CN108265429A - The production technology of antistatic underwear fabric - Google Patents

Abstract

The present invention provides a kind of production technologies of antistatic underwear fabric.It, which solves existing Antistatic Fabric, does not have corresponding production technology, produces the technical problems such as cumbersome.The production technology of this antistatic underwear fabric, includes the following steps：A, it weaves：By weight, by 12 20 parts of protein fibres, 8 14 parts of cashmere fibers, 10 16 parts of viscose rayons and 48 parts of antistatic fibre hybrid wovens into underwear fabric；B, it cleans：The underwear fabric weaved is subjected to soaking and washing, impregnates in two times, first underwear fabric is put into 40 50 DEG C of water and maintains 8 12min, then take out to be put into 5 10 DEG C of water and maintain 4 6min；C, it dyes：Cleaned underwear fabric is dyed by dyeing installation, dyeing temperature is 50 60 DEG C；D, it dries：The underwear fabric dyed is dried, drying temperature is 70 80 DEG C, and drying time is 10 20min；E, it shapes：The underwear fabric dried is put into forming machine and is shaped.The present invention has the advantages that production is easy.

Description

The production technology of antistatic underwear fabric

Technical field

The present invention relates to a kind of production technologies of antistatic underwear fabric.

Background technology

Underwear is one of clothes kind that textile garment market is most paid close attention to by consumer, there is the title of " human body Second Skin ". The major function of underwear is warming, absorbing sweat, the body skin for protecting people and avoids besmirching coat etc..Underwear is mainly added by underwear fabric Work forms.

Through retrieval, as Chinese patent literature discloses a kind of Antistatic Fabric【Application number：201410219447.8；It is open Number：CN 104000328A】.This Antistatic Fabric, which is characterized in that including：Antistatic layer is adhered layer and lining layer, described Antistatic layer is connected with the layer that is adhered；The layer that is adhered is connected with the lining layer；The antistatic layer includes：Terylene Long filament and high-performance permanent conductive fiber；The antistatic layer is knitted or the embedding method knitted of warp, broadwise is knitted by the way that warp-wise is embedding It makes.

Although the Antistatic Fabric antistatic effect disclosed in the patent is notable, the Antistatic Fabric is not corresponding Production technology, production it is cumbersome, therefore, it is necessary to design a kind of production technology of antistatic underwear fabric.

Invention content

The purpose of the present invention is being directed to existing technology, there are the above problems, it is proposed that a kind of life of antistatic underwear fabric Production. art, the production technology have the characteristics that production is easy.

The purpose of the present invention can be realized by following technical proposal：The production technology of antistatic underwear fabric, feature It is, includes the following steps：

A, it weaves：By weight, by 12-20 parts of protein fibres, 8-14 parts of cashmere fibers, 10-16 parts of viscose rayons and 4-8 parts of antistatic fibre hybrid wovens are into underwear fabric；

B, it cleans：The underwear fabric weaved is subjected to soaking and washing, impregnates in two times, underwear fabric is first put into 40- 8-12min is maintained in 50 DEG C of water, then takes out to be put into 5-10 DEG C of water and maintains 4-6min；

C, it dyes：Cleaned underwear fabric is dyed by dyeing installation, dyeing temperature is 50-60 DEG C；

D, it dries：The underwear fabric dyed is dried, drying temperature is 70-80 DEG C, drying time 10- 20min；

E, it shapes：The underwear fabric dried is put into forming machine and is shaped.

Dyeing time in the step c is 40-60min.

Sizing number in the step e is at least 2 times.

Setting temperature in the step e is 140-150 DEG C, setting time 1-3min.

Dyeing installation in the step c includes first shell, and the lower surface of first shell inner wall is connected with bearing, bearing Inside be socketed with first rotating shaft, the upper end of first rotating shaft is connected with the lower surface of net cage, the two sides of net cage respectively with two pulleys It is connected, two pulleys are arranged in the sliding slot that first shell inner wall opens up, and the upper surface of net cage and the lower surface of cover board overlap, The two sides of cover board offer the first card slot, and the first kelly, the connecting pin of the first kelly and first are provided in the first card slot The upper end of installing plate is connected, and the lower end of the first installing plate is connected by the first elastic connection structure with the side of net cage, the first card The working end of bar can be snapped onto in the first card slot, and the upper surface of cover board is connected with the lower end of the second shaft, the upper end of the second shaft Its dynamic structure rotated can be driven to be connected with one, be additionally provided with second shell in first shell, the one side of second shell and The one side of first shell is connected by hinge assembly, and the another side of second shell offers the second card slot, in the second card slot The second kelly is provided with, the connecting pin of the second kelly is connected with the upper end of the second installing plate, and the lower end of the second installing plate passes through Two elastic connection structures are connected with the side of net cage, and the working end of the second kelly can be snapped onto in the second card slot.

The material of the net cage is stainless steel.

The another side of the first shell has water outlet, and water outlet is provided with solenoid valve.

The dynamic structure includes push-rod electric machine, fixed plate, power motor, driving wheel and driven wheel, and push-rod electric machine is fixed On the second housing, straight down, the push rod end of push-rod electric machine is connected the push rod of push-rod electric machine with fixed plate, and power motor is solid It is scheduled in fixed plate, straight down, driving wheel is fixed on the output shaft end of power motor, driven wheel to the output shaft of power motor The upper end of the second shaft is fixed on, and driving wheel can be meshed with driven wheel.

When needing to rotate the second shaft, the push rod of push-rod electric machine is controlled to move down, the push rod of push-rod electric machine drives Fixed plate moves down, and fixed plate drives power motor to move down, and power motor drives driving wheel to move down, and makes driving wheel It is meshed with driven wheel；The output shaft rotation of power motor is controlled, the output shaft of power motor drives driving wheel rotation, driving wheel Driven wheel rotation is driven, driven wheel drives the rotation of the second shaft, so as to rotate the second shaft.

First elastic connection structure includes telescopic rod, the both ends of telescopic rod respectively with net cage and the first installing plate phase Even, the first spring is cased on telescopic rod, the both ends of the first spring are connected respectively with net cage and the first installing plate.

Second elastic connection structure includes slide bar, and the both ends of slide bar are connected respectively with first shell and baffle, slide bar On be arranged with sliding sleeve, and sliding sleeve is also cased with second spring, the both ends of second spring between first shell and baffle on slide bar It is connected respectively with first shell and the second installing plate.

The shape of the sliding slot is annular, and the size of sliding slot is adapted with the size of pulley.

The shape of the slide bar is rectangle, and the size of slide bar is adapted with the size of sliding sleeve.

The another side of the first shell is provided with switch and power supply, and switchs positioned at the top of power supply, power supply it is defeated Outlet is electrically connected with the input terminal switched, and the input terminal of the output terminal of switch respectively with power motor and electric pushrod is electrically connected.

Observation panel is further opened in the first shell, transparent access panel is provided at observation panel.

The material of the access panel is organic glass.

The operation principle of dyeing installation is as follows：The push rod of push-rod electric machine is moved up by switch, push-rod electric machine pushes away Bar drives fixed plate to move up, and fixed plate drives driving motor to move up, and driving motor drives driving wheel to move up, and makes Driving wheel is detached with driven wheel；The second installing plate is pulled, the second installing plate drives the movement of the second kelly, extends second spring, Second kelly and the second exact separation, second shell is opened；The first installing plate is pulled, the first installing plate drives the first kelly to move It is dynamic, extend the first spring, the first kelly and the first exact separation open cover board；Water and dyestuff are put into first shell, together When fabric is put into net cage, cover board is put down, unclamps the first installing plate, the first spring pulls the under the elastic force effect of itself One installing plate and the first kelly are moved close to the first card slot, and the first kelly sticks into the first card slot；Unclamp the second installing plate, the second bullet Spring pulls the second installing plate and the second kelly to move under the elastic force effect of itself, and the second kelly is sticked into the second card slot；Pass through Operation switch moves down the push rod of push-rod electric machine, and the push rod of push-rod electric machine drives fixed plate to move down, and fixed plate drives Driving motor moves down, and the output shaft of driving motor drives driving wheel to move down, and driving wheel is made to be engaged with driven wheel；Pass through Operation switch rotates the output shaft of driving motor, and the output shaft of driving motor drives driving wheel rotation, and driving wheel drives driven Wheel rotation, driven wheel drive the rotation of the second shaft, and the second shaft drives net cage rotation, the fabric in net cage is made fully to be connect with dyestuff It touches, so as to make dyeing fabric uniform, coloring is good.

Compared with prior art, the present invention has the advantages that this：By weaving, cleaning, dyeing and drying, so that it may real The production operation of existing antistatic underwear fabric, production are easy.

Description of the drawings

Fig. 1 is the planar structure schematic diagram of dyeing installation.

Fig. 2 is the partial enlarged view at A in Fig. 1.

In figure, 1, first shell；1a, sliding slot；1b, water outlet；2nd, bearing；3rd, first rotating shaft；4th, net cage；5th, pulley；6、 Cover board；6a, the first card slot；7th, second spring；8th, slide bar；9th, baffle；10th, sliding sleeve；11st, the second shaft；12nd, driven wheel；13rd, it is main Driving wheel；14th, driving motor；15th, fixed plate；16th, push-rod electric machine；17th, the second kelly；18th, the second installing plate；19th, power supply；20、 Switch；21st, second shell；21a, the second card slot；22nd, hinge assembly；23rd, solenoid valve；24th, telescopic rod；25th, the first spring；26、 First installing plate；27th, the first kelly.

Specific embodiment

The following is specific embodiments of the present invention and with reference to attached drawing, technical scheme of the present invention is further described, But the present invention is not limited to these embodiments.

The production technology of this antistatic underwear fabric, includes the following steps：

A, it weaves：By weight, by 12-20 parts of protein fibres, 8-14 parts of cashmere fibers, 10-16 parts of viscose rayons and 4-8 parts of antistatic fibre hybrid wovens are into underwear fabric；In the present embodiment, by weight, by 16 parts of protein fibres, 10 parts Cashmere fiber, 12 parts of viscose rayons and 6 parts of antistatic fibre hybrid wovens are into underwear fabric；

B, it cleans：The underwear fabric weaved is subjected to soaking and washing, impregnates in two times, underwear fabric is first put into 40- 8-12min is maintained in 50 DEG C of water, then takes out to be put into 5-10 DEG C of water and maintains 4-6min；In the present embodiment, it will weave Underwear fabric carries out soaking and washing, impregnates in two times, first underwear fabric is put into 42 DEG C of water and maintains 9min, then takes out and is put into 5min is maintained in 6 DEG C of water；

C, it dyes：Cleaned underwear fabric is dyed by dyeing installation, dyeing temperature is 50-60 DEG C；At this In embodiment, cleaned underwear fabric is dyed by dyeing installation, dyeing temperature is 53 DEG C；

D, it dries：The underwear fabric dyed is dried, drying temperature is 70-80 DEG C, drying time 10- 20min；In the present embodiment, the underwear fabric dyed is dried, drying temperature is 77 DEG C, drying time 14min；

E, it shapes：The underwear fabric dried is put into forming machine and is shaped.

Dyeing time in step c is 40-60min；In the present embodiment, the dyeing time in step c is 50min.

Sizing number in step e is at least 2 times；In the present embodiment, the sizing number in step e is 3 times.

Setting temperature in step e is 140-150 DEG C, setting time 1-3min；In the present embodiment, in step e Setting temperature is 145 DEG C, setting time 2min.

As Figure 1-Figure 2, the dyeing installation in step c includes first shell 1, the lower surface card of 1 inner wall of first shell Bearing 2 is connected to, first rotating shaft 3 is socketed in bearing 2, the upper end of first rotating shaft 3 is connected with the lower surface of net cage 4, in this implementation In example, the lower surface of the upper end of first rotating shaft 3 by welding with net cage 4 is connected；The two sides of net cage 4 respectively with two Pulley 5 is connected, and two pulleys 5 are arranged in the sliding slot 1a that 1 inner wall of first shell opens up, upper surface and the cover board 6 of net cage 4 Lower surface overlaps, and the two sides of cover board 6 offer and the first kelly 27 is provided in the first card slot 6a, the first card slot 6a, and first The connecting pin of kelly 27 is connected with the upper end of the first installing plate 26, and the lower end of the first installing plate 26 passes through the first elastic connection structure It is connected with the side of net cage 4, the working end of the first kelly 27 can be snapped onto in the first card slot 6a, the upper surface of cover board 6 and second The lower end of shaft 11 is connected, and the upper end of the second shaft 11 can drive its dynamic structure rotated to be connected with one, in first shell 1 also Second shell 21 is provided with, the one side of second shell 21 is connected with the one side of first shell 1 by hinge assembly 22, and second The another side of housing 21 offers in the second card slot 21a, the second card slot 21a and is provided with the second kelly 17, the second kelly 17 Connecting pin is connected with the upper end of the second installing plate 18, and the lower end of the second installing plate 18 passes through the second elastic connection structure and net cage 4 Side be connected, the working end of the second kelly 17 can be snapped onto in the second card slot 21a.

The material of net cage 4 is stainless steel.

The another side of first shell 1 has water outlet 1b, and solenoid valve 23 is provided at water outlet 1b.

Dynamic structure includes push-rod electric machine 16, fixed plate 15, power motor, driving wheel 13 and driven wheel 12, push-rod electric machine 16 are fixed in second shell 21, and in the present embodiment, push-rod electric machine 16 is fixed on second shell by bolted connection On 21；Straight down, the push rod end of push-rod electric machine 16 is connected the push rod of push-rod electric machine 16 with fixed plate 15, in the present embodiment In, the push rod end of push-rod electric machine 16 is connected by bolted connection with fixed plate 15；Power motor is fixed on fixed plate On 15, in the present embodiment, power motor is fixed on by bolted connection in fixed plate 15；The output shaft of power motor Straight down, driving wheel 13 is fixed on the output shaft end of power motor, and in the present embodiment, driving wheel 13 passes through key connection Mode is fixed on the output shaft end of power motor；Driven wheel 12 is fixed on the upper end of the second shaft 11, in the present embodiment, from Driving wheel 12 is fixed on the upper end of the second shaft 11 by way of key connection；And driving wheel 13 can be meshed with driven wheel 12；It adopts With the structure, when needing to rotate the second shaft 11, the push rod of control push-rod electric machine 16 moves down, and push-rod electric machine 16 pushes away Bar drives fixed plate 15 to move down, and fixed plate 15 drives power motor to move down, and power motor drives driving wheel 13 downward It is mobile, driving wheel 13 is made to be meshed with driven wheel 12；The output shaft rotation of power motor is controlled, the output shaft of power motor drives Driving wheel 13 rotates, and driving wheel 13 drives driven wheel 12 to rotate, and driven wheel 12 drives the second shaft 11 to rotate, so as to make second Shaft 11 rotates.

First elastic connection structure includes telescopic rod 24, the both ends of telescopic rod 24 respectively with 4 and first installing plate 26 of net cage It is connected, the first spring 25 is cased on telescopic rod 24, the both ends of the first spring 25 are connected respectively with 4 and first installing plate 26 of net cage.

Second elastic connection structure includes slide bar 8, and the both ends of slide bar 8 are connected respectively with first shell 1 and baffle 9, slide bar 8 On be arranged with sliding sleeve 10, and sliding sleeve 10 is also cased with second spring 7, the second bullet between first shell 1 and baffle 9 on slide bar 8 The both ends of spring 7 are connected respectively with 1 and second installing plate 18 of first shell.

The shape of sliding slot 1a is annular, and the size of sliding slot 1a is adapted with the size of pulley 5.

The shape of slide bar 8 is rectangle, and the size of slide bar 8 is adapted with the size of sliding sleeve 10.

The another side of first shell 1 is provided with switch 20 and power supply 19, and switchs 20 tops for being located at power supply 19, power supply 19 output terminal is electrically connected with the input terminal of switch 20, switchs the 20 output terminal input with power motor and electric pushrod respectively End electrical connection.

Observation panel is further opened in first shell 1, transparent access panel is provided at observation panel.

The material of access panel is organic glass.

The operation principle of dyeing installation is as follows：The push rod of push-rod electric machine 16 is moved up by switch 20, push-rod electric machine 16 push rod drives fixed plate 15 to move up, and fixed plate 15 drives driving motor 14 to move up, and driving motor 14 drives master Driving wheel 13 moves up, and driving wheel 13 is made to be detached with driven wheel 12；The second installing plate 18 is pulled, the second installing plate 18 drives second Kelly 17 moves, and extends second spring 7, and the second kelly 17 is detached with the second card slot 21a, and second shell 21 is opened；It pulls First installing plate 26, the first installing plate 26 drive the first kelly 27 to move, extend the first spring 25, the first kelly 27 and first Card slot 6a is detached, and opens cover board 6；Water and dyestuff are put into first shell 1, while fabric is put into net cage 4, by cover board 6 It puts down, unclamps the first installing plate 26, the first spring 25 pulls the first installing plate 26 and the first kelly under the elastic force effect of itself 27 move close to the first card slot 6a, and the first kelly 27 sticks into the first card slot 6a；The second installing plate 18 is unclamped, second spring 7 is certainly The elastic force effect of body is lower to pull the second installing plate 18 and the second kelly 17 to move, and the second kelly 17 is sticked into the second card slot 21a；It is logical Crossing Operation switch 20 moves down the push rod of push-rod electric machine 16, and the push rod of push-rod electric machine 16 drives fixed plate 15 to move down, Fixed plate 15 drives driving motor 14 to move down, and the output shaft of driving motor 14 drives driving wheel 13 to move down, and makes actively Wheel 13 is engaged with driven wheel 12；The output shaft for making driving motor 14 by Operation switch 20 rotates, the output shaft of driving motor 14 Driving wheel 13 is driven to rotate, driving wheel 13 drives driven wheel 12 to rotate, and driven wheel 12 drives the second shaft 11 to rotate, the second shaft 11 drive net cages 4 rotate, and the fabric in net cage 4 is made to be come into full contact with dyestuff, so as to make dyeing fabric uniform, coloring It is good.

Specific embodiment described herein is only an example for the spirit of the invention.Technology belonging to the present invention is led The technical staff in domain can do various modifications or additions to described specific embodiment or replace in a similar way In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

Claims (8)

1. the production technology of antistatic underwear fabric, which is characterized in that include the following steps：

A, it weaves：By weight, by 12-20 parts of protein fibres, 8-14 parts of cashmere fibers, 10-16 parts of viscose rayons and 4-8 parts Antistatic fibre hybrid woven is into underwear fabric；

B, it cleans：The underwear fabric weaved is subjected to soaking and washing, impregnates in two times, underwear fabric is first put into 40-50 DEG C 8-12min is maintained in water, then takes out to be put into 5-10 DEG C of water and maintains 4-6min；

C, it dyes：Cleaned underwear fabric is dyed by dyeing installation, dyeing temperature is 50-60 DEG C；

D, it dries：The underwear fabric dyed is dried, drying temperature is 70-80 DEG C, drying time 10-20min；

E, it shapes：The underwear fabric dried is put into forming machine and is shaped.

2. the production technology of antistatic underwear fabric according to claim 1, which is characterized in that the dye in the step c The color time is 40-60min.

3. the production technology of antistatic underwear fabric according to claim 1, which is characterized in that determine in the step e Type number is at least 2 times.

4. the production technology of antistatic underwear fabric according to claim 3, which is characterized in that determine in the step e Type temperature is 140-150 DEG C, setting time 1-3min.

5. the production technology of antistatic underwear fabric according to claim 1, which is characterized in that the dye in the step c Color equipment includes first shell, and the lower surface of first shell inner wall is connected with bearing, and bearing inner sleeve is connected to first rotating shaft, first turn The upper end of axis is connected with the lower surface of net cage, and the two sides of net cage are connected respectively with two pulleys, and two pulleys are arranged at In the sliding slot that one inner walls open up, the lower surface of the upper surface of net cage and cover board overlaps, and the two sides of cover board offer the One card slot is provided with the first kelly in the first card slot, and the connecting pin of the first kelly is connected with the upper end of the first installing plate, the first peace The lower end of loading board is connected by the first elastic connection structure with the side of net cage, and the working end of the first kelly can snap onto the first card In slot, the upper surface of cover board is connected with the lower end of the second shaft, the power knot that the upper end of the second shaft can drive its rotation with one Structure is connected, and second shell is additionally provided in first shell, and the one side of second shell and the one side of first shell pass through hinge Component is connected, and the another side of second shell offers the second card slot, and the second kelly is provided in the second card slot, the second kelly Connecting pin is connected with the upper end of the second installing plate, the side that the lower end of the second installing plate passes through the second elastic connection structure and net cage It is connected, the working end of the second kelly can be snapped onto in the second card slot.

6. the production technology of antistatic underwear fabric according to claim 5, which is characterized in that the material of the net cage is Stainless steel.

7. the production technology of antistatic underwear fabric according to claim 5, which is characterized in that the first shell it is another One side has water outlet, and water outlet is provided with solenoid valve.

8. the production technology of antistatic underwear fabric according to claim 5, which is characterized in that the dynamic structure includes Push-rod electric machine, fixed plate, power motor, driving wheel and driven wheel, push-rod electric machine are fixed on the second housing, and push-rod electric machine pushes away Straight down, the push rod end of push-rod electric machine is connected bar with fixed plate, and power motor is fixed in fixed plate, power motor it is defeated Straight down, driving wheel is fixed on the output shaft end of power motor to shaft, and driven wheel is fixed on the upper end of the second shaft, and main Driving wheel can be meshed with driven wheel.