CN220654925U - Slipper machine for manufacturing iXPE foam slippers - Google Patents

Abstract

The utility model relates to the technical field of articles for daily use, and discloses a slipper machine for manufacturing iXPE foam slippers, which comprises a textile unit and a first feeding unit, wherein the textile unit comprises a shoemaking box, a material control pillow block, a spinning cloth measuring table, a sewing and weaving module, a shaping press roller, a crawler belt conveying unit and a finished product carrier plate are arranged in the shoemaking box, the finished product carrier plate is arranged at the top of the crawler belt conveying unit, the first feeding unit is arranged at one side of the textile unit, and a single-mode feeding shaft is arranged in the shoemaking box.

Description

Slipper machine for manufacturing iXPE foam slippers

Technical Field

The utility model relates to the technical field of articles for daily use, in particular to a slipper machine for manufacturing iXPE foam slippers.

Background

The disposable slippers are generally used for five-star hotels, families and guests, and are convenient to produce. Because various sizes of the disposable slippers are certain, the production is easier, and the requirements of the disposable slippers on the slippers are very low unlike those of the recyclable cotton slippers on the slippers, manufacturers do not need to consider excessive factors when producing, and a lot of disposable slippers can be produced quickly by only one proper size.

Chinese patent document CN214904262U discloses a disposable slipper machine of non-woven fabrics, adopt steam ironing in the production process, when making spinning soft, still can play disinfection and sterilization's effect, reduce subsequent disinfection step, directly carry out the packaging procedure, thereby promote production efficiency, adopt the bimodulus feed axle to be responsible for simultaneously carrying two sets of cloths to spinning survey platform department, the in-process is through the transfer time of change gear control between two sets of cloths, ensure the condition that can not appear wrong braiding between two sets of cloths, later carry out the reservation of size and shape by spinning survey platform, weave the processing through sewing braiding module again, after the shoe body preparation shaping, carry out the design through the design compression roller and roll it, consolidate its overall shape, also convenient subsequent storage packaging.

The iXPE foam slippers are composed of an upper layer fabric (upper) and a lower layer fabric (sole), wherein the upper layer fabric is made of cloth, and textile burrs can appear when the slippers are cut and molded through the slipper machine, and the burrs can gradually extend and crack to affect the product quality if the raw burrs are not treated, so that the slipper machine for manufacturing the iXPE foam slippers is provided.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides a slipper machine for manufacturing the iXPE foam slippers, which aims to solve the problems of raw edges after cutting upper layer fabrics of the machine for manufacturing the iXPE foam slippers in the background art.

The utility model provides the following technical scheme: the utility model provides a slipper machine that cotton slippers of iXPE bubble were made usefulness, includes weaving unit, first pay-off unit, weaving unit is including shoemaking case, shoemaking case internally mounted has accuse material arbor table, spins cloth survey platform, sews up and weave module, design compression roller, track conveying unit, finished product carrier plate, the finished product carrier plate is installed at track conveying unit top, first pay-off unit is installed in weaving unit one side, shoemaking case internally mounted has single mode feed axle, accuse material arbor table is through single mode feed axle and spins cloth survey platform butt joint, first pay-off unit is including weaving the work or material rest, the pay-off roller is openly installed to the work or material rest, the pay-off roller lateral wall is fixed with processing surface fabric, shoemaking case back is equipped with second pay-off unit, second pay-off unit structure is the same with first pay-off unit structure, second pay-off unit openly butt joint has the surface fabric folder, the folder openly has the lockstitch machine through the conveyer belt butt joint, the lockman is openly through the conveyer belt butt joint has the embossing machine, the conveyer belt is openly through the butt joint of conveyer belt has the front embossing machine, the front through the butt joint of conveyer belt, the front cut material rest of conveyer, the front is equipped with the front positioning machine, cut material positioning and cut material is equipped with the front and cuts the material.

Further, the material positioning table is including the main platform body, the recess has been seted up at main platform body top, and the activity has cup jointed driving roller mechanism in its recess, driving roller mechanism lateral wall activity has cup jointed two rubber tracks, main platform body one side fixed mounting has step motor, step motor output shaft runs through the main platform body and is connected with driving roller mechanism, driving roller mechanism is including first roller group, second roller group, five centimetres clearance has between first roller group and the second roller group, three centimetres clearance has between two rubber tracks, install the cylinder in the main platform body recess, the air current adsorption component has been butt joint to the cylinder output, air current adsorption component fixed mounting in the recess, the adsorption plate subassembly is installed on the air current adsorption component top, the adsorption plate subassembly is located between first roller group and the second roller group, the adsorption plate subassembly is located between two rubber tracks, distance sensor is installed to main platform body top position in adsorption plate subassembly one side, install the PLC controller in the main platform body recess, distance sensor and controller and solenoid valve electric connection.

Further, the air flow adsorption component comprises an outer cylinder, the inner cylinder is movably sleeved in the inner cylinder, a gap from one centimeter to two centimeters is reserved between the side wall of the inner cylinder and the inner wall of the outer cylinder, the top of the inner cylinder penetrates through the top of the outer cylinder and is in butt joint with the inner part of the adsorption plate component, the output end of the air cylinder penetrates through the outer cylinder and is fixedly connected with the bottom end of the inner cylinder, the air blocking ring is fixedly connected with the inner cylinder, the side wall of the inner cylinder is movably sleeved in the inner cylinder, a plurality of air holes penetrating through the inner cylinder are formed in the bottom end of the side wall of the inner cylinder, the outer cylinder is installed on the inner wall of a groove of a main platform body through two connecting plates, a centrifugal fan is fixedly installed on one side of the main platform body, and an extraction opening of the centrifugal fan is communicated with the inner part of the outer cylinder through a connecting pipe.

Further, the inner wall of the gas blocking ring is attached to the side wall of the inner cylinder.

Further, the material positioning table comprises a plate box, wherein a top plate is fixedly connected to the top of the plate box, and a plurality of through holes are formed in the top of the top plate.

Further, the top of the suction plate assembly is lower than the top of the rubber track in the contracted state.

The utility model has the technical effects and advantages that:

according to the utility model, the first feeding unit and the second feeding unit are arranged, and the upper fabric and the lower fabric are fed separately, and as the upper fabric is formed by the fabrics and is cut directly, the burr condition exists, so that the equipment is added with a serging process after the second feeding unit outputs the materials, after the upper fabric is cut by a cutting machine, the upper fabric of the iXPE foam slipper is subjected to serging, the burr is prevented from extending or tearing, and then the upper fabric is grabbed into the textile unit by a mechanical arm, and is molded by processing with the lower fabric; in addition, the equipment is additionally provided with a folding mechanism, the number of layers of the fabric can be set according to the processing technology, and the embossing machine can be used for processing patterns or trademarks on the fabric conveniently, so that the equipment has more functionality and practicability.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the material positioning table of FIG. 1 according to the present utility model;

FIG. 3 is an exploded view of the material positioning table of FIG. 1 according to the present utility model;

FIG. 4 is an exploded view of the gas flow adsorbing assembly and the adsorbing plate assembly of FIG. 3 according to the present utility model.

The reference numerals are: 1. a textile unit; 2. a first feeding unit; 3. a second feeding unit; 4. a fabric folding machine; 5. a serging machine; 6. an ultrasonic embossing machine; 7. a cutting machine; 8. a material positioning table; 9. a manipulator; 10. a conveyor belt; 11. a shoemaking box; 12. a cloth measuring table; 13. stitching the braiding module; 14. shaping press rolls; 15. a crawler belt conveying unit; 16. a finished product carrier plate; 17. a material control pillow block; 18. a single-mode feed shaft; 21. a weaving frame; 22. a feed roller; 23. processing the fabric; 81. a main table body; 82. a driving roller mechanism; 83. a rubber crawler; 84. a stepping motor; 84. a stepping motor; 85. a cylinder; 86. a distance sensor; 87. a gas flow adsorption assembly; 88. an adsorption plate assembly; 89. a PLC controller; 821. a first roller group; 822. a second roller set; 871. an outer cylinder; 872. a connecting plate; 873. a gas-blocking ring; 874. an inner cylinder; 875. a connecting pipe; 876. a centrifugal fan; 881. a plate box; 882. and a top plate.

Detailed Description

The following describes specific embodiments of the present utility model in detail with reference to the drawings.

Referring to fig. 1, the utility model provides a slipper machine for manufacturing iXPE foam slippers, which comprises a textile unit 1 and a first feeding unit 2, wherein the textile unit 1 comprises a shoemaking box 11, a material control shaft table 17, a spinning cloth measuring table 12, a sewing and weaving module 13, a shaping press roller 14, a crawler conveying unit 15 and a finished product carrier plate 16 are arranged in the interior of the shoemaking box 11, the finished product carrier plate 16 is arranged at the top of the crawler conveying unit 15, the first feeding unit 2 is arranged at one side of the textile unit 1, a single-mode feeding shaft 18 is arranged in the interior of the shoemaking box 11, the material control shaft table 17 is in butt joint with the spinning cloth measuring table 12 through the single-mode feeding shaft 18, the first feeding unit 2 comprises a weaving frame 21, a feeding roller 22 is arranged at the front of the weaving frame 21, the material feeding roller 22 lateral wall is fixed with the processing surface fabric 23, shoemaking case 11 back is equipped with second feeding unit 3, second feeding unit 3 structure is the same with first feeding unit 2 structure, second feeding unit 3 openly dock has surface fabric folder 4, surface fabric folder 4 openly has serging machine 5 through conveyer belt 10 dock, serging machine 5 openly has ultrasonic embossing machine 6 through conveyer belt 10 dock, ultrasonic embossing machine 6 openly has guillootine 7 through conveyer belt 10 dock, guillootine 7 openly has material location platform 8 through conveyer belt 10 dock, material location platform 8 top fixed mounting has manipulator 9, shoemaking case 11 back is equipped with well opening, surface fabric folder 4 model is: ZD-3300, the model of the serging machine 5 is: MS-HP-F2, ultrasonic embossing machine 6 model is: jb-100, and the cutting machine 7 is as follows: BK-31713.

Referring to fig. 2 and 3, the material positioning table 8 comprises a main table body 81, a groove is formed at the top of the main table body 81, a driving roller mechanism 82 is movably sleeved in the groove, two rubber tracks 83 are movably sleeved on the side wall of the driving roller mechanism 82, a stepping motor 84 is fixedly arranged on one side of the main table body 81, an output shaft of the stepping motor 84 penetrates through the main table body 81 and is connected with the driving roller mechanism 82, the driving roller mechanism 82 comprises a first roller shaft set 821 and a second roller shaft set 822, a five-cm gap is formed between the first roller shaft set 821 and the second roller shaft set 822, a three-cm gap is formed between the two rubber tracks 83, an air cylinder 85 is arranged in the groove of the main table body 81, an air flow adsorption assembly 87 is fixedly arranged in the groove, an adsorption plate assembly 88 is arranged at the top end of the air flow adsorption assembly 87, the adsorption plate assembly 88 is positioned between the first roller shaft set 821 and the second roller shaft set 822, the adsorption plate assembly 88 is located between two rubber tracks 83, the distance sensor 86 is installed on one side of the adsorption plate assembly 88 at the top of the main platform body 81, the PLC controller 89 is installed in the groove of the main platform body 81, the distance sensor 86 is electrically connected with the PLC controller 89, the PLC controller 89 is connected with the air cylinder 85 through the electromagnetic valve, after the cut upper fabric is output to the top of the material positioning table 8, the upper fabric is transmitted through the rubber tracks 83, when the fabric passes through the top of the adsorption plate assembly 88, the distance sensor 86 detects signals and controls the air cylinder 85 to output, the adsorption plate assembly 88 is jacked up, the adsorption plate assembly 88 lifts the fabric to achieve the position positioning effect, and the fabric adsorption effect can be achieved through the cooperation of the air flow adsorption assembly 87 and the adsorption plate assembly 88, so that the fabric is prevented from being displaced or falling in the lifting process.

Referring to fig. 4, the airflow adsorption assembly 87 includes an outer cylinder 871, an inner cylinder 874 is movably sleeved in the outer cylinder 871, a gap from one centimeter to two centimeters is formed between the side wall of the inner cylinder 874 and the inner wall of the outer cylinder 871, the top end of the inner cylinder 874 penetrates through the top of the outer cylinder 871 and is in butt joint with the inner side of the adsorption plate assembly 88, the output end of the air cylinder 85 penetrates through the outer cylinder 871 and is fixedly connected with the bottom end of the inner cylinder 874, a gas blocking ring 873 is fixedly connected in the outer cylinder 871, the gas blocking ring 873 is movably sleeved on the side wall of the inner cylinder 874, a plurality of gas holes penetrating to the inside are formed in the bottom end of the side wall of the inner cylinder 874, the outer cylinder 871 is installed on the inner wall of the groove of the main platform 81 through two connecting plates 872, a centrifugal fan 876 is fixedly installed on one side of the main platform 81, an extraction opening of the centrifugal fan 876 is communicated with the inner cylinder 871 through a connecting pipe 875, when the air blocking ring 873 covers the side wall of the inner cylinder 874, the centrifugal fan 876 cannot be in the inner cylinder 874, and after the air cylinder 8785 is output to drive the inner cylinder 874 to move up, the adsorption plate assembly 88, the inner cylinder 874 is driven to move up, and the inner cylinder 874 is located, and the inner cylinder 871 is located through the gap, and the inner cylinder 871, and the material can be extracted through the suction effect.

Referring to fig. 4, the inner wall of the choke ring 873 is attached to the side wall of the inner tube 874, so that the insufficient tightness is avoided when the air holes on the side wall of the inner tube 874 are covered by the choke ring 873.

Referring to fig. 4, the material positioning table 8 includes a plate box 881, a top plate 882 is fixedly connected to the top of the plate box 881, a plurality of through holes are formed in the top of the top plate 882, and the material positioning table 8 is protected from adsorbing materials through the top plate 882 and prevents the materials from being recessed inside the plate box 881.

Referring to fig. 3, the height of the top of the suction plate assembly 88 is lower than the height of the top of the rubber crawler 83 in the contracted state of the cylinder 85, so that the suction plate assembly 88 can prevent the material from being blocked when the rubber crawler 83 transfers the material.

The working principle of the utility model is as follows: when the slippers are used, the lower-layer fabric is output through the first feeding unit 2 on the basis of a traditional slippers machine, the fabric is output from the top of the single-mode feeding shaft 18 to the spinning fabric measuring table 12 through the single-mode feeding shaft 18 after entering the textile unit 1, the lower-layer fabric is subjected to size and shape judgment through the spinning fabric measuring table 12 and is output to the sewing knitting module 13, the upper-layer surface is output through the second feeding unit 3 at the same time, the fabric folding machine 4 is used for carrying out fabric folding to set the fabric layer number, the fabric is output and then is transmitted into the serging machine 5 through the conveying belt 10, the serging machine 5 is used for carrying out sewing and serging on the fabric, the fabric is output and then is transmitted into the ultrasonic embossing machine 6 through the conveying belt 10 to carry out embossing treatment, the attractiveness of the fabric is improved, the fabric is output and then is transmitted into the cutting machine 7 to cut into the shape, the top of the material positioning table 8 is positioned, the material is grabbed through the manipulator 9, the material passes through the back opening of the shoemaking box 11 to the sewing knitting module 13, the upper-layer fabric and the lower-layer fabric are sewn and knitted through the sewing knitting module 13 at the moment, the finished product is finally shaped through the shaping roller 14 and the conveying unit 15 and the crawler 16.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. The present utility model is not limited to the above-described embodiments, and the above-described embodiments and descriptions merely illustrate the principles of the utility model, and various changes and modifications may be made therein without departing from the spirit and scope of the utility model, which is defined by the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a slipper machine that cotton slippers of iXPE bubble were made usefulness, includes weaving unit (1), first feeding unit (2), weaving unit (1) is including shoemaking case (11), shoemaking case (11) internally mounted has accuse material pillow block (17), spins cloth survey platform (12), sews up and weave module (13), design compression roller (14), track conveying unit (15), finished product carrier plate (16) are at track conveying unit (15) top installation, first feeding unit (2) are in weaving unit (1) one side installation, its characterized in that: the utility model provides a shoemaking case (11) internally mounted has single mode feed axle (18), accuse material axle table (17) are through single mode feed axle (18) and spin cloth survey platform (12) butt joint, first pay-off unit (2) are including weaving work or material rest (21), feed roll (22) are installed in the front of weaving work or material rest (21), feed roll (22) lateral wall is fixed with processing surface fabric (23), shoemaking case (11) back is equipped with second pay-off unit (3), second pay-off unit (3) structure is the same with first pay-off unit (2) structure, second pay-off unit (3) are the front butt joint has surface fabric folder (4), surface fabric folder (4) are the butt joint through conveyer belt (10) have lockstitch machine (5), lockstitch machine (5) are the butt joint through conveyer belt (10) have ultrasonic embossing machine (6), ultrasonic embossing machine (6) are the butt joint through conveyer belt (10) have cutting machine (7), cutting machine (7) are the front through conveyer belt (10) butt joint has shoe (8), install in the fixed material open-top in the fixed station (8) location material top (8).

2. The slipper machine for manufacturing iXPE foam slippers according to claim 1, wherein: the material positioning table (8) comprises a main table body (81), the top of the main table body (81) is provided with a groove, a driving roller mechanism (82) is movably sleeved in the groove, two rubber tracks (83) are movably sleeved on the side wall of the driving roller mechanism (82), a stepping motor (84) is fixedly installed on one side of the main table body (81), an output shaft of the stepping motor (84) penetrates through the main table body (81) and is connected with the driving roller mechanism (82), the driving roller mechanism (82) comprises a first roller shaft group (821) and a second roller shaft group (822), a five-centimeter gap is formed between the first roller shaft group (821) and the second roller shaft group (822), a three-centimeter gap is formed between the two rubber tracks (83), an air cylinder (85) is installed in the groove of the main table body (81), an air flow adsorption assembly (87) is fixedly installed in the groove at the output end of the air cylinder (85), an adsorption assembly (87) top end is provided with an adsorption plate assembly (88), the adsorption plate assembly (88) is installed on the top end of the air flow adsorption assembly (87), the adsorption plate assembly (88) is located between the first roller shaft group (821) and the second roller shaft group (822) and the two rubber tracks (88) which are located between the two rubber tracks (81) respectively, a PLC controller (89) is installed in the groove of the main platform body (81), the distance sensor (86) is electrically connected with the PLC controller (89), and the PLC controller (89) is connected with the air cylinder (85) through an electromagnetic valve.

3. The slipper machine for manufacturing iXPE foam slippers according to claim 2, wherein: the air flow adsorption component (87) comprises an outer cylinder (871), an inner cylinder (874) is movably sleeved on the inner side of the outer cylinder (871), a gap from one centimeter to two centimeters is reserved between the side wall of the inner cylinder (874) and the inner wall of the outer cylinder (871), the top of the inner cylinder (874) penetrates through the top of the outer cylinder (871) and is in butt joint with the inner side of the adsorption plate component (88), the output end of the air cylinder (85) penetrates through the outer cylinder (871) and the bottom of the inner cylinder (874) to be fixedly connected with a gas blocking ring (873), the gas blocking ring (873) is movably sleeved on the side wall of the inner cylinder (874), a plurality of air holes penetrating through the inner side wall of the inner cylinder (874) are formed in the inner side wall of the main platform body (81), a centrifugal fan (876) is fixedly arranged on one side of the main platform body (81), and the extraction opening of the centrifugal fan (876) is communicated with the inner side of the outer cylinder (871) through a connecting pipe (875).

4. A slipper machine for making iXPE foam slippers as claimed in claim 3, characterized in that: the inner wall of the gas blocking ring (873) is attached to the side wall of the inner cylinder (874).

5. A slipper machine for making iXPE foam slippers as claimed in claim 3, characterized in that: the material positioning table (8) comprises a plate box (881), wherein a top plate (882) is fixedly connected to the top of the plate box (881), and a plurality of through holes are formed in the top of the top plate (882).

6. The slipper machine for manufacturing iXPE foam slippers according to claim 2, wherein: the top of the suction plate assembly (88) is lower than the top of the rubber track (83) in the contracted state of the cylinder (85).