CN212922140U

CN212922140U - Bagging system for sponge inner bagging machine

Info

Publication number: CN212922140U
Application number: CN202021428194.2U
Authority: CN
Inventors: 倪张根; 吴晓宇; 林长彬; 王力; 姜清青; 张陈波
Original assignee: Nantong Healthcare Machinery Co ltd
Current assignee: Nantong Healthcare Machinery Co ltd
Priority date: 2020-07-20
Filing date: 2020-07-20
Publication date: 2021-04-09
Anticipated expiration: 2030-07-20

Abstract

The utility model relates to a bagging system for bagging machine in sponge, including a yarn section of thick bamboo material loading support, have one on yarn section of thick bamboo material loading support and hold the opening that the sponge passes through, inject yarn section of thick bamboo material loading support and be located open-ended wherein one side and be the feed side, the opposite side is the ejection of compact side, and last sleeve subassembly, lower sleeve subassembly that distribute about installing in the ejection of compact side department of yarn section of thick bamboo material loading support, go up sleeve subassembly and lower sleeve subassembly and cooperate jointly to form the suit frame of holding yarn section of thick bamboo suit, form the passageway of holding the sponge and carrying between last sleeve subassembly and lower sleeve subassembly. The utility model has the advantages that: through mutually supporting between yarn section of thick bamboo material loading support, upper sleeve subassembly, the lower sleeve subassembly to prop open a yarn section of thick bamboo, in order to make things convenient for to carry the sponge to a yarn section of thick bamboo in succession, can realize the bagging of sponge for follow-up cutting the hemming with a yarn section of thick bamboo provides good basis.

Description

Bagging system for sponge inner bagging machine

Technical Field

The utility model relates to a sponge processing field, in particular to cover bag system for a sponge inner sleeve bag 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 a sponge, where the automatic bagging device needs to include multiple components such as automatic conveying of the sponge, automatic bagging, automatic cutting and hemming of a yarn bag, and for the automatic bagging component of the sponge, because conventional processing is performed, after a yarn tube is cut by a manual direct yarn tube, bagging is performed again by hemming, and bagging of the yarn tube is not needed, and therefore a feeding device of the yarn tube needs to be developed, so as to be convenient for matching with automatic cutting and hemming of a subsequent yarn bag, and realize automatic bagging of the sponge.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a cover bag system for bag machine is overlapped in sponge, can realize the material loading of a yarn section of thick bamboo to realize that the sponge can get into in the yarn section of thick bamboo.

In order to solve the technical problem, the utility model adopts the technical scheme that: the utility model provides a set of bag system for set of bag machine in sponge, its innovation point lies in: comprises that

The device comprises a yarn drum feeding support, a yarn drum feeding support and a control device, wherein the yarn drum feeding support is provided with an opening for allowing sponge to pass through, the yarn drum feeding support is limited to be positioned at one side of the opening to be a feeding side, the other side of the opening to be a discharging side, an upper sleeve assembly and a lower sleeve assembly which are distributed up and down are arranged at the discharging side of the yarn drum feeding support, the upper sleeve assembly and the lower sleeve assembly are matched together to form a sleeving frame for accommodating yarn drum sleeving, and a sponge conveying channel is formed between the upper sleeve assembly and the lower sleeve assembly;

the upper sleeve assembly comprises a plurality of upper sleeve supports which are distributed at the upper side of the opening side by side along the horizontal direction, the distribution direction of the upper sleeve supports is vertical to the conveying direction of the sponge, and the upper sleeve supports extend along the conveying direction of the sponge;

the lower sleeve assembly comprises a plurality of lower sleeve supports which are distributed on the lower side of the opening in parallel along the horizontal direction, the distribution direction of the lower sleeve supports is perpendicular to the conveying direction of the sponge, the lower sleeve supports extend along the conveying direction of the sponge, and a plurality of lower sleeve conveying rollers which are distributed in parallel along the conveying direction of the sponge are arranged on the lower sleeve supports.

Furthermore, the yarn tube feeding supports are two in total and distributed in parallel along the horizontal direction, and the two yarn tube feeding supports are driven by the first horizontal moving mechanism to move in a reciprocating mode along the horizontal direction.

Further, the first horizontal moving mechanism is: the yarn feeding device comprises two yarn barrel feeding supports, a first horizontal moving base is arranged below the two yarn barrel feeding supports, a row of first horizontal moving guide rails are mounted on the upper end face of the first horizontal moving base and extend along the distribution direction of the two yarn barrel feeding supports, first horizontal moving sliding blocks matched with the first horizontal moving guide rails for use are further mounted on the bottom face of the yarn barrel feeding supports, the two first horizontal moving sliding blocks are connected through a first linkage plate to achieve linkage, a first linkage motor is mounted on the first linkage plate, a first moving roller horizontally arranged is mounted on a conveying shaft of the first linkage motor, meanwhile, a first guide groove for enabling the first moving roller to be embedded and roll is further formed in the side end of the first horizontal moving base, and the extending direction of the first guide groove is the same as the extending direction of the first horizontal moving guide rails.

Furthermore, a movable roller is arranged below the yarn drum feeding support.

Further, each upper sleeve support is driven by a second horizontal moving mechanism to reciprocate along the horizontal direction, and the second horizontal moving mechanism is as follows: a T-shaped second guide groove extending along the distribution direction of each upper sleeve bracket is arranged at the side end of the yarn cylinder feeding bracket, a T-shaped second guide block embedded into the second guide groove is arranged at the side end of each upper sleeve bracket, a second movable lead screw is arranged above the upper sleeve bracket of the yarn cylinder feeding bracket, extends along the distribution direction of each upper sleeve bracket and is driven by a second motor to rotate, a second lead screw nut matched with the second movable lead screw is arranged on the second movable lead screw, the second lead screw nut is connected with the upper sleeve bracket positioned at one outermost side and drives the upper sleeve bracket to reciprocate along the second guide groove, a second linkage plate is connected between any two adjacent upper sleeve brackets, and the second linkage plate is formed by hinging two second linkage rods distributed in an X shape, and two sides of the second linkage plate are respectively hinged with the two adjacent upper sleeve brackets.

Further, each lower sleeve support is driven by a third horizontal moving mechanism to reciprocate along the horizontal direction, and the third horizontal moving mechanism is as follows: a T-shaped third guide groove extending along the distribution direction of each lower sleeve support is arranged at the side end of each yarn cylinder feeding support, a T-shaped third guide block embedded into the third guide groove is arranged at the side end of each lower sleeve support, a third movable lead screw is arranged below each lower sleeve support of each yarn cylinder feeding support, the third movable lead screw extends along the distribution direction of each lower sleeve support and is driven by a third motor to rotate, a third lead screw nut matched with the third movable lead screw is arranged on the third movable lead screw, the third lead screw nut is connected with the lower sleeve support positioned on one outermost side and drives the lower sleeve supports to reciprocate along the third guide grooves, a third linkage plate is further connected between any two adjacent lower sleeve supports, and the third linkage plate is formed by hinging two third linkage rods distributed in an X shape, and two sides of the third linkage plate are respectively hinged with the two adjacent lower sleeve brackets.

The utility model has the advantages that: the utility model discloses in, through mutually supporting between yarn section of thick bamboo material loading support, last sleeve subassembly, the lower sleeve subassembly to prop out a yarn section of thick bamboo, in order to make things convenient for carry the sponge to a yarn section of thick bamboo in succession, the cover bag that can realize the sponge for follow-up with the cutting overedgement of a yarn section of thick bamboo provides good basis.

Set up two yarn section of thick bamboo material loading support to the horizontal migration that two yarn section of thick bamboo material loading support were realized to the cooperation first horizontal migration mechanism, then because the length of a yarn section of thick bamboo is longer, and the time of cover bag also is longer promptly, consequently adopts two yarn section of thick bamboo material loading support to switch the use, practices thrift the time of cover bag, improves work efficiency.

For the first horizontal moving mechanism, the first horizontal moving guide rail, the first horizontal moving slide block and the first linkage plate are matched, and the synchronous movement of the two yarn barrel feeding supports can be realized by only one motor, so that the structure is simplified; the arrangement of the movable roller is used for facilitating the movement of the yarn cylinder feeding bracket.

For the arrangement of the second horizontal moving mechanism, the second guide groove, the second guide block, the second moving screw rod and the second screw rod nut are matched, so that the horizontal movement of the upper sleeve support is realized, the width of the whole upper sleeve assembly is changed, the requirements of bagging of yarn drums and sponges with different sizes are met, and the universality is higher; and the setting of X shape second linkage board is then in order to make each sleeve support homoenergetic carry out horizontal migration to make each sleeve support distribute more evenly enough, can be more even to the bearing capacity of the suit of a yarn section of thick bamboo and the transport of sponge, avoid appearing the phenomenon that local weight is overweight.

For the arrangement of the third horizontal moving mechanism, the third guide groove, the third guide block, the third moving screw rod and the third screw rod nut are matched, so that the horizontal movement of the lower sleeve support is realized, the width of the whole lower sleeve assembly is changed, the requirements of bagging of yarn sleeves and sponges with different sizes are met, and the universality is higher; and the setting of X shape third linkage board is then in order to make each lower sleeve support homoenergetic carry out horizontal migration to make each lower sleeve support distribute more evenly enough, can be more even to the bearing capacity of the suit of a yarn section of thick bamboo and the transport of sponge, avoid appearing the phenomenon that local weight is overweight.

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 bagging system for a sponge inner bagging machine of the present invention.

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

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

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

Fig. 5 is a schematic view of the middle bobbin feeding bracket of the utility model.

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

Two yarn section of thick bamboo material loading support 2 that distribute side by side along the horizontal direction, and two yarn section of thick bamboo material loading support 2 drive by first horizontal migration mechanism and carry out reciprocating motion along the horizontal direction, and yarn section of thick bamboo material loading support 2 is an L shape frame construction that comprises a vertical support, a horizontal stand, and vertical support, horizontal stand are rectangular frame construction, still install triangle-shaped at the junction of vertical support and horizontal stand and strengthen the support. The two bobbin feeding brackets 2 are arranged and matched with the first horizontal moving mechanism to realize the horizontal movement of the two bobbin feeding brackets 2, because the length of the bobbin is longer, namely, the bagging time is longer, therefore, two bobbin feeding brackets 2 are adopted to switch the use, when one bobbin feeding bracket 2 is butted to the whole automatic bagging system to work, the other bobbin feeding bracket 2 moves to the side, at the moment, a bobbin can be sleeved on the bobbin feeding bracket 2 for standby, when the bobbin on the first bobbin feeding bracket 2 is used up, can directly switch through a horizontal migration mechanism, will adorn another yarn section of thick bamboo material loading support 2 of a yarn section of thick bamboo of having adorned directly dock and continue work in automatic bagging system, so relapse, saved the time of bagging greatly, improve work efficiency.

The first horizontal moving mechanism is: a first horizontal moving base 201 is arranged below the two bobbin feeding brackets 2, a row of first horizontal moving guide rails 202 are arranged on the upper end surface of the first horizontal moving base 201, the first horizontal moving guide rails 202 extend along the distribution direction of the two bobbin feeding brackets 2, the bottom surface of the yarn barrel feeding bracket 2 is also provided with a first horizontal moving slide block which is matched with the first horizontal moving guide rail 202 for use, the two first horizontal moving slide blocks are connected through a first linkage plate 203 to realize linkage, a first linkage motor 204 is arranged on the first linkage plate 203, a first moving roller wheel which is horizontally arranged is arranged on a conveying shaft of the first linkage motor 204, meanwhile, a first guide groove for the first moving roller to be inserted and rolled is formed at a side end of the first horizontal moving base 201, and the extending direction of the first guide groove is the same as the extending direction of the first horizontal moving rail 202. The first horizontal moving mechanism adopts the cooperation of the first horizontal moving guide rail 202, the first horizontal moving slide block and the first linkage plate 203, and can realize the synchronous movement of the two yarn barrel feeding supports 2 by only one motor, thereby simplifying the structure, reducing the required active driving part and effectively reducing the cost.

A moving roller 205 is also arranged below the bobbin feeding bracket 2. The arrangement of the movable roller 205 is to make the movement of the bobbin feeding bracket 2 more convenient, when the movable roller 205 is not installed, at least two first horizontal movable sliding blocks need to be installed at the bottom end of the bobbin feeding bracket 2 to cooperate with the horizontal movable guide rail 202 to realize the movement, and at this time, the movement of the bobbin feeding bracket 2 is the horizontal sliding, the friction force between the bobbin feeding bracket 2 and the first horizontal movable base 201 is relatively large, in addition, the length of the first horizontal movable guide rail 202 needs to be very long, the whole occupied area is relatively large, after the movable roller 205 is installed, only one first horizontal movable sliding block needs to be installed on one bobbin feeding bracket 2, at this time, the first horizontal movable sliding block is equivalent to provide the moving party, i.e. power for the roller of the movable roller 205, and the movement of the bobbin feeding bracket 2 mainly depends on the rolling of the movable roller 205, the frictional force between a yarn section of thick bamboo material loading support 2 and the first horizontal migration base 201 that has significantly reduced for yarn section of thick bamboo material loading support 2's removal is more convenient, adopts this kind of mode moreover, can install first horizontal migration slider in two adjacent one sides of yarn section of thick bamboo material loading support 2, thereby can shorten the length of first horizontal migration guide rail 202, the area occupied that has significantly reduced.

Have an opening that holds the sponge and pass through on yarn section of thick bamboo material loading support 2, it is the feeding side to inject one of them one side that yarn section of thick bamboo material loading support 2 is located the opening, yarn section of thick bamboo material loading support 2's opposite side is the ejection of compact side, the last sleeve subassembly of upper and lower distribution is installed to the ejection of compact side department at yarn section of thick bamboo material loading support 2, lower sleeve subassembly, go up sleeve subassembly and lower sleeve subassembly and cooperate jointly and form the suit frame of holding yarn section of thick bamboo suit, form the passageway of holding the sponge and carrying between last sleeve subassembly and lower sleeve subassembly.

The upper sleeve component comprises a plurality of upper sleeve supports 206 which are distributed at the upper side of the opening of the yarn drum feeding support 2 in parallel along the horizontal direction, the distribution direction of the upper sleeve supports 206 is vertical to the conveying direction of the sponge, and the upper sleeve supports 206 extend along the conveying direction of the sponge.

Each upper sleeve support 206 is driven by a second horizontal moving mechanism to reciprocate along the horizontal direction, and the second horizontal moving mechanism is: the side end of the bobbin feeding support 206 is provided with a T-shaped second guide groove 207 extending along the distribution direction of each upper sleeve support 206, an upper auxiliary connecting plate 208 is fixed at the upper side end of the upper sleeve support 206, a T-shaped second guide block embedded in the second guide groove 207 is installed at the side end of the upper auxiliary connecting plate 208, the upper auxiliary connecting plate 208 is attached to the side end of the bobbin feeding support 2, and the side end of the upper sleeve support 206 extends into the upper bottom surface of the bobbin feeding support 2 at the opening.

A second moving screw 209 is arranged above the upper sleeve bracket 206 of the bobbin feeding bracket 2, the second moving screw 209 extends along the distribution direction of each upper sleeve bracket 206, the second moving screw 209 is driven by a second motor 210 arranged on the bobbin feeding bracket 2 to rotate, a second screw nut 211 matched with the second moving screw 209 is arranged on the second moving screw 209, and the second screw nut 211 is connected with an upper auxiliary connecting plate 208 on the upper sleeve bracket 2 positioned on one outermost side through a transition connecting plate and drives the upper sleeve bracket 2 to reciprocate along the extension direction of the second guide groove 207.

A second linkage plate is further connected between any two adjacent upper sleeve brackets 206, the second linkage plate is formed by hinging two second linkage rods 212 which are distributed in an X shape, and two sides of the second linkage plate are respectively hinged with two adjacent upper sleeve brackets 2. For the arrangement of the second horizontal moving mechanism, the second guide groove 207, the second guide block, the second moving screw 209 and the second screw nut 211 are matched, so that the horizontal movement of the upper sleeve support 2 is realized, the width of the whole upper sleeve assembly is changed, the covering bags of yarn bobbins and sponges with different sizes are met, and the universality is stronger; the X-shaped second linkage plate is arranged to enable each upper sleeve support 2 to move horizontally in a certain specific row, so that the upper sleeve supports 2 are distributed more uniformly, the bearing force for sleeving the yarn bobbin and conveying the sponge can be more uniform, and the phenomenon of over-heavy local weight is avoided.

The lower sleeve assembly comprises a plurality of lower sleeve supports 213 which are distributed at the lower side of the opening of the yarn tube feeding support 2 in parallel along the horizontal direction, the distribution direction of the lower sleeve supports 213 is vertical to the conveying direction of the sponge, the lower sleeve supports 213 extend along the conveying direction of the sponge, and a plurality of lower sleeve conveying rollers 214 which are distributed in parallel along the conveying direction of the sponge are arranged on the lower sleeve supports 213.

Each lower sleeve support 213 is driven by a third horizontal moving mechanism to reciprocate along the horizontal direction, and the third horizontal moving mechanism is: a T-shaped third guide groove 215 extending along the distribution direction of each lower sleeve holder 213 is provided at the side end of the bobbin loading holder 2, a lower auxiliary link plate 216 is further attached to the lower side end of the lower sleeve holder 213, and a T-shaped third guide block fitted into the third guide groove 215 is attached to the side end of the lower auxiliary link plate 216.

A third movable lead screw 217 is arranged on the bobbin feeding support 2 below the lower sleeve supports 213, the third movable lead screw 217 extends along the distribution direction of each lower sleeve support 213, the third movable lead screw 217 is driven by a third motor 218 to rotate, a third lead screw nut matched with the third movable lead screw 217 is arranged on the third movable lead screw 217, the third lead screw nut is connected with a lower auxiliary connecting plate 216 on one of the outermost lower sleeve supports 213 through a lower transition connecting plate 219 and drives the lower sleeve supports 213 to reciprocate along a third guide groove 215, and the upper sleeve support 206 of the lower sleeve support 213 connected with the third lead screw nut and the second lead screw nut 211 is the lower sleeve support 213 and the upper sleeve support 206 on the same side.

A third link plate is further connected between any two adjacent lower sleeve supports 213, the third link plate is formed by hinging two third link rods 220 distributed in an X shape, and two sides of the third link plate are respectively hinged with the two adjacent lower sleeve supports 213. For the arrangement of the third horizontal moving mechanism, the third guide groove 215, the third guide block, the third moving screw 217 and the third screw nut are matched, so that the horizontal movement of the lower sleeve bracket 213 is realized, the width of the whole lower sleeve assembly is changed, the covering bags of yarn sleeves and sponges with different sizes are met, and the universality is stronger; and the setting of X shape third linkage board is then in order to make each lower sleeve holder 213 homoenergetic carry out horizontal migration to make each lower sleeve holder 213 distribute more evenly enough, can be more even to the bearing capacity of the suit of a yarn section of thick bamboo and the transport of sponge, avoid appearing the phenomenon that local weight is overweight.

The working principle is as follows: when the yarn cylinder is loaded, firstly, according to the length of the sponge to be conveyed and the size of the loaded yarn cylinder, the second motor 210 and the third motor 218 are respectively used for driving the upper sleeve support 206 and the lower sleeve support 213 to move so as to adjust the width length of the whole upper sleeve assembly and the lower sleeve assembly, then, the yarn cylinder is manually sleeved outside a frame formed by the upper sleeve assembly and the lower sleeve assembly, after the yarn cylinder is sleeved, the first linkage motor 204 is used for driving the two yarn cylinder loading supports 2 to synchronously move in the same direction, so that the yarn cylinder loading support 2 sleeved with the yarn cylinder is moved to the whole sponge automatic bagging system and is matched with other components of the sponge automatic bagging system so as to realize the automatic bagging of the sponge, meanwhile, the empty yarn cylinder loading support 2 is moved out of the whole sponge automatic bagging system, and the other yarn cylinder is manually sleeved on the empty yarn cylinder loading support 2, for standby, after the yarn drum on the other yarn drum feeding support 2 is used, the two yarn drum feeding supports 2 are reversely moved by the first linkage motor 204, the standby yarn drum feeding support 2 is butted, and the process is repeated.

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

1. The utility model provides a set bag system for set bag machine in sponge which characterized in that: comprises that

2. The bagging system for a sponge inner bagging machine according to claim 1, wherein: the yarn cylinder feeding supports are two in total and distributed in parallel along the horizontal direction, and the two yarn cylinder feeding supports are driven by the first horizontal moving mechanism to move in a reciprocating mode along the horizontal direction.

3. The bagging system for a sponge inner bagging machine according to claim 2, wherein: the first horizontal moving mechanism is: the yarn feeding device comprises two yarn barrel feeding supports, a first horizontal moving base is arranged below the two yarn barrel feeding supports, a row of first horizontal moving guide rails are mounted on the upper end face of the first horizontal moving base and extend along the distribution direction of the two yarn barrel feeding supports, first horizontal moving sliding blocks matched with the first horizontal moving guide rails for use are further mounted on the bottom face of the yarn barrel feeding supports, the two first horizontal moving sliding blocks are connected through a first linkage plate to achieve linkage, a first linkage motor is mounted on the first linkage plate, a first moving roller horizontally arranged is mounted on a conveying shaft of the first linkage motor, meanwhile, a first guide groove for enabling the first moving roller to be embedded and roll is further formed in the side end of the first horizontal moving base, and the extending direction of the first guide groove is the same as the extending direction of the first horizontal moving guide rails.

4. The bagging system for a sponge inner bagging machine according to claim 3, wherein: and a movable roller is further arranged below the yarn drum feeding support.

5. The bagging system for a sponge inner bagging machine according to claim 1, wherein: each upper sleeve support is driven by a second horizontal moving mechanism to reciprocate along the horizontal direction, and the second horizontal moving mechanism is as follows: a T-shaped second guide groove extending along the distribution direction of each upper sleeve bracket is arranged at the side end of the yarn cylinder feeding bracket, a T-shaped second guide block embedded into the second guide groove is arranged at the side end of each upper sleeve bracket, a second movable lead screw is arranged above the upper sleeve bracket of the yarn cylinder feeding bracket, extends along the distribution direction of each upper sleeve bracket and is driven by a second motor to rotate, a second lead screw nut matched with the second movable lead screw is arranged on the second movable lead screw, the second lead screw nut is connected with the upper sleeve bracket positioned at one outermost side and drives the upper sleeve bracket to reciprocate along the second guide groove, a second linkage plate is connected between any two adjacent upper sleeve brackets, and the second linkage plate is formed by hinging two second linkage rods distributed in an X shape, and two sides of the second linkage plate are respectively hinged with the two adjacent upper sleeve brackets.

6. The bagging system for a sponge inner bagging machine according to claim 1, wherein: each lower sleeve support is driven by a third horizontal moving mechanism to reciprocate along the horizontal direction, and the third horizontal moving mechanism is as follows: a T-shaped third guide groove extending along the distribution direction of each lower sleeve support is arranged at the side end of each yarn cylinder feeding support, a T-shaped third guide block embedded into the third guide groove is arranged at the side end of each lower sleeve support, a third movable lead screw is arranged below each lower sleeve support of each yarn cylinder feeding support, the third movable lead screw extends along the distribution direction of each lower sleeve support and is driven by a third motor to rotate, a third lead screw nut matched with the third movable lead screw is arranged on the third movable lead screw, the third lead screw nut is connected with the lower sleeve support positioned on one outermost side and drives the lower sleeve supports to reciprocate along the third guide grooves, a third linkage plate is further connected between any two adjacent lower sleeve supports, and the third linkage plate is formed by hinging two third linkage rods distributed in an X shape, and two sides of the third linkage plate are respectively hinged with the two adjacent lower sleeve brackets.