CN219069440U - Splicing component capable of adapting to tipping paper with various specifications - Google Patents

Abstract

The utility model discloses a splicing component capable of adapting to tipping paper with various specifications, which comprises an embossing splicing block, wherein the inner side of the embossing splicing block is detachably arranged on a rotating shaft, the outer side surface of the embossing splicing block is an arc surface concentric with the rotating shaft, a plurality of outwards-protruding splicing strips are arranged on the outer side surface of the embossing splicing block, the splicing strips are sequentially arranged along the axis direction of the rotating shaft, gaps are reserved between adjacent splicing strips, the outer surface of each splicing strip is an arc surface concentric with the rotating shaft, and salient point embossing is arranged on the outer surface of each splicing strip. Compared with the prior art, the utility model has the following advantages: the firmness of the tipping paper splicing section is improved, and the tipping paper splicing section can adapt to tipping paper splicing of various specifications.

Description

Splicing component capable of adapting to tipping paper with various specifications

Technical Field

The utility model relates to cigarette production equipment, in particular to a splicing component which can adapt to tipping paper with various specifications.

Background

An automatic bobbin replacing machine in tobacco industry is used for splicing tipping paper in use with standby tipping paper. Two opposite splicing blocks are arranged at the splicing part, one of the two splicing blocks is an embossed splicing block with an embossed arc surface, and the other splicing block is a splicing block with a smooth arc surface without embossing. The two splicing blocks are respectively arranged on the respective rotating shafts, the rotating directions of the two rotating shafts are opposite, the two splicing blocks are driven to reversely rotate through the two rotating shafts, and two layers of tipping paper positioned between the two splicing blocks are spliced together by utilizing the bump embossing of the arc-shaped surface of the embossing splicing block.

In the existing equipment, the convex point type embossing on the embossing splicing block covers the whole arc-shaped working surface of the splicing block, and due to the fact that the convex points of embossing in the splicing area are many, tipping paper at the splicing section is easy to damage, the situation that the tipping paper splicing section breaks in the production process is caused, and therefore production is affected. In addition, the embossing splicing blocks in the existing equipment are provided with splicing blocks with different widths for tipping paper with different specifications, and the corresponding splicing blocks need to be replaced when the tipping paper specification is replaced, so that the production efficiency is reduced, the production cost is improved, and the labor intensity is increased.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides a splicing component which can adapt to tipping paper with various specifications so as to improve the firmness of a tipping paper splicing section and adapt to the splicing of the tipping paper with various specifications.

The utility model is realized by the following technical scheme:

the utility model provides a splice component that can adapt to multiple specification tipping paper, includes the knurling splice piece, the inboard detachable of knurling splice piece is installed on the rotation axis, knurling splice piece lateral surface is with the endocentric arcwall face of rotation axis, be equipped with a plurality of outside convex splice bars on the lateral surface of knurling splice piece, a plurality of splice bars are arranged in proper order along the axis direction of rotation axis, and leave the clearance between the adjacent splice bar, every splice bar surface be with the endocentric arcwall face of rotation axis, all be equipped with bump knurling on every splice bar surface.

Further, ten splicing strips are arranged on the outer side face of the embossing splicing block, two splicing strips positioned on two sides are edge splicing strips, eight splicing strips positioned between the two edge splicing strips are middle splicing strips, and the width of a single edge splicing strip is smaller than that of a single middle splicing strip.

Further, the width of the middle splicing strip is 6.5mm, the width of the edge splicing strip is 5mm, and the interval between two adjacent splicing strips is 2mm.

Further, the embossed splice blocks have an arc length of 62mm.

Furthermore, the outer side of the rotating shaft is provided with a V-shaped mounting surface, the inner side surface of the embossing splicing block is a limiting surface matched with the mounting surface of the rotating shaft, and the embossing splicing block is mounted on the mounting surface of the rotating shaft in a laminating mode through the limiting surface.

Furthermore, the embossing splicing block is provided with a lightening hole which is penetrated along the axial direction, the bottom wall of the lightening hole is provided with two mounting holes, and the embossing splicing block and the rotating shaft are detachably mounted by penetrating through the two mounting holes through two screws and screwing on the rotating shaft.

Compared with the prior art, the utility model has the following advantages:

the splicing component which can adapt to tipping paper with various specifications is provided with the plurality of convex splicing strips on the outer arc surface of the embossing splicing block, the plurality of splicing strips are arranged at intervals along the axis direction of the rotating shaft, the convex embossing is arranged on the outer surfaces of the splicing strips, the gaps among the splicing strips are not embossed, the number of convex points in the splicing area is effectively reduced, the tensile resistance of the tipping paper splicing section is improved, the tipping paper splicing section is not easy to damage and break, and the continuous production of equipment is ensured. In addition, the width of the whole splicing area formed by ten splicing strips is 80mm, so that the splicing device can adapt to splicing of tipping paper with various specifications with the width of less than 80mm, and has strong universality.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

FIG. 2 is a schematic view of the structure of the present utility model after splicing the tipping paper with the standby tipping paper.

Reference numerals in the drawings: 1 embossing splice blocks; 2, limiting surfaces; 3, a lightening hole; 4, mounting holes; 5 embossing with convex points; 6-edge splicing strips; 7, splicing strips in the middle; 8, using tipping paper; 9, standby tipping paper; 10 splice segments.

Detailed Description

The following describes in detail the examples of the present utility model, which are implemented on the premise of the technical solution of the present utility model, and detailed embodiments and specific operation procedures are given, but the scope of protection of the present utility model is not limited to the following examples.

Referring to fig. 1 to 2, the present embodiment discloses a splicing component capable of adapting to tipping paper of various specifications, comprising an embossing splicing block 1, wherein the inner side of the embossing splicing block 1 is detachably mounted on a rotating shaft, a V-shaped mounting surface is arranged on the outer side of the rotating shaft, the inner side of the embossing splicing block 1 is a limiting surface 2 matched with the mounting surface of the rotating shaft, and the embossing splicing block 1 is mounted on the mounting surface of the rotating shaft in a laminating manner through the limiting surface 2. The embossing splicing block 1 is provided with a lightening hole 3 which is penetrated along the axial direction, the bottom wall of the lightening hole 3 is provided with two mounting holes 4, and two screws respectively penetrate through the two mounting holes 4 and are screwed on the rotating shaft, so that the embossing splicing block 1 and the rotating shaft can be detachably mounted. The weight reducing holes 3 are arranged, so that the weight of the embossing splicing block 1 can be reduced, and the disassembling and assembling operations of screws can be facilitated.

The outer side surface of the embossing splicing block 1 is an arc surface concentric with the rotating shaft, a plurality of splicing strips protruding outwards are arranged on the outer side surface of the embossing splicing block 1 and are sequentially arranged along the axis direction of the rotating shaft, gaps are reserved between the adjacent splicing strips, the outer surface of each splicing strip is an arc surface concentric with the rotating shaft, and salient point embossing 5 is arranged on the outer surface of each splicing strip.

Ten splicing strips are arranged on the outer side face of the embossing splicing block 1, and the arc length of the embossing splicing block 1 is 62mm. The two splicing strips positioned on two sides are edge splicing strips 6, eight splicing strips positioned between the two edge splicing strips 6 are middle splicing strips 7, and the width of a single edge splicing strip 6 is smaller than that of a single middle splicing strip 7. The width of the middle splicing strip 7 is 6.5mm, the width of the edge splicing strip 6 is 5mm, and the interval between two adjacent splicing strips is 2mm. The width of the whole splicing area formed by ten splicing strips is 80mm, the splicing device can adapt to the splicing of tipping paper with various specifications with the width of less than 80mm, can be used for splicing tipping paper with four specifications with the width of 60mm, 68mm, 72mm and 76mm, has strong universality, does not need to replace the embossed splicing block 1 when the tipping paper with different specifications is replaced, improves the production efficiency and reduces the production cost.

In operation, the embossed splice block 1 is arranged on a rotating shaft, the splice block without the embossing is a smooth splice block, the embossed splice block 1 and the smooth splice block do opposite rotary motion, and the in-use tipping paper 8 and the standby tipping paper 9 between the two splice blocks are stamped together by embossing to form a splicing section 10 of tipping paper.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (6)

1. The utility model provides a splice component that can adapt to multiple specification tipping paper, includes knurling splice, knurling splice inboard detachable installs on the rotation axis, knurling splice lateral surface is with the endocentric arcwall face of rotation axis, its characterized in that: the embossing splicing block comprises an embossing splicing block, and is characterized in that a plurality of splicing strips protruding outwards are arranged on the outer side face of the embossing splicing block, are sequentially arranged along the axis direction of the rotating shaft, gaps are reserved between the adjacent splicing strips, the outer surface of each splicing strip is an arc-shaped surface concentric with the rotating shaft, and salient point embossing is arranged on the outer surface of each splicing strip.

2. A splice component adaptable to multiple gauges of tipping paper as defined in claim 1, wherein: ten splicing strips are arranged on the outer side face of the embossing splicing block, two splicing strips positioned on two sides are edge splicing strips, eight splicing strips positioned between the two edge splicing strips are middle splicing strips, and the width of a single edge splicing strip is smaller than that of a single middle splicing strip.

3. A splice component adaptable to multiple gauges of tipping paper as defined in claim 2, wherein: the width of middle concatenation strip is 6.5mm, and the width of limit concatenation strip is 5mm, and the interval between two adjacent concatenation strips is 2mm.

4. A splice component adaptable to multiple gauges of tipping paper as defined in claim 3, wherein: the arc length of the embossing splice block is 62mm.

5. A splice component adaptable to multiple gauges of tipping paper as defined in claim 1, wherein: the outer side of the rotating shaft is provided with a V-shaped mounting surface, the inner side surface of the embossing splicing block is a limiting surface matched with the mounting surface of the rotating shaft, and the embossing splicing block is mounted on the mounting surface of the rotating shaft in a laminating mode through the limiting surface.

6. A splice component adaptable to multiple gauges of tipping paper as defined in claim 5, wherein: the embossing splicing block is provided with a lightening hole which is penetrated along the axial direction, the bottom wall of the lightening hole is provided with two mounting holes, and the embossing splicing block and the rotating shaft are detachably mounted by penetrating through the two mounting holes through two screws and screwing on the rotating shaft.

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