CN111418920A - Pressure elbow guard and weaving method thereof - Google Patents

Abstract

The invention discloses a pressure elbow guard and a weaving method thereof, and the structure of the pressure elbow guard comprises: the upper rib top knitting part, the lower rib top knitting part, the middle knitted fabric formed between the upper rib top knitting part and the lower rib top knitting part, and the turnable edge observation window component fixed on the middle knitted fabric; the unique pressure design can stabilize fixed pipe, is provided with and can turn over the limit observation window subassembly, not only covers the surface of a wound, and makes things convenient for medical personnel to observe, according to arm size design pressure, wears comfortablely.

Description

Pressure elbow guard and weaving method thereof

Technical Field

The invention relates to a medical auxiliary product, in particular to a pressure elbow pad and a weaving method thereof.

Background

The main function of the elbow pad is to reduce the pressure of the body of people, and simultaneously, the elbow pad can play the effects of keeping warm and protecting joints, so the elbow pad has good efficacy at ordinary times, and can be worn to prevent the body from being injured, and the problem of sprain to a certain degree can be prevented.

After a medical operation, a catheter (a common catheter and a PICC catheter) needs to be fixed, and simultaneously, a wound surface possibly needs to be observed, and a remaining needle possibly covers and observes, a fixing patch is generally used in the market at present, the catheter cannot be stably fixed due to the use of the fixing patch, and the wound surface is completely exposed outside and cannot play a good protection role; the market needs a pressure elbow pad which can play a role of fixing a catheter, can observe the wound surface through an observation window, is convenient for medical workers to work, can be suitable for arms with various thicknesses and is comfortable to wear; the present invention solves such problems.

Disclosure of Invention

In order to solve the defects of the prior art, the invention aims to provide the pressure elbow pad and the weaving method thereof, the unique pressure design can stably fix the catheter, the observation window assembly capable of being turned over is arranged, the wound surface is covered, the observation of medical staff is facilitated, the pressure is designed according to the size of the arm, and the pressure elbow pad is comfortable to wear.

In order to achieve the above object, the present invention adopts the following technical solutions:

a pressure elbow pad, comprising: the upper rib top knitting part, the lower rib top knitting part, the middle knitted fabric formed between the upper rib top knitting part and the lower rib top knitting part, and the turnable observation window component fixed on the middle knitted fabric.

The pressure elbow pad can turn over limit observation window subassembly and constitute and have: set up the observation window on middle looped fabric, one side is fixed in middle looped fabric and covers the flip knitting face of observation window, lies in the fixed one side of flip knitting face and covers the bond line that closes in middle looped fabric, with the adapting unit of one side swing joint of flip knitting face activity on middle looped fabric.

In the pressure elbow pad, the connecting component comprises: the magic tape is covered on one side of the movable side of the flip knitted surface, and the flannelette layer is covered on the middle knitted fabric and is positioned at the upper end of the observation window.

In the pressure elbow pad, the magic tapes are arranged on the front and back sides of the flip knitted surface, and the width of the magic tape is 0.5-1 cm.

In the pressure elbow pad, the flannelette layer is arranged 2-4cm below the upper rib top knitted fabric, and the width of the flannelette layer is 1 cm.

In the pressure elbow pad, the observation window is circular.

A weaving method of the pressure elbow pad comprises the following steps:

the upper rib top knitting part adopts high-elastic moisture-absorbing breathable material to carry out double rib top knitting, and the structure is that 1 piece of padding yarn is embedded every 1 coil;

the middle knitted fabric is woven by a high-elastic moisture-absorbing breathable material for a circular machine provided with an incoming yarn tension control system through a double-path yarn laying embedded structure; the double-path yarn laying embedded structure is characterized in that 1 yarn is embedded every 1 annular yarn;

the lower rib top knitting part is plain knitted by adopting a high-elasticity moisture-absorption breathable material, and the structure is that 1 yarn pad is embedded every 1 coil;

the flip knitting surface is plain-woven by adopting a high-elastic moisture-absorbing breathable material, and the structure is that 1 yarn pad is embedded every 1 coil;

the lower end of the upper rib mouth knitting part adopts a high-frequency hot press to hot press the flannelette layer;

cutting through holes on the middle knitted fabric by adopting a synchronous cutting machine, and sewing by adopting a high-elasticity sewing thread for overlocking to form an observation window;

hot-pressing a flannelette layer at the lower end of the observation window by using a high-frequency hot press;

and sewing the flip knitting surface on the upper end of the observation window by using a sewing machine to obtain the pressure elbow pad.

In the weaving method of the pressure elbow pad,

the incoming line tension control system comprises the following steps: the beginning section → the upper rib cuff section → the middle section → the lower rib cuff section → the mouth-ending section;

the tension values in each section are respectively: the starting section is 450, the upper bead section is 500, the middle section is 520, the lower arm section is 550, the closing section is 750, and the end is 750.

In the weaving method of the pressure elbow pad,

the setting value of the inlet wire tension control system comprises: the transverse width dimension and the transverse stretching rate of the pressure elbow guard;

the setting point of the inlet wire tension control system comprises: an upper rib top knitting part F point, a lower rib top knitting part D point and a middle knitting cloth E point;

go up the setting value of rib top knitting portion F point, the measurement size includes: the small size is 10 plus or minus 0.5cm, the medium size is 10.5 plus or minus 0.5cm, the large size is 11 plus or minus 0.5cm, and the plus size is 12 plus or minus 0.5 cm; the transverse stretching ratio is 110-140;

the setting value of the D point of the knitting portion of the lower rib top measures the size and includes: the small size is 9.5 plus or minus 0.5cm, the medium size is 10 plus or minus 0.5cm, the large size is 11 plus or minus 0.5cm, and the plus size is 11.5 plus or minus 0.5 cm; the transverse stretching ratio is 110-140;

the setting value of middle looped fabric E point, the measurement size includes: the small size is 8 plus or minus 0.5cm, the medium size is 8.5 plus or minus 0.5cm, the large size is 9 plus or minus 0.5cm, and the plus size is 9.5 plus or minus 0.5 cm; the transverse stretching ratio is 110-140;

in the weaving method of the pressure elbow pad,

the specific weaving method of the double-path yarn laying embedded structure comprises the following steps: 4 paths of yarns simultaneously enter a knitting area, wherein the 1 st and 3 rd raw materials are embedded yarns, the tension of the yarns entering the knitting area is controlled by a yarn incoming tension device, and the tension value is gradually increased from a point F of an upper rib top knitting part to a point E of a middle knitted fabric to a point D of a lower rib top knitting part; the 2 nd and 4 th yarns are annular looped yarns and are directly knitted into the pressure elbow guard body without passing through an inlet wire tension device.

The invention has the advantages that:

the catheter fixing device can stably fix the catheter by designing different sizes for the thicknesses of different arms;

different pressure designs are carried out on each part of the elbow pad, so that the elbow pad is comfortable to wear;

the invention is provided with the observation window assembly which can be turned over, thereby not only covering the wound surface, but also facilitating the observation of medical staff;

the observation window is circular, accords with the structural design at the popliteal fossa, ensures the comfort level in the bending process and does not generate fold indentations;

a flip surface is arranged above the observation window, so that the observation window is conveniently covered;

the upper end and the lower end of the observation window are respectively provided with a velvet layer, so that the turnover cover face is convenient to fix, and the wearing comfort and the observation convenience are ensured.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of a two-way lay-up inlay configuration of the present invention;

FIG. 3 is a schematic front view of the plain stitch construction of the present invention;

FIG. 4 is a schematic view of the interlock structure of the present invention;

FIG. 5 is a schematic view of the weaving process of the lattice structure of the present invention;

FIG. 6 is a schematic view of the present invention in wear;

fig. 7 is a schematic view of the flip cover knit face of the present invention after being flipped open and secured.

The meaning of the reference symbols in the figures:

1 rib knitting portion, 2 flannelette layers, 3 adhesive layers, 4 flip knitting surfaces, 5 observation windows, 6 magic tapes, 7 middle knitted fabrics and 8 lower rib knitting portions.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

A pressure elbow pad, comprising: the upper rib top knitting part 1, the lower rib top knitting part 8, the middle knitted fabric 7 formed between the upper rib top knitting part 1 and the lower rib top knitting part 8, and the turnable edge observation window component fixed on the middle knitted fabric 7. As shown in FIG. 1, the assembly of the reversible observation window 5 comprises: an observation window 5 arranged on the middle knitted fabric 7, a flip knitted surface 4 with one side fixed on the middle knitted fabric 7 and covering the observation window 5, an adhesive layer 3 positioned on one side where the flip knitted surface 4 is fixed and covering the middle knitted fabric 7, and a connecting part movably connecting one side where the flip knitted surface 4 moves to the middle knitted fabric 7; the connecting component comprises: the magic tape 6 is covered on one side of the movable flip knitting surface 4, and the flannelette layer 2 is covered on the middle knitted fabric 7 and is positioned at the upper end of the observation window 5.

The magic tape 6 is arranged on the front and the back of the flip knitting surface 4, and the width of the magic tape 6 is 0.5-1 cm. A flannelette layer 2 is arranged 2-4cm below the upper rib mouth knitted fabric, and the width of the flannelette layer 2 is 1 cm.

The observation window 5 includes: round, square, oval and various irregular shapes; the shape is not limited. Preferably, the viewing window 5 is circular, conforming to the structural design of the popliteal fossa, ensuring comfort during the bending process, without creasing

A weaving method of the pressure elbow pad comprises the following steps:

the upper rib top knitting part 1 adopts high-elastic moisture absorption breathable materials to carry out double rib top knitting by using professional German MERZ equipment or Italy L ONATI equipment, and the structure is that 1 piece of padding yarn is embedded every 1 coil;

preferably, the high-elasticity moisture-absorption breathable material is modified moisture-absorption breathable spandex, chinlon, cotton yarn and the like. The modified material is mainly characterized in that the cross section of the material is subjected to physical treatment, including cross groove treatment, triangular groove treatment and the like, and the chemical treatment is mainly to add bacteriostatic and antibacterial auxiliary agents, such as silver ion components.

The middle knitted fabric 7 is woven by adopting a professional German MERZ device provided with an incoming tension control system or Italy L ONATI device through a two-way lapping yarn embedded structure by using a high-elastic moisture-absorbing breathable material, wherein the two-way lapping yarn embedded structure is formed by embedding 1 yarn every 1 annular yarn as shown in figure 2;

the tension control system adopts APP GR 6D 3+ special software (Quasar L, Photon) provided by Italy equipment manufacturers and MERZ software (CC4II 963Programming Module, CC4II963Bitmap _ Converter) provided by Germany equipment manufacturers to edit the pressure elbow guard program steps, control the pressure elbow guard structure and convert the program codes into a language which can be recognized by a machine in a data mode.

The incoming line tension control system comprises the following steps: a starting section → an upper bead section (upper arm) → an intermediate section → a lower bead section (lower arm) → a closing-in section → a finishing;

the tension values in each section are respectively: the starting section is 450, the upper bead section is 500, the middle section is 520, the lower arm section is 550, the closing section is 750, and the end is 750.

The setting value of the inlet wire tension control system comprises: the transverse width dimension and the transverse stretching rate of the pressure elbow guard;

the setting point of the inlet wire tension control system comprises: the point 1F of the upper rib top knitting part, the point 8D of the lower rib top knitting part and the point 7E of the middle knitted fabric;

D. e, F points, the dimensions measured are shown in Table 1 below;

for convenience, as shown in the following table, the upper rib knit portion 1F, the lower rib knit portion 8D, the intermediate knitted fabric 7E, the circumferential range and the lateral stretch ratio;

TABLE 1

The specific weaving method of the double-path yarn laying embedded structure comprises the following steps: 4 paths of yarns simultaneously enter a knitting area, wherein the 1 st and 3 rd raw materials are embedded yarns, the tension of the yarns entering the knitting area is controlled by a yarn incoming tension device, and the tension value is gradually increased from a point 1F of an upper rib top knitting part to a point 7E of a middle knitted fabric to a point 8D of a lower rib top knitting part; the 2 nd and 4 th yarns are annular looped yarns and are directly knitted into the pressure elbow guard body without passing through an inlet wire tension device.

The lower rib top knitting part 8 adopts high-elastic moisture absorption breathable material to carry out plain knitting by using professional German MERZ equipment or Italy L ONATI equipment, and the structure is that 1 piece of lapping yarn is embedded every 1 coil;

as an example, the upper rib knitting part 1 and the lower rib knitting part 8 are knitted in a lattice structure, and as shown in fig. 5, the method of knitting the lattice structure is: raising a needle, opening a needle tongue, raising floating threads, inserting threads, looping yarns, withdrawing the needle tongue and raising the needle; the structure as in fig. 4 is finally obtained.

The flip knitting surface 4 is plain knitted by adopting a high-elastic moisture-absorbing breathable material, and the structure is that 1 yarn pad is embedded every 1 coil; as an example, a plain needle structure is shown in fig. 3.

The lower end of the upper rib mouth knitting part 1 adopts a high-frequency hot press to hot press the flannelette layer 2;

cutting through holes on the middle knitted fabric 7 by adopting a synchronous cutting machine, sewing the through holes by adopting high-elasticity sewing threads to form an observation window 5, fixing a magic tape 6 at the movable end of the middle knitted fabric 7, wherein the magic tape 6 is double-sided;

the lower end of the opening 5 of the observation window is hot-pressed with a high-frequency hot press to form a flannelette layer 2;

the flip cover knitted face 4 is sewn on the upper end of the opening of the observation window 5 by using a sewing machine to obtain the pressure elbow pad, and the wearing schematic diagram is shown in fig. 6.

Experimental verification section:

experiment one: fixed wearing experiments;

30 volunteers were recruited, 10 individuals of volunteers with weight ranging from 40kg to 55kg used the small population, 10 individuals of volunteers with weight ranging from 55kg to 65kg used the medium population, 10 individuals of volunteers with weight ranging from 65kg to 75kg used the large population, and 10 individuals of volunteers with weight ranging from 75kg to 85kg used the large population. Each model made 10 products, distributed to volunteers, observed wearing, as shown in table 3, and asked for use experience:

TABLE 3

Experiment two: an antibacterial test experiment;

modified moisture-absorbing breathable spandex is adopted as a high-elastic moisture-absorbing breathable material. The cross section of the modified moisture-absorbing breathable spandex is subjected to cross-shaped groove treatment, silver ion components are added to be used as chemical modification, and 3 products are sampled;

TABLE 4

Experiment three: air permeability and quick drying tests;

the product produced by the sampling experiment II is subjected to a quick-drying speed test, and a comparison sample adopts a product A purchased from a common material;

air permeability: the time required for the product to be naturally dried is compared with that of a control sample under the same condition, and the result is shown in table 4;

TABLE 5

As can be seen from experiments 1-3, the product of the invention has high comfort level, and the arranged turnover observation window 5 component can not only cover the wound surface, but also facilitate observation of medical staff; and the material has antibacterial property and air permeability, and is suitable for wound healing after operation.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.

Claims (10)

1. A pressure elbow pad, comprising: the upper rib top knitting part, the lower rib top knitting part, the middle knitted fabric formed between the upper rib top knitting part and the lower rib top knitting part, and the turnable observation window component fixed on the middle knitted fabric.

2. A pressure elbow guard according to claim 1 wherein the reversible viewing window assembly comprises: the observation window is arranged on the middle knitted fabric, one side of the observation window is fixed on the middle knitted fabric and covers the flip knitted surface of the observation window, the side, which is fixed on the flip knitted surface, covers the adhesive layer of the middle knitted fabric, and the connecting part is used for movably connecting one side, which is movable, of the flip knitted surface to the middle knitted fabric.

3. A pressure elbow support according to claim 2 wherein the connecting means comprises: the magic tape is covered on one side of the movable side of the flip knitted surface, and the flannelette layer is covered on the middle knitted fabric and is positioned at the upper end of the observation window.

4. The pressure elbow pad as claimed in claim 3, wherein the magic tape is provided on both sides of the knitted side of the flip, and the width of the magic tape is 0.5-1 cm.

5. A pressure elbow pad according to claim 3 wherein a fleece layer is provided 2-4cm below the rib top knitted fabric, said fleece layer having a width of 1 cm.

6. A pressure elbow support according to claim 1 wherein the viewing window is circular.

7. A weaving method of a pressure elbow pad is characterized by comprising the following steps:

the upper rib top knitting part adopts high-elastic moisture-absorbing breathable material to carry out double rib top knitting, and the structure is that 1 piece of padding yarn is embedded every 1 coil;

the middle knitted fabric is woven by a high-elastic moisture-absorbing breathable material for a circular machine provided with an incoming yarn tension control system through a double-path yarn laying embedded structure; the double-path yarn laying embedded structure is characterized in that 1 yarn is embedded every 1 annular yarn;

the lower rib top knitting part is plain knitted by adopting a high-elasticity moisture-absorption breathable material, and the structure is that 1 yarn pad is embedded every 1 coil;

the flip knitting surface is plain-woven by adopting a high-elastic moisture-absorbing breathable material, and the structure is that 1 yarn pad is embedded every 1 coil;

the lower end of the upper rib mouth knitting part adopts a high-frequency hot press to hot press the flannelette layer;

cutting through holes on the middle knitted fabric by adopting a synchronous cutting machine, and sewing by adopting a high-elasticity sewing thread for overlocking to form an observation window;

hot-pressing a flannelette layer at the lower end of the observation window by using a high-frequency hot press;

and sewing the flip knitting surface on the upper end of the observation window by using a sewing machine to obtain the pressure elbow pad.

8. A method of weaving a pressure elbow pad according to claim 7,

the incoming line tension control system comprises the following steps: the beginning section → the upper rib cuff section → the middle section → the lower rib cuff section → the mouth-ending section;

the tension values in each section are respectively: the starting section is 450, the upper bead section is 500, the middle section is 520, the lower arm section is 550, the closing section is 750, and the end is 750.

9. A method of weaving a pressure elbow pad according to claim 7,

the setting value of the inlet wire tension control system comprises: the transverse width dimension and the transverse stretching rate of the pressure elbow guard;

the setting point of the inlet wire tension control system comprises: an upper rib top knitting part F point, a lower rib top knitting part D point and a middle knitting cloth E point;

go up the setting value of rib top knitting portion F point, the measurement size includes: the small size is 10 plus or minus 0.5cm, the medium size is 10.5 plus or minus 0.5cm, the large size is 11 plus or minus 0.5cm, and the plus size is 12 plus or minus 0.5 cm; the transverse stretching ratio is 110-140;

the setting value of knitting portion D point of rib top down, the measurement size includes: the small size is 9.5 plus or minus 0.5cm, the medium size is 10 plus or minus 0.5cm, the large size is 11 plus or minus 0.5cm, and the plus size is 11.5 plus or minus 0.5 cm; the transverse stretching ratio is 110-140;

the setting value of middle looped fabric E point, the measurement size includes: the small size is 8 plus or minus 0.5cm, the medium size is 8.5 plus or minus 0.5cm, the large size is 9 plus or minus 0.5cm, and the plus size is 9.5 plus or minus 0.5 cm; the transverse stretching ratio is 110-140.

10. A method of weaving a pressure elbow pad according to claim 7,

the specific weaving method of the double-path yarn laying embedded structure comprises the following steps: 4 paths of yarns simultaneously enter a knitting area, wherein the 1 st and 3 rd raw materials are embedded yarns, the tension of the yarns entering the knitting area is controlled by a yarn incoming tension device, and the tension value is gradually increased from a point F of an upper rib top knitting part to a point E of a middle knitted fabric to a point D of a lower rib top knitting part; the 2 nd and 4 th yarns are annular looped yarns and are directly knitted into the pressure elbow guard body without passing through an inlet wire tension device.

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