阅读说明：本技术 一种防水面料及其加工方法 (Waterproof fabric and processing method thereof ) 是由 银志影 于 2021-10-21 设计创作，主要内容包括：本发明涉及布料生产技术领域,更具体的说是一种防水面料及其加工方法；能够在满足防水的同时拥有很好的透气性,防水面料,包括设置有多排圆孔的外层面料,以及遮盖多排圆孔的多个遮盖帘,以及外层面料上设置的内衬面料,其中,遮盖帘能够打开使圆孔漏出；用于加工防水面料的加工方法,该方法包括以下步骤：步骤一：在速干面料上进行打孔,得到具有均布这多个圆孔的外层面料；步骤二：在布料上涂覆防水涂料,并在晾干之后裁剪出遮盖帘；步骤三：使用棉花和无纺布粘贴压合得到内衬面料,并将内衬面料粘贴在外层面料上；步骤四：将多个遮盖帘依次粘贴在外层面料上,获得防水面料。(The invention relates to the technical field of cloth production, in particular to a waterproof fabric and a processing method thereof; the waterproof fabric comprises an outer layer fabric provided with a plurality of rows of round holes, a plurality of covering curtains for covering the plurality of rows of round holes and an inner lining fabric arranged on the outer layer fabric, wherein the covering curtains can be opened to enable the round holes to leak out; the processing method for processing the waterproof fabric comprises the following steps: the method comprises the following steps: punching holes on the quick-drying fabric to obtain an outer-layer fabric with a plurality of uniformly distributed round holes; step two: coating waterproof paint on the cloth, and cutting out the covering curtain after airing; step three: sticking and pressing cotton and non-woven fabrics to obtain lining fabrics, and sticking the lining fabrics on the outer layer fabrics; step four: and (3) sequentially sticking a plurality of covering curtains on the outer-layer fabric to obtain the waterproof fabric.)

1. A waterproof fabric is characterized in that: including the outer surface fabric that is provided with the multirow round hole to and cover a plurality of shades of multirow round hole, and the inside lining material that sets up on the outer surface fabric, wherein cover the curtain and can open and make the round hole spill.

2. A processing method for processing waterproof fabric is characterized by comprising the following steps:

the method comprises the following steps: punching holes on the quick-drying fabric to obtain an outer-layer fabric with a plurality of uniformly distributed round holes;

step two: coating waterproof paint on the cloth, and cutting out the covering curtain after airing;

step three: sticking and pressing cotton and non-woven fabrics to obtain an inner-supporting fabric, and sticking the inner-supporting fabric on an outer-layer fabric;

step four: and (3) sequentially sticking a plurality of covering curtains on the outer-layer fabric to obtain the waterproof fabric.

3. The waterproof fabric processing method according to claim 2, characterized in that: the waterproof fabric processing device comprises a rotating frame (01) and a plurality of cutting pipes (10) arranged on the rotating frame (01), wherein two ends of the rotating frame (01) are fixedly connected with a rotating sleeve (02), and the rotating frame (01) can rotate around the axis of the rotating frame.

4. The waterproof fabric processing method according to claim 3, characterized in that: a push plate (11) slides in the cutting pipe (10), and a spring is arranged between the push plate (11) and the cutting pipe (10).

5. The waterproof fabric processing method according to claim 3, characterized in that: the rubber ring (03) is arranged on each of two sides of the rotating frame (01), and the rubber rings (03) are made of elastic rubber.

6. The waterproof fabric processing method according to claim 4, characterized in that: the device also comprises two side plates (07) and two brackets (08) for adjusting the height of the two side plates (07), wherein each bracket (08) is provided with a bolt, the two side plates (07) rotate on the two bolts respectively, and the two rotating sleeves (02) rotate on the two side plates (07) respectively.

7. The waterproof fabric processing method according to claim 6, characterized in that: the device also comprises a gear (09) arranged on one of the side plates (07) and a gear ring (04) fixedly connected to one of the rotary sleeves (02), wherein the gear ring (04) is meshed with the gear (09).

8. The waterproof fabric processing method according to claim 7, characterized in that: the device also comprises a middle shaft (05) and a plurality of convex blocks (06) uniformly distributed on the middle shaft (05), wherein the convex blocks (06) can be respectively contacted with the push plates (11), and two ends of the middle shaft (05) respectively penetrate through the two rotary sleeves (02) and are fixedly connected onto the two side plates (07).

9. The waterproof fabric processing method according to claim 8, characterized in that: the device also comprises an inclined plate (20) and a rotating plate (21) which rotates on the inclined plate (20), wherein the inclined plate (20) is provided with a bulge (22) and a boss (23), and the inclined plate (20) is fixedly connected to the two side plates (07).

10. The waterproof fabric processing method according to claim 9, characterized in that: the device also comprises a conveying part, and the conveying part can level the quick-drying fabric before processing.

Technical Field

The invention relates to the technical field of cloth production, in particular to a waterproof fabric and a processing method thereof.

Background

With the continuous development of science and technology, textile fabrics meeting different requirements of people are in a large number to meet the requirements of consumers, and play an increasingly important role in daily life of people; most of the currently used waterproof fabrics are directly coated with a waterproof coating on the surface of a fabric body, and the garment fabric is good in waterproof performance but not breathable.

Disclosure of Invention

In order to overcome the defects of the prior art, the waterproof fabric and the processing method thereof provided by the invention can meet the waterproof requirement and have good air permeability.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides a waterproof fabric, is including the outer surface fabric that is provided with the multirow round hole to and cover a plurality of shades curtains of multirow round hole, and the inside lining surface fabric that sets up on the outer surface fabric, wherein, cover the curtain and can open and make the round hole spill.

A processing method for processing waterproof fabric comprises the following steps:

the method comprises the following steps: punching holes on the quick-drying fabric to obtain an outer-layer fabric with a plurality of uniformly distributed round holes;

step two: coating waterproof paint on the cloth, and cutting out the covering curtain after airing;

step three: sticking and pressing cotton and non-woven fabrics to obtain lining fabrics, and sticking the lining fabrics on the outer layer fabrics;

step four: and (3) sequentially sticking a plurality of covering curtains on the outer-layer fabric to obtain the waterproof fabric.

Further use a waterproof surface fabric processingequipment in step one, the device is including changeing the frame to and set up a plurality of cutting pipes on changeing the frame, wherein change the equal rigid coupling in both ends of frame and have a commentaries on classics cover, change the frame and can revolve around self axis.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a flow chart of a waterproof fabric processing method in the invention;

FIG. 2 is a schematic structural view of a waterproof fabric according to the present invention;

FIG. 3 is a schematic structural view of a rotating frame and a rotating sleeve according to the present invention;

FIG. 4 is a schematic view of the structure of the cutting tube and the push plate according to the present invention;

FIG. 5 is a schematic view of the construction of the side plate and the bracket according to the present invention;

FIG. 6 is a schematic structural view of a center shaft and a bump according to the present invention;

FIG. 7 is a schematic structural view of a middle shaft and a rotating sleeve in the present invention;

FIG. 8 is a schematic structural view of the swash plate and the rotary plate according to the present invention;

FIG. 9 is a schematic view of the structure of the cutting tube and the rotating plate according to the present invention;

FIG. 10 is a schematic structural view of a base in the present invention;

FIG. 11 is a schematic view of the structure of the heating plate according to the present invention;

fig. 12 is a schematic structural view of a waterproof fabric processing device in the invention.

Detailed Description

Referring to fig. 1 and 2, an exemplary working process of the application method of the waterproof fabric shown in the figures is as follows:

the waterproof fabric comprises an outer fabric provided with a plurality of rows of round holes, and a plurality of covering curtains covering the plurality of rows of round holes, and an inner lining fabric arranged on the outer fabric, wherein a covering curtain is arranged between every two rows of round holes, one side of the covering curtain is fixed on the outer fabric between every two rows of round holes, and the other side of the covering curtain is not fixed, so that the covering curtain can be opened to enable the round holes to leak, and when the waterproof fabric is used specifically, only the plurality of rows of round holes are required to be kept on a horizontal line, at the moment, the plurality of covering curtains can cover one row of round holes below the covering curtain because of self gravity hanging down, and the width of each covering curtain is larger than the distance between every two adjacent covering curtains, so when the plurality of covering curtains hang down to cover the plurality of round holes, the plurality of covering curtains are pressed one from top to bottom, thereby enabling the plurality of covering curtains to form a protective layer like a fish scale, thereby when using the clothing that waterproof fabric made in this application, shelter from cloth, can utilize "fish scale" the same "protective layer" waterproof in rainy day, make the rainwater contact after a plurality of cover curtains smooth down, and can not soak outer surface fabric or enter into in the middle of the round hole, multirow round hole can still provide the passageway that the air flows and exchanges in rainy day simultaneously, avoided current waterproof cloth to lead to appearing airtight condition because need guarantee the leakproofness.

Referring to fig. 1 and 2, the process flow of processing the waterproof fabric according to the drawings is as follows:

the processing method for processing the waterproof fabric comprises the following steps: firstly, punching holes on a quick-drying fabric to obtain an outer-layer fabric with a plurality of uniformly distributed round holes; then coating waterproof paint on the cloth, and cutting out the covering curtain after airing; secondly, sticking and pressing cotton and non-woven fabrics to obtain lining fabrics, and sticking the lining fabrics on the outer layer fabrics; finally, sequentially adhering the plurality of covering curtains to the outer-layer fabric to obtain the waterproof fabric; according to the processing method in the application, after the waterproof coating is coated on the cloth positioned on the outermost layer of the waterproof fabric, the waterproof fabric can be prevented from being water, so that the outer-layer fabric and the lining fabric are protected.

Referring to fig. 3 and 4, one exemplary process by which round holes can be machined is shown:

in the first step, a waterproof fabric processing device is used, and the device comprises a rotating frame 01 and a plurality of cutting pipes 10 arranged on the rotating frame 01, wherein two ends of the rotating frame 01 are fixedly connected with a rotating sleeve 02, and the rotating frame 01 can rotate around the axis of the rotating frame 01; when processing the round hole, at first rotate two cover 02 respectively on the outside power supply, make the outside power supply rotate the rotation that realizes changeing frame 01 through driving two cover 02, make simultaneously changeing frame 01 and drive a plurality of sanction pipes 10 and rotate, and make and rotate at every turn and all with the plane contact who places the rapid-curing cutback surface fabric a plurality of sanction pipes 10 of bottommost, alright drive a plurality of sanction pipes 10 at commentaries on classics frame 01 and rotate and cut the rapid-curing cutback surface fabric, and can utilize the contact drive rapid-curing cutback surface fabric between a plurality of sanction pipes 10 and the rapid-curing cutback surface fabric to remove, utilize a plurality of sanction pipes 10 to process out the round hole on the rapid-curing cutback surface fabric.

Referring to fig. 4, one exemplary operation that can be achieved to avoid blocking the cut tube 10 from waste material cut from the quick drying fabric is as follows:

when cutting pipe 10 cuts the rapid-curing cutback surface fabric, the waste material that cuts off can enter into cutting pipe 10 when, thereby can lead to a large amount of waste materials to fill up cutting pipe 10 in the long term and appear blockking up, so in this application cut in the middle of the pipe 10 and slide there is push pedal 11, be provided with the spring between push pedal 11 and the cutting pipe 10, when cutting pipe 10 cuts the rapid-curing cutback surface fabric, the waste material that cuts off can receive the planar support of placing the rapid-curing cutback surface fabric and push pedal 11 and enter into cutting pipe 10 when, and the spring is compressed this moment, when cutting pipe 10 rotates and leaves the plane of placing the rapid-curing cutback surface fabric, the spring can drive push pedal 11 and reset, push pedal 11 can push away the waste material that cuts in the middle of cutting pipe 10 this moment to just will cut pipe 10 when the cleaning up after cutting at every turn.

Referring to fig. 3 and 7, an exemplary working process for driving the quick-drying fabric to move synchronously according to the drawings is as follows:

when round holes are cut, the quick-drying fabric needs to move synchronously, so that two sides of the rotating frame 01 are provided with the rubber rings 03, the rubber rings 03 are made of elastic rubber, when the quick-drying fabric cutting machine is used, only the lowest ends of the two rubber rings 03 need to be in contact with a plane for placing the quick-drying fabric, and adaptive elastic deformation occurs, so that the cutting tubes 10 can be in contact with the plane for placing the quick-drying fabric, and then when the rotating frame 01 rotates, when round holes are machined in the plurality of cutting tubes 10, the friction force of the rubber rings 03 is utilized to drive the quick-drying fabric to move;

and can utilize two rubber rings 03 to compress tightly the both sides on the rapid-curing cutback surface fabric width direction, avoid leading to the rapid-curing cutback surface fabric perk around a plurality of cutting pipes 10 or the fold appears when a plurality of cutting pipes 10 cut to avoided because perk or fold cause the round hole of processing to be the condition of deformity.

Referring to fig. 5 and 7, an exemplary working process for adjusting the quick drying fabric according to the drawings is as follows:

the device still includes two curb plates 07, and adjust two supports 08 of two curb plate 07 heights, all be provided with the bolt on every support 08, two curb plates 07 rotate respectively on two bolts, two change cover 02 and rotate respectively on two curb plates 07, in the time of the operation, only need to rotate two bolts, alright drive two curb plates 07 respectively and carry out the adjustment of height with making two bolts, thereby realize that two curb plates 07 drive and change frame 01 and go up and down, realize that two rubber circle 03 compress tightly the rapid-curing cutback surface fabric or loosen, can adjust the rapid-curing cutback surface fabric when loosening, avoid the rapid-curing cutback surface fabric crooked appear when removing.

Referring to fig. 5 and 7, one exemplary process by which automation may be implemented is as follows:

the device also comprises a gear 09 arranged on one side plate 07 and a gear ring 04 fixedly connected on one rotating sleeve 02, wherein the gear ring 04 is meshed with the gear 09, the gear 09 is driven by a speed reducing motor, and the speed reducing motor is arranged on the corresponding side plate 07.

Referring to fig. 6, 7 and 9, one exemplary operation that can be achieved to avoid waste material from becoming lodged in the cut tube 10 is as follows:

when the waste material is clamped in the cutting pipe 10 and the push plate 11 of the spring is not enough to push the waste material out of the cutting pipe 10, other modes are needed to dredge and clean the cutting pipe 10, in order to solve the above problems, the device in the application further comprises a central shaft 05 and a plurality of bumps 06 uniformly distributed on the central shaft 05, the bumps 06 can be respectively contacted with the push plates 11, two ends of the central shaft 05 respectively penetrate through two rotating sleeves 02 to be fixedly connected on two side plates 07, therefore, after the cutting pipe 10 is cut once, when the cutting pipe 10 rotates continuously, the push plate 11 in the cutting pipe 10 clamped by the waste material slides inwards, the inner end of the push plate 11 is close to the central shaft 05, when the push plate 11 is contacted with the corresponding bump 06, the push plate is pushed outwards by the outward extrusion of the bumps 06, the push plate 11 slides outwards, and the process that the inner end of the push plate 11 slides back to the original position outwards after being extruded is realized, thereby ensuring that the cutting pipe 10 can be cleaned and avoiding the situation of blockage.

Referring to fig. 8, 9 and 12, one exemplary operation that can be achieved to collect the pushed waste material from the cutting tube 10 is as follows:

in order to avoid the above situation, the device further comprises a sloping plate 20 and a rotating plate 21 rotating on the sloping plate 20, wherein the sloping plate 20 is provided with a protrusion 22 and a boss 23, the sloping plate 20 is fixedly connected to the two side plates 07, the lower end surface of the rotating plate 21 contacts the protrusion 22, so that the rotating plate 21 is kept in an inclined position, when the cutting pipe 10 rotates to jack up the rotating plate 21 from below, the rotating plate 21 can rotate upwards to enable the cutting pipe 10 to pass smoothly, and the waste in the cutting pipe 10 is not cleared, after the cutting pipe 10 passes, the rotating plate 21 rotates back downwards due to self gravity, so that the waste in the cutting pipe 10 falls on the rotating plate 21 after being cleared, the waste materials slide downwards along the inclined rotating plate 21 and the inclined plate 20, and are guided by the lug bosses 23 to move away from the upper part of the processed quick-drying fabric and fall on other positions so as to be prevented from falling on the quick-drying fabric;

simultaneously when rotating the cutting tube 10 through the commentaries on classics board 21 and clearing up the waste material, the commentaries on classics board 21 below also has subsequent cutting tube 10 to rotate and comes, after the cutting tube 10 waste material that is located the commentaries on classics board 21 top is cleared up out and is fallen on the commentaries on classics board 21, subsequent cutting tube 10 can push up commentaries on classics board 21 again and upwards rotates to make commentaries on classics board 21 inclination increase, make the waste material that has fallen on the commentaries on classics board 21 guided and continue to slide towards swash plate 20, avoid the waste material to pile up on the commentaries on classics board 21.

Referring to fig. 10 and 11, one exemplary process for guiding the movement of the quick drying fabric according to the present disclosure is:

the conveying part comprises a base 30, two rotating wheels 32, two pressing rollers 33, four screw rods 34 and four sliding blocks 37, wherein two ends of each pressing roller 33 are respectively connected with one sliding block 37 in a switching mode, the four sliding blocks 37 respectively rotate on the four screw rods 34, the four screw rods 34 are all arranged on the base 30, and the four sliding blocks 37 all slide on the base 30; when the quick-drying fabric is used, the quick-drying fabric sequentially passes through the lower parts of the compression rollers 33 according to the left-to-right direction in the figure 10, the quick-drying fabric on the base 30 is tensioned under the guiding action of the two compression rollers 33, and the quick-drying fabric is flatly spread on the base 30, so that the circular holes can be conveniently processed;

and the two press rollers 33 respectively correspond to the two rubber rings 03 up and down, so that the quick-drying fabric is utilized when moving. Two compression rollers 33 cooperate with the upper and lower of two rubber circles 03 respectively, make the rapid-curing cutback surface fabric remove smoothly, avoid the rapid-curing cutback surface fabric card on base 30.

Referring to fig. 10 and 11, one exemplary process by which ironing of the quick drying fabric may be achieved is as follows:

be provided with hot plate 35 on the base 30, one of them compression roller 33 is located hot plate 35 below, and hot plate 35 below is provided with the copper line, copper line external power, and compression roller 33 adopts metal material, and the magnetic field that can produce behind the copper line circular telegram makes compression roller 33 surface heating to the rapid-curing cutback surface fabric that passes the lower part irones, makes the rapid-curing cutback surface fabric keep leveling.

Referring to fig. 10 and 11, an exemplary operation for cleaning the waste material from the round hole is shown:

after cutting pipe 10 cuts, some waste materials do not enter into cutting pipe 10 because self and the not enough reason of cutting pipe 10 inner wall frictional force and work as well, and make and remain in the middle of the round hole, at this moment, when the round hole in the time of the compression roller 33 below that is located the right side, along with the rotation of compression roller 33, a plurality of round platforms 36 can enter into in the round hole with remaining waste materials in the round hole extrude downwards, avoid the waste materials to remain in the middle of the round hole.