CN212922204U - Overedger system for sponge inner sleeve bagging machine - Google Patents

Abstract

The utility model relates to a overedger system for a sponge inner sleeve bagging machine, which comprises a first cutting overedger component and a second cutting overedger component which are distributed in parallel along the sponge conveying direction in sequence; the first cutting cup seaming assembly comprises a first cutting cup seaming support, a yarn drum carding mechanism, a first cup seaming machine, a first cutting machine and a third horizontal moving mechanism; the second cutting cup seaming assembly comprises a second cutting cup seaming support, a second cup seaming machine, a second cutting machine and a fourth horizontal moving mechanism. The utility model has the advantages that: through the cooperation of first cutting hemming subassembly, second cutting hemming subassembly, utilize two subassemblies to come to cut simultaneously and the hemming to two positions of a yarn section of thick bamboo, such design has realized cutting, the hemming to the tail end of preceding yarn bag promptly to and the cutting, the hemming of the front end of back yarn bag, thereby realized cutting and the hemming to the automation of yarn bag, need not the manual work and operated, reduced hand labor.

Description

Overedger system for sponge inner sleeve bagging machine

Technical Field

The utility model relates to a sponge processing field, in particular to bag sewing system for sponge inner sleeve bagging machine.

Background

Polyurethane soft foaming rubber, polyurethane is the most common polymer material in life, and is widely applied to manufacturing various sponge products and elastic materials for shock absorption and friction resistance, such as soles and tank track substrates of tractors.

When the sponge product is processed, firstly, the foaming resin, the foaming auxiliary agent and the adhesive resin (which enables the finished product to have adhesiveness) are mixed together; and then foaming. Mixing Ethylene Vinyl Acetate (EVA), APAOPT3385, azodicarbonamide, CaCO and dicumyl peroxide together, placing the mixture in a mould for foaming, and breaking closed pores by mechanical force to obtain a foamed sponge product, wherein the density (d) of the foamed sponge product is 0.028 g/cm, and the 25% compression hardness is 1.9 KPa.

The components of the sponge are mostly polyurethane, different things can be produced by different manufacturing processes of the same material as foaming, and PU sponge products mainly comprise polyester and polyether types, can be sliced or rolled and cut, and can be subjected to composite processing, hot pressing processing, blasting and trepanning processing and the like according to customer requirements. The PU sponge product has the characteristics of heat preservation, heat insulation, sound absorption, shock absorption, flame retardance, static electricity prevention, good air permeability and the like, so the PU sponge product relates to various industries, including the automobile industry, the battery industry, the cosmetic industry, the bra underwear manufacturing industry, the high-grade furniture manufacturing industry and the like.

At present, in the existing sponge production process, when finished sponge is stored, packaged, conveyed and the like, the sponge has certain viscosity due to the limitation of the material of the sponge, so that a plurality of sponges cannot be directly stacked and stored, otherwise, adjacent sponges are easily adhered together due to long-time contact, the sponges need to be separated during subsequent operation, the sponge is troublesome to separate, and the sponges are easily damaged, so that yarn bags can be sleeved on the outer sides of the sponges to serve as inner sleeves of the sponges to avoid the phenomenon, at present, the traditional bagging mode is manually bagging, the sizes of the existing yarn bags are not matched with the sizes of the sponges one by one, but the sizes of the existing yarn bags are matched with the sizes of the sponges through operations of cutting, sewing and the like by yarn drums with the length of about tens of meters to achieve the sizes matched with the sizes of the sponges, the processes are all operated manually, a large amount of manual labor is consumed in the whole bag sleeving process, the manual labor intensity is high, and the working efficiency is not high.

Therefore, in view of the above phenomena, it is desirable to develop an automatic bagging device to realize automatic bagging of sponge, which needs to include multiple components such as automatic conveying of sponge, automatic bagging, automatic cutting and hemming of yarn bags, and for the automatic cutting and hemming component of yarn bags, because the conventional yarn bag manufacturing is performed by cutting a yarn tube directly by a worker and then bagging is performed, and the whole process is manually performed, an automatic cutting and hemming device needs to be developed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a bag machine hemming system is overlapped in sponge endotheca can realize having the yarn section of thick bamboo of sponge to carry out automatic back and hemming of cutting to the package.

In order to solve the technical problem, the utility model adopts the technical scheme that: the utility model provides a sponge endotheca bagging machine oversea system, its innovation point lies in: comprises that

The first cutting cup seaming assembly and the second cutting cup seaming assembly are sequentially distributed in parallel along the sponge conveying direction;

the first cutting cup seaming assembly comprises a first cutting cup seaming support, a yarn drum carding mechanism is installed on one side, away from the second cutting cup seaming assembly, of the first cutting cup seaming support, a first cup seaming machine and a first cutting machine are installed on one side, close to the second cutting cup seaming assembly, of the first cutting cup seaming support, the first cup seaming machine and the first cutting machine are driven by a third horizontal moving mechanism to move horizontally along the side end of the first cutting cup seaming support, the horizontal moving direction is perpendicular to the conveying direction of the sponge, and the first cutting machine is located on the front side of the moving track;

the second cuts the hemming subassembly and includes that the second cuts the hemming support, cuts one side that the hemming support is close to first cutting the hemming subassembly at the second and installs second hemming machine, second guillootine, second hemming machine, second guillootine are driven along the second and cut the side of hemming support by fourth horizontal migration mechanism and carry out horizontal migration, and this horizontal migration direction is mutually perpendicular with the direction of delivery of sponge, and the second guillootine is located the front side of this removal orbit, the direction of movement of second hemming machine, second guillootine is opposite with the direction of movement of first hemming machine, first guillootine.

Furthermore, the bobbin carding mechanism comprises an upper carding mechanism and a lower carding mechanism, and a gap for allowing a bobbin and sponge to pass through is reserved between the upper carding mechanism and the lower carding mechanism;

the upper carding mechanism comprises an upper carding support arranged at the upper side end of the first cutting cup seaming support, the upper carding support is hinged with the first cutting cup seaming support, the upper carding support is driven by an upper swing motor to swing up and down along a hinge point between the upper carding support and the first cutting cup seaming support, an upper carding roller is arranged at one side of the upper carding support far away from the first cutting cup seaming support, and the upper carding roller is driven by an upper carding motor arranged on the upper carding support to rotate;

the lower carding mechanism comprises a lower carding platform, a lower carding roller is arranged above the lower carding platform, two sides of the lower carding roller are respectively and movably mounted on a lower carding seat, the lower carding seat is driven by an independent lower driving cylinder to ascend and descend so as to drive the lower carding roller to ascend and descend, the lower carding roller is driven by a lower carding motor mounted on the lower carding seat to rotate, lower guide plates are arranged beside the lower driving cylinder on the lower carding platform, a lower guide rod is connected to the bottom surface of the lower carding seat, and meanwhile, a guide hole for allowing the lower guide rod to penetrate through and move is formed in the lower guide plate.

Further, the third horizontal moving mechanism is: install the third horizontal migration guide rail in one side that first cutting cup joint support is close to the second cutting cup joint support, the extending direction of third horizontal migration guide rail is mutually perpendicular with the direction of delivery of sponge, and first cup joint machine, first guillootine are installed on third horizontal migration board, install the third horizontal migration slider that cooperatees and use with third horizontal migration guide rail on third horizontal migration board, horizontal migration is carried out by the cooperation of third horizontal lead screw and third screw nut to the third horizontal migration board, the extending direction of third horizontal lead screw is the same with the extending direction of third horizontal migration guide rail.

Further, the fourth horizontal moving mechanism is: install the fourth horizontal migration guide rail in one side that the second cuts the overedger support is close to first cutting overedger support, and the extending direction of fourth horizontal migration guide rail is mutually perpendicular with the direction of delivery of sponge, and second overedger, second guillootine are installed on fourth horizontal migration board, install the fourth horizontal migration slider that cooperatees and use with fourth horizontal migration guide rail on fourth horizontal migration board, fourth horizontal migration board carries out horizontal migration by the cooperation of fourth horizontal lead screw and fourth screw nut, the extending direction of fourth horizontal lead screw is the same with the extending direction of third horizontal migration guide rail.

Furthermore, a third carding mechanism is further mounted at the side end of the first overedger, the third carding mechanism comprises a plurality of third carding rollers arranged on one side of the first overedger, which is close to the first cutting overedger support, each third carding roller is linked through a third linkage belt, any one third carding roller is driven to rotate by a third carding motor mounted on the first overedger and drives the third linkage belt to rotate, and a third carding pressing plate is further mounted on one side of the first overedger, which is close to the first cutting machine;

and a fourth carding mechanism is further mounted at the side end of the second hemming machine, and the fourth carding mechanism and the third carding mechanism are identical in structure.

The utility model has the advantages that: the utility model discloses in, through the first cooperation that cuts the hemming subassembly, the second cuts the hemming subassembly, utilize two subassemblies to come to cut simultaneously and the hemming to two positions of a yarn section of thick bamboo, such design has realized cutting, the hemming to the tail end of preceding yarn bag promptly to and cutting, the hemming of the front end of back yarn bag, thereby realized cutting and the hemming to the automation of yarn bag, need not the manual work and operated, reduced manual labor.

The upper carding mechanism and the lower carding mechanism are matched with each other for the yarn drum carding mechanism, so that the top side and the bottom side of the yarn drum are carded simultaneously, and the phenomenon that the yarn bag is greatly folded when the yarn drum is cut into the yarn bag after sponge is filled in the yarn drum is avoided, and subsequent use is influenced.

For the arrangement of the third horizontal moving mechanism, through the matching of the third horizontal moving guide rail, the third horizontal moving plate and the third horizontal moving slide block, only one motor is needed to drive the third horizontal moving mechanism to move, so that the number of active driving pieces is reduced, and the structure is simplified.

For the setting of the fourth horizontal moving mechanism, through the matching of the fourth horizontal moving guide rail, the fourth horizontal moving plate and the fourth horizontal moving slide block, only one motor is needed to drive the fourth horizontal moving mechanism to move, so that the number of active driving pieces is reduced, and the structure is simplified.

The third carding mechanism and the fourth carding mechanism are arranged to compress the yarn bag when the overedger is used for sewing and sealing the yarn bag, so that the problem that the sewing and sealing are affected due to overlarge openings of the yarn bag caused by cutting is avoided.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of a overedger system for a sponge inner sleeve bagging machine of the present invention.

Fig. 2 is a front view of the overedger system for the sponge inner bagging machine of the present invention.

Fig. 3 is a side view of the overedger system for the sponge inner bagging machine of the present invention.

Fig. 4 is a top view of the overedger system for the sponge inner bagging machine of the present invention.

Fig. 5 is a schematic view of a third carding mechanism of the present invention.

Detailed Description

The following examples are presented to enable those skilled in the art to more fully understand the present invention and are not intended to limit the scope of the present invention.

The overlock system for the sponge inner bagging machine shown in figures 1-5 comprises

The first cutting cup seaming assembly and the second cutting cup seaming assembly are sequentially distributed in parallel along the sponge conveying direction.

The first cutting cup seaming assembly comprises a first cutting cup seaming support 3, a yarn drum carding mechanism is installed on one side, away from the second cutting cup seaming assembly, of the first cutting cup seaming support 3, the yarn drum carding mechanism comprises an upper carding mechanism and a lower carding mechanism, and a gap for allowing a yarn drum and sponge to pass through is reserved between the upper carding mechanism and the lower carding mechanism. The upper carding mechanism and the lower carding mechanism are matched with each other for the yarn drum carding mechanism, so that the top side and the bottom side of the yarn drum are carded simultaneously, and the phenomenon that the yarn bag is greatly folded when the yarn drum is cut into the yarn bag after sponge is filled in the yarn drum is avoided, and subsequent use is influenced.

The upper carding mechanism comprises an upper carding support 301 arranged at the upper end of a first cutting overlock support 3, the upper carding support 301 and the first cutting overlock support 3 are hinged to form a hinge, the upper carding support 301 is driven by an upper swing motor arranged on the first cutting overlock support 3 to swing up and down along a hinge point between the upper carding support 301 and the first cutting overlock support 3, an upper carding roller 302 is arranged on one side of the upper carding support 301 far away from the first cutting overlock support 3, the upper carding roller 302 and the upper carding support 301 are matched and connected with a bearing seat through a bearing, and the upper carding roller 302 is driven by an upper carding motor 303 arranged on the upper carding support 301 to rotate.

The lower carding machine comprises a lower carding platform 304, a lower carding roller 305 is arranged above the lower carding platform 304, two sides of the lower carding roller 305 are respectively and movably arranged on a lower carding seat 306, and the lower carding roller 305 and the lower carding seat 306 are connected by the matching rolling of the bearing and the bearing seat, the two lower carding seats 306 are driven by the independent lower driving cylinder 307 to lift up and down respectively, thereby driving the lower carding roller 305 to lift up and down, in this embodiment, the lower driving cylinder 307 is a hydraulic cylinder, the lower comb roll 305 is rotated by a lower comb motor 308 mounted on one of the lower comb mounts 306, a lower guide plate 309 is also provided on the lower carding platform 304 alongside the lower drive cylinder 307, a lower guide bar 310 is further coupled to the bottom surface of the lower comb base 306, and a guide hole through which the lower guide bar 310 passes and moves is formed in the lower guide plate 309.

Install first hemming machine 311 in one side that first cutting hemming support 3 is close to second cutting hemming subassembly, first guillootine 312, first hemming machine 311, first guillootine 312 is driven by third horizontal migration mechanism and is carried out horizontal migration along the side of first cutting hemming support 3, and this horizontal migration direction is mutually perpendicular with the direction of delivery of sponge, and first guillootine 312 is located the front side of this removal orbit, through placing first guillootine 312 in the front side, cut the yarn section of thick bamboo earlier promptly, then cup joint in the incision, avoid because of earlier when cup jointing, lead to follow-up when cutting, cut off the cup seaming line, the effect is sealed in the influence.

The third horizontal moving mechanism is: a third horizontal moving guide rail is arranged on one side of the first cutting cup seaming support 3 close to the second cutting cup seaming support, the third horizontal moving guide rail is provided with two rows, the two rows of the third horizontal moving guide rail are sequentially distributed at the side end of the first cutting cup seaming support 3 from top to bottom, the extending direction of the third horizontal moving guide rail is vertical to the conveying direction of the sponge, the first cup seaming machine 311 and the first cutting machine 312 are arranged on a third horizontal moving plate 314, a third horizontal moving slide block matched with the third horizontal moving guide rail is arranged on the third horizontal moving plate 314, the third horizontal moving plate is horizontally moved by the matching of a third horizontal lead screw and a third lead screw nut, the extending direction of the third horizontal lead screw is the same as the extending direction of the third horizontal moving guide rail, the third horizontal lead screw is arranged at the side end of the first cutting cup seaming support 3 and is positioned between the two third horizontal moving guide rails, and the third lead screw nut matched with the third horizontal lead screw is arranged on the third horizontal, the third lead screw nut is fixed on the third horizontal moving plate 314, and the third horizontal lead screw is driven by a third horizontal moving motor installed on the first cutting overlock bracket 3 to rotate, so as to drive the third horizontal moving plate 314 to move horizontally, and further drive the first overlock machine 311 and the first cutting machine 312 to move horizontally. For the arrangement of the third horizontal moving mechanism, through the matching of the third horizontal moving guide rail, the third horizontal moving plate 314 and the third horizontal moving slide block, only one motor is needed to drive the third horizontal moving mechanism to move, so that the number of active driving pieces is reduced, and the structure is simplified.

A third carding mechanism is also arranged at the side end of the first overedger 311, the third carding mechanism comprises a plurality of third carding rollers 315 which are arranged at one side of the first overedger 311 close to the first cutting overedger bracket 3, each third carding roller 315 is linked through a third linking belt 316, the third linkage belt 316 is provided with a horizontal section which is parallel to the upper end surface of the third horizontal moving plate 314, a gap for the end part of the yarn containing bag to pass through is formed between the horizontal section of the third linkage belt 316 and the upper end surface of the third horizontal moving plate 314, any one of the third carding rollers 315 is driven to rotate by a third carding motor installed on the first overedger 311, and drives a third linkage belt 316 to rotate, a third carding platen 317 is also mounted on the side of the first stitcher 311 adjacent to the first clipper 312, a gap for allowing the end of the yarn containing bag to pass is formed between the third carding press 317 and the upper end surface of the third horizontal moving plate 314.

The second cuts the hemming subassembly and includes second cuts the hemming support 318, cuts the hemming support 319, second guillootine in second cuts one side that the hemming support 318 is close to first cuts the hemming subassembly and installs, second guillootine, second hemming machine 319, second guillootine are driven by fourth horizontal migration mechanism and are carried out horizontal migration along the second and cut the side of hemming support, and this horizontal migration direction is mutually perpendicular with the direction of delivery of sponge, and the second guillootine is located the front side of this removal orbit, through placing the second guillootine in the front side, cut the yarn section of thick bamboo earlier promptly, then cup joints in the incision department, avoid because of when cup joints earlier, lead to follow-up when cutting, cut off the hemming line, influence the effect of sealing.

The moving directions of the second hemming machine 319 and the second cutting machine are opposite to the moving directions of the first hemming machine 311 and the first cutting machine 312, and the arrangement is to avoid the mutual influence among the second hemming machine 319, the second cutting machine, the first hemming machine 311 and the first cutting machine 312 when the two machines move in the same direction.

The fourth horizontal moving mechanism is: a fourth horizontal moving guide rail 320 is arranged on one side of the second cutting overedger support 319 close to the first cutting overedger support 3, the fourth horizontal moving guide rail 320 is provided with two rows, the two rows are sequentially distributed at the side end of the second cutting overedger support 319 from top to bottom, the extending direction of the fourth horizontal moving guide rail 320 is vertical to the conveying direction of the sponge, the second overedger 319 and the second cutting machine are arranged on a fourth horizontal moving plate 321, a fourth horizontal moving slider matched with the fourth horizontal moving guide rail 320 is arranged on the fourth horizontal moving plate 321, the fourth horizontal moving plate 321 is horizontally moved by the matching of a fourth horizontal lead screw 322 and a fourth lead screw nut, the fourth horizontal lead screw 322 is arranged at the side end of the second cutting overedger support 319 and is positioned between the two rows of the fourth horizontal moving guide rail 320, the fourth lead screw nut is fixed on the fourth horizontal moving plate 321, the fourth horizontal lead screw 322 is driven by a fourth horizontal driving motor arranged on the second cutting overedger support 319 to rotate, thereby realizing the horizontal movement of the fourth horizontal moving plate 321, and the extending direction of the fourth horizontal lead screw 322 is the same as the extending direction of the third horizontal moving rail 320. For the arrangement of the fourth horizontal moving mechanism, through the matching of the fourth horizontal moving guide rail 320, the fourth horizontal moving plate 321 and the fourth horizontal moving slider, only one motor is needed to drive the fourth horizontal moving mechanism to move, so that the number of active driving pieces is reduced, and the structure is simplified.

A fourth carding mechanism is further installed at the side end of the second overlock machine 319, and the fourth carding mechanism has the same structure as the third carding mechanism, and thus, the detailed description thereof is omitted. The third carding mechanism and the fourth carding mechanism are arranged to compress the yarn bag when the overedger is used for sewing and sealing the yarn bag, so that the problem that the sewing and sealing are affected due to overlarge openings of the yarn bag caused by cutting is avoided.

The working principle is as follows: when cutting and hemming are carried out, firstly, the front end of a bobbin is pulled manually, the front end of the bobbin is pulled through a first cutting and hemming assembly, the top end of the bobbin is firstly and sequentially hemmed and sealed by a first hemming machine 311 and a first cutting machine 312 to finish the sealing of the front side of a first yarn bag, then, an upper carding mechanism and a lower carding mechanism start to work, so that the upper carding roller 302 swings downwards, the lower carding roller 305 jacks upwards, the bobbin is pushed tightly through the matching of the upper carding roller 302 and the lower carding roller 305, then, the upper carding motor 303 and the lower carding motor 308 start to work, so that the upper carding roller 302 and the lower carding roller 305 are driven to start to rotate, the rotating direction of the upper carding roller 302 and the lower carding roller 305 is opposite to the conveying direction of sponge, the flattening of the bobbin is ensured through the reverse rotation, the circumference is reduced, then, the sponge is conveyed in the previous process, the yarn bag cutting machine enters a yarn drum, the sponge can be propped against the sealing position on the front side of a first yarn bag along with the conveying of the sponge, the yarn bag is moved continuously towards the direction of a second cutting overedged component, the movement is stopped after the sponge pushes the first yarn bag to exceed the second cutting overedged component, then the second overedger 319 and the second cutting machine cut the unmeasured yarn bag and perform overedged sealing on the first yarn bag, so that a complete yarn bag is formed, the bagging of the first sponge is completed at the same time, meanwhile, the first overedger 311 and the first cutting machine 312 cut the yarn drum with appointment and perform overedged sealing, the sealing on the front side of the second yarn bag is completed, the second sponge is waited for the panning, the operation is repeated in sequence, except that the sealing on the front side of the first yarn bag of each yarn drum needs manual operation, all the rest are automatic bagging, and the manual labor is greatly reduced.

Through the cooperation of first cutting hemming subassembly, second cutting hemming subassembly, utilize two subassemblies to come to cut simultaneously and the hemming to two positions of a yarn section of thick bamboo, such design has realized cutting, the hemming to the tail end of preceding yarn bag promptly to and the cutting, the hemming of the front end of back yarn bag, thereby realized cutting and the hemming to the automation of yarn bag, need not the manual work and operated, reduced hand labor.

It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a sponge endotheca bagging machine oversea system which characterized in that: comprises that

The first cutting cup seaming assembly and the second cutting cup seaming assembly are sequentially distributed in parallel along the sponge conveying direction;

the first cutting cup seaming assembly comprises a first cutting cup seaming support, a yarn drum carding mechanism is installed on one side, away from the second cutting cup seaming assembly, of the first cutting cup seaming support, a first cup seaming machine and a first cutting machine are installed on one side, close to the second cutting cup seaming assembly, of the first cutting cup seaming support, the first cup seaming machine and the first cutting machine are driven by a third horizontal moving mechanism to move horizontally along the side end of the first cutting cup seaming support, the horizontal moving direction is perpendicular to the conveying direction of the sponge, and the first cutting machine is located on the front side of the moving track;

the second cuts the hemming subassembly and includes that the second cuts the hemming support, cuts one side that the hemming support is close to first cutting the hemming subassembly at the second and installs second hemming machine, second guillootine, second hemming machine, second guillootine are driven along the second and cut the side of hemming support by fourth horizontal migration mechanism and carry out horizontal migration, and this horizontal migration direction is mutually perpendicular with the direction of delivery of sponge, and the second guillootine is located the front side of this removal orbit, the direction of movement of second hemming machine, second guillootine is opposite with the direction of movement of first hemming machine, first guillootine.

2. The overedger system for a sponge inner bagging machine according to claim 1, wherein: the yarn cylinder carding mechanism comprises an upper carding mechanism and a lower carding mechanism, and a gap for allowing a yarn cylinder and sponge to pass through is reserved between the upper carding mechanism and the lower carding mechanism;

the upper carding mechanism comprises an upper carding support arranged at the upper side end of the first cutting cup seaming support, the upper carding support is hinged with the first cutting cup seaming support, the upper carding support is driven by an upper swing motor to swing up and down along a hinge point between the upper carding support and the first cutting cup seaming support, an upper carding roller is arranged at one side of the upper carding support far away from the first cutting cup seaming support, and the upper carding roller is driven by an upper carding motor arranged on the upper carding support to rotate;

the lower carding mechanism comprises a lower carding platform, a lower carding roller is arranged above the lower carding platform, two sides of the lower carding roller are respectively and movably mounted on a lower carding seat, the lower carding seat is driven by an independent lower driving cylinder to ascend and descend so as to drive the lower carding roller to ascend and descend, the lower carding roller is driven by a lower carding motor mounted on the lower carding seat to rotate, lower guide plates are arranged beside the lower driving cylinder on the lower carding platform, a lower guide rod is connected to the bottom surface of the lower carding seat, and meanwhile, a guide hole for allowing the lower guide rod to penetrate through and move is formed in the lower guide plate.

3. The overedger system for a sponge inner bagging machine according to claim 1, wherein: the third horizontal moving mechanism is: install the third horizontal migration guide rail in one side that first cutting cup joint support is close to the second cutting cup joint support, the extending direction of third horizontal migration guide rail is mutually perpendicular with the direction of delivery of sponge, and first cup joint machine, first guillootine are installed on third horizontal migration board, install the third horizontal migration slider that cooperatees and use with third horizontal migration guide rail on third horizontal migration board, horizontal migration is carried out by the cooperation of third horizontal lead screw and third screw nut to the third horizontal migration board, the extending direction of third horizontal lead screw is the same with the extending direction of third horizontal migration guide rail.

4. The overedger system for a sponge inner bagging machine according to claim 1, wherein: the fourth horizontal moving mechanism is: install the fourth horizontal migration guide rail in one side that the second cuts the overedger support is close to first cutting overedger support, and the extending direction of fourth horizontal migration guide rail is mutually perpendicular with the direction of delivery of sponge, and second overedger, second guillootine are installed on fourth horizontal migration board, install the fourth horizontal migration slider that cooperatees and use with fourth horizontal migration guide rail on fourth horizontal migration board, fourth horizontal migration board carries out horizontal migration by the cooperation of fourth horizontal lead screw and fourth screw nut, the extending direction of fourth horizontal lead screw is the same with the extending direction of third horizontal migration guide rail.

5. The overedger system for a sponge inner bagging machine according to claim 1, wherein: a third carding mechanism is further mounted at the side end of the first overedger and comprises a plurality of third carding rollers arranged on one side of the first overedger close to the first cutting overedger support, each third carding roller is linked through a third linkage belt, any one third carding roller is driven to rotate by a third carding motor mounted on the first overedger and drives the third linkage belt to rotate, and a third carding pressing plate is further mounted on one side of the first overedger close to the first cutting machine;

and a fourth carding mechanism is further mounted at the side end of the second hemming machine, and the fourth carding mechanism and the third carding mechanism are identical in structure.

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