure of a trimming lapper, including a trimming lapper body, which includes a cutter mechanism 1, a mop plate 2, a first beam 3 and a second beam 4.

The trimming and coiling machine body further comprises a first ball screw module 5, the cutter mechanism 1 is connected with a first screw nut 5.1 of the first ball screw module 5, and the cutter mechanism 1 is driven by the first screw nut 5.1 to be arranged on the first beam 3 in a transverse translation manner;

the mop plate is characterized by further comprising a second ball screw module 6, the mop plate 2 is connected with a second screw nut 6.1 of the second ball screw module 6, and the second screw nut 6.1 drives the mop plate 2 to be transversely and translationally arranged on the second cross beam 4;

as can be seen from fig. 1 and 2, the operation principle of the present apparatus is as follows:

two cutter mechanisms 1 about being provided with on first crossbeam 3, two cutter mechanisms 1's structure is the same simultaneously, connects two the same first ball screw modules 5 respectively and realizes horizontal automatic translation to can carry out horizontal translation to two cutter mechanisms 1 through different product size when equipment uses, adjust two cutter mechanisms 1 two distance between the cutter.

Two mop boards 2 about being provided with on second crossbeam 4, two mop boards 2 are connected the same second ball screw module 6 of second respectively simultaneously and are realized horizontal automatic translation to can carry out horizontal translation to two mop boards 2 through different product size when equipment uses, adjust the distance between two mop boards 2.

In conclusion, the transverse automatic adjusting structure of the trimming lapper designed by the scheme has the advantages that the existing cutter mechanism 1 and the existing mop plate 2 are transversely translated respectively through the ball screw modules, the gap adjustment of products with different widths can be met, and the automatic adjusting requirements of the longitudinal cutter mechanism 1 and the mop plate 2 are met.

On the basis of the above embodiment, preferably, the first ball screw module 5 and the second ball screw module 6 are simultaneously connected with a driving motor 7 through a synchronous transmission assembly.

The first ball screw module 5 and the second ball screw module 6 can realize rotation of the screw rod through the driving motor 7, and simultaneously, a synchronous transmission assembly is arranged, so that the driving motor 7 can be simultaneously connected with the two ball screw modules, and the synchronous rotation function of the two ball screw modules through the driving of a single motor is realized.

On the basis of the above embodiment, in particular, the synchronous drive assembly comprises a first synchronous chain drive and a second synchronous chain drive, wherein: the first synchronous chain transmission mechanism comprises a first chain wheel 8, a second chain wheel 9 and a first synchronous chain 10; the second synchronous chain transmission mechanism comprises a third chain wheel 11, a fourth chain wheel 12 and a second synchronous chain 13; the first chain wheel 8 is coaxially connected with the driving motor 7, and the first chain wheel 8 and the second chain wheel 9 are connected through the first synchronous chain 10; the second chain wheel 9 and the third chain wheel 11 are sleeved on the first screw 5.2 of the first ball screw module 5 at the same time and rotate synchronously with the first screw 5.2, the third chain wheel 11 is connected with the fourth chain wheel 12 through the second synchronous chain 13, and the fourth chain wheel 12 is sleeved on the second screw 6.2 of the second ball screw module 6 and rotates synchronously with the second screw 6.2.

The operation principle of the synchronous transmission assembly is as follows: the first chain wheel 8 is driven to rotate through the motor, the first chain wheel 8 drives the second chain wheel 9 to rotate through the first synchronous chain 10, the second chain wheel 9 drives the screw rod of the first ball screw module 5 and the third chain wheel 11 to rotate, the third chain wheel 11 drives the fourth chain wheel 12 to rotate through the second synchronous chain 13, and finally the fourth chain wheel 12 drives the screw rod of the second ball screw module 6 to rotate.

On the basis of the above embodiment, it is preferable that the driving motor 7 is a stepping motor.

By using the stepping motor, the translation positions of the cutter mechanism 1 and the mop plate 2 can be more accurate.

On the basis of the above embodiment, specifically, two symmetrical first fixing supports 14 are disposed on the left and right sides of the first ball screw module 5, and the first ball screw module 5 is fixedly connected with the first cross beam 3 through the first fixing supports 14; two symmetrical second fixed supports 15 are arranged on the left side and the right side of the second ball screw module 6, and the second ball screw module 6 is fixedly connected with the second cross beam 4 through the second fixed supports 15.

The first ball screw module 5 and the second ball screw module 6 of the cutter are respectively and fixedly connected with the corresponding first cross beam 3 and the corresponding second cross beam 4 through the fixed support.

On the basis of the above embodiment, specifically, the first cross beam 3 and the second cross beam 4 are both provided with a transverse translation rail 16, and the cutter mechanism 1 and the mop plate 2 are both provided with a sliding block 17 and movably arranged on the transverse translation rail 16 through the sliding block 17.

The transverse translation of the cutter mechanism 1 and the mop plate 2 on the corresponding beams is realized by the combined structure of the slide block 17 and the transverse translation track 16.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, so as not to limit the protection scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (7)

1. The automatic transverse adjusting structure of the trimming lapper comprises a trimming lapper body, wherein the trimming lapper body comprises a cutter mechanism, a mop plate, a first beam and a second beam; the method is characterized in that: the trimming lapper body further comprises:

the cutter mechanism is connected with a first lead screw nut of the first ball screw module and is driven by the first lead screw nut to be arranged on the first cross beam in a transverse translation manner;

and the mop plate is connected with a second screw nut of the second ball screw module, and is driven by the second screw nut to be transversely and translationally arranged on the second cross beam.

2. The trimming lap-winder lateral automatic adjustment structure according to claim 1, characterized in that: and the first ball screw module and the second ball screw module are simultaneously connected with a driving motor through the synchronous transmission assembly.

3. The trimming-lapper lateral automatic adjustment structure according to claim 2, characterized in that: the synchronous drive assembly comprises a first synchronous chain drive and a second synchronous chain drive, wherein:

the first synchronous chain transmission mechanism comprises a first chain wheel, a second chain wheel and a first synchronous chain;

the second synchronous chain transmission mechanism comprises a third chain wheel, a fourth chain wheel and a second synchronous chain;

the first chain wheel is coaxially connected with the driving motor, and the first chain wheel is connected with the second chain wheel through the first synchronous chain; the second chain wheel and the third chain wheel are simultaneously sleeved on a first screw rod of the first ball screw module and synchronously rotate with the first screw rod, the third chain wheel is connected with the fourth chain wheel through a second synchronous chain, and the fourth chain wheel is sleeved on a second screw rod of the second ball screw module and synchronously rotates with the second screw rod.

4. The trimming lap-winder lateral automatic adjustment structure according to claim 3, characterized in that: the driving motor is a stepping motor.

5. The trimming lap-winder lateral automatic adjustment structure according to claim 1, characterized in that: the left side and the right side of the first ball screw module are provided with two symmetrical first fixed supports, and the first ball screw module is fixedly connected with the first cross beam through the first fixed supports.

6. The trimming lap-winder lateral automatic adjustment structure according to claim 5, characterized in that: and two symmetrical second fixed supports are arranged on the left side and the right side of the second ball screw module, and the second ball screw module is fixedly connected with the second cross beam through the second fixed supports.

7. The trimming lap-winder lateral automatic adjustment structure according to claim 1, characterized in that: the first cross beam and the second cross beam are both provided with transverse translation rails, and the cutter mechanism and the mop plate are both provided with sliders and movably arranged on the transverse translation rails through the sliders.

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