CN215517900U - Belly pad system of processing - Google Patents

Belly pad system of processing Download PDF

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Publication number
CN215517900U
CN215517900U CN202120311586.9U CN202120311586U CN215517900U CN 215517900 U CN215517900 U CN 215517900U CN 202120311586 U CN202120311586 U CN 202120311586U CN 215517900 U CN215517900 U CN 215517900U
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sewing
pressing
label
power source
folding
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CN202120311586.9U
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刘航东
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Suzhou Qiongpairuite Technology Co ltd
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Suzhou Qiongpairuite Technology Co ltd
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Abstract

The utility model innovatively provides an abdominal pad processing system which comprises conveying equipment, shell piece arranging equipment, vertical edge sewing equipment, middle thread sewing equipment and transverse edge sewing equipment; the conveying equipment comprises a folding assembly, a plurality of discharging rollers and a plurality of conveying rollers, the shell piece arranging equipment comprises a cutting mechanism, a label body conveying mechanism, a spot welding mechanism and a laying mechanism, the vertical edge sewing equipment comprises a first machine table, a first adjusting assembly and two groups of first sewing machines, the middle thread sewing equipment comprises a second machine table, a second adjusting assembly and a plurality of groups of second sewing machines, the transverse sewing machine frame comprises a cotton label feeding area and a folding sewing area, the cotton label feeding area comprises a feeding platform, a pulling mechanism, a cotton label feeding mechanism, a cutting mechanism and a pressure feeding mechanism, the pulling mechanism, the cotton label feeding mechanism, the cutting mechanism and the pressure feeding mechanism are positioned on the feeding platform, and the folding sewing area comprises a folding platform, two groups of folding mechanisms and two groups of sewing mechanisms, wherein the two groups of folding mechanisms are positioned on the folding platform; the utility model has the advantages of high production efficiency and high yield.

Description

Belly pad system of processing
Technical Field
The utility model relates to the technical field of belly pad production equipment, in particular to a belly pad processing system.
Background
In the operation process of the human body, doctors need to wipe blood on the operation incision and the operation instruments by the abdomen pad to conveniently see the relevant parts of the human body clearly and accurately perform the operation, therefore, the demand of hospitals is increased year by year, the production efficiency of manufacturers needs to be improved along with the demand, the prior production mode of the abdomen pad comprises manual production and automatic production, the abdomen pad is produced manually or is sewn by a traditional sewing machine, the process is that a first staff member cuts quantitatively, the cut belly pad is conveyed to a counterpoint sewing staff member for sewing after being bound, the feeding, positioning and edge folding sewing of the cotton target are finished by a sewing hand, the production modes are visible in a plurality of knitting mills, the mode has the problems of low production efficiency, incomplete folding edge in the production process, easy omission of cotton marks, uncontrollable folding edge length and the like which affect the yield; the automatic production is composed of traditional knitting equipment, the process is that the vertical edges of the two sides of the belly pad raw material are turned over by first staff, the head end of the turned-over vertical edge is placed in a sewing port of a sewing machine, the belly pad is pulled out of the sewing machine by the other side, sewing of the vertical edges is completed, after the vertical edges are sewn, the vertical edges are placed on a conveying roller and conveyed to a cutting device for quantitative cutting, after the vertical edges are cut, the belly pad after the vertical edges are sewn is rotated by 90 degrees through a clamping manipulator for turning over and sewing, the vertical edges are low in sewing efficiency in the mode, the vertical edges are prone to be deviated, the central deviation is prone to occur through the rotation of the clamping manipulator on the same conveying line, and accordingly the flanging sewing of the transverse edges is not neat.
SUMMERY OF THE UTILITY MODEL
In view of the disadvantages of the prior art, an object of the present invention is to provide an abdomen pad processing system capable of realizing high production efficiency and high yield, which is used to overcome the above-mentioned defects in the prior art.
In order to achieve the purpose, the utility model provides the following technical scheme:
an abdomen pad processing system comprises a conveying device, a shell piece arranging device, a vertical edge sewing device, a middle thread sewing device and a horizontal edge sewing device, wherein a plurality of groups of abdomen pad raw material rolls are stored on the conveying device and sequentially pass through the shell piece arranging device, the vertical edge sewing device, the middle thread sewing device and the horizontal edge sewing device;
the conveying equipment comprises a conveying rack, wherein a plurality of groups of belly pad raw material rolls are respectively sleeved on each emptying roller in a corresponding mode, output fabric of the belly pad fabric rolls sequentially passes through the plurality of conveying rollers, each edge folding component comprises a transverse rod, two groups of pressure rods and two groups of adjusting seats, two ends of the transverse rod are respectively connected to the rack, the transverse rod is located below the output fabric, the two groups of pressure rods are respectively connected to the transverse rods on two sides of the output fabric in a rotating mode through the adjusting seats, the two groups of pressure rods are respectively connected to the corresponding adjusting seats in a rotating mode, the two groups of pressure rods face each other and extend to the lower bottom surface of the output fabric, and the outer side faces of the two groups of pressure rods respectively abut against two sides of the lower bottom surface of the output fabric;
the shell piece arranging equipment comprises an arranging frame, wherein the arranging frame comprises a cutting mechanism, a label body transferring mechanism, a spot welding mechanism and a stacking mechanism, the cutting mechanism is used for cutting a label raw material, the label body transferring mechanism and the cutting mechanism are simultaneously positioned at any one side of an abdominal pad after the vertical edge is folded, the label body transferring mechanism comprises a first clamping part, a second clamping part and a sliding power source, the first clamping part and the second clamping part are used for clamping the label raw material, the sliding power source drives the second clamping part to move in the horizontal direction so as to enable the second clamping part to clamp and move the cut label strip to the vertical edge of the abdominal pad after the vertical edge is folded, the spot welding mechanism comprises an ultrasonic welding head, the ultrasonic welding head is positioned above the vertical edge of the abdominal pad where the label strip is placed, and the ultrasonic welding head is used for performing spot welding on the label strip and the abdominal pad, the laying mechanism comprises an upper feeding roller and a press roller group, the upper feeding roller is used for conveying an unfolded abdomen pad to be overlaid on the abdomen pad subjected to spot welding, and the press roller group is used for pressing the unfolded abdomen pad and the abdomen pad subjected to spot welding;
the vertical edge sewing equipment comprises a first machine table, a first adjusting assembly and two groups of first sewing machines, wherein the first adjusting assembly is positioned on a feed port of the first machine table, the first adjusting assembly comprises a first adjusting power source and a plurality of first adjusting rollers, a folded edge belly pad after being fed with glue is conveyed between the two groups of first sewing machines through the plurality of first adjusting rollers in sequence, a first transverse guide rail horizontally perpendicular to a feeding direction is arranged on the first machine table, the two groups of first sewing machines are arranged on the first transverse guide rail in a sliding mode respectively, and the first adjusting power source drives the plurality of first adjusting rollers to move in the horizontal direction so that two vertical edges of the belly pad after being fed with the glue on the plurality of first adjusting rollers are aligned to sewing platforms of the two groups of first sewing machines respectively;
the middle-line sewing equipment comprises a second machine table, a second adjusting assembly and a plurality of groups of second sewing machines, wherein the second adjusting assembly is positioned on a feed port of the second machine table and comprises a second adjusting power source and a plurality of second adjusting rollers, the belly pads subjected to vertical edge sewing are conveyed to the plurality of groups of second sewing machines through the plurality of second adjusting rollers, the second machine table is provided with a plurality of groups of second transverse guide rails horizontally vertical to the feeding direction, the plurality of groups of second sewing machines are respectively and correspondingly arranged on the second transverse guide rails in a sliding manner, and the second adjusting power source drives the plurality of second adjusting rollers to move in the horizontal direction so that the central lines of the belly pads subjected to vertical edge sewing on the plurality of second adjusting rollers are aligned with a sewing platform of the second sewing machines;
the feeding direction and the discharging direction of the transverse edge sewing equipment are mutually vertical on a horizontal plane, the transverse edge sewing equipment comprises a transverse seam rack, the transverse seam rack comprises a cotton label feeding area and a folding sewing area, the folding sewing area is positioned on one side of the cotton label feeding area, the cotton label feeding area comprises a feeding platform, a pulling mechanism, a cotton label feeding mechanism, a cutting mechanism and a pressure feeding mechanism, the pulling mechanism, the cotton label feeding mechanism and the pressure feeding mechanism are positioned on the feeding platform, an abdominal pad after vertical edge sewing sequentially passes through the cutting mechanism and the pressure feeding mechanism, and the pulling mechanism and the cotton label feeding mechanism are both positioned on one side of the transverse edge of the abdominal pad after vertical edge sewing;
the pulling mechanism comprises a clamping plate assembly, a clamping power source and a first translation power source, the first translation power source drives the clamping plate assembly to move in the horizontal direction so that the clamping plate assembly is close to or far away from a vertical edge sewn belly pad below the cutting mechanism, and the clamping power source drives the clamping plate assembly to clamp or separate from a horizontal edge of the vertical edge sewn belly pad;
the cotton label feeding mechanism comprises a fixed seat, a cotton label clamping hand and a second translation power source, wherein a doubling clamp plate, a label returning hopper, a third translation power source, a fourth translation power source and a fifth translation power source are arranged on the fixed seat, a pressure rod and a label turning hole are arranged on the doubling clamp plate, the third translation power source drives the doubling clamp plate to move on a vertical plane so as to enable the pressure rod to be abutted against or separated from the end part of a cotton label, the label returning hopper is positioned on one side, close to the discharge, of the label turning hole, a negative pressure space is formed in the label returning hopper through air suction, so that the head end, after the cotton label is doubled and fed out from the label turning hole, of the doubling clamp is sucked into the label returning hopper and kept in a stretched state, the cotton label clamping hand is positioned below the label returning hopper, the cotton label clamping hand is used for clamping the head end, after the cotton label is doubled and folded, and the fourth translation power source drives the cotton label clamping hand to move in the horizontal direction, the second translation power source drives the fixed seat to move in the horizontal direction, so that the tail end of the folded cotton mark of the cotton mark gripper is aligned with one side edge of the abdomen cushion sewn on the vertical edge, and the fifth translation power source drives the cotton mark gripper to move on the vertical surface, so that the folded cotton mark of the cotton mark gripper is placed on the abdomen cushion sewn on the vertical edge;
the cutting mechanism comprises a cutter and a cutting cylinder, and the cutting cylinder drives the cutter to move on a vertical surface so that the cutter cuts off the belly pad after the vertical edge under the cutter is sewn;
the pressure feeding mechanism comprises a pressure plate assembly, a sixth translation power source and a seventh translation power source, the sixth translation power source drives the pressure plate assembly to move on a vertical surface so that the pressure plate assembly presses or separates from the belly pad after cotton label feeding below the pressure plate assembly, and the seventh translation power source drives the pressure plate assembly to move in the horizontal direction so that the pressure plate assembly pushes the belly pad after cotton label feeding into a folding sewing area;
the folding sewing area comprises a folding platform, two groups of edge folding mechanisms and two groups of sewing mechanisms, the two groups of edge folding structures and the two groups of sewing mechanisms are respectively and symmetrically arranged at two sides of the transverse edge of the abdomen pad after the cotton label is loaded, the abdomen pad after the cotton label is loaded sequentially passes through the two groups of edge folding mechanisms and the two groups of sewing mechanisms, the two groups of edge folding mechanisms respectively comprise a pressing sheet, a first folded plate, a second folded plate, an eighth translation power source, a ninth translation power source, a tenth translation power source, an eleventh translation power source and a twelfth translation power source, the pressing sheet is positioned above the transverse edge of the abdomen pad after the cotton label is loaded, the eighth translation power source drives the pressing sheet to move in the vertical direction so that the pressing sheet presses or separates from the abdomen pad after the cotton label is loaded, and the first folded plate and the second folded plate are both positioned below the transverse edge of the abdomen pad after the cotton label is loaded, the ninth translational power source drives the first folded plate to move in the vertical direction, so that the first folded plate pushes up the transverse edge of the abdomen pad after the cotton label is loaded to a first inclined state, the tenth translational power source drives the first folded plate to move in the horizontal direction, so that the first folded plate pushes the transverse edge of the first inclined state to one side of the pressing sheet to a first bending state, the ninth translational power source drives the first folded plate to move in the vertical direction, so that the first folded plate pushes down the transverse edge of the first bending state to a first folded state, the eleventh translational power source drives the pressing sheet to move in the horizontal direction, so that the pressing sheet moves to a position right above the first folded state, the twelfth translational power source drives the second folded plate to move in the vertical direction, so that the second folded plate pushes up the transverse edge of the abdomen pad in the first folded state to a second inclined state, the tenth translation power source drives the first folding plate to move in the horizontal direction so that the first folding plate pushes the transverse edge of the second inclined state to one side of the pressing plate to a second bent state, and the ninth translation power source drives the first folding plate to move in the vertical direction so that the first folding plate presses the transverse edge of the second bent state downwards to a second folded state;
two sets of sewing machine constructs all includes sewing machine group, arm-tie subassembly, twelfth translation power supply and thirteenth translation power supply, sewing machine group is used for sewing to the belly pad behind the horizontal limit second fold condition, the arm-tie subassembly is used for compressing tightly the belly pad behind the horizontal limit sewing, twelfth translation power supply drive the arm-tie subassembly moves in vertical direction, so that the arm-tie subassembly presses or breaks away from the belly pad behind the horizontal limit sewing, thirteenth translation power supply drive the arm-tie subassembly moves in the horizontal direction, so that the arm-tie subassembly pulls out the sewing machine group with the belly pad behind the horizontal limit sewing outward.
Furthermore, the conveying machine frame further comprises a blank pressing assembly, the blank pressing assembly comprises an upper pressing roller and a lower pressing roller, two ends of the upper pressing roller and two ends of the lower pressing roller are respectively connected to the machine frame, the upper pressing roller is located above the output fabric folded by the folding assembly, and the lower pressing roller is located below the output fabric folded by the folding assembly.
Further, the feed inlet department of settling the frame still is equipped with gluey mark conveyor assembly, gluey mark conveyor assembly includes that gluey mark book, slow material pole and multiunit wind the material gyro wheel, and the multiunit is fixed the setting respectively at settling frame and material pole around the material gyro wheel, gluey mark raw materials of gluing the mark book are in proper order around establishing on every a set of material gyro wheel that winds, slow material pole rotates and sets up in settling the frame, slow material pole one end is equipped with the balancing weight, settling frame both sides all are equipped with the mounting plate, all be equipped with the arc hole that uses support frame rotation point as the centre of a circle on the mounting plate, all be equipped with laser sensor on the arc hole, laser sensor's detection mouth orientation is slow material pole.
Further, the first adjusting component and the second adjusting component both comprise a first sliding frame, a first supporting plate, a second supporting plate, a first fixing plate and a plurality of first guide posts, the first translation power source and the first fixing plate are respectively connected to two ends of the first sliding frame in a sliding manner, the plurality of first guide posts are respectively connected between the first translation power source and the first fixing plate, the first supporting plate is connected to the output end of the first translation power source, the first supporting plate and the second supporting plate are respectively connected to the plurality of first guide posts in a sliding manner, the plurality of first adjusting rollers are respectively connected between the first supporting plate and the second supporting plate, the plurality of first adjusting rollers are respectively sleeved with two first limiting rings, two adjacent first limiting rings on the first adjusting rollers are symmetrical, and the plurality of second adjusting rollers are respectively sleeved with two second limiting rings, and the second limiting rings on two adjacent second adjusting rollers are symmetrical.
Further, it is two sets of hem mechanism still all includes presses seat and cooperation board, the one end fixed connection of preforming is on pressing the seat, press the seat to be connected with eighth translation power supply, and is two sets of hem mechanism's preforming orientation is the setting of carrying on the back mutually, and is two sets of hem mechanism's cooperation board is located folding platform's both sides respectively, and is two sets of hem mechanism's first hem board is located one side that corresponds the cooperation board respectively, and the cooperation board of arbitrary one side is close to and is equipped with the spread groove on folding platform's the side, the second hem board is located corresponding spread groove respectively, and is two sets of hem mechanism's cooperation board upper surface is equipped with the first skewed tooth trace that deviates from the orientation mutually respectively, and is two sets of hem mechanism's first hem board upper surface is equipped with the second skewed tooth trace that deviates from the orientation mutually respectively, and is two sets of hem mechanism's second hem board upper surface is equipped with the bur respectively.
Furthermore, the pressing plate assembly comprises a sliding frame, two groups of first pressing and conveying plates and two groups of second pressing and conveying plates, wherein the first buffering parts and the second buffering parts are arranged on the upper surfaces of the two ends of the sliding frame respectively, the two groups of first pressing and conveying plates are arranged at one end of the bottom of the sliding frame relatively, the two groups of second pressing and conveying plates are arranged at the other end of the bottom of the sliding frame relatively, a distance is reserved between the two groups of first pressing and conveying plates and the two groups of second pressing and conveying plates, the two groups of first pressing and conveying plates and the two groups of second pressing and conveying plates are L-shaped, the horizontal ends of the two groups of first pressing and conveying plates are arranged in opposite directions, and the horizontal ends of the two groups of second pressing and conveying plates are arranged in a deviating direction.
Furthermore, the pressing mechanism further comprises a pressing component, the pressing component comprises a pressing column, a vertical frame, a sliding plate and a motor, the vertical frame is vertically arranged on the feeding platform, the vertical frame is provided with a belt pulley set, the sliding plate is connected to a belt of the belt pulley set, the pressing column is horizontally arranged on one side of the sliding plate and is located in a space between the two sets of first pressing and feeding plates and the two sets of second pressing and feeding plates, a pressing opening is formed in the feeding platform below the pressing column, and the motor drives the belt pulley set to move to drive the pressing column to move in the vertical direction, so that the pressing column presses a vertical edge sewing rear belly pad on the feeding platform into the pressing opening.
Further, the splint subassembly includes movable plate, lower plate and punch holder, the centre gripping power supply is located the movable plate, the lower plate includes fixed part and lower clamping part, the vertical connection of fixed part is in movable plate one side, the fixed part is perpendicular with lower clamping part, the height that the fixed part was kept away from to lower clamping part reduces gradually, the clamping part upper surface is equipped with a plurality of tooth's sockets down, the punch holder includes rotation portion and last clamping part, rotation portion includes vertical end and horizontal end, the upper surface and the fixed part of horizontal end are articulated, it connects in vertical end one side to go up the clamping part, go up clamping part one end be equipped with tooth's socket assorted double-layered tooth.
Further, still be equipped with mark body output wheelset and label cutter on the fixing base, mark body output wheelset includes the action wheel, follows driving wheel and motor, cotton mark wears to locate the action wheel and follows between the driving wheel, the motor passes through the pulley group and drives the action wheel rotation, the label cutter is located between fifty percent discount splint and the mark body output wheelset, cotton mark tong includes connecting strip, third backup pad, goes up tong, lower tong, sharp cylinder and centre gripping cylinder, connecting strip fixed connection is in the fixing base below, the third backup pad is located connecting strip one side, it is in third backup pad one side to go up tong sliding connection, down tong fixed connection is in the third backup pad of last tong below, centre gripping cylinder drive upper plate moves in vertical direction so that go up tong and press down the cotton mark end after will folding on the tong, sharp cylinder drive third backup pad moves in the horizontal direction so that last tong and lower tong will grasp the fifty percent discount with lower tong The tail end of the cotton mark is aligned with one side edge of the abdomen pad after the vertical edge is sewn.
Further, it still includes the pressing means to cut mechanism one side, the pressing means includes pressure frame, layering and presses the material cylinder, the frame that presses slides and sets up on the material loading platform, the layering is located and presses the frame bottom, press the material cylinder drive layering and move in vertical direction so that the layering presses or breaks away from the belly pad after the vertical limit sewing.
The utility model has the beneficial effects that: 1. in the process of conveying the belly pad fabric, the belly pad fabric is folded through the folding assembly, and the folded belly pad fabric is subjected to edge pressing through the edge pressing assembly, so that the subsequent belly pad is conveniently overlapped and cannot run off during sewing, and the phenomenon that the belly pad is unqualified is avoided;
2. the glue label is quantitatively cut off and conveyed to a position corresponding to the belly pad through the matching of the first clamping part, the second clamping part and the cutting mechanism, and then the glue label positioned on the belly pad is subjected to spot welding through ultrasonic welding, so that the glue label is firmly connected with the belly pad;
3. the hemming belly pad after the glue marks are fed is sewn through two first sewing machines, and then the belly pad after the two side edge hem sewing is subjected to middle sewing through a second sewing machine, so that a plurality of layers of belly pads are fixed after being overlaid, in addition, the position of the belly pad transmitted by the previous glue mark feeding mechanism when entering a sewing platform of the first sewing machine can be adjusted in real time through a first adjusting mechanism, so that the unqualified finished products caused by sewing deviation of the hem positions at the two sides of the belly pad are avoided, the position of the belly pad transmitted by vertical edge sewing equipment when entering the sewing platform of the second sewing machine can be adjusted through a second adjusting mechanism, the unqualified finished products caused by the fact that the preset requirement cannot be met during middle sewing of the belly pad are avoided, the summarizing advantages that the belly pad can be calibrated in real time to enter the sewing platform position are achieved, and high efficiency and high yield are achieved;
4. the belly pad after vertical edge sewing in the previous procedure can be conveyed into the transverse sewing equipment through automatic feeding equipment, and the belly pad after vertical edge sewing in the transverse sewing equipment can enter at a correct position through the limiting assembly, so that the subsequent hemming and sewing efficiency is improved; the abdomen pad which is sewn by the vertical edges of the cutting mechanism and the pressing and conveying mechanism is pulled to one side by the pulling mechanism, the abdomen pad which is sewn by the vertical edges is pressed into the pressing port by the pressing column, the requirements of the abdomen pads with different lengths can be met, the folded cotton label is conveyed to the specified position of the abdomen pad which is sewn by the vertical edges by the cotton label feeding mechanism, and then is conveyed by the cutting and pressing and conveying mechanism of the cutting mechanism, finally, the purpose of cutting the cotton label feeding and the abdomen pad is achieved at the same time, and the automatic high-efficiency operation is realized by the cooperation of a plurality of mechanisms; the abdomen pad with the cotton mark on the upper part is conveyed to the lower part of the folding mechanism through the conveying of the pressure conveying mechanism, two transverse edges can be folded neatly through the twice folding of the folding mechanism, the folded cotton mark can be accurately folded into the folded edge, and the transverse edge sewing purpose of high efficiency and high yield is finally achieved through the sewing of the sewing mechanism.
Drawings
FIG. 1 is an overall block diagram of the present invention;
FIG. 2 is a block diagram of the conveyor apparatus of the present invention;
FIG. 3 is a block diagram of the hemming assembly of the present invention;
FIG. 4 is a block diagram of a laminating apparatus according to the present invention;
FIG. 5 is a schematic view of a cutting mechanism, a target transfer mechanism, and a spot welding mechanism according to the present invention;
FIG. 6 is a front view of the vertical edge sewing apparatus of the present invention;
FIG. 7 is a front view of the center thread sewing apparatus of the present invention;
FIG. 8 is a block diagram of the first adjustment assembly or the second adjustment assembly of the present invention;
FIG. 9 is a structural view of the cross-linking apparatus of the present invention;
FIG. 10 is a structural view of the pulling mechanism of the present invention
FIG. 11 is a block diagram of a cotton label loading mechanism of the present invention;
fig. 12 is a structural view of a cutting mechanism in the present invention;
FIG. 13 is a structural view of a pressing and feeding mechanism in the present invention;
FIG. 14 is a detailed structural view of the folding mechanism of the present invention;
FIG. 15 is a view of the relationship of the sheeting, the first flap, the second flap and the mating panel of the present invention;
fig. 16 is a schematic illustration of a cotton label folded in half in accordance with the present invention.
Reference numerals: 1. a conveying device; 101. a conveyor frame; 102. a hemming assembly; 1021. a cross bar; 1022. a pressure lever; 1023. an adjusting seat; 103. a blank pressing component; 104. a belly pad fabric roll; 105. a discharge roller; 2. a scallop placement device; 201. a cutting mechanism; 202. a label transfer mechanism; 2021. a first clamping portion; 2022. a second clamping portion; 2023. a source of slippage power; 203. a spot welding mechanism; 204. a stacking mechanism; 205. glue label roll; 206. a material buffering rod; 207. a balancing weight; 208. winding rollers; 209. placing a plate; 210. a laser sensor; 3. a vertical edge sewing device; 301. a first machine table; 302. a first adjustment assembly; 303. a first sewing machine; 304. a first regulating roller; 305. a first transverse guide rail; 306. a first carriage; 307. a first support plate; 308. a second support plate; 309. a first fixing plate; 310. a first guide post; 311. a limiting ring; 4. a center thread sewing device; 401. a second machine; 402. a second adjustment assembly; 403. a second sewing machine; 404. a second transverse guide rail; 5. a horizontal edge sewing device; 501. a cotton label feeding area; 502. folding the sewing area; 6. pressing a frame; 7. layering; 8. a material pressing cylinder; 91. a vertical frame; 92. a slide plate; 93. pressing the column; 11. a pulling mechanism; 111. a first translational power source; 112. clamping a power source; 113. a lower splint; 114. a rotating part; 115. an upper clamping portion; 116. a tooth socket; 117. clamping teeth; 12. a cotton label feeding mechanism; 121. a fixed seat; 122. cotton label clamping hands; 1221. a third support plate; 1222. a lower clamping hand; 1223. an upper clamping hand; 1224. a clamping cylinder; 1225. a linear cylinder; 123. folding the splint; 124. returning the mark body to the positive bucket; 125. a third translational power source; 126. a fourth translational power source; 127. a fifth translational power source; 128. a target output wheel set; 129. a label cutter; 13. a cutting mechanism; 131. a tool holder; 132. a cutter; 133. a cutting cylinder; 14. a pressure feed mechanism; 141. a second pressure feeding plate; 142. a sixth translational power source; 143. a second buffer member; 144. a first pressure feed plate; 145. a first buffer member; 15. a flanging mechanism; 151. tabletting; 152. a first folded plate; 1521. a second skewed tooth mark; 153. a second folded plate; 1531. bur protruding; 154. a mating plate; 1541. connecting grooves; 1542. a first skewed tooth mark; 155. pressing a base; 156. an eleventh translation power source; 157. an eighth translational power source; 16. a sewing mechanism; 161. a sewing machine set; 162. a pull plate assembly; 163. a thirteenth translational power source; 165. a twelfth translational power source; 17. a material pressing rod; 18. and (4) turning over the mark hole.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.
The embodiments of the utility model will be described in further detail below with reference to the accompanying drawings:
the automatic production is composed of traditional knitting equipment, the process is that first staff turns over the vertical edges at two sides of the belly pad raw material, the head end of the turned vertical edge is placed at the sewing port of the sewing machine, the belly pad is pulled out of the sewing machine at the other side, so as to complete the sewing of the vertical edge, the vertical edge is placed on a conveying roller after being sewn and conveyed to a cutting device for quantitative cutting, the belly pad after being sewn is rotated by 90 degrees through a clamping manipulator after being cut, so as to perform the turning sewing, the vertical edge sewing efficiency is low, the vertical edge sewing offset is easy to occur, and the center offset is easy to occur through the rotation of the clamping manipulator on the same conveying line, so that the hemming sewing of the transverse edge is irregular, therefore, the belly pad processing system is designed, the specific structure is shown in figures 1-16, and comprises a conveying device 1, a scallop piece placing device 2, a vertical edge sewing device 3, The middle thread sewing device 4 and the transverse edge sewing device 5, a plurality of groups of belly pad raw material rolls are stored on the conveying device 1, and the plurality of groups of belly pad raw material rolls sequentially pass through the shell piece arranging device 2, the vertical edge sewing device 3, the middle thread sewing device 4 and the transverse edge sewing device 5;
as shown in fig. 2-3, because the feeding and conveying mechanisms adopted by current manufacturers are conventional mechanisms, which are suitable for replacement from other production devices, and have no pertinence, there are some disadvantages in the field of belly pad processing, because no burrs are formed around the complete belly pad during molding, the existing folding mechanism can only fold a single piece of belly pad, and then the belly pad is stacked together after folding, and the edge running phenomenon is easy to occur in the process, so that the yield of subsequent production is greatly reduced, the production of finished products and the efficiency are reduced, therefore, the conveying device 1 in the utility model comprises a conveying rack 101, the conveying rack 101 comprises a folding component 102, a plurality of discharging rollers 105 and a plurality of conveying rollers, a plurality of groups of belly pad raw material rolls are respectively sleeved on each discharging roller 105 correspondingly, and the output fabric of the belly pad surface 104 passes through the plurality of conveying rollers sequentially, the folding assembly 102 comprises a cross rod 1021, two groups of compression bars 1022 and two groups of adjusting seats 1023, two ends of the cross rod 1021 are respectively connected to the rack, the cross rod 1021 is positioned below the output fabric, the two groups of compression bars 1022 are respectively connected to the cross rod 1021 on two sides of the output fabric in a rotating manner through the adjusting seats 1023, the two groups of compression bars 1022 are respectively connected to the corresponding adjusting seats 1023 in a rotating manner, the two groups of compression bars 1022 are opposite and extend to the lower bottom surface of the output fabric, and the outer side surfaces of the two groups of compression bars 1022 are respectively pressed on two sides of the lower bottom surface of the output fabric; (two groups of compression bars 1022 in the utility model can rotate on the horizontal plane and the vertical plane, and can slide on the cross bar 1021, each group of compression bars 1022 is L-shaped, one end of the long side is used for folding, because the edge of the abdomen pad used in medicine can not generate burr, but a finished abdomen pad is formed by overlapping and sewing a plurality of layers of abdomen pad fabrics together, the existing abdomen pad production equipment has a single folding device, the folding device is generally conveyed to one side panel after single-layer folding, the other side panel is placed on the upper panel after folding, sewing is carried to the sewing mechanism 16, the phenomena of edge running, tidy sewing and the like can be generated in the process, the scheme can realize folding of the plurality of layers of abdomen pad fabrics after overlapping, the edge folding can be performed after folding, the edge pressing and pressing can be conveyed to the sewing mechanism 16 for sewing, the phenomenon of edge can not be generated, wherein, the principle of how to realize edge running can be that the output fabrics are in the conveying process, the surface of the compression bar 1022 at the two ends supports against the two sides of the output fabric, the two sides can be folded in towards the direction of the support pressure by the conveying of the support pressure matched output fabric, the long-edge end of the compression bar 1022 at the two ends in fig. 3 is arranged obliquely in opposite directions, and the bottom surface of the output fabric is inserted into one side of the long-edge end, as shown in fig. 2, the edge pressing component 103 comprises an upper pressing roller and a lower pressing roller, the two ends of the upper pressing roller and the two ends of the lower pressing roller are respectively connected onto the frame, the upper pressing roller is positioned above the output fabric after the edge folding of the edge folding component 102, the lower pressing roller is positioned below the output fabric after the edge folding component 102, the output fabric after the edge folding is immediately subjected to edge pressing and shaping between the upper pressing roller and the lower pressing roller, and edge running after the edge folding is avoided.
As shown in fig. 4-5, the shellfish setting device 2 includes a setting frame, a cutting mechanism 201, a label body transfer mechanism 202, a spot welding mechanism 203 and a stacking mechanism 204 are included on the setting frame, the cutting mechanism 201 is used for cutting the label material, the label body transfer mechanism 202 and the cutting mechanism 201 are simultaneously located on either side of the folded abdomen pad, the label body transfer mechanism 202 includes a first clamping portion 2021, a second clamping portion 2022 and a sliding power source 2023, the first clamping portion 2021 and the second clamping portion 2022 are used for clamping the label material, the sliding power source 3 drives the second clamping portion 2022 to move in the horizontal direction so that the second clamping portion 2022 clamps the cut label strip to the folded abdomen pad vertical edge, the spot welding mechanism 203 includes an ultrasonic welding head, the ultrasonic welding head is located above the abdomen vertical pad edge on which the label strip is placed, the ultrasonic welding head is used for carrying out spot welding connection on the label strip and the belly pad, quantitative cutting and conveying of the label to the position corresponding to the belly pad are realized through the matching of the first clamping part 2021, the second clamping part 2022 and the cutting mechanism 201, the label on the belly pad is subjected to spot welding through ultrasonic welding, so that the glue label is firmly connected with the belly pad, the laying mechanism 204 comprises an upper feeding roller and a press roller group, the upper feeding roller is used for conveying the unflexed belly pad to be superposed on the belly pad after spot welding, the press roller group is used for pressing the unflexed belly pad and the belly pad after spot welding, a layer of unflexed belly pad needs to be superposed above the belly pad after the lower vertical edge of the glue strip is folded after spot welding, the width of the belly pad is smaller than that of the lower belly pad, so that the two vertical edges of the upper belly pad can be aligned with the two vertical edges of the lower hem pad.
As shown in fig. 6-7, because a complete belly pad needs to be hemmed and sewn after being overlapped by a plurality of belly pads, several common sewing machines are additionally arranged on a production line in the existing sewing mechanism 16, the belly pad after the previous process is finished enters a sewing platform of the sewing machine for sewing, and is conveyed to a feed port of equipment in the next process, but the simple and non-targeted sewing treatment is only folded during sewing, no calibration position is arranged when the belly pad enters the sewing platform of the sewing machine, so that the sewing is cheap, the vertical edge sewing equipment 3 which does not meet the requirement of finished products comprises a first machine table 301, a first adjusting assembly 302 and two groups of first sewing machines 303, the first adjusting assembly 302 is positioned on the feed port of the first machine table 301, the first adjusting assembly 302 comprises a first adjusting power source and a plurality of first adjusting rollers 304, the hemmed belly pad after being glued and fed sequentially passes through the plurality of first adjusting rollers 304 and is conveyed to the two groups of first sewing machines 303, a first transverse guide rail 305 which is horizontally vertical to the feeding direction is arranged on the first machine table 301, the two groups of first sewing machines 303 are respectively arranged on the first transverse guide rail 305 in a sliding manner, and a first adjusting power source drives the multiple first adjusting rollers 304 to move in the horizontal direction, so that two vertical edges of the belly pad which is subjected to glue labeling and feeding on the multiple first adjusting rollers 304 are respectively aligned with the sewing platforms of the two groups of first sewing machines 303; the middle-line sewing device 4 comprises a second machine table 401, a second adjusting assembly 402 and a plurality of groups of second sewing machines 403 (as shown in fig. 7, the number of the second sewing machines 403 is two, the purpose is that the abdomen pad after hemming sewing at two sides needs to be shaped, so a straight line needs to be sewn in the middle, the sewing of the utility model is two straight lines, the two straight lines are parallel to the straight lines sewn at the two sides, the second adjusting assembly is positioned on the feed port of the second machine table 401 and comprises a second adjusting power source and a plurality of second adjusting rollers, the abdomen pad after vertical side sewing is conveyed to the plurality of groups of second sewing machines 403 through the plurality of second adjusting rollers, the second machine table 401 is provided with a plurality of groups of second transverse guide rails 404 which are horizontally vertical to the feeding direction, the plurality of groups of second sewing machines 403 are respectively arranged on the second transverse guide rails 404 in a sliding manner, the second adjusting power source drives the plurality of second adjusting rollers to move in the horizontal direction, so that the center line of the belly pad after vertical edge sewing on the plurality of second adjusting rollers is aligned with the sewing platform of the second sewing machine 403; the beneficial effects are as follows: the hemmed belly pad after the glue label is fed is sewn through two first sewing machines 303, the belly pad after the two side edges are hemmed and sewn is subjected to middle sewing through a second sewing machine 403, so that the multi-layer belly pad is fixed after being overlaid, in addition, the position of the belly pad transmitted by the previous glue label feeding mechanism when entering the sewing platform of the first sewing machine 303 can be adjusted in real time through the first adjusting mechanism, so as to avoid unqualified finished products caused by sewing deviation at the folded edges at two sides of the belly pad, the position of the belly pad conveyed out of the vertical edge sewing device 3 can be adjusted by the second adjusting mechanism when the belly pad enters the sewing platform of the second sewing machine 403, so as to avoid that the finished product is unqualified due to the fact that the preset requirement is not met during the middle sewing of the belly pad, its summary advantage is for can real-time calibration belly pad gets into sewing platform position, and realizes high efficiency, high yield.
As shown in figures 9-16, because the existing large-scale belly pad production equipment firstly carries out folding sewing of symmetrical vertical edges at two sides when the belly pad is conveyed to the lower part of the sewing equipment on a production line, then directly carries out section cutting through a cutting knife, then carries out horizontal plane rotation through a transfer mechanism, carries out edge folding on two transverse edges which are not folded and then is positioned below a sewing machine for sewing, a cotton label is required to be placed on a certain folded edge during folding, the vertical edges refer to two edges parallel to the transmission direction of the production line, the transverse edges refer to two edges vertical to the transmission direction of the production line, the existing sewing equipment has the defects of low sewing efficiency and low yield, the transverse seam of the existing equipment needs to be rotated through the transfer mechanism to easily cause position deviation after rotation, and a calibration mechanism needs to be arranged to assist rotation if the position needs to be adjusted, the process is time-consuming, so the feeding direction and the discharging direction of the transverse edge sewing device 5 are vertical to each other on the horizontal plane, the transverse edge sewing device comprises a transverse seam rack, the transverse seam rack comprises a cotton label feeding area 501 and a folding sewing area 502, the folding sewing area 502 is positioned on one side of the cotton label feeding area 501, the cotton label feeding area 501 comprises a feeding platform, a pulling mechanism 11, a cotton label feeding mechanism 12, a cutting mechanism 13 and a pressing mechanism 14, the pulling mechanism 11, the cotton label feeding mechanism 12, the cutting mechanism 13 and the pressing mechanism 14 are positioned on the feeding platform, the abdominal cushion after vertical edge sewing sequentially passes through the cutting mechanism 13 and the pressing mechanism 14, and the pulling mechanism 11 and the cotton label feeding mechanism 12 are both positioned on one side of the transverse edge of the abdominal cushion after vertical edge sewing;
the pulling mechanism 11 comprises a clamping plate assembly, a clamping power source 112 and a first translation power source 111 (air cylinder), the first translation power source 111 (air cylinder) drives the clamping plate assembly to move in the horizontal direction so that the clamping plate assembly is close to or far away from a vertical edge sewn belly pad below the cutting mechanism 13, and the clamping power source 112 drives the clamping plate assembly to clamp or separate from a horizontal edge of the vertical edge sewn belly pad; specifically, as shown in fig. 10, the clamping plate assembly includes a moving plate, a lower clamping plate 113 and an upper clamping plate, the clamping power source 112 (cylinder) is located on the moving plate, the moving plate is in transmission connection with the first translational power source 111, the lower clamping plate 113 includes a fixing portion and a lower clamping portion, the fixing portion is vertically connected to one side of the moving plate, the fixing portion is perpendicular to the lower clamping portion, the height of the lower clamping portion away from the fixing portion is gradually reduced (the lower clamping plate 113 is L-shaped, the fixing portion is a vertical end and is connected with the moving plate, the lower clamping portion is a horizontal end and is attached to the feeding platform), and a plurality of tooth sockets 116 are arranged on the upper surface of the lower clamping portion; the upper clamping plate comprises a rotating part 114 and an upper clamping part 115, the rotating part 114 comprises a vertical end and a horizontal end, the upper surface of the horizontal end is hinged with the fixing part (the rotating part 114 is L-shaped, and the upper surface of the horizontal end is hinged with the fixing part of the lower clamping plate 113), the upper clamping part 115 is connected to one side of the vertical end, and one end of the upper clamping part 115 is provided with clamping teeth 117 matched with the tooth grooves 116; the beneficial effects are as follows: the clamping power source 112 drives the rotating part 114 to rotate, so that the upper clamping part 115 can be clamped on the lower clamping part, and the clamping teeth 117 of the upper clamping part 115 can be clamped on the tooth grooves 116 of the lower clamping part in a matching manner, so that the belly pad can be clamped more tightly, and the belly pad is prevented from being separated from the sliding during the dragging process.
As shown in fig. 11 and 16, since a cotton mark or a glue mark needs to be added during the sewing of the abdomen pad during the production process, in case the abdomen pad is missed in the patient during the operation process, the abdomen pad can be detected by scanning and shooting, and secondary damage to the patient after the omission is avoided, the cotton mark feeding mechanism 12 is added into the transverse sewing device and comprises a fixed seat 121, a cotton mark clamping hand 122 and a second translation power source (cylinder), a folding splint 123, a target body aligning bucket 124, a third translation power source 125 (cylinder), a fourth translation power source 126 (cylinder) and a fifth translation power source 127 (cylinder) are arranged on the fixed seat 121, a pressure rod 17 and a label-turning hole 18 are arranged on the folding splint 123 (one side of the folding splint 123 has a large opening, a pressure rod 17 is arranged on the opening, the pressure rod 17 divides the opening into an upper opening and a lower opening, and the upper opening is the label-turning hole 18), the third translational force source 125 (air cylinder) drives the doubling clamp plate 123 to move on the vertical plane to enable the material pressing rod 17 to press against or separate from the end part of the cotton label, the label returning bucket 124 is positioned at one side of the label turning hole 18 close to the material discharging side, a negative pressure space is formed in the label returning bucket 124 through air suction, so that the head end of the cotton label which is sent out from the label turning hole 18 after being doubled is sucked into the label returning bucket 124 and kept in a stretched state, the cotton label clamping hand 122 is positioned below the label returning bucket 124, the cotton label clamping hand 122 is used for clamping the head end of the cotton label which is doubled, the fourth translational force source 126 (air cylinder) drives the cotton label clamping hand 122 to move in the horizontal direction so that the cotton label clamping hand 122 enables the doubled cotton label to be close to or far away from the upper part of the belly cushion which is sewn at the vertical edge, the second translational force source (air cylinder) drives the fixed seat 121 to move in the horizontal direction so that the fixed seat 121 is aligned with one side edge of the belly cushion which is sewn at the tail end of the cotton label which is doubled by the cotton label clamping hand 122, a fifth translation power source 127 (air cylinder) drives the cotton label clamping hand 122 to move on the vertical surface, so that the cotton label clamping hand 122 places the folded cotton label on the belly pad after the vertical edge sewing; the fixing base 121 is further provided with a label output wheel set 128 and a label cutter 129, the label output wheel set 128 comprises a driving wheel, a driven wheel and a motor, a cotton label is arranged between the driving wheel and the driven wheel in a penetrating manner, the motor drives the driving wheel to rotate through the belt wheel set, the label cutter 129 is arranged between the folding clamping plate 123 and the label output wheel set 128, the cotton label clamping hand 122 comprises a connecting strip, a third supporting plate 1221, an upper clamping hand 1223, a lower clamping hand 1222, a linear air cylinder 1225 and a clamping air cylinder 1224, the connecting strip is fixedly connected below the fixing base 121, the third supporting plate 1221 is arranged on one side of the connecting strip, the upper clamping hand 1223 is slidably connected on one side of the third supporting plate 1221, the lower clamping hand 1222 is fixedly connected on the third supporting plate 1221 below the upper clamping hand 1223, the clamping air cylinder 1224 drives the upper clamping plate to move in the vertical direction so that the upper clamping hand 1223 presses the folded cotton label end on the lower clamping hand 1222, the linear air cylinder 1225 drives the third supporting plate 1221 to move in the horizontal direction so that the upper clamping hand 1223 and the lower clamping hand 1222 hold the folded cotton label The tail end is aligned with one side edge of the belly pad after the vertical edge is sewn; the beneficial effects are as follows: when cotton mark's one end got into the end opening through the cutter, fifty percent discount splint 123 moved down, press the material pole 17 to move down and press cotton mark on a side surface of fixing base 121, then carry cotton mark, cotton mark has the fifty percent discount head end to get into to turn over and carry down behind the mark hole 18, this mechanism can be fine carry out automatic fifty percent discount with cotton mark, after the certain length of fifty percent discount, surely mark sword 129 can downcut cotton mark, then new cotton mark head end can continue to carry and carry to end opening back fifty percent discount splint 123 to push down and carry out the fifty percent discount of cotton mark and carry, so that work efficiency improves.
As shown in fig. 12, since the abdomen pad after the vertical edge sewing is long and uninterrupted in the process of being conveyed to the transverse sewing mechanism, and thus needs to be cut quantitatively, the cutting mechanism 13 includes a knife holder 131, a cutter 132, and a cutting cylinder 133 (the cutter 132 is located on the knife holder 131), the cutting cylinder 133 drives the cutter 132 to move on a vertical plane so that the cutter 132 cuts the abdomen pad after the vertical edge sewing located below the cutter 132; one side of the cutting mechanism 13 further comprises a pressing assembly, the pressing assembly comprises a pressing frame 6, a pressing strip 7 and a pressing cylinder 8, the pressing frame 6 is arranged on the feeding platform in a sliding mode, the pressing strip 7 is located at the bottom of the pressing frame 6, and the pressing cylinder 8 drives the pressing strip 7 to move in the vertical direction so that the pressing strip 7 can press or be separated from the belly pad after vertical edge sewing; the beneficial effects are as follows: when the belly pad after the sewing of perpendicular limit cuts after the ration is accomplished, the layering 7 of one side can receive the drive of pressing material cylinder 8 and push down to the belly pad after the sewing of perpendicular limit cuts under the state of compressing tightly, avoids cutting the in-process belly pad and receives the pressure effect of pushing down of cut-off knife 132 and cause and cut incompletely.
As shown in fig. 13, the pressing mechanism 14 includes a platen assembly, a sixth translational power source 142 (cylinder) and a seventh translational power source (cylinder), the sixth translational power source 142 (cylinder) drives the platen assembly to move on a vertical surface so that the platen assembly presses or separates from the abdomen pad after the cotton label is loaded below the platen assembly, and the seventh translational power source (cylinder) drives the platen assembly to move in a horizontal direction so that the platen assembly pushes the abdomen pad after the cotton label is loaded into the folding sewing area 502; the pressing plate assembly comprises a sliding frame, two groups of first pressing and feeding plates 144 and two groups of second pressing and feeding plates 141, wherein the upper surfaces of two ends of the sliding frame are respectively provided with a first buffer piece 145 and a second buffer piece 143 (the first pressing and feeding plates 144 and the second pressing and feeding plates 141 need to be buffered by buffer pieces due to inertia effect when being pressed downwards), the two groups of first pressing and feeding plates 144 are oppositely arranged at one end of the bottom of the sliding frame, the two groups of second pressing and feeding plates 141 are oppositely arranged at the other end of the bottom of the sliding frame, a space is arranged between the two groups of first pressing and feeding plates 144 and the two groups of second pressing and feeding plates 141, the two groups of first pressing and feeding plates 144 and the two groups of second pressing and feeding plates 141 are L-shaped, the horizontal ends of the two groups of first pressing and feeding plates 144 are oppositely arranged, and the horizontal ends of the two groups of second pressing and feeding plates 141 are arranged in a way of deviating from each other; the pressing mechanism 14 further comprises a pressing component, the pressing component comprises a pressing column 93, a vertical frame 91, a sliding plate 92 and a motor, the vertical frame 91 is vertically arranged on the feeding platform, a belt pulley group is arranged on the vertical frame 91, the sliding plate 92 is connected to a belt of the belt pulley group, the pressing column 93 is horizontally arranged on one side of the sliding plate 92, the pressing column 93 is located in a space between the two groups of first pressing and feeding plates 144 and the two groups of second pressing and feeding plates 141, a pressing opening is formed in the feeding platform below the pressing column 93, the motor drives the belt pulley group to move to drive the pressing column 93 to move in the vertical direction, and therefore the pressing column 93 presses a vertical edge sewing belly pad on the feeding platform into the pressing opening; the distance between the two groups of first pressing and feeding plates 144 and the distance between the two groups of second pressing and feeding plates 141 are the same, the first pressing and feeding plates 144 are used for placing the pressing columns 93, after the belly pad with the vertical edges sewn passes through the pressing and feeding mechanism 14, the transverse edges of the belly pad can be pulled to one side by the pulling mechanism 11, the belly pad on the lower pressure opening is pressed to the lower pressure opening for a certain distance by the pressing columns 93 at the moment, the length of the belly pad can be determined at the moment, in the process of pressing, in order to save time, the pulling mechanism 11 is synchronously performed, the cutting mechanism 13 cuts after the completion of cutting, after the cutting, the second pressing and feeding plates 141 are pressed to the belly pad and conveyed to the folding mechanism for transverse edge folding, the second pressing and feeding plates 141 are pressed on the folded cotton marks to avoid the displacement of the folded cotton marks during transportation, and the first pressing and feeding plates 144 are used for conveying the belly pad with two folded edges into the sewing machine set 161 for sewing.
As shown in fig. 14, the folding sewing area 502 includes a folding platform, two sets of hemming mechanisms 15 and two sets of sewing mechanisms 16 located on the folding platform, the two sets of hemming structures and the two sets of sewing mechanisms 16 are respectively and symmetrically arranged at two sides of a transverse edge of an abdomen pad loaded with a cotton label, the abdomen pad loaded with the cotton label sequentially passes through the two sets of hemming mechanisms 15 and the two sets of sewing mechanisms 16, as shown in fig. 14-15, the two sets of hemming mechanisms 15 each include a pressing sheet 151, a first folding plate 152, a second folding plate 153, an eighth translation power source 157 (air cylinder), a ninth translation power source (air cylinder), a tenth translation power source (air cylinder), an eleventh translation power source 156 (air cylinder) and a twelfth translation power source 165 (air cylinder), the pressing sheet 151 is located above the transverse edge of the abdomen pad loaded with the cotton label through a pressing base 155, the eighth translation power source 157 (air cylinder) drives the pressing sheet 151 to move in a vertical direction, so that the pressing sheet 151 presses or separates from the abdomen pad after the cotton label is loaded, the first folding plate 152 and the second folding plate 153 are both located under the transverse edge of the abdomen pad after the cotton label is loaded, the ninth translation power source drives the first folding plate 152 to move in the vertical direction, so that the first folding plate 152 pushes the transverse edge of the abdomen pad after the cotton label is loaded upwards to a first inclined state, the tenth translation power source (air cylinder) drives the first folding plate 152 to move in the horizontal direction, so that the first folding plate 152 pushes the transverse edge of the first inclined state to the pressing sheet 151 side to a first bending state, the ninth translation power source drives the first folding plate 152 to move in the vertical direction, so that the first folding plate 152 pushes the transverse edge of the first bending state downwards to a first folded state, the eleventh translation power source 156 (air cylinder) drives the pressing sheet 151 to move in the horizontal direction, so that the pressing sheet 151 moves right above the first folded state, the twelfth translational power source 165 (cylinder) drives the second flap 153 to move in the vertical direction, so that the second flap 153 pushes up the transverse edge of the abdomen pad in the first folded state to the second inclined state, the tenth translational power source (cylinder) drives the first flap 152 to move in the horizontal direction, so that the first flap 152 pushes the transverse edge of the second inclined state to the pressing piece 151 side to the second bent state, and the ninth translational power source (cylinder) drives the first flap 152 to move in the vertical direction, so that the first flap 152 pushes down the transverse edge of the second bent state to the second folded state; the two groups of folding mechanisms 15 further comprise pressing seats 155 and matching plates 154, one ends of the pressing sheets 151 are fixedly connected to the pressing seats 155, the pressing seats 155 are connected with an eighth translation power source 157 (air cylinder), the pressing sheets 151 of the two groups of folding mechanisms 15 face away from each other (because both sides of the belly pad are horizontal edges, folding needs to be carried out synchronously, and therefore the pressing sheets 151 need to be deviated from each other), the matching plates 154 of the two groups of folding mechanisms 15 are respectively positioned on both sides of the folding platform, the first folding plates 152 of the two groups of folding mechanisms 15 are respectively positioned on one side of the corresponding matching plates 154, a connecting groove 1541 is arranged on one side face, close to the folding platform, of the matching plate 154 on any one side, and the second folding plates 153 are respectively positioned in the corresponding connecting grooves 1541; during the two-sided folding process, the folded cotton label is also folded inside by the lateral edges, where the first folding is completed by the pressing piece 151 and the first folding plate 152, and the second folding is completed by the pressing piece 151, the second folding plate 153 and the first folding plate 152.
As shown in fig. 9, each of the two sewing mechanisms 16 includes a sewing machine set 161, a pull plate assembly 162, a twelfth translation power source 165 and a thirteenth translation power source 163, the sewing machine set 161 is configured to sew the abdomen pad after the second folding state of the lateral edge, the pull plate assembly 162 is configured to press the abdomen pad after the lateral edge sewing, the twelfth translation power source 165 drives the pull plate assembly 162 to move in the vertical direction so that the pull plate assembly 162 presses or separates from the abdomen pad after the lateral edge sewing, and the thirteenth translation power source 163 drives the pull plate assembly 162 to move in the horizontal direction so that the pull plate assembly 162 pulls the abdomen pad after the lateral edge out of the sewing machine set 161; when the pulling plate assembly 162 is pulled, the pulling plate assembly 162 is driven by the twelfth translation power source 165 to press the two sides of the abdomen pad after the sewing of the transverse edge, and the abdomen pad is pulled to one side of the material outlet.
As shown in fig. 4, a label feeding assembly is further disposed at the feeding port of the placement frame, the label feeding assembly includes a label roll 205, a buffer rod 206 and a plurality of winding rollers 208, the plurality of winding rollers 208 are respectively and fixedly disposed on the placement frame and the buffer rod 206, the label raw material of the label roll 205 is sequentially wound on each winding roller 208, the buffer rod 206 is rotatably disposed on the placement frame, one end of the buffer rod 206 is provided with a weight-balancing block 207 (the swinging difficulty of the buffer rod 206 can be adjusted by adjusting the position of the weight-balancing block 207 away from the rotating shaft, and further the tension borne by the label raw material wound on the winding rollers 208 is adjusted, thereby ensuring that the label raw material is supported and spread by a proper tension), the placement frames are both provided with placement plates 209, the placement plates 209 are both provided with arc holes using the rotation point of the support frame as the center of a circle, the arc holes are both provided with laser sensors 210, the detection port of the laser sensor 210 faces the material-buffering rod 206, the laser sensor 210 mainly detects the inclination degree of the material-buffering rod 206, and when the material-buffering rod 206 inclines to a certain side, the feeding speed is too fast or too slow.
Because a position adjusting mechanism is required to adjust the position of the first adjusting component 302 and the second adjusting component during the conveying process, the first adjusting component 302 and the second adjusting component each include a first carriage 306, a first supporting plate 307, a second supporting plate 308, a first fixing plate 309 and a plurality of first guiding columns 310, the first translational force source 111 and the first fixing plate 309 are respectively connected to two ends of the first carriage 306 in a sliding manner, the plurality of first guiding columns 310 are respectively connected between the first translational force source 111 and the first fixing plate 309, the first supporting plate 307 is connected to an output end of the first translational force source 111, the first supporting plate 307 and the second supporting plate 308 are respectively connected to the plurality of first guiding columns 310 in a sliding manner, the plurality of first adjusting rollers 304 are respectively connected between the first supporting plate 307 and the second supporting plate 308, two first limiting rings 311 are respectively sleeved on the plurality of first adjusting rollers 304, the first limiting rings 311 on two adjacent first adjusting rollers 304 are symmetrical, two second limiting rings 311 are respectively sleeved on the second adjusting rollers, and the second limiting rings 311 on the two adjacent second adjusting rollers are symmetrical.
As shown in fig. 15, the upper surfaces of the fitting plates 154 of the two folding mechanisms 15 are respectively provided with first inclined teeth 1542 facing away from each other, the first inclined teeth 1542 facing away from each other on the fitting plates 154 on both sides function as when the belly pad is conveyed to the fitting plates 154, first skewed tooth trace 1542 can draw the belly pad to both sides, avoid the belly pad to middle fold, be unfavorable for hem and sewing, the first folded plate 152 upper surface of two sets of hem mechanisms 15 is equipped with the second skewed tooth trace 1521 that deviates from the orientation mutually respectively, the effect of second skewed tooth trace 1521 is the same with the effect of first skewed tooth trace 1542, also avoid the belly pad to middle fold at transport and hem in-process, the second folded plate 153 upper surface of two sets of hem mechanisms 15 is equipped with spurt 1531 respectively, spurt 1531's effect is spurt 1531 can be used in the belly pad when making the hem of second time, make the dog-ear department more obvious, easily the folding of first folded plate 152.
Abdomen padding principle: the belly pad fabric roll 104 on the discharging roller 105 conveys the output fabric to the folding assembly 102 under the action of the motor to be folded by the pressing rods 1022 on two sides, the two sides of the output fabric are folded inwards by a certain angle and then are pressed by the upper pressing roller and the lower pressing roller to shape the folded edges, and the output fabric after being pressed is conveyed to the laminating arranging equipment 2.
5. Shell slice feeding raw materials: the glue label raw materials are respectively wound on the winding roller 208 in a continuous w shape, quantitative cutting and conveying of the glue label to a position corresponding to the belly pad are achieved through the matching of the first clamping part 2021, the second clamping part 2022 and the cutting mechanism 201, and then spot welding is conducted on the glue label on the belly pad through ultrasonic welding, so that the glue label is firmly connected with the belly pad; the laying mechanism 204 comprises an upper feeding roller and a pressing roller group, the upper feeding roller is used for conveying an unflexed belly pad to be superposed on a belly pad after spot welding, the pressing roller group is used for pressing the unflexed belly pad and the belly pad after spot welding, and a layer of unflexed belly pad is superposed on the belly pad after the lower vertical edge of the adhesive tape is well welded.
The vertical edge and center line sewing principle: the belly pad output by the glue label feeding mechanism enters from a feed inlet of a hemming sewing device, the position of the entered belly pad is adjusted by a first adjusting assembly 302 firstly, so that the belly pad can completely and accurately enter a first sewing machine 303 for hemming sewing, when the belly pads sewn at two sides are conveyed out from a discharge port to a first conveying group, the output speed and the rope-taking speed of a middle thread sewing device 4 are detected, then the belly pads sewn at two sides are conveyed to the feed inlet of the middle thread sewing device 4 to enter, the position of the entered belly pad is adjusted by a second adjusting assembly firstly, so that the belly pad can completely and accurately keep the middle line to be sewn aligned with a second sewing machine 403, the belly pad sewn by the middle thread is conveyed from the discharge port to a second conveying group, and the output speed and the rope-taking speed in the next process are detected.
The transverse edge sewing principle is as follows: firstly, the belly pad after vertical edge sewing enters a transverse sewing device, a discharge roller in a feeding device is wound with the belly pad after vertical edge sewing, an output motor drives the discharge roller to rotate, the belly pad after vertical edge sewing passes through an auxiliary roller and then passes through a limiting component and a first limiting roller, enters a feed inlet of the transverse sewing device under the limiting action, then the belly pad after vertical edge sewing is conveyed inwards to pass through a cutting mechanism 13 and a pressure feeding mechanism 14, when the transverse edge of the belly pad end after vertical edge sewing passes through a lower pressure opening, a clamping plate component moves to the lower pressure opening to clamp the transverse edge of the head end and pull the transverse edge to one side, and stops when the transverse edge is pulled to one side, at the moment, a cotton label feeding mechanism 12 folds the cotton label in half and then places a cotton label clamping hand 122 on one side of the corresponding transverse edge, the folded cotton label is positioned opposite to the transverse edge, and simultaneously, a pressure post 93 above the transverse edge sewing device presses downwards to enable part of the belly pad to enter the lower pressure opening, the purpose is that in order to reach the specified length, when the quantitative and cotton label feeding is finished, the pressing strip 7 on one side is pressed downwards to press the belly pad after the vertical edge sewing, the cutter 132 cuts downwards to cut off the belly pad, at the moment, the first pressing and feeding plate 144 and the second pressing and feeding plate 141 of the pressing and feeding mechanism 14 are pressed downwards, and the belly pad is conveyed to the edge folding mechanism 15 after the pressing is finished;
when the belly pad fed by the panel is conveyed to the lower part of the folding mechanism 15, the pressing sheets 151 on the two sides are pressed downwards at the same time, the pressing sheets 151 are pressed on the belly pad on the matching plate 154, the first folding plate 152 below the belly pad moves upwards to push the transverse edge upwards to incline, then the first folding plate 152 moves towards one side of the pressing sheets 151 to push the inclined transverse edge to one side to bend, finally, when the first folding plate 152 moves downwards, the pressing sheets 151 are drawn out, the first folding plate 152 presses the bent transverse edge on the matching plate 154 to achieve the purpose of folding for the first time, at the moment, the folded cotton label is already folded in the first folding edge, after the first folding edge is finished, the pressing sheets 151 move downwards for a small distance towards one side of the middle direction of the belly pad, the second folding plate 153 in the matching plate 154 moves upwards, the transverse edge after the first folding is lifted upwards to an inclined state, the first folding plate 152 moves towards one side of the pressing sheets 151, pushing the inclined transverse edge after the first folding to one side of the pressing sheet 151 to be bent, withdrawing the pressing sheet 151 at the moment, pressing the bent pressing sheet on the folding platform by the first folding plate 152 to achieve the purpose of the edge for the second time, wherein the alignment panel is contained in the edge for the second time;
after finishing twice hem, the belly pad can be pressed by the first pressure feeding plates 144 and conveyed to the sewing machine set 161 for sewing, the two first pressure feeding plates 144 are pressed on the folded transverse edge to avoid edge running, and after one end of the belly pad sewn on the transverse edge passes through the sewing machine set 161, the belly pad is pulled out by the pull plate component 162.
The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.

Claims (10)

1. An abdominal pad processing system, characterized in that: the belly pad fabric sewing machine comprises a conveying device (1), a shell piece arranging device (2), a vertical edge sewing device (3), a middle thread sewing device (4) and a horizontal edge sewing device (5), wherein a plurality of groups of belly pad fabric rolls (104) are stored on the conveying device (1), and the belly pad fabric rolls (104) sequentially pass through the shell piece arranging device (2), the vertical edge sewing device (3), the middle thread sewing device (4) and the horizontal edge sewing device (5); the conveying equipment (1) comprises a conveying rack (101), wherein a folding assembly (102), a plurality of discharging rollers (105) and a plurality of conveying rollers are arranged on the conveying rack (101), a plurality of groups of belly pad fabric rolls (104) are respectively sleeved on each discharging roller (105) in a corresponding mode, output fabrics of the belly pad fabric rolls (104) sequentially pass through the plurality of conveying rollers, the folding assembly (102) comprises a cross rod (1021), two groups of compression rods (1022) and two groups of adjusting seats (1023), two ends of the cross rod (1021) are respectively connected to the rack, the cross rod (1021) is located below the output fabrics, the two groups of compression rods (1022) are respectively connected to the cross rod (1021) on two sides of the output fabrics in a rotating mode through the adjusting seats (1023), the two groups of compression rods (1022) are respectively connected to the corresponding adjusting seats (1023) in a rotating mode, the two groups of compression rods (1022) face to each other and extend to the lower bottom surface of the output fabrics, the outer side surfaces of the two groups of compression bars (1022) are respectively pressed against the two sides of the lower bottom surface of the output fabric;
the shell piece arranging equipment (2) comprises an arranging rack, wherein the arranging rack is provided with a cutting mechanism (201), a mark body transfer mechanism (202), a spot welding mechanism (203) and a stacking mechanism (204) which are sequentially passed through by an abdomen pad after a vertical edge is folded, the cutting mechanism (201) is used for cutting off the label raw material, the mark body transfer mechanism (202) and the cutting mechanism (201) are simultaneously positioned at any one side of the abdomen pad after the vertical edge is folded, the mark body transfer mechanism (202) comprises a first clamping part (2021), a second clamping part (2022) and a sliding power source (2023), the first clamping part (2021) and the second clamping part (2022) are used for clamping the label raw material, the sliding power source (2023) drives the second clamping part (2022) to move in the horizontal direction so that the second clamping part (2022) clamps the label strip after the cutting off to the abdomen pad after the vertical edge is folded, the spot welding mechanism (203) comprises an ultrasonic welding head, the ultrasonic welding head is positioned above a vertical edge of an abdomen pad on which the adhesive label strip is placed, the ultrasonic welding head is used for performing spot welding connection on the adhesive label strip and the abdomen pad, the laying mechanism (204) comprises an upper feeding roller and a pressing roller set, the upper feeding roller is used for conveying an unflanged abdomen pad to be overlaid on the abdomen pad after spot welding, and the pressing roller set is used for pressing the unflanged abdomen pad and the abdomen pad after spot welding;
erect limit sewing machine (3) and include first board (301), first adjustment subassembly (302) and two sets of first sewing machine (303), first adjustment subassembly (302) are located on the feed inlet of first board (301), first adjustment subassembly (302) are including first regulation power supply and many first regulating rollers (304), and hem belly pad after the glue mark material loading passes through many in proper order first regulating roller (304) are carried to two sets of between first sewing machine (303), be equipped with on first board (301) with the horizontal vertically first transverse guide (305) of direction of feed, two sets of first sewing machine (303) slide respectively and set up on first transverse guide (305), first regulation power supply drive is many first regulating roller (304) move in the horizontal direction, so that many two vertical limits of belly pad after the glue mark material loading on first regulating roller (304) are aimed at two sets of respectively the seam of first sewing machine (303) is two sets of Threading the platform;
the mid-line sewing device (4) comprises a second machine table (401), a second adjusting component (402) and a plurality of groups of second sewing machines (403), the second adjusting component (402) is positioned on the feeding hole of the second machine table (401), the second adjusting component (402) comprises a second adjusting power source and a plurality of second adjusting rollers, the belly pad which is sewn with vertical edges is conveyed to a plurality of groups of second sewing machines (403) through the second adjusting rollers, a plurality of groups of second transverse guide rails (404) which are horizontally vertical to the feeding direction are arranged on the second machine table (401), a plurality of groups of second sewing machines (403) are respectively and correspondingly arranged on the second transverse guide rails (404) in a sliding manner, the second adjusting power source drives a plurality of second adjusting rollers to move in the horizontal direction, so that the center line of the belly pad after vertical edge sewing on the second adjusting rollers is aligned with the sewing platform of a second sewing machine (403);
the feeding direction and the discharging direction of the transverse edge sewing equipment (5) are mutually vertical on a horizontal plane, the transverse edge sewing equipment (5) comprises a transverse seam rack, the transverse seam rack comprises a cotton label feeding area (501) and a folding sewing area (502), the folding sewing area (502) is positioned on one side of the cotton label feeding area (501), the cotton label feeding area (501) comprises a feeding platform, a pulling mechanism (11), a cotton label feeding mechanism (12), a cutting mechanism (13) and a pressing mechanism (14), the pulling mechanism (11) and the cotton label feeding mechanism (12) are positioned on the feeding platform, an abdominal pad after vertical edge sewing sequentially passes through the cutting mechanism (13) and the pressing mechanism (14), and the pulling mechanism (11) and the cotton label feeding mechanism (12) are both positioned on one side of the transverse edge of the abdominal pad after vertical edge sewing;
the pulling mechanism (11) comprises a clamping plate assembly, a clamping power source (112) and a first translation power source (111), the first translation power source (111) drives the clamping plate assembly to move in the horizontal direction so that the clamping plate assembly is close to or far away from a vertical edge sewn belly pad below the cutting mechanism (13), and the clamping power source (112) drives the clamping plate assembly to clamp or separate from a transverse edge of the vertical edge sewn belly pad;
the cotton label feeding mechanism (12) comprises a fixed seat (121), a cotton label clamping hand (122) and a second translation power source, a doubling clamp plate (123), a label returning hopper (124), a third translation power source (125), a fourth translation power source (126) and a fifth translation power source (127) are arranged on the fixed seat (121), a pressing rod (17) and a label turning hole (18) are arranged on the doubling clamp plate (123), the third translation power source (125) drives the doubling clamp plate (123) to move on a vertical surface so that the pressing rod (17) is pressed against or separated from the end part of a cotton label, the label returning hopper (124) is positioned on one side, close to the discharging, of the label turning hole (18), a negative pressure space is formed in the label returning hopper (124) through air suction, so that the head end of the folded cotton label sent out from the label turning hole (18) is sucked into the label returning hopper (124) and kept in a stretched state, the cotton label clamping hand (122) is located below the label body aligning bucket (124), the cotton label clamping hand (122) is used for clamping the head end of the folded cotton label, the fourth translation power source (126) drives the cotton label clamping hand (122) to move in the horizontal direction, so that the folded cotton label is close to or far away from the position above the abdomen cushion after vertical edge sewing by the cotton label clamping hand (122), the second translation power source drives the fixing seat (121) to move in the horizontal direction, so that the tail end of the folded cotton label is aligned with one side edge of the abdomen cushion after vertical edge sewing by the cotton label clamping hand (122), and the fifth translation power source (127) drives the cotton label clamping hand (122) to move on the vertical surface, so that the folded cotton label is placed on the abdomen cushion after vertical edge sewing by the cotton label clamping hand (122);
the cutting mechanism (13) comprises a cutter (132) and a cutting cylinder (133), wherein the cutting cylinder (133) drives the cutter (132) to move on a vertical surface so that the cutter (132) cuts off a belly pad which is positioned below the cutter (132) and is subjected to vertical edge sewing;
the pressing and feeding mechanism (14) comprises a pressing plate assembly, a sixth translation power source (142) and a seventh translation power source, the sixth translation power source (142) drives the pressing plate assembly to move on a vertical surface so that the pressing plate assembly presses or separates from an abdomen pad after cotton label feeding below the pressing plate assembly, and the seventh translation power source drives the pressing plate assembly to move in the horizontal direction so that the pressing plate assembly pushes the abdomen pad after cotton label feeding to a folding sewing area (502);
the folding sewing area (502) comprises a folding platform, two groups of edge folding mechanisms (15) and two groups of sewing mechanisms (16), the two groups of edge folding structures and the two groups of sewing mechanisms (16) are respectively and symmetrically arranged on two sides of the transverse edge of the abdomen pad after the cotton label is fed, the abdomen pad after the cotton label is fed sequentially passes through the two groups of edge folding mechanisms (15) and the two groups of sewing mechanisms (16), the two groups of edge folding mechanisms (15) respectively comprise a pressing sheet (151), a first folding plate (152), a second folding plate (153), an eighth translation power source (157), a ninth translation power source, a tenth translation power source, an eleventh translation power source (156) and a twelfth translation power source (165), the pressing sheet (151) is positioned above the transverse edge of the abdomen pad after the cotton label is fed, and the eighth translation power source (157) drives the pressing sheet (151) to move in the vertical direction, so that the pressing sheet (151) presses or separates from the abdomen pad after the cotton label is loaded, the first and second folding plates (152, 153) are located below the transverse edge of the abdomen pad after the cotton label is loaded, the ninth translational power source drives the first folding plate (152) to move in the vertical direction so that the first folding plate (152) pushes the transverse edge of the abdomen pad after the cotton label is loaded upwards to a first inclined state, the tenth translational power source drives the first folding plate (152) to move in the horizontal direction so that the first folding plate (152) pushes the transverse edge of the first inclined state to a first bending state towards the pressing sheet (151) side, the ninth translational power source drives the first folding plate (152) to move in the vertical direction so that the first folding plate (152) pushes the transverse edge of the first bending state downwards to a first folded state, and the eleventh translational power source (156) drives the pressing sheet (151) to move in the horizontal direction, so that the presser piece (151) is moved to a position just above the first folded state, the twelfth translational power source (165) drives the second flap (153) to move in the vertical direction so that the second flap (153) pushes up the lateral edge of the belly pad in the first folded state to a second tilted state, the tenth translational power source drives the first flap (152) to move in the horizontal direction so that the first flap (152) pushes the lateral edge of the second tilted state to a second bent state toward the side of the presser piece (151), and the ninth translational power source drives the first flap (152) to move in the vertical direction so that the first flap (152) pushes down the lateral edge of the second bent state to the second folded state;
two sets of sewing machine constructs (16) all includes sewing machine group (161), arm-tie subassembly (162), twelfth translation power supply (165) and thirteenth translation power supply (163), sewing machine group (161) are used for sewing the belly pad after the horizontal limit second fold condition, arm-tie subassembly (162) are used for compressing tightly the belly pad after the horizontal limit sewing, twelfth translation power supply (165) drive arm-tie subassembly (162) move in vertical direction, so that arm-tie subassembly (162) press or break away from the belly pad after the horizontal limit sewing, thirteenth translation power supply (163) drive arm-tie subassembly (162) move on the horizontal direction, so that arm-tie subassembly (162) pull out outside sewing machine group (161) with the belly pad after the horizontal limit sewing.
2. The belly pad processing system according to claim 1, wherein: the conveying machine is characterized in that the conveying machine frame (101) is further provided with a side pressing assembly (103), the side pressing assembly (103) comprises an upper pressing roller and a lower pressing roller, two ends of the upper pressing roller and two ends of the lower pressing roller are connected to the machine frame respectively, the upper pressing roller is located above the output fabric which is folded by the folding assembly (102), and the lower pressing roller is located below the output fabric which is folded by the folding assembly (102).
3. The belly pad processing system according to claim 1, wherein: the utility model discloses a glue mark conveyor assembly, including glue mark book (205), slow material pole (206) and the multiunit around material gyro wheel (208), the multiunit is around material gyro wheel (208) fixed setting respectively in settling frame and slow material pole (206) around material gyro wheel (208), glue mark raw materials of glue mark book (205) are in proper order around establishing on every group winds material gyro wheel (208), slow material pole (206) rotate to be set up in settling the frame, slow material pole (206) one end is equipped with balancing weight (207), it all is equipped with mounting plate (209) to settle frame both sides, all be equipped with on mounting plate (209) and use the support frame turning point to be the arc hole of centre of a circle, all be equipped with laser sensor (210) on the arc hole, the detection mouth of laser sensor (210) is towards slow material pole (206).
4. The belly pad processing system according to claim 1, wherein: the first adjusting component (302) and the second adjusting component (402) both comprise a first carriage (306), a first support plate (307), a second support plate (308), a first fixing plate (309) and a plurality of first guide columns (310), the first translation power source (111) and the first fixing plate (309) are respectively connected to two ends of the first carriage (306) in a sliding manner, the plurality of first guide columns (310) are respectively connected between the first translation power source (111) and the first fixing plate (309), the first support plate (307) is connected to an output end of the first translation power source (111), the first support plate (307) and the second support plate (308) are respectively connected to the plurality of first guide columns (310) in a sliding manner, the plurality of first adjusting rollers (304) are respectively connected between the first support plate (307) and the second support plate (308), and the plurality of first adjusting rollers (304) are respectively sleeved with two first limiting rings (311), the first limiting rings (311) on the two adjacent first adjusting rollers (304) are symmetrical, the second limiting rings (311) are respectively sleeved on the second adjusting rollers, and the second limiting rings (311) on the two adjacent second adjusting rollers are symmetrical.
5. The belly pad processing system according to claim 1, wherein: the two groups of folding mechanisms (15) further comprise press seats (155) and matching plates (154), one ends of the pressing sheets (151) are fixedly connected to the press seats (155), the press seats (155) are connected with an eighth translation power source (157), the pressing sheets (151) of the two groups of folding mechanisms (15) are arranged in a mode of being opposite to each other in the direction, the matching plates (154) of the two groups of folding mechanisms (15) are respectively located on two sides of the folding platform, first folded plates (152) of the two groups of folding mechanisms (15) are respectively located on one sides of the corresponding matching plates (154), a connecting groove (1541) is arranged on one side face, close to the folding platform, of the matching plate (154) on any one side, the second folded plates (153) are respectively located in the corresponding connecting grooves (1541), first inclined tooth marks (1542) opposite to each other in the direction are respectively arranged on the upper surfaces of the matching plates (154) of the two groups of folding mechanisms (15), the upper surfaces of the first folded plates (152) of the two groups of folding mechanisms (15) are respectively provided with second oblique tooth marks (1521) which face away from each other, and the upper surfaces of the second folded plates (153) of the two groups of folding mechanisms (15) are respectively provided with a raised thorn (1531).
6. The belly pad processing system according to claim 1, wherein: the clamp plate subassembly includes that the balladeur train, two sets of first pressure send board (144) and two sets of second pressure to send board (141), the both ends upper surface of balladeur train is equipped with first bolster (145) and second bolster (143) respectively, and is two sets of first pressure send board (144) to set up the one end in the balladeur train bottom relatively, and is two sets of second pressure send board (141) to set up the other end in the balladeur train bottom relatively, and is two sets of first pressure send board (144) and two sets of second pressure send and be equipped with the interval between board (141), two sets of first pressure send board (144) and two sets of second pressure send board (141) is the L type, and is two sets of the level end that first pressure sent board (144) sets up in opposite directions, and is two sets of the level end that second pressure sent board (141) deviates from towards the setting.
7. The belly pad processing system according to claim 6, wherein: the pressing mechanism (14) further comprises a pressing assembly, the pressing assembly comprises a pressing column (93), a vertical frame (91), a sliding plate (92) and a motor, the vertical frame (91) is vertically arranged on the feeding platform, the vertical frame (91) is provided with a belt pulley set, the sliding plate (92) is connected onto a belt of the belt pulley set, the pressing column (93) is horizontally arranged on one side of the sliding plate (92), the pressing column (93) is located in a space between the two groups of first pressing and feeding plates (144) and the two groups of second pressing and feeding plates (141), a pressing opening is formed in the feeding platform below the pressing column (93), and the motor drives the belt to move to drive the pressing column (93) to move in the vertical direction, so that the pressing column (93) presses a vertical edge sewing rear belly pad on the feeding platform into the pressing opening.
8. The belly pad processing system according to claim 1, wherein: the splint subassembly includes movable plate, lower plate (113) and punch holder, centre gripping power supply (112) are located the movable plate, lower plate (113) include fixed part and lower clamping part, the vertical connection of fixed part is in movable plate one side, the fixed part is mutually perpendicular with lower clamping part, the height that the fixed part was kept away from to lower clamping part reduces gradually, the clamping part upper surface is equipped with a plurality of tooth's socket (116) down, the punch holder is including rotation portion (114) and last clamping part (115), rotation portion (114) are including vertical end and horizontal end, the upper surface and the fixed part of horizontal end are articulated, it connects in vertical end one side to go up clamping part (115), it is equipped with tooth clamp (117) with tooth's socket (116) assorted to go up clamping part (115) one end.
9. The belly pad processing system according to claim 1, wherein: the label cutting machine is characterized in that the fixing seat (121) is further provided with a label output wheel set (128) and a label cutter (129), the label output wheel set (128) comprises a driving wheel, a driven wheel and a motor, a cotton label is arranged between the driving wheel and the driven wheel in a penetrating mode, the motor drives the driving wheel to rotate through a belt pulley set, the label cutter (129) is located between the doubling clamp plate (123) and the label output wheel set (128), the cotton label clamp (122) comprises a connecting strip, a third support plate (1221), an upper clamp (1223), a lower clamp (1222), a linear cylinder (1225) and a clamping cylinder (1224), the connecting strip is fixedly connected to the lower portion of the fixing seat (121), the third support plate (1221) is located on one side of the connecting strip, the upper clamp (1223) is slidably connected to one side of the third support plate (1221), and the lower clamp (1222) is fixedly connected to the third support plate (1221) below the upper clamp (1223), the clamping cylinder (1224) drives the upper clamping plate to move in the vertical direction so that the upper clamping hand (1223) presses the folded cotton head end on the lower clamping hand (1222), and the linear cylinder (1225) drives the third supporting plate (1221) to move in the horizontal direction so that the upper clamping hand (1223) and the lower clamping hand (1222) align the tail end of the folded cotton head with one side edge of the belly pad after vertical edge sewing.
10. The belly pad processing system according to claim 1, wherein: cut mechanism (13) one side and still include the pressing means, the pressing means is including pressing frame (6), layering (7) and pressing material cylinder (8), press frame (6) to slide and set up on material loading platform, layering (7) are located and press frame (6) bottom, press material cylinder (8) drive layering (7) and move in vertical direction so that layering (7) are pressed or are broken away from the belly pad after the vertical limit sewing.
CN202120311586.9U 2021-02-03 2021-02-03 Belly pad system of processing Active CN215517900U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114108191A (en) * 2021-02-03 2022-03-01 苏州琼派瑞特科技股份有限公司 Belly pad system of processing
WO2023137953A1 (en) * 2022-01-19 2023-07-27 苏州琼派瑞特科技股份有限公司 Abdominal pad machining device and machining process therefor

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114108191A (en) * 2021-02-03 2022-03-01 苏州琼派瑞特科技股份有限公司 Belly pad system of processing
WO2023137953A1 (en) * 2022-01-19 2023-07-27 苏州琼派瑞特科技股份有限公司 Abdominal pad machining device and machining process therefor

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