JP2711944B2 - Interlining for burning appliances - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an interlining for a burning appliance such as a petroleum stove, a petroleum stove or the like which mainly uses kerosene as a fuel.

[0002]

2. Description of the Related Art Conventionally, a heat-resistant combustion section made of a thick fabric such as glass fiber or a glass fiber-carbon fiber blend is connected to the upper portion of a fuel suction portion made of a thick fabric made of cotton yarn or cotton and rayon blended. There is known an interlining for a combustion appliance having a shape like a letter.

[0003] Also, thick warp yarns in which glass, cotton or other fibers are always bundled or twisted are arranged side by side, and a glass fiber felt-like fiber layer is polymerized on both front and back surfaces, and the glass fiber of the felt-like fiber layer is needle-punched. Interlining for a combustor with thick warp yarns laid side by side
-36170.

[0004] The applicant of the present invention has previously described FIG.
2. Thick yarn 3 on the web cloth 31 shown in FIG.
Are sequentially provided in the vertical direction over the upper and lower sides of the web cloth 31, and the linear thread portions 3 are formed on the surface 34 of the web cloth 31.
5 is formed, a loop-shaped thread portion 37 is formed on the back surface 36, and a linear thread portion 35 is formed on the loop-shaped thread portion 37.
.. Are knitted by successively hooking the streaks 32 , and knitting is performed, and a sewing thread-like portion 39 is provided in the fuel suction direction.
Sewn over the entire surface with small vertical gaps 40, 40 ...
An application has been made for an interlining for combustion appliances in which thread portions 39, 39... Are arranged in parallel (see JP-A-3-170706) .

Further , as shown in FIG.
The combustion core having the web layers 41, 41 is
Stitched via thread 42 by the stitch pond method
Is known (see JP-A-62-49106).
See).

[0006]

Problems to be Solved by the Invention By the way, the former cotton yarn
Or a fuel wick made of thick fabric of cotton and rayon blend
Glass fiber or glass fiber and carbon fiber blend
Flat or cylindrical by connecting a heat-resistant combustion part made of thick fabric
The interlining for a combustor having such a shape has the following disadvantages.

[0007]  Production relies on outdated special looms
Therefore, productivity is extremely low and inefficient.

[0008]  Particularly, the fuel suction portion is, for example, 10th 8
Extra-thick cotton yarn such as main twist is used as warp, narrow and special
The number of looms is limited due to the simple organization and further use
Due to the large area, there is often a shortage of supply.

[0009]  Dimensional variation is easy to occur and the defect rate is low
In addition to being high, it shrinks during use and it is difficult for the core guide tube of the instrument
Trouble due to poor elevating of the core is likely to occur.

[0010]  Fraying easily occurs during cutting
Non-fraying processing such as seam stitching or adhesive application is required.
You.

[0011]  Effect of fuel wicking by interlacing of warp and weft
The rate gets worse.

According to Japanese Patent Publication No. 49-36170.
The latter known interlining for combustion appliances simply bundles glass, cotton and other fibers, or lays out thick twisted thick warps side by side, and polymerizes a felt-like fiber layer of glass fibers on both front and back surfaces, The glass fibers of the felt-like fiber layer are entangled with the thick warp yarns arranged side by side by needle punch, so that the adjacent thick warp yarns separate, and further, the thick warp yarns in parallel contact with or separate from the glass fiber felt fiber layer. There are drawbacks such as the deformation of the warp, the dimensional instability at the time of mounting the device, and the like, the effect of sucking up the fuel is poor, and the flames are not uniform.

[0013] FIG. 11 and FIG.
Fuel wicking burner interlining illustrated in FIG. 13, the fuel
Sewing thread shape formed in parallel in the vertical direction which is the suction direction
The large number of thick yarns 32 of the portions 39, 39,.
Of the sewing thread 39
Because the annular thread 37 formed by the formation spreads left and right,
12) Number of yarns 32 that can be arranged in the vertical direction with a certain width
Is limited, the fuel wicking capacity is limited, and since the thick yarn 32 is a thick yarn of 0.5 to 10 yarns in English style, a straight yarn is formed on the surface of the interlining. Since the unevenness is formed by the portion 35 and the annular thread portion 37, the adhesiveness to the burning appliance is not good, and there has been a problem such as oil leakage when falling.

Further , as shown in FIG .
The combustion core having the web layers 41, 41 is
Stitched via thread 42 by the stitch pond method
Sucks fuel by the capillary action of the long fiber 43
The thread 42 does not have the function of sucking up fuel
In addition, the web layers 41, 41 can hold fuel.
But can't wick up the fuel and make more wicks
It is possible to prevent the yarn from fraying at the cutting point
There were drawbacks such as not being able to do.

The present invention has been made to solve the above-mentioned problems, and has a fuel supply capacity suitable for an appliance.
The fuel supply efficiency is high and the yarn is not frayed.
It is easy to work and mass-produce nonwoven interlining at a low cost. Furthermore, it becomes possible to use common materials, inventory management is easy, and dimensional stability is good. And the height (distance) from the liquid surface of the liquid fuel to the combustion part can be made large, and the liquid fuel can be prevented from being heated to a high temperature, and safe combustion can be achieved. Can be continued and prevent oil leakage when falling
The purpose of the present invention is to obtain an interlining for a burning appliance which is convenient and usable.

[0016]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides a web cloth 1 having a yarn 2 and a fluff 13
The thread insertion holes 3, 3... Through which the fuzzy thick count yarn 12 formed by inserting the fuzzy thread are inserted are sequentially provided vertically, and the fluffy thick count yarn 12 is formed on the surface 4 of the web cloth 1 . A straight yarn portion 5 is formed, and a thick yarn with fluff is provided on the back surface 6.
12 is formed , and further the annular thread portion 7 is formed.
Organize provided seams 8,8, ... successively hooked fluff TsukeFutoshi count yarn 12 formed with the straight Joito portion 5, the fuel
The sewing thread portion 9 is provided in the vertical direction which is the suction direction, and
.. Are provided on the entire surface with small gaps 10, 10.
Small gaps in which 9, 9, ... are juxtaposed and also juxtaposed in the vertical direction
A thick yarn 21 having fuel wicking performance is provided in the middle portion 20 of the web fabric 1 in the longitudinal direction in 10, 10,... To form an inner suction portion 22. Also web cloth 1
Fuzzy thick yarn formed by providing the fluff portion 13 on the yarn 2
Provided the yarn insertion holes 3, 3, ... inserted through the strip 12 to <br/> staggered over vertically, fluff staggered on the surface 4 of the web fabric 1
Ring thread portion 7 formed by fluff TsukeFutoshi count yarn 12 is formed in a zigzag pattern on the back surface 6 with linear Joito portion 5 formed in TsukeFutoshi count yarns 12 is formed, and further the zigzag pattern A small gap 10 is provided in the provided thread insertion holes 3, 3 ,.
The thread insertion holes 3, 3... Through which the count yarn 12 is inserted are juxtaposed in a zigzag pattern.
A linear thread portion 5 formed by the thread 12 is formed, and a loop-shaped thread portion 7 formed by the fluffy thick count thread 12 is formed on the back surface 6, and further, a loop shape formed by the fluff thick count thread 12. The thread portion 7 is a thick yarn with fuzz which forms the adjacent loop-shaped thread portion 7.
12 are sequentially hooked to form stitches 8, 8 ,.
Then, the sewing thread portion 9 is provided in the vertical direction which is the fuel suction direction.
, And a sewing thread is provided over the entire surface by providing small gaps 10, 10...
Are arranged side by side in the vertical direction.
The middle part 20 of the web cloth 1 in the gaps 10, 10,...
In the thick count yarn 21 having a fuel wicking performance, longitudinally
That is, the inner layer suction portion 22 was formed .

[0017]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of the present invention is shown in FIGS.
Explaining in 9 , the fluff portion 13 is provided on the web fabric 1 and the yarn 2.
The thread insertion holes 3, 3... Through which the thick fuzzy thread 12 with fluff is inserted are formed vertically and sequentially, and the web cloth 1 is formed.
On the front surface 4 is formed a linear thread portion 5 formed of a fluffed thick yarn 12 and on the back surface 6 a fluffed thick yarn 1.
2 is formed annular thread portion 7 formed by further sequentially hooking organize provided seams 8,8, ... with a fluff TsukeFutoshi count yarn 12 formed with the straight Joito portion 5 in annular thread portion 7, Fuel absorption
The sewing thread portion 9 is provided in the vertical direction which is the upper direction, and
Are provided with small gaps 10, 10.
Small gaps in which 9, 9, ... are juxtaposed and also juxtaposed in the vertical direction
In 10, 10,..., A thick yarn 21 having a fuel wicking performance is provided in a middle layer portion 20 of the web fabric 1 in a vertical direction to form an inner layer suction portion 22.

The second embodiment will be described with reference to FIGS. 6 to 9. The web fabric 1 is formed by providing a fluff portion 13 on a yarn 2.
Yarn insertion holes 3, 3
.. provided in a zigzag pattern over the top and bottom, and the surface 4 of the web cloth 1
Ring thread portion 7 on the back surface 6 formed by fluff TsukeFutoshi count yarn 12 in a zigzag pattern with a linear Joito portion 5 formed by fluff TsukeFutoshi count yarn 12 are formed is formed in a zigzag pattern in, Further , small gaps 10 are formed in the thread insertion holes 3, 3.
Are arranged side by side in a zigzag manner, and the surface 4 of the web cloth 1 is arranged in a zigzag manner.
Has a straight thread portion 5 formed by a fluffy thick yarn 12 and a back face 6 formed by a fluff thick yarn 12.
The looped thread portion 7 is formed, and the thick count yarn 12 with fluff is further formed.
The adjacent annular thread portion 7 is formed on the annular thread portion 7 formed by
Fluff TsukeFutoshi count yarn 12 sequentially caught in the seam 8, 8 that
... and stitched in the vertical direction, which is the fuel absorption direction
The sewing thread portion 9 is provided, and the small gaps 10, 10,... Are provided.
... and sewing thread portions 9, 9 ...
In the middle layer portion 20 of the web fabric 1 in the small gaps 10, 10...
1, it was to form the inner layer suction portion 22 is provided in the longitudinal direction.

The material of the web cloth 1 is rayon, cotton, acrylic, nylon, polyester, polyethylene,
Any of polypropylene, aramid, flame resistant fiber, carbon fiber, glass fiber, ceramic fiber and the like may be used. Further, the web cloth 1 may be subjected to needle punching in advance.

The fuzzy thick count yarn 12 is a yarn having a fuel wicking property made of rayon, cotton, acrylic, nylon, polyester, polyethylene, polypropylene, aramid, flame resistant fiber, carbon fiber, glass fiber, ceramic fiber and the like. Article 2 (English count is preferably 5 to 100, more
Preferably, the number is 10 to 40. ), Feather on the surface
13 is provided, and the cutting portion 11 is used during machining (see FIG. 10).
To prevent the yarn from fraying.

A large number of fluffed thick yarns 12 are knitted and stitched in the same direction with respect to the web fabric 1 to provide sewing thread portions 9.
... and sewing on the entire surface with small vertical gaps 10, 10 ...
.., And also in the vertical direction.
Middle part 2 of the web cloth 1 in the small gaps 10
0, the thick count yarn 21 having the fuel wicking performance is
And the inner layer suction part 22 is provided.
The count and yarn density of the thick count yarn 12 and the thick count yarn 21 (
The number of yarns per unit width) and the like vary depending on the specifications of the web cloth 1, the desired suction capacity of the interlining for a combustion appliance, the required thickness, and the like.

FIG. 10 shows a combustion tool core 16 formed in a cylindrical shape, in which a fuel suction core 17 and a heat-resistant combustion core 18 are integrally connected. Fuzzy thick yarn 12 and thick yarn 2 used for the part 17
1 and the web fabric 1 are made of a material having good fuel wicking properties such as cotton, rayon, polyester, etc., and the heat-resistant combustion core 18 is composed of the knitting yarn 12, the thick yarn 21 and the web fabric 1. Is made of a material having good heat resistance such as glass fiber, flame resistant fiber, carbon fiber, ceramic fiber and the like.

The fuel suction core 17 has slits 19,19.
... The provided, the slits 19, 19 ... are provided in order to facilitate bending during lifting of wick.

In addition, the Japanese Industrial Standards
JIS S 2038 ”means the following A,
When the wicking performance of the examples of B, C, D and E was tested,
The following results were obtained. A. A 250 g / square meter web fabric made of rayon is applied to cotton / rayon (5
0/50) with a knitting structure shown in FIG. 7 at a density of 7 yarns per 25 mm width, using a knitting structure shown in FIG.
Cotton / rayon (50 /
A 2.5 mm-thick interlining for combustion equipment was constructed by interposing three 10-count yarns (5) (twenty-five strands) (no. 2). Wicking speed (second) Wicking amount (%) Thick yarn insertion direction 130.6 195.5 Same as above and 90 degree direction 410.0 190.1 JIS standard 250 or less B, basis weight of rayon made of rayon 250 g / A square fabric of web cloth is knitted with nylon filament yarn of 75 denier (corresponding to the English style number 71) with a knitting structure shown in FIG. 4 at a density of 14 yarns per 25 mm width,
Cotton / rayon (50 /
50) Yarn 2 of 3 twisted 10th blended yarn (3.3th count)
A 2.0 mm-thick interlining for combustion equipment was constructed with a book interposed therebetween. Wicking speed (seconds) Wicking amount (%) Insertion direction of thick yarn 143.3 205.8 Direction at 90 ° with the same 350.6 204.7 JIS standard 250 or less C, basis weight consisting of polyethylene terephthalate 300 g Per square meter of web cloth is knitted with a knitting structure of FIG. 4 at a density of 7 per 25 mm width using a 10th-count blended yarn of polyethylene terephthalate, and is composed of polyethylene terephthalate per small gap as an inner layer suction surface. A 2.5 mm-thick interlining for combustion equipment was constructed by interposing four 10-count twisted (1.7-count) yarns. Wicking speed (seconds) Wicking amount (%) Insertion direction of thick yarn 103.7 192.4 Direction of 90 ° with same as above 362.2 194.5 JIS standard 250 or less-D, glass fiber 80%, rayon The basis weight 2 consisting of 20%
A 60 g / square meter web cloth is knitted with 89 tex (English number 6.6) glass / rayon suf twisted yarn at a density of 7 per 25 mm width according to the knitting structure shown in FIG. A 2.5 mm-thick interlining for combustion equipment was constituted by interposing two 320-tex mixed yarns of glass / rayon swoof (80/20) per small gap as a suction portion. Wicking speed (second) Wicking amount (%) Insertion direction of thick count yarn 123.6 184.2 Same direction as above and 90 degree direction 385.4 186.5 JIS standard 250 or less E, weight of 250 g of rayon / A square meter of web fabric made of metal complex salt-based cotton /
Knitted with rayon (50/50) 10th blend yarn at a density of 7 yarns per 25 mm width with the knitting structure shown in FIG. 7 and water repellency as described above per small gap as inner layer suction surface 1 of processed cotton / rayon (50/50)
A 2.5 mm-thick interlining for a combustion appliance was constructed by interposing three 0-th blended yarns of 5 twists (2 th count).

The interlining for combustion appliances was constructed under the same conditions as above except that a web cloth with a basis weight of 250 g / m 2 was formed by rayon which had been subjected to a water repellent treatment using a metal complex salt-based water repellent. .

Next, a wick with a diameter of 65 mm was formed using the interlining as a fuel absorption part and a woven fabric made of glass fiber / rayon (80/20) blended yarn as a heat-resistant combustion part, and the rated calorific value was 2,200 kcal / hour. And the combustibility was measured when kerosene was mixed with 50 ml of water and when water was not mixed.

As a comparative example, a lamp core similar to that described above was formed except that the interlining of Example (A) was used as the fuel suction portion, and a similar test was conducted. Water repellent calorific value (Kcal / hr) Yarn Web fabric No water 50ml Example (E) Yes No 2220 2040 Yes Yes 2210 2200 Example (A) No No 2230 1350

[0028]

The present invention has the following features by the above-described structure.
Effect is obtained.  For web cloth 1The yarn 2 is formed by providing a fluff portion 13.
Thick yarn with fluff 12Thread insertion holes 3, 3
・ ・Up and downProvided sequentially, on the surface 4 of the web cloth 1
Formed with fluffy thick yarn 12The linear thread portion 5 is formed
And at the back 6Formed with fluffy thick yarn 12
A circular thread portion 7 is formed, and the linear thread portion 5 is further added to the circular thread portion 7.
ToThe fuzzy thick yarn 12 formedHook sequentially and sew
With eyes 8, 8 ...Knitting and fuel wicking direction
A sewing thread portion 9 is provided in the longitudinal direction,andVertical gap 1
0, 10... And sewing thread portions 9, 9.
And small gaps 10, 10.
··At the innerIn the middle part 20 of the web fabric 1, the fuel wicking performance is
The thick yarn 21 that hasVertically installed inner layer suction part 2
2 to form a large number of fuzzy thick yarn 1
2, 12,... And the thick yarn 21 absorb fuel,
Further, the web cloth 1 is made of a thick yarn with fluff 12, 12,...
And thick yarn 21Excess fuel sucked up by
To maintain the stability of combustion and to maintain the required combustion
It can maintain the thickness of the instrument core.The fuzzy thick yarn 12 knitted on the web cloth 1 is thick.
By providing the fluff portion 13 on the count yarn 2, the yarn at the cut position
No significant fraying, large width and high efficiency
Cost reduction is possible. That is, Combustion used by each
Various types of burner wicks with a weaving width according to the type of the ware
There is no need to prepare the ground, just by changing the cutting dimensions
Standardization of materials because it is possible to obtain cores for various kinds of combustion appliances
And inventory management, such as inventory reduction, is facilitated.Fuzzy thick count formed by providing a fluff portion 13 on the yarn 2
The yarns 12, 12,... And the thick yarn 21 are used.
From the capillary at the time of fuel wicking Promotes action, long
Large suction capacity even when applied to wick for combustion equipment with oil level distance
Can demonstrate.Yarn density of fluffy thick yarn 12 (yarn per unit width)
Number), the type of fiber of the thick yarn 21 and the count, etc.
To adjust the wicking capacity to one that matches the model. Done
Use is convenient. Web fabric 1 with fluffy thick yarn 12, 12, ...
Because we are stitching Like a traditional woven fabric
No weft binding and good combustion wicking performance
is there.Web dough has fuel holding capacity but suction capacity
Is low, so the fuel can be sucked well.
Seared fuzzy thick yarn 12, 12, ... and thick count
Supply of fuel to web fabric by providing yarn 21
It can be performed smoothly. A web fabric 1 is formed by providing a fluff portion 13 on a yarn 2.
Yarn insertion holes 3, 3
.. provided in a zigzag pattern over the top and bottom, and the surface 4 of the web cloth 1
Has a zigzag straight yarn formed with a thick count yarn 12 with fluff
The part 5 is formed and the back side 6 has a staggered fluffy thick number.
The annular thread portion 7 formed by the hand thread 12 is formed, and
Small gaps 10 are formed in the staggered thread insertion holes 3, 3,.
A thread insertion hole through which a thick yarn 12 with fluff is inserted
.. Are arranged in a zigzag pattern, and the surface 4 of the web cloth 1
Has a straight thread portion 5 formed by a thick yarn 12 with fluff.
Formed on the back 6 with a thick yarn 12 with fluff
A thick thread yarn 1 with a fluffy ring portion 7 and fluff is formed.
The adjacent thread portion 7 is formed on the thread portion 7 formed in Step 2.
Seam 8, hooking the thick count yarn 12 with fluff
8 and stitched, and the longitudinal direction which is the fuel absorption direction
Is provided with a sewing thread portion 9 and small gaps 10, 10...
... and the sewing thread portions 9, 9...
Raw web in small gaps 10, 10 ... arranged side by side in the vertical direction
A thick yarn having fuel wicking performance on the middle layer 20 of the ground 1
21 was provided in the longitudinal direction to form the inner layer suction part 22. thing
For combustion equipment with strong combustion and strong combustion
Interlining is obtained and interlining for combustion equipment with better dimensional stability is obtained.
Obtainable.Formed in parallel in the vertical direction, which is the direction of fuel uptake.
Thick thread with fuzz of the sewing thread-like portions 9, 9,...
The suction of fuel by the action of the capillary formed by 2 ...
The thread portion 7 is formed by forming the sewing thread portion 9.
Can be arranged vertically in a certain width because
Since the number of fluffed thick yarns 12 is limited, the applicant
However, the conventional product filed earlier has a limit in fuel absorption capacity. When
Roller, vertical Within the small gaps 10, 10 ... arranged side by side in the direction
A middle layer 20 of the web fabric 1
The count yarn 21 is provided in the longitudinal direction to form the inner layer suction part 22.
To promote fuel wicking capacity over the entire surface
Was made. Since the thick yarn with fluff 12 is a thick yarn,
Conventional products filed by humans are formed on the front and back of web fabric 1.
The linear thread portion 5 and the annular thread portion 7 that are
Is formed as a concave, so that the
There was a problem such as poor oil contact and oil leakage when falling. When
In the rollers, the web cloth 1 is placed in small gaps 10 arranged in the longitudinal direction.
A thick yarn 21 having fuel wicking performance
Are provided in the longitudinal direction to form the inner-layer suction portion 22.
Almost smooth surface is formed with almost no irregularities
So that the adhesion between the burning appliance and the interlining is good,
Problems such as oil leakage were prevented.

[Brief description of the drawings]

FIG. 1 is a partially cutaway enlarged surface view.

FIG. 2 is a partially cutaway enlarged rear view.

FIG. 3 is a sectional view taken along the line AA in FIG. 2;

FIG. 4 is a plan view illustrating a sewing method.

FIG. 5 is a cross-sectional view illustrating a sewing method.

FIG. 6 is a partially cutaway enlarged surface view showing another embodiment.

FIG. 7 is a plan view illustrating a sewing method in FIG. 6;

FIG. 8 is a cross-sectional view illustrating a sewing method in FIG. 6;

FIG. 9 is a partially cutaway enlarged view of a thick yarn having a fluff.

FIG. 10 is a perspective view showing a state formed as a core for a combustion appliance.

FIG. 11 is an explanatory diagram of a conventional example.

FIG. 12 is an explanatory diagram of a conventional example.

FIG. 13 is an explanatory diagram of a conventional example.

FIG. 14 is an explanatory diagram of a conventional example.

[Name of code]

 DESCRIPTION OF SYMBOLS 1 Web cloth 2 Thread 3 Thread insertion hole 4 Surface 5 Straight thread 6 Back 7 Loop thread 8 Seam 9 Sewing thread 10 Small gap 11 Cutting section 12 Thick yarn with fluff 13 Fuzz 16 Combustion Interlining for appliances 17 Fuel wicking core 18 Heat resistant combustion wick 19 Slit 20 Middle layer 21 Thick yarn 22 Inner layer upper

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Kan Takahashi 2-7-15 Kita-Kamei-cho, Yao-shi, Osaka Silver Co., Ltd. (72) Inventor Atsushi Hashizume 2-7-115 Kita-Kamei-cho, Yao-shi, Osaka No. Silver Co., Ltd. (56) References JP-A-62-49106 (JP, A) JP-A-60-60511 (JP, U) JP-A-58-10514 (JP, U) JP-A-54-70135 (JP) JP, U) Actually open sho 59-59611 (JP, U)

Claims (2)

(57) [Claims] A fuzz portion (13) is provided on a web fabric (1) on a yarn (2).
The thread insertion holes 3, 3,..., Through which the fuzzy thick count yarn 12 formed is inserted, are sequentially provided vertically, and the straight line formed by the fluffy count yarn 12 on the surface 4 of the web cloth 1. The thread-shaped thread portion 5 is formed and the back surface 6 has a fuzzy thick-count yarn 12.
Are formed, and the thick thread yarn 12 with fluff, in which the linear thread portion 5 is formed, is sequentially hooked on the annular thread portion 7 to form a seam 88 . Sucking up
The sewing thread portion 9 is provided in the vertical direction which is the
By providing small gaps 10, 10,...
9 are arranged side by side, and also small gaps 1 arranged side by side in the vertical direction
A thick yarn 21 having fuel wicking performance is provided in the middle layer portion 20 of the web fabric 1 in the vertical direction to form an inner wick 22 in 0 , 10. Interlining for burning appliances. 2. A fluff portion 13 is provided on a thread 2 of a web fabric 1.
The thread insertion holes 3, 3... Through which the fuzzy thick-count yarn 12 formed is formed in a zigzag pattern over the top and bottom, and the fuzzy thick-count yarn with the fuzz is formed on the surface 4 of the web fabric 1. Formed by 12
A linear thread portion 5 is formed, and a loop-shaped thread portion 7 formed in a staggered fashion with a thick count yarn 12 with fluff is formed on the back surface 6, and further, the thread insertion holes 3 provided in the staggered shape are formed. 3 ...
The small gap 10 is provided in the yarn passage hole 3,3 ... inserted through the fluff TsukeFutoshi count yarn 12 is arranged in a zigzag pattern, fluff TsukeFutoshi count yarn 12 on the surface 4 of the web fabric 1 fluff TsukeFutoshi count yarn on the back 6 with a linear Joito portion 5 in the form is formed
Ring thread portion 7 formed at 12 is formed, further fluff TsukeFutoshiban
The circular thread portion 7 formed by the hand thread 12 is adjacent to the circular thread portion.
And Hentsuzuri provided seams 8,8, ... successively hooked fluff TsukeFutoshi count yarn 12 to form a 7, wicking direction der fuel
The sewing thread portion 9 is provided in the vertical direction, and the small gaps 10 and 10 are provided.
... and sewing thread 9, 9, ...
And small gaps 10, 10 ...
In the middle part 20 of the web fabric 1, a thick yarn 21 having fuel wicking performance is provided in the longitudinal direction to form the inner layer suction part 22 .
An interlining for a burning appliance characterized by being formed .