CN117926530B - Textile fabric processing device - Google Patents

Abstract

The application provides a textile fabric processing device, which comprises: the device comprises a rack, two groups of tensioning assemblies and a leveling mechanism, wherein the rack is vertically arranged relative to the ground; the two groups of tensioning assemblies are respectively arranged on the rack; the leveling mechanism is arranged between the two groups of tensioning assemblies and comprises a base, a first auxiliary assembly, two second auxiliary assemblies and a leveling assembly, wherein the base is arranged on the rack, a first cavity is formed in the upper portion of the base, the cross section of the first cavity is in a semicircular structure, the first auxiliary assembly is arranged in the first cavity, and the first auxiliary assembly is used for spraying steam into the surface of textile fabric to be processed and the inside of the first cavity; the two second auxiliary components are symmetrically arranged on the base. The textile fabric processing device provided by the embodiment of the application has the advantage of high heat utilization rate, and the flattening effect and the processing efficiency of the textile fabric are improved by combining various flattening modes.

Description

Textile fabric processing device

Technical Field

The application relates to the technical field of cloth processing, in particular to a textile cloth processing device.

Background

The cloth generally comprises cotton cloth, linen, silk, woolen cloth, chemical fiber and the like, wherein the cotton cloth is a generic name of various cotton textiles, is used for manufacturing fashion clothing, casual wear, underwear, shirts and the like, and has the advantages of easy warm keeping, softness, close fit, good hygroscopicity and air permeability, and the defects of easy shrinkage, easy wrinkling and the like.

Aiming at the phenomena of easy shrinkage and easy wrinkling of the cloth, the cloth is flattened in the production process by combining steam equipment and rolling equipment. However, on the one hand, the steam heat dissipation speed is high, so that the leveling effect of the cloth is weakened, and on the other hand, in order to meet the technical requirements of products, the contact time between the rolling equipment and the textile cloth needs to be prolonged, for example: the rolling equipment rolls on the cloth in a reciprocating manner, so that the production efficiency of the textile cloth is reduced.

Disclosure of Invention

The present application aims to solve at least to some extent one of the technical problems in the above-described technology.

Therefore, an object of the present application is to provide a textile fabric processing apparatus, which not only has the advantage of high heat utilization rate, but also improves the leveling effect and processing efficiency of the textile fabric by combining various flattening modes.

To achieve the above object, an embodiment of a first aspect of the present application provides a textile fabric processing apparatus, including: the device comprises a rack, two groups of tensioning assemblies and a leveling mechanism, wherein the rack is vertically arranged relative to the ground; the two groups of tensioning assemblies are respectively arranged on the rack; the leveling mechanism is arranged between the two groups of tensioning assemblies and comprises a base, a first auxiliary assembly, two second auxiliary assemblies and a flattening assembly, wherein the base is arranged on the rack, a first cavity is formed in the upper portion of the base, the cross section of the first cavity is in a semicircular structure, and the first cavity is used for providing a rotation space for the flattening assembly; the first auxiliary component is arranged in the first cavity and is used for spraying steam to the surface of the textile fabric to be processed and the interior of the first cavity; the two second auxiliary components are symmetrically arranged on the base, the second auxiliary components are arranged in an arc-shaped structure, and the second auxiliary components are used for supporting the textile fabric to be processed and initially flattening the textile fabric to be processed; the flattening component is arranged on the base and comprises a driving motor and a rotating body, wherein the driving motor is arranged on the outer wall of the base and is used for driving the rotating body to rotate; the rotator is arranged in the first cavity, the cross section of the rotator is in a semicircular structure, and the rotator is used for pushing textile fabric to be processed to be close to a heat source and flattening the textile fabric to be processed again.

According to the textile fabric processing device, the semicircular first cavity is formed in the base, after the heating component heats the bottom of the base, the semicircular first cavity has a certain temperature locking effect, and the textile fabric is continuously pushed to be close to the inner wall of the first cavity, namely the heat source, in the rotating process of the flattening component, so that the heat utilization rate is improved; in addition, the textile fabric is flattened through the auxiliary assembly and the flattening assembly in a variable force mode, and various flattening modes are combined, so that the flattening effect and the processing efficiency of the textile fabric are improved.

In addition, the textile fabric processing apparatus according to the above embodiment of the present application may further have the following additional technical features:

in one embodiment of the present application, the flattening assembly further includes two protruding strips, wherein the rotating body is symmetrically provided with two horizontal portions, and the two protruding strips are respectively arranged on the corresponding horizontal portions.

In one embodiment of the application, the first auxiliary assembly comprises a steam generator, an air pipe and an air inlet pipe, wherein the steam generator is arranged on the outer wall of the base; the inner wall of the first cavity is provided with a containing groove, one end of the air pipe is communicated with the steam generator, and the air pipe is arranged in the containing groove; one end of the water inlet pipe is communicated with the steam generator.

In one embodiment of the application, an auxiliary heating assembly is also included, the auxiliary heating assembly including a cover and a heater, wherein,

The bottom of base is equipped with the second cavity, the heater passes through the closing cap is installed the inside of second cavity.

In one embodiment of the present application, the second auxiliary assembly includes two connection seats, a parting bead, and two rotating shafts, wherein the two connection seats are respectively disposed on the base; the two ends of the parting bead are respectively and pivotally connected with the corresponding connecting seats through the corresponding rotating shafts.

In one embodiment of the application, the parting bead comprises a rubber rod and a metal sheet, wherein the metal sheet is embedded in the rubber rod, and the metal sheet extends to the outside of the rubber rod.

In one embodiment of the present application, the second auxiliary assembly further includes an adjusting member, the adjusting member includes a screw and a knob, wherein two threaded through holes are symmetrically formed on the base, and the screw is disposed through the threaded through holes; the knob is arranged at one end of the screw rod; the other end of the screw rod is abutted against the rubber rod.

In one embodiment of the application, the tensioning assembly comprises two risers, two sliding seats, two springs and a roll shaft, wherein the two risers are arranged on the rack, and through grooves are formed in the risers; the two sliding seats are respectively and slidably arranged in the corresponding through grooves; one ends of the two springs are respectively connected with the corresponding sliding seats, and the other ends of the two springs are respectively connected with the inner top walls of the corresponding through grooves; the roll shaft is rotatably installed between the two sliding seats.

In one embodiment of the application, the bench is provided with a shaping mechanism.

Additional aspects and advantages of the application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the application.

Drawings

The foregoing and/or additional aspects and advantages of the application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic view showing a structure of a textile fabric processing apparatus according to an embodiment of the present application;

FIG. 2 is a schematic view of a leveling mechanism of a textile fabric processing apparatus according to an embodiment of the present application;

FIG. 3 is a schematic view showing a leveling mechanism of a textile fabric processing apparatus according to another embodiment of the present application;

FIG. 4 is a schematic structural view of a flattening assembly of a textile fabric processing apparatus according to one embodiment of the present application;

FIG. 5 is a schematic view showing a structure of a base of a textile fabric processing apparatus according to an embodiment of the present application;

FIG. 6 is a schematic view showing the structure of auxiliary components of a textile fabric processing apparatus according to an embodiment of the present application;

fig. 7 is a schematic structural view of a tensioning assembly of a textile fabric processing apparatus according to an embodiment of the present application.

Reference numerals: 1. a stand; 3. a tensioning assembly; 31. a riser; 32. a through groove; 33. a slide; 34. a spring; 35. a roll shaft; 4.a leveling mechanism; 41. a base; 411. a first cavity; 42. a first auxiliary component; 421. a steam generator; 422. a receiving groove; 423. an air pipe; 424. a water inlet pipe; 43. a second auxiliary component; 431. a connecting seat; 432. a parting bead; 4321. a rubber rod; 4322. a metal sheet; 433. a rotating shaft; 434. an adjusting member; 4340. a threaded through hole; 4341. a screw; 4342. a knob; 44. a flattening assembly; 441. a driving motor; 442. a rotating body; 443. a horizontal portion; 444. a convex strip; 45. an auxiliary heating assembly; 451. a cover; 452. a second cavity; 453. a heater; 5. and a shaping mechanism.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present application and should not be construed as limiting the application.

A textile fabric processing apparatus according to an embodiment of the present application is described below with reference to the accompanying drawings.

The textile fabric processing device provided by the application is mainly applied to the production process of textile fabrics (such as cotton cloth), folds appear on the textile fabrics due to the steps of raw material accumulation, fabric dip dyeing and the like, and before winding, related technicians can utilize the device to level the textile fabrics.

As shown in fig. 1 to 7, the textile fabric processing apparatus according to an embodiment of the present application may include: a bench 1, two sets of tensioning assemblies 3 and a levelling mechanism 4.

Wherein the gantry 1 is arranged vertically with respect to the ground.

It should be noted that, the stand 1 described in this embodiment may include a table top and a plurality of legs, where the plurality of legs are connected by a reinforcing rod, and the contact area between the legs and the ground is small, and the pressure is strong, so that the stability of the device in use is increased.

Two sets of tensioning assemblies 3 are mounted on the gantry 1, respectively.

It will be appreciated that the tensioning assembly 3 is capable of applying a variable force to the textile fabric during its levelling, thereby ensuring that the textile fabric assumes a taut condition during levelling.

The screeding mechanism 4 is arranged between two sets of tensioning assemblies 3, the screeding mechanism 4 may comprise a base 41, a first auxiliary assembly 42, two second auxiliary assemblies 43 and a screeding assembly 44.

Wherein, the base 41 is disposed on the stand 1, a first cavity 411 is disposed at an upper portion of the base 41, a cross section of the first cavity 411 is disposed in a semicircular structure, and the first cavity 411 is configured to provide a rotation space for the flattening component 44.

The first auxiliary assembly 42 is provided inside the first cavity 411, and the first auxiliary assembly 42 is used to spray steam into the surface of the textile to be processed and the inside of the first cavity 411.

Two second auxiliary assembly 43 symmetry sets up on base 41, and second auxiliary assembly 43 is the arc structure setting, and second auxiliary assembly 43 is used for supporting the textile fabric that treats processing to and treat the primary exhibition of processing textile fabric.

The flattening component 44 is mounted on the base 41, and the flattening component 44 comprises a driving motor 441 and a rotating body 442, wherein the driving motor 441 is mounted on the outer wall of the base 41, the driving motor 441 is used for driving the rotating body 442 to rotate, the rotating body 442 is arranged in the first cavity 411, the cross section of the rotating body 442 is in a semicircular structure, and the rotating body 442 is used for pushing textile fabrics to be processed to be close to a heat source (the first auxiliary component 42 and the auxiliary heating component 45) and flattening the textile fabrics to be processed again.

In the embodiment of the present application, the external utility power supplies power to the first auxiliary assembly 42 and the driving motor 441 in the present apparatus, thereby ensuring the normal operation of the present apparatus.

It should be noted that, in the embodiment, one side of the bench 1 is provided with an unreeling device (not shown in the figure), the other side of the bench 1 is provided with a reeling device (not shown in the figure), the reeling device adopts an inflatable shaft structure, two ends of the unreeling device and the reeling device can be respectively provided with a brake device (not shown in the figure), and the other end of the reeling device can be further provided with a driving device (not shown in the figure).

It can be appreciated that the winding device adopts an inflatable shaft structure, which is convenient for relevant technicians (such as workers) to unload the cloth after winding; the two ends of the unreeling device and the reeling device can be respectively provided with a brake device, so that the unreeling speed can be controlled by utilizing friction force, and the textile fabric is always in a tight state in the leveling process.

Specifically, a large number of wrinkles are generated on the surface of a textile fabric (e.g., cotton cloth) due to raw material accumulation, fabric dip dyeing, etc., and a related technician (e.g., a worker) levels the portion of the textile fabric in a processing shop using the present placed fabric processing apparatus.

First, the worker places a portion of the textile material on the outer unwinder, then bypasses one end of the textile material under one of the tension members 3, bypasses one of the second auxiliary members 43, then passes out from under the flattening member 44, bypasses the other second auxiliary member 43 and under the other tension member 3, and finally is placed on the outer wind-up to be collected.

The device is then operated, the textile fabric being released from the external unreeling device, and the portion of textile fabric then bypassing under one of the tensioning assemblies 3.

The part of the textile material continues to move, and when reaching a second auxiliary assembly 43, the second auxiliary assembly 43 can support the textile material to be processed and can be flattened once in the transverse direction of the textile material (perpendicular to the motion direction of the textile material) due to the arc-shaped structure of the second auxiliary assembly 43.

The textile fabric continues to move, the first auxiliary assembly 42 sprays steam to the surface of the textile fabric to be processed, the driving motor 441 in the flattening assembly 44 drives the rotating body 442 to rotate anticlockwise and rapidly, when the plane of the rotating body 442 is parallel to the textile fabric, the contact area between the textile fabric and the rotating body 442 or the hot air is minimum, the textile fabric is farthest from the heat source, the contact area between the textile fabric and the rotating body 442 or the hot air is increased, and the textile fabric is closer to the heat source, so that the heat utilization rate is improved.

In the rotating process, as the rotating body 442 is in a semicircular structure, the circular outer wall of the rotating body 442, the junction of the plane and the outer wall can flatten the textile fabric, and the acting force between the rotating body 442 and the textile fabric in the rotating process is continuously increased and is continuously reduced, the textile fabric is flattened in a variable force mode through the second auxiliary assembly 43 and the flattening assembly 44, and the flattening effect of the textile fabric is improved.

It will be appreciated that the rotating body 442 rotates rapidly counterclockwise, the rotating speed of the rotating body 442 is greater than the moving speed of the textile fabric, so that the textile fabric can approach the heat source (the first auxiliary assembly 42 and the auxiliary heating assembly 45) multiple times under the action of the rotating body 442 at the same place, and the rotating body 442 can flatten the textile fabric multiple times.

When the rotary body 442 pushes the textile material into the first cavity 411, the textile material is tensioned, the acting force between the textile material and the rotary body 442 and the second auxiliary assembly 43 is increased, and the tensioning assembly 3 is deformed, so that the rotary body 442 always contacts the textile material and has a certain acting force no matter what angle the rotary body 442 rotates.

After the textile fabric passes through the other second auxiliary assembly 43, the textile fabric is flattened once again in the transverse direction (perpendicular to the motion direction of the textile fabric), and finally the textile fabric is wound around the other tensioning assembly 3 and then is wound by an external winding device.

It should be noted that the rotator 442 described in this embodiment is made of a metal material, and the rotator 442 has a higher temperature than the textile fabric after a long time operation, and can be essentially regarded as a high-temperature ironing process during the contact of the textile fabric with the rotator 442.

As a possible case, in order to further improve the flattening effect of the textile fabric, the rotating body 442 may be provided with a hollow structure in which a heating device is disposed, thereby further increasing the temperature of the rotating body 442 and improving the flattening effect of the rotating body 442.

In one embodiment of the present application, as shown in FIG. 4, flattening assembly 44 may also include two ribs 444.

Two horizontal portions 443 are symmetrically disposed on the rotating body 442, and two protruding strips 444 are disposed on the corresponding horizontal portions 443, respectively.

Note that, in this embodiment, the protrusion 444 is made of a hard rubber material, and the protrusion 444 may be deformed.

Specifically, under the effect of sand grip 444, textile fabric and the inner wall laminating of first cavity 411 to reach the effect of ironing, further promote this device to placing the flattening effect of cloth.

In one embodiment of the present application, as shown in fig. 5, the first auxiliary assembly 42 may include a steam generator 421, a gas pipe 423, and a water inlet pipe 424.

Wherein, steam generator 421 sets up on the outer wall of base 41, has seted up holding groove 422 on the inner wall of first cavity 411, and the one end and the steam generator 421 intercommunication of trachea 423, and trachea 423 installs in the inside of holding groove 422, and the one end and the steam generator 421 intercommunication of inlet tube 424.

Specifically, the steam generator 421 can spray steam on the cloth through the air pipe 423 to increase the humidity of the cloth, and the water source supplements the steam generator 421 through the water inlet pipe 424.

In one embodiment of the present application, as shown in fig. 2 and 3, the auxiliary heating assembly 45 includes a cover 451 and a heater 453.

Wherein, the bottom of the base 41 is provided with a second cavity 452, and the heater 453 is installed inside the second cavity 452 through the cover 451.

Specifically, after long-term use, a related technician can detach the cover 451 to take out the heater 453, and after taking out, the heater 453 can be maintained, so that the service life of the heater 453 is prolonged.

In one embodiment of the present application, as shown in fig. 2 and 6, the second auxiliary assembly 43 may include two connection seats 431, a division bar 432, and two rotation shafts 433.

Wherein, two connection seats 431 are respectively arranged on the base 41; both ends of the parting bead 432 are respectively and pivotally connected with the corresponding connecting seats 431 through the corresponding rotating shafts 433.

In one embodiment of the application, as shown in FIG. 6, the parting strip 432 may comprise a rubber rod 4321 and a metal sheet 4322.

Wherein, the metal sheet 4322 is embedded inside the rubber bar 4321, and the metal sheet 4322 extends to the outside of the rubber bar 4321.

It should be noted that, in this embodiment, the metal sheet 4322 extends to the outside of the rubber rod 4321, and the contact position between the metal sheet 4322 and the textile fabric is a rounded structure, so that the situation that the textile fabric is damaged due to excessive force when the metal sheet 4322 contacts the textile fabric is avoided.

In one embodiment of the present application, as shown in fig. 6, the second auxiliary assembly 43 may further include an adjusting member 434, and the adjusting member 434 includes a screw 4341 and a knob 4342.

Wherein, two screw through holes 4340 are symmetrically arranged on the base 41, the screw 4341 penetrates through the screw through holes 4340, the knob 4342 is arranged at one end of the screw 4341, and the other end of the screw 4341 is abutted against the rubber rod 4321.

It should be noted that, in this embodiment, the metal sheet 4322 is connected to the rubber rod 4321 through a fixing member, and the fixing member may be a rivet, and the rivet is rotatably installed in the middle of the rubber rod 4321.

Sliding grooves (not shown) are respectively arranged at two ends of the rubber rod 4321, two ends of the metal sheet 4322 are connected through the rubber rod 4321 by a sliding rod (not shown), and the sliding rod is arranged in the sliding grooves in a penetrating manner.

Specifically, when the textile material passes through the second auxiliary assembly 43, the contact area between the metal sheet 4322 and the textile material is small, and the acting force between the metal sheet 4322 and the textile material is large, so that the purpose of flattening is achieved.

The second auxiliary assembly 43 is thus arranged in an arc-shaped configuration, the textile material being spread from the middle to both sides, so that it is flattened once in the transverse direction of the textile material (perpendicular to the direction of movement of the textile material),

When the texture of the textile fabric is softer, a related technician can rotate the knob 4342, the knob 4342 drives the screw 4341 to rotate, and the screw 4341 jacks up the parting bead 432, so that the radian of the parting bead 432 is increased, and the flattening effect of the second auxiliary assembly 43 is further ensured.

After the metal sheet 4322 is used for a long time, a related technician can detach it by using a tool to replace it, thereby securing the flattening effect of the second auxiliary assembly 43.

In one embodiment of the present application, as shown in fig. 7, the tensioning assembly 3 may include two risers 31, two carriages 33, two springs 34, and a roller shaft 35.

Wherein, two vertical plates 31 are arranged on the rack 1, and through grooves 32 are arranged on the vertical plates 31; the two sliding seats 33 are respectively and slidably arranged in the corresponding through grooves 32; one end of each of the two springs 34 is connected with the corresponding sliding seat 33, and the other end of each of the two springs 34 is connected with the inner top wall of the corresponding through groove 32; the roller shaft 35 is rotatably installed between the two carriages 33.

Specifically, under the rotation of the rotary body 442, the cloth enters the inside of the first cavity 411, the cloth is tensioned, the roller shaft 35 is lifted, the slider 33 slides inside the through groove 32, the spring 34 is compressed, and conversely, the spring 34 is released.

It will be appreciated that the tensioning assembly 3 can to a certain extent avoid the occurrence of redundancy and damage to the textile fabric on the device, thereby ensuring that the textile fabric is always in a taut condition.

In one embodiment of the present application, as shown in fig. 1, a setting mechanism 5 is provided on the gantry 1.

It should be noted that the shaping mechanism 5 described in this embodiment may include a housing and a fan.

It is understood that the shaping mechanism 5 can accelerate the air flow rate on the surface of the textile fabric, so that the textile fabric is rapidly cooled to achieve shaping.

In summary, according to the textile fabric processing device provided by the embodiment of the application, the semicircular first cavity is formed in the base, after the heating component heats the bottom of the base, the semicircular first cavity has a certain temperature locking effect, and in the rotating process of the flattening component, the textile fabric is continuously pushed to be close to the inner wall of the first cavity, namely the heat source, so that the heat utilization rate is improved; in addition, the textile fabric is flattened through the auxiliary assembly and the flattening assembly in a variable force mode, and various flattening modes are combined, so that the flattening effect and the processing efficiency of the textile fabric are improved.

In the description of this specification, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

While embodiments of the present application have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the application, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the application.

Claims (5)

1. A textile fabric processing apparatus, comprising: a bench, two groups of tensioning components and a leveling mechanism, wherein,

The bench is vertically arranged relative to the ground;

The two groups of tensioning assemblies are respectively arranged on the rack;

The leveling mechanism is arranged between the two groups of tensioning assemblies and comprises a base, a first auxiliary assembly, two second auxiliary assemblies and a flattening assembly, wherein,

The base is arranged on the rack, a first cavity is arranged at the upper part of the base, the cross section of the first cavity is in a semicircular structure, and the first cavity is used for providing a rotation space for the flattening component;

The first auxiliary component is arranged in the first cavity and is used for spraying steam to the surface of the textile fabric to be processed and the interior of the first cavity;

The two second auxiliary components are symmetrically arranged on the base, the second auxiliary components are arranged in an arc-shaped structure, and the second auxiliary components are used for supporting the textile fabric to be processed and initially flattening the textile fabric to be processed;

The flattening component is arranged on the base and comprises a driving motor and a rotating body, wherein,

The driving motor is arranged on the outer wall of the base and is used for driving the rotating body to rotate;

The rotary body is arranged in the first cavity, the cross section of the rotary body is in a semicircular structure, and the rotary body is used for pushing the textile fabric to be processed to be close to a heat source and flattening the textile fabric to be processed again;

when the plane of the rotating body is parallel to the textile fabric, the contact area of the textile fabric and the rotating body or the hot air is minimum, the textile fabric is farthest from the heat source, the rotating body continuously rotates, the contact area of the textile fabric and the rotating body or the hot air is increased, and the textile fabric is closer to the heat source;

The circular outer wall, the plane and the junction of the outer wall of the rotating body can flatten the textile fabric, the acting force between the rotating body and the textile fabric is continuously increased and is continuously reduced in the rotating process of the rotating body, and the textile fabric is flattened through the second auxiliary component and the flattening component in a variable force mode;

The second auxiliary component comprises two connecting seats, a parting bead and two rotating shafts, wherein,

The two connecting seats are respectively arranged on the base;

the two ends of the parting bead are respectively and pivotally connected with the corresponding connecting seats through the corresponding rotating shafts;

the flattening assembly further comprises two ribs, wherein,

Two horizontal parts are symmetrically arranged on the rotating body, and two raised strips are respectively arranged on the corresponding horizontal parts;

The parting bead comprises a rubber rod and a metal sheet, wherein the metal sheet is embedded in the rubber rod, and the metal sheet extends to the outer part of the rubber rod;

The second auxiliary assembly further comprises an adjusting piece, the adjusting piece comprises a screw rod and a knob, two threaded through holes are symmetrically formed in the base, the screw rod penetrates through the threaded through holes, the knob is arranged at one end of the screw rod, and the other end of the screw rod is abutted to the rubber rod.

2. Textile fabric processing apparatus according to claim 1, wherein the first auxiliary assembly comprises a steam generator, an air duct and a water inlet duct, wherein,

The steam generator is arranged on the outer wall of the base;

The inner wall of the first cavity is provided with a containing groove, one end of the air pipe is communicated with the steam generator, and the air pipe is arranged in the containing groove;

One end of the water inlet pipe is communicated with the steam generator.

3. The textile fabric processing apparatus of claim 1, further comprising an auxiliary heating assembly comprising a cover and a heater, wherein,

The bottom of base is equipped with the second cavity, the heater passes through the closing cap is installed the inside of second cavity.

4. The textile fabric processing apparatus of claim 1 wherein the tensioning assembly comprises two risers, two carriages, two springs and a roller shaft, wherein,

The two vertical plates are arranged on the rack, and through grooves are formed in the vertical plates;

the two sliding seats are respectively and slidably arranged in the corresponding through grooves;

one ends of the two springs are respectively connected with the corresponding sliding seats, and the other ends of the two springs are respectively connected with the inner top walls of the corresponding through grooves;

The roll shaft is rotatably installed between the two sliding seats.

5. The textile fabric processing apparatus of claim 1 wherein the stand is provided with a sizing mechanism.