Perforating machine for double-layer inflatable film with conservative hole edge heat seal

文档序号:1621981 发布日期:2020-01-14 浏览:27次 中文

阅读说明:本技术 一种具孔边热合保守的双层充气薄膜的打孔机 (Perforating machine for double-layer inflatable film with conservative hole edge heat seal ) 是由 庄爱妹 于 2019-10-11 设计创作,主要内容包括:本发明公开了一种具孔边热合保守的双层充气薄膜的打孔机,其结构包括设备主体、控制面板、活动盖板、移动杆、打孔装置、固定辊轴、收料辊、旋转电机。有益效果:本发明利用废料彻除结构,对所需打孔处的薄膜,在活动打孔针的作用下进行彻底的切断打孔,避免打孔的废料与正常薄膜出现有“藕断丝连”现象,在孔余料清组件的作用下,实现对孔内废料的集中收集,避免其在设备长期运行作用下出现有堆积现象,从而影响到设备的正常打孔运作,利用孔边压合结构对所打孔后的孔洞边沿做具有一定距离的保守性热合,从而避免其在薄膜绷紧的状态下做孔边热合产生折皱,使得热合效果不佳,出现有局部没有热合完全,导致该薄膜在做充气时出现有爆炸现象。(The invention discloses a hole punching machine for a double-layer inflatable film with conservative heat sealing of hole edges. Has the advantages that: the invention utilizes the waste material completely removing structure to completely cut and punch the film at the position to be punched under the action of the movable punching needle, thereby avoiding the phenomenon of 'lotus root broken filament connection' between the punched waste material and the normal film, realizing the concentrated collection of the waste material in the hole under the action of the hole residual material cleaning component, avoiding the accumulation phenomenon under the action of long-term operation of equipment, thereby influencing the normal punching operation of the equipment, utilizing the hole edge pressing structure to carry out conservative heat sealing with a certain distance on the edge of the punched hole, thereby avoiding the crease generated by the hole edge heat sealing under the tight state of the film, leading the heat sealing effect to be poor, leading the local part not to have complete heat sealing, and leading the film to the existing explosion phenomenon when the film is inflated.)

1. The utility model provides a have conservative bilayer of hole limit heat seal and aerify puncher of film, its structure includes equipment main part (1), control panel (2), removable cover (3), carriage release lever (4), perforating device (5), fixed roller (6), receipts material roller (7), rotating electrical machines (8), its characterized in that: the control panel (2) is embedded in the right side of the front surface of the equipment main body (1), the movable cover plate (3) is arranged in the middle of the upper surface of the equipment main body (1) and is connected with the movable cover plate through a hinge, the movable rod (4) is arranged on the middle upper portion of the inner surface of the equipment main body (1), the punching device (5) is connected with the movable rod (4) in a sleeved mode, the fixed roller shaft (6) is arranged on the middle upper portion of the front surface of the equipment main body (1) and is connected with the middle upper portion of the front surface of the equipment main body through electric welding, the material receiving roller (7) is arranged below the fixed roller shaft (6) and is connected with the equipment main body (1) through electric welding, and the rotating;

the punching device (5) comprises a waste removing structure (5a), a hole edge pressing structure (5b) and a sleeve disc (5c), wherein the hole edge pressing structure (5b) is arranged on the outer surface of the waste removing structure (5a) and connected through sleeving, and the hole edge pressing structure (5b) is arranged on the inner side of the sleeve disc (5c) and connected through electric welding.

2. The hole-edge-sealing conservative double-layer inflatable film punching machine according to claim 1, characterized in that: the waste material removing structure (5a) comprises a pressure stabilizing ring (5a1), a movable punching needle (5a2) and a hole residual material cleaning component (5a3), wherein the hole residual material cleaning component (5a3) is arranged in the middle of the pressure stabilizing ring (5a1) and connected through the movable punching needle (5a2), and the movable punching needle (5a2) is connected with the hole residual material cleaning component (5a3) through meshing.

3. The hole-edge-sealing conservative double-layer inflatable film punching machine according to claim 2, characterized in that: the outer surface of the upper part of the movable perforating needle (5a2) is provided with a plurality of saw teeth and is connected with the hole residue cleaning component (5a3) through meshing, and the lower part of the movable perforating needle (5a2) is of an arc flat needle-shaped structure.

4. The hole-edge-sealing conservative double-layer inflatable film punching machine according to claim 2, characterized in that: clear subassembly of hole clout (5a3) includes gear frame (5a31), outer ring frame (5a32), adsorbs square bar (5a33), inner prop (5a34), cross hole (5a35), partition net (5a36), gear frame (5a31) is connected through the meshing with activity perforating needle (5a2), outer ring frame (5a32) is installed in gear frame (5a31) lower part and is the integral structure, adsorb square bar (5a33) and be equipped with a plurality of and be even equidistance form respectively and install in outer ring frame (5a32) lower surface and be the integral structure, inner prop (5a34) are located outer ring frame (5a32) inboard and are connected through the electric welding, cross hole (5a 638) are installed in inner prop (5a 6866) lower surface and are the integral structure, partition net (5a36) inner prop (5a) are installed in 34) outer surface and outer prop lower part (32 a) and be located inside 32 a 32).

5. The hole-edge-sealing conservative double-layer inflatable film punching machine according to claim 4, characterized in that: the air flow in the hole residue cleaning component (5a3) is in a negative pressure adsorption shape.

6. The hole-edge-sealing conservative double-layer inflatable film punching machine according to claim 1, characterized in that: hole limit pressfitting structure (5b) is including rotatory ring (5b1), solid fixed ring (5b2), spacing spring coil (5b3), heat seal subassembly (5b4), rotatory ring (5b1) inboard is located in solid fixed ring (5b2), heat seal subassembly (5b4) are installed in rotatory ring (5b1) lower surface and are connected through spacing spring coil (5b3), heat seal subassembly (5b4) are connected through promoting with solid fixed ring (5b 2).

7. The hole-edge-sealing conservative double-layer inflatable film punching machine according to claim 6, characterized in that: the lower surface of the fixing ring (5b2) is provided with a plurality of bumps (5b21) which are connected through electric welding, and the bumps (5b21) are connected with the heat sealing assembly (5b4) through buckling.

8. The hole-edge-sealing conservative double-layer inflatable film punching machine according to claim 6 or 7, characterized in that: heat seal subassembly (5b4) includes buckle board (5b41), recess (5b42), hot plate (5b43), bumps touch panel (5b44), buckle board (5b41) is connected with rotatory ring (5b1) through spacing spring coil (5b3), buckle board (5b41) upper surface is equipped with recess (5b42) and is the integrated structure and is connected through the lock with lug (5b21), hot plate (5b43) are located buckle board (5b41) lower surface and are connected through the electric welding, bump touch panel (5d44) be equipped with four altogether and install respectively in hot plate (5b43) lower surface and be connected through the electric welding.

Technical Field

The invention relates to the field of film processing equipment, in particular to a punching machine for a double-layer inflatable film with conservative hole edge heat seal.

Background

When the inflatable film is used for packaging articles, the design of the film is selected according to the characteristics of the articles to be packaged, wherein the design comprises a double-layer inflatable film, a single-layer inflatable film and a multi-layer inflatable film, when the double-layer inflatable film is processed, in order to increase the inflation space of the film, punching is usually needed so as to solve the problem of large packaging volume, when the inflatable film punching machine is used for punching, because the film is in a tight state or just (slightly loose) in a rotating state when the film is punched, when the circular hole is punched, because of the self-state of the film, when the punching machine is pressed downwards instantaneously for punching, the inner side edge of the hole at the punching position of the double-layer film is easy to have an ultrafine crease phenomenon, and meanwhile, when the hole is punched, the heat sealing effect is needed, the crease phenomenon exists at the hole and under the instantaneous heat sealing effect, the partial incomplete heat seal exists at the edge of the inner side of the hole in a pressing mode, so that when the inflatable film is inflated for use, the direct leakage occurs due to the heat seal of the wrinkles, and the explosion phenomenon occurs in the inflating process due to the incomplete heat seal.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a perforating machine for a double-layer inflatable film with conservative hole edge heat seal, to solve the problems of the prior art that the film is always in a tight state or just in a state of being turned (under the action of slight loosening) when the hole is punched, when the circular hole is punched, because of the self-state of the film, when the film is instantaneously pressed down to punch, the phenomenon of extremely fine wrinkles appears at the inner side edge of the hole at the punching position of the double-layer film, and simultaneously when the hole is punched, the holes need to be heat-sealed, so that the inner side edges of the holes are partially pressed to form incomplete heat sealing under the instantaneous heat-sealing effect of the wrinkles existing in the holes, when the inflatable film is used for inflation, the defects of direct leakage caused by the heat seal of the wrinkles and explosion phenomenon caused by incomplete heat seal in the inflation process can be caused.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a perforating machine for double-layer inflatable films with conservative hole edge heat seal structurally comprises an equipment main body, a control panel, a movable cover plate, a moving rod, a perforating device, a fixed roller shaft, a material receiving roller and a rotating motor, wherein the control panel is embedded on the right side of the front surface of the equipment main body, the movable cover plate is arranged in the middle of the upper surface of the equipment main body and is connected with the upper surface of the equipment main body through a hinge, the moving rod is arranged on the middle upper portion in the equipment main body, the perforating device is connected with the moving rod through a sleeving manner, the fixed roller shaft is arranged on the middle upper portion of the front surface of the equipment main body and is connected with the equipment main body through an electric welding manner, the material receiving roller is arranged below the fixed roller shaft and is connected with the equipment main body through an electric welding manner, the rotating motor is arranged on the left side of the material receiving roller and is connected with the material receiving roller through an electric welding manner, the hole edge pressing structure is arranged on the inner side of the sleeve disc and connected through electric welding.

As a further scheme of the invention, the waste material removing structure comprises a pressure stabilizing ring, a movable punching needle and a hole excess material cleaning assembly, wherein the hole excess material cleaning assembly is arranged in the middle of the pressure stabilizing ring and is connected with the pressure stabilizing ring through the movable punching needle, and the movable punching needle is connected with the hole excess material cleaning assembly through meshing.

As a further scheme of the invention, the outer surface of the upper part of the movable perforating needle is provided with a plurality of sawteeth and is connected with the hole excess material cleaning component in a meshing way, and the lower part of the movable perforating needle is of an arc flat needle-shaped structure, so that the excess material at the perforating position of the inflatable film can be thoroughly cut off.

As a further scheme of the invention, the hole excess material cleaning assembly comprises a gear frame, an outer ring frame, an adsorption rectangular bar, an inner column, a cross hole and a partition net, wherein the gear frame is connected with a movable punching needle in a meshing manner, the outer ring frame is arranged at the inner lower part of the gear frame and is of an integrated structure, the adsorption rectangular bar is provided with a plurality of rectangular bars which are respectively arranged on the lower surface of the outer ring frame in a uniform and equidistant manner and are of an integrated structure, the inner column is arranged at the inner side of the outer ring frame and is connected with the inner column through electric welding, the cross hole is arranged on the lower surface of the inner column and is of an integrated structure, and the partition net is arranged at the lower part of the outer surface of the inner column and is positioned in the outer ring frame, so that the waste connected in the hole can be further treated, the.

As a further scheme of the invention, the airflow in the hole excess material cleaning component is in a negative pressure adsorption state, so that adsorption, storage and treatment of the cleaned waste materials are facilitated.

As a further scheme of the invention, the hole edge pressing structure comprises a rotating ring, a fixing ring, a limiting spring ring and a heat sealing assembly, wherein the fixing ring is arranged on the inner side of the rotating ring, the heat sealing assembly is arranged on the lower surface of the rotating ring and is connected with the rotating ring through the limiting spring ring, and the heat sealing assembly is connected with the fixing ring through pushing, so that the hot pressing treatment of the punched hole edge is favorably realized, and the air leakage caused by insufficient heat sealing of the hole edge during inflation is avoided.

As a further scheme of the invention, the lower surface of the fixing ring is provided with a plurality of lugs which are connected through electric welding, and the lugs are connected with the heat seal assembly through buckling, so that the conservative heat seal around the hole edge is favorably realized.

As a further scheme of the invention, the heat seal assembly comprises a buckling plate, grooves, heating plates and touch plates, wherein the buckling plate is connected with the rotating ring through a limiting spring ring, the upper surface of the buckling plate is provided with the grooves and is of an integrated structure and is buckled and connected with the convex blocks, the heating plates are arranged on the lower surface of the buckling plate and are connected through electric welding, and the touch plates are provided with four touch plates which are respectively arranged on the lower surface of the heating plate and are connected through electric welding, so that the heat seal assembly is beneficial to realizing conservative heat seal around hole edges, and the direct explosion phenomenon caused by the fact that the heat seal edges are fragile in the air inflation process is avoided.

Advantageous effects of the invention

Compared with the traditional punching machine for the inflatable film, the punching machine has the following beneficial effects:

the invention utilizes the waste material removing structure to thoroughly cut and punch the thin film at the position to be punched under the action of the movable punching needle so as to avoid the phenomenon of 'lotus root broken filaments connection' of the punched waste material and the normal thin film, and simultaneously realizes the centralized collection of the waste material in the hole under the action of the hole residual material cleaning component so as to avoid the accumulation phenomenon of the waste material in the hole under the action of long-term operation of equipment, thereby influencing the normal punching operation of the equipment.

The invention utilizes the hole edge pressing structure to perform conservative heat sealing with a certain distance on the edge of the punched hole, thereby avoiding the hole edge heat sealing from generating wrinkles when the film is in a tightened state, leading the heat sealing effect to be poor, leading the local part of the film to have no complete heat sealing, and leading the film to have an explosion phenomenon when the film is inflated.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.

In the drawings:

FIG. 1 is a schematic structural diagram of a punching machine for double-layer inflatable films with conservative heat sealing of the hole edges.

FIG. 2 is a front elevation cutting slope view of the punching apparatus of the present invention.

FIG. 3 is a schematic top view of the scrap removing structure of the present invention.

Fig. 4 is an enlarged view of a structure in fig. 3.

FIG. 5 is a schematic view of a portion of the hole debris removal assembly of the present invention.

FIG. 6 is an enlarged view of the hole-edge bonding structure according to the present invention.

FIG. 7 is a schematic bottom view of the heat seal assembly of the present invention.

In the figure: the device comprises a device body-1, a control panel-2, a movable cover plate-3, a moving rod-4, a punching device-5, a fixed roller shaft-6, a material receiving roller-7, a rotating motor-8, a waste material removing structure-5 a, a hole edge pressing structure-5 b, a sleeve disc-5 c, a pressure stabilizing ring-5 a1, a movable punching needle-5 a2, a hole residual material cleaning component-5 a3, a gear frame-5 a31, an outer ring-5 a32, an adsorption rectangular bar-5 a33, an inner column-5 a34, a cross hole-5 a35, a separation net-5 a36, a rotating ring-5 b1, a fixed ring-5 b2, a limiting spring ring-5 b3, a heat sealing component-5 b4, a bump-5 b21, a buckling plate-5 b41, a groove-5 b42, a heating plate-5 b43, a material collecting roller-7, a rotating motor-5 b 36, Touch panel-5 b 44.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in figures 1-7, the invention provides a technical scheme of a punching machine for a double-layer inflatable film with conservative heat sealing of a hole edge, which comprises the following steps:

as shown in figures 1-2, the structure of the perforating machine for the double-layer inflatable film with the conservative hole edge heat seal comprises an equipment main body 1, a control panel 2, a movable cover plate 3, a moving rod 4, a perforating device 5, a fixed roll shaft 6, a material receiving roll 7 and a rotating motor 8, wherein the control panel 2 is embedded on the right side of the front surface of the equipment main body 1, the movable cover plate 3 is arranged in the middle of the upper surface of the equipment main body 1 and connected through a hinge, the moving rod 4 is arranged on the middle upper part in the equipment main body 1, the perforating device 5 is connected with the moving rod 4 through sleeving, the fixed roll shaft 6 is arranged on the middle upper part of the front surface of the equipment main body 1 and connected through electric welding, the material receiving roll 7 is arranged below the fixed roll shaft 6 and connected with the equipment main body 1 through electric welding, the rotating motor 8 is arranged on the left side of the material receiving roll 7 and connected through electric welding, the hole edge pressing structure 5b is arranged on the outer surface of the waste material removing structure 5a and connected through sleeving, and the hole edge pressing structure 5b is installed on the inner side of the sleeve disc 5c and connected through electric welding.

As shown in fig. 2-3, the waste material removing structure 5a comprises a pressure stabilizing ring 5a1, a movable perforating needle 5a2 and a hole residue cleaning component 5a3, wherein the hole residue cleaning component 5a3 is arranged in the middle of the pressure stabilizing ring 5a1 and is connected with the movable perforating needle 5a2, and the movable perforating needle 5a2 is connected with the hole residue cleaning component 5a3 through meshing.

As shown in fig. 2-4, the outer surface of the upper part of the movable perforating needle 5a2 is provided with a plurality of saw teeth and is connected with the hole residue cleaning component 5a3 through meshing, and the lower part of the movable perforating needle 5a2 is in an arc flat needle-shaped structure, which is beneficial to thoroughly cutting off the residue at the perforating position of the inflatable film.

As shown in fig. 3-5, the hole waste cleaning assembly 5a3 includes a gear frame 5a31, an outer ring frame 5a32, an absorbing moment bar 5a33, an inner column 5a34, a cross hole 5a35, and a partition net 5a36, the gear frame 5a31 is connected with a movable perforating needle 5a2 through meshing, the outer ring frame 5a32 is installed at the inner lower portion of the gear frame 5a31 and is an integrated structure, the absorbing moment bar 5a33 is provided with a plurality of absorbing moment bars which are respectively installed at the lower surface of the outer ring frame 5a32 in a uniform and equidistant manner and are an integrated structure, the inner column 5a34 is installed at the inner side of the outer ring frame 5a32 and is connected through electric welding, the cross hole 5a35 is installed at the lower surface of the inner column 5a34 and is an integrated structure, the partition net 5a36 is installed at the lower portion of the outer surface of the inner column 5a34 and is located inside the outer ring frame 5a32, thereby facilitating further processing of waste materials connected in the hole to avoid stacking thereof, thereby affecting the normal punching operation.

As shown in fig. 2-3, the airflow inside the hole residue cleaning assembly 5a3 is in a negative pressure adsorption shape, which is beneficial to the realization of adsorption and storage treatment of the cleaned waste material.

As shown in fig. 6, the hole edge pressing structure 5b includes a rotating ring 5b1, a fixing ring 5b2, a limit spring ring 5b3, and a heat sealing assembly 5b4, wherein the fixing ring 5b2 is disposed on the inner side of the rotating ring 5b1, the heat sealing assembly 5b4 is mounted on the lower surface of the rotating ring 5b1 and connected with the limit spring ring 5b3, and the heat sealing assembly 5b4 is connected with the fixing ring 5b2 by pushing, so as to facilitate hot pressing of the perforated hole edge, and avoid air leakage caused by insufficient heat sealing of the hole edge when the air is inflated.

As shown in fig. 2-7, the lower surface of the fixing ring 5b2 is provided with a plurality of protrusions 5b21 and connected by electric welding, and the protrusions 5b21 are connected with the heat sealing assembly 5b4 by buckling, which is beneficial to realize conservative heat sealing around the hole edge.

As shown in fig. 7, the heat sealing assembly 5b4 includes a fastening plate 5b41, a groove 5b42, a heating plate 5b43, and a touch plate 5b44, wherein the fastening plate 5b41 is connected to the rotating ring 5b1 through a limit spring ring 5b3, the upper surface of the fastening plate 5b41 is provided with four grooves 5b42 and is of an integrated structure, and is fastened and connected to the protrusion 5b21, the heating plate 5b43 is provided on the lower surface of the fastening plate 5b41 and is connected by electric welding, and the touch plate 5d44 is provided with four grooves and is respectively mounted on the lower surface of the heating plate 5b43 and is connected by electric welding, so that conservative heat sealing around the hole edge is facilitated, and an explosion phenomenon caused by the fragile heat sealing edge in the inflation process is avoided.

In conclusion, the waste material removing structure 5a is used for completely cutting off the hole waste material and the film at the position of the film to be punched and further processing the hole waste material and the film, so that the problem that punching is difficult due to accumulation of the waste material in the long-term operation process is avoided, and meanwhile, the heat sealing effect of a certain distance is realized on the hole edge under the action of the hole edge pressing structure 5b, so that the hole edge heat sealing crease is avoided when the film is in a tightened state, the heat sealing effect is poor, and the phenomenon that the film is exploded when being inflated due to partial incomplete heat sealing exists.

The specific realization principle is as follows: when the double-layer film punching machine is used, the starting side of a double-layer film penetrates through the rear end of the machine main body 1 and bypasses the fixed roller shaft 6 and the material receiving roller 7 to fix material receiving, the machine is started, the rotating motor 8 rotates to roll the film, the punching device 5 performs purposefully punching on the film under the action of the movable rod 4, but because the film is constantly in a tight state or just in a film rotating state (under the slightly loose action) during punching, when the punching is performed on a circular hole, due to the self state of the film, when the punching is performed under instantaneous pressing, the phenomenon that the inner side edge of the hole at the punching position of the double-layer film generates superfine wrinkles easily occurs, and meanwhile, when the hole is punched, the hole needs to perform heat sealing action, and under the instantaneous heat sealing action of the wrinkles, the pressing of the inner side edge of the hole generates partial incomplete heat sealing, when the inflatable film is used for inflation, the direct leakage can occur due to the heat seal of the wrinkles and the explosion phenomenon can occur in the inflation process due to incomplete heat seal.

Therefore, the hole residual material cleaning component 5a3 is rotated under the power-on condition, so as to drive the movable punching needle 5a2 to rotate, the film punching is under the adsorption action of the adsorption rectangular bar 5a33 and the cross hole 5a35, the film punching has the fixing action, the displacement or punching deviation phenomenon can not occur during punching, the movable punching needle 5a2 rotates around the outer surface under the action of the hole residual material cleaning component 5a3, so as to punch the film, because the movable punching needle 5a2 is an arc flat needle head, the film and the waste materials in the hole can be thoroughly cut off when the film is punched, and the cut waste materials in the hole are directly adsorbed into the inner column 5a34 under the action of the cross hole 5a35, so as to avoid the waste material accumulation under the long-term operation action of the equipment and influence on the normal operation of punching, the inner pillar 5a34 and the outer ring frame 5a32 are isolated by the partition net 5a36, so that the collected hole waste is prevented from moving into the outer ring frame 5a32, and the adsorption rectangular strip 5a33 cannot adsorb and fix the film.

Meanwhile, the cut holes drive the heat sealing assembly 5b4 to rotate under the action of the rotating ring 5b1 which rotates, the touch plate 5b44 is in contact with the hole edge, and the touch plate 5b44 performs heat sealing on the inner edge of the double-layer hole due to the heating state of the heating plate 5b43, and in the rotating process, the intermittent-normal-weighted cyclic heat sealing of the heat sealing on the hole edge is realized through the matching action of the bump 5a21 and the groove 5b42, the conservative heat sealing with a certain distance is performed on the hole edge after the hole is punched, and the phenomenon that the film is not completely thermally sealed and is exploded when the film is inflated is avoided.

The invention solves the problems that in the prior art, because the film is constantly in a tight state or just turned (slightly loose) when the hole is punched, the inner side edge of the hole at the punched position of the double-layer film is easy to have a superfine crease phenomenon because of the self state of the film when the hole is punched by instantaneously pressing down, meanwhile, the hole needs to be thermally sealed when the hole is punched, the local incomplete thermal sealing is caused by the local pressing of the inner side edge of the hole under the instantaneous thermal sealing action when the hole is wrinkled, so that when the inflatable film is inflated for use, the direct leakage can be caused by the thermal sealing of the crease and the explosion phenomenon can be caused by incomplete thermal sealing, the invention utilizes the arranged waste materials to completely remove the structure through the mutual combination of the components, the invention relates to a method for cutting and punching a thin film to be punched, which is characterized in that a film to be punched is thoroughly cut and punched under the action of a movable punching needle so as to avoid the phenomenon of 'lotus root broken filament connection' between punched waste and a normal thin film, and meanwhile, under the action of a hole residual material cleaning component, the waste in a hole is intensively collected so as to avoid the accumulation phenomenon under the long-term operation action of equipment, thereby influencing the normal punching operation of the equipment.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

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