CN215481777U - Nanometer is cloth production forming machine for non-woven fabrics manufacturing - Google Patents

Abstract

The utility model provides a cloth production setting machine for manufacturing a nano non-woven fabric, which comprises a first setting unit, a second setting unit and a third setting unit which are sequentially arranged from front to back; the second shaping unit comprises a unit shell, an ironing module arranged at the upper end of the unit shell, a drying module arranged at the upper end of the unit shell and positioned behind the ironing module, and an auxiliary module arranged in the unit shell and respectively connected with the ironing module and the drying module; the utility model has reasonable integral structure design, replaces the traditional stentering treatment by the ironing treatment and is more suitable for the use of non-woven fabrics; in addition, the non-woven fabric is sequentially treated by the first shaping unit, the second shaping unit and the third shaping unit, so that a better shaping effect is achieved.

Description

Nanometer is cloth production forming machine for non-woven fabrics manufacturing

Technical Field

The utility model relates to the technical field of cloth processing equipment, in particular to a cloth production setting machine for manufacturing a nanometer non-woven fabric.

Background

In the production of the cloth, the cloth needs to be shaped after the working procedures of scouring, bleaching, printing and dyeing and the like to ensure the stability of the state of the cloth.

Most of the setting machines in the prior art are based on the principle of tentering to set the fabric.

Nonwoven fabrics are inferior to woven fabrics in strength, and therefore, tentering treatment is not easily used when setting nonwoven fabrics.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems, the utility model provides a cloth production setting machine for manufacturing nano non-woven fabrics.

The technical scheme of the utility model is as follows: a cloth production setting machine for manufacturing nanometer non-woven fabrics comprises a first setting unit, a second setting unit and a third setting unit which are sequentially arranged from front to back; the first sizing unit comprises a first mounting bracket, a first driving roller arranged on the first mounting bracket, a first driving motor arranged on the first mounting bracket, a gear box used for connecting the first driving motor and the first driving roller, and a first driven roller arranged on the first mounting bracket and forming a first cloth feeding channel with the first driving roller;

the third shaping unit and the first shaping unit have the same structure;

the second shaping unit comprises a unit shell, an ironing module arranged at the upper end of the unit shell, a drying module arranged at the upper end of the unit shell and positioned behind the ironing module, and an auxiliary module arranged in the unit shell and respectively connected with the ironing module and the drying module;

the ironing module comprises a second mounting bracket, a steam exhaust groove arranged at the front end of the second mounting bracket and a flattening module arranged on the second mounting bracket and positioned behind the steam exhaust groove;

the drying module comprises a module shell and a ventilation notch arranged in the module shell;

the auxiliary module comprises a steam generator and a hot air blower, wherein the steam generator can be connected with the steam exhaust groove, and the hot air blower is connected with the ventilation groove opening.

Further, the first sizing unit also comprises a height adjusting module arranged at the upper end of the first mounting bracket; the first driven roller is arranged on the height adjusting module; the height of the first driven roller can be adjusted by the height adjusting module so as to change the distance between the first cloth feeding channels, so that the adjustment can be carried out according to the nano non-woven fabrics with different thicknesses; the height adjustment module employs a commercially available hydraulic mounting arm.

Further, the flattening module adopts an oscillating flattening roller device; the oscillating flattening roller device comprises a second driven roller arranged on a second mounting bracket through a supporting rod, an oscillating module arranged at the upper end of the second mounting bracket and a second driving roller arranged on the oscillating module and forming a second cloth feeding channel with the second driven roller.

Furthermore, the oscillating module comprises an upper mounting block arranged at the upper end of the bracket, a lower mounting block arranged at the lower end of the upper mounting block through an elastic piece, a driving rod penetrating through the upper mounting block and having the lower end connected with the lower mounting block, and a second driving motor for providing power for the driving rod; the second driving roller is arranged at the lower end of the lower mounting block; a second driving motor acts on the driving rod to enable the lower mounting block to move up and down so as to enable the second driving roller to press and shape the nano non-woven fabric on the second driven roller; the elastic member that sets up is specifically the spring part, and it can cushion the violent up-and-down movement of second drive roll effectively.

Furthermore, two groups of the ventilation notches are arranged, and the two groups of the ventilation notches are oppositely arranged; utilize two sets of ventilation notches to carry out the drying process of position, below position while to the nanometer non-woven fabrics, improvement drying efficiency that can be very big.

Furthermore, the second shaping unit also comprises auxiliary rollers arranged on the left side and the right side of the upper end of the unit shell; the auxiliary roller can effectively avoid the wrinkling problem of the nano non-woven fabric in the transportation process.

Compared with the prior art, the utility model has the beneficial effects that: the utility model has reasonable integral structure design, replaces the traditional stentering treatment by the ironing treatment and is more suitable for the use of non-woven fabrics; the first shaping unit, the second shaping unit and the third shaping unit are used for sequentially processing the non-woven fabric, so that a better shaping effect is achieved; the utility model has simple integral structure, lower manufacturing cost and later-stage use and operation cost, and is suitable for mass popularization.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of a second styling unit of the present invention;

figure 3 is a cross-sectional view of an ironing module according to the utility model;

wherein, 1-a first shaping unit, 11-a first mounting bracket, 12-a first driving roller, 13-a first driving motor, 14-a gear box, 15-a first driven roller, 16-a height adjusting module, 2-a second shaping unit, 20-an auxiliary roller, 21-a unit shell, 22-an ironing module, 221-a second mounting bracket and 222-a steam exhaust groove, 223-flattening module, 23-drying module, 231-module shell, 232-ventilation notch, 24-auxiliary module, 3-third shaping unit, 4-oscillating flattening roller device, 41-second driven roller, 42-oscillating module, 421-upper mounting block, 422-lower mounting block, 423-elastic piece and 43-second driving roller.

Detailed Description

Example (b): a fabric production setting machine for manufacturing a nano non-woven fabric as shown in fig. 1, which comprises a first setting unit 1, a second setting unit 2 and a third setting unit 3 which are sequentially arranged from front to back; the first sizing unit 1 comprises a first mounting bracket 11, a first driving roller 12 mounted on the first mounting bracket 11, a first driving motor 13 mounted on the first mounting bracket 11, a gear box 14 used for connecting the first driving motor 13 and the first driving roller 12, and a first driven roller 15 mounted on the first mounting bracket 11 and forming a first cloth feeding channel with the first driving roller 12;

the third shaping unit 3 has the same structure as the first shaping unit 1;

as shown in fig. 2, the second shaping unit 2 includes a unit housing 21, an ironing module 22 disposed at an upper end of the unit housing 21, a drying module 23 disposed at an upper end of the unit housing 21 and behind the ironing module 22, and an auxiliary module 24 disposed inside the unit housing 21 and connected to the ironing module 22 and the drying module 23, respectively;

the ironing module 22 comprises a second mounting bracket 221, a steam exhaust groove 222 arranged at the front end of the second mounting bracket 221 and a flattening module 223 arranged on the second mounting bracket 221 and positioned behind the steam exhaust groove 222;

as shown in fig. 2 and 3, the flattening module 223 employs an oscillating flattening roller device 4; the oscillating flattening roller device 4 comprises a second driven roller 41 arranged on a second mounting bracket 221 through a supporting rod, an oscillating module 42 arranged at the upper end of the second mounting bracket 221, and a second driving roller 43 which is arranged on the oscillating module 42 and forms a second cloth feeding channel with the second driven roller 41; the oscillating module 42 includes an upper mounting block 421 mounted on the upper end of the bracket 221, a lower mounting block 422 mounted on the lower end of the upper mounting block 421 through an elastic member 423, a driving rod 424 penetrating the upper mounting block 421 and having a lower end connected to the lower mounting block 422, and a second driving motor for supplying power to the driving rod 424; the second driving roller 43 is installed at the lower end of the lower mounting block 422;

the drying module 23 includes a module case 231 and a ventilation slot 232 installed inside the module case 231;

the auxiliary module 24 includes a steam generator connectable to the steam exhaust slot 222 and a hot air blower connected to the vent slot 232.

Wherein, the first shaping unit 1 further comprises a height adjusting module 16 mounted at the upper end of the first mounting bracket 11; the first driven roller 15 is mounted on the height adjusting module 16; two groups of the vent notches 232 are arranged, and the two groups of the vent notches 232 are oppositely arranged; the second fixing unit 2 further includes auxiliary rollers 20 provided at left and right sides of the upper end of the unit housing 21.

It should be noted that: in the embodiment, the first driving motor 13, the steam generator, the hot air blower and the second driving motor are all commercially available products; the present embodiment further includes a control module and a power module, which are not described herein again.

Claims (6)

1. A cloth production setting machine for manufacturing nanometer non-woven fabrics comprises a first setting unit (1), a second setting unit (2) and a third setting unit (3) which are sequentially arranged from front to back; the first sizing unit (1) comprises a first mounting bracket (11), a first driving roller (12) mounted on the first mounting bracket (11), a first driving motor (13) mounted on the first mounting bracket (11), a gear box (14) used for connecting the first driving motor (13) and the first driving roller (12), and a first driven roller (15) mounted on the first mounting bracket (11) and forming a first cloth feeding channel with the first driving roller (12);

the third shaping unit (3) and the first shaping unit (1) have the same structure;

the second shaping unit (2) is characterized by comprising a unit shell (21), an ironing module (22) arranged at the upper end of the unit shell (21), a drying module (23) arranged at the upper end of the unit shell (21) and positioned behind the ironing module (22), and an auxiliary module (24) which is arranged in the unit shell (21) and is respectively connected with the ironing module (22) and the drying module (23);

the ironing module (22) comprises a second mounting bracket (221), a steam discharge groove (222) arranged at the front end of the second mounting bracket (221) and a flattening module (223) arranged on the second mounting bracket (221) and positioned behind the steam discharge groove (222);

the drying module (23) comprises a module housing (231) and a ventilation slot (232) arranged inside the module housing (231);

the auxiliary module (24) comprises a steam generator connectable to the steam exhaust slot (222) and a hot air blower connected to the ventilation slot (232).

2. The cloth producing and setting machine for nano non-woven fabric manufacture according to claim 1, wherein the first setting unit (1) further comprises a height adjusting module (16) installed at an upper end of the first installing support (11); the first driven roller (15) is mounted on a height adjustment module (16).

3. The cloth producing and setting machine for nano non-woven fabric manufacture according to claim 1, characterized in that the flattening module (223) employs an oscillating flattening roller device (4); the oscillating flattening roller device (4) comprises a second driven roller (41) installed on a second installation support (221) through a support rod, an oscillating module (42) installed at the upper end of the second installation support (221), and a second driving roller (43) installed on the oscillating module (42) and forming a second cloth feeding channel with the second driven roller (41).

4. The cloth producing and setting machine for nano non-woven fabric manufacturing according to claim 3, wherein the oscillation module (42) comprises an upper mounting block (421) installed at the upper end of the support (221), a lower mounting block (422) installed at the lower end of the upper mounting block (421) through an elastic member (423), a driving rod (424) penetrating the upper mounting block (421) and having a lower end connected with the lower mounting block (422), and a second driving motor for supplying power to the driving rod (424); the second driving roller (43) is installed at the lower end of the lower installation block (422).

5. The cloth producing and setting machine for nano non-woven fabric manufacture according to claim 1, wherein the two sets of the vent slits (232) are provided, and the slits of the two sets of the vent slits (232) are oppositely arranged.

6. The cloth producing and setting machine for nano non-woven fabric manufacture according to claim 1, wherein the second setting unit (2) further comprises auxiliary rollers (20) provided at left and right sides of the upper end of the unit housing (21).

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