CN115478381A

CN115478381A - Circulating domestic weaving forming device of usefulness of tailorring

Info

Publication number: CN115478381A
Application number: CN202210760445.4A
Authority: CN
Inventors: 金虎
Original assignee: Nantong Wanfujia Textile Co ltd
Current assignee: Nantong Wanfujia Textile Co ltd
Priority date: 2022-06-29
Filing date: 2022-06-29
Publication date: 2022-12-16

Abstract

The invention discloses a household textile forming device for circulating cutting, which comprises a textile forming device and a cloth cutting and spraying control system, and is characterized in that: the textile forming device comprises a cutting mechanism and a spraying mechanism, wherein the cloth cutting and spraying control system comprises a thread cutting module, a detection module and a spraying module, the thread cutting module is used for identifying the thread end at the edge of the cloth and automatically positioning and cutting the thread end, the detection module is used for detecting the smoothness of the cloth, the spraying module is used for spraying pigment on the cloth, the cutting mechanism comprises two groups of transmission shafts, a conveying belt is arranged on the surfaces of the two groups of transmission shafts, a side fixing plate is arranged between the two groups of transmission shafts, the side fixing plate is in sliding connection with the transmission shafts, and a cutting knife is arranged on one side, close to the conveying belt, of the side fixing plate.

Description

Circulating domestic weaving forming device of usefulness of tailorring

Technical Field

The invention relates to the technical field of household textile forming devices for circulating cutting, in particular to a household textile forming device for circulating cutting.

Background

The existing household textile forming device for circularly cutting can not detect whether the periphery of textile cloth has thread ends or not in the using process, and the existing household textile forming device for circularly cutting can not cut the thread ends positioned at fixed points, so that the design of the household textile forming device for circularly cutting, which has strong practicability and can automatically identify the cutting position, is necessary.

Disclosure of Invention

The invention aims to provide a household textile forming device for circulating cutting, which solves the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a domestic weaving forming device of usefulness is tailor to circulated formula, includes weaving forming device and cloth and tailors spraying control system, its characterized in that: weaving forming device is including tailorring mechanism and spraying mechanism, the spraying control system is tailor to the cloth includes that the line head tailors module, detection module and spraying module, the line head tailors the end of a thread that the module is used for discerning the cloth edge and carries out automatic positioning and tailors, detection module is used for detecting the smoothness degree of cloth, the spraying module is used for carrying out spraying pigment for the cloth.

According to the technical scheme, the cutting mechanism is including two sets of transmission shafts, and is two sets of the surface of transmission shaft is provided with the conveyer belt, and is two sets of be provided with the side fixing plate between the transmission shaft, the side fixing plate is sliding connection with the transmission shaft, one side that the side is surveyed the fixed plate and is close to the conveyer belt is provided with the cut-off knife, the equal bearing connection in both sides of transmission shaft has the connecting rod, and is two sets of the bearing is connected with the probe wheel between the connecting rod, one side electricity of transmission shaft is connected with the motor, one side electricity of motor is connected with the power.

According to the technical scheme, the end of thread cutting module comprises an infrared transmitting unit, an infrared receiving unit, a data counting unit and a positioning unit, the infrared receiving monocular comprises a projection analysis subunit, the projection analysis subunit is electrically connected with the positioning unit, the infrared transmitting unit is located above the side fixing plate, the infrared receiving unit is located below the side fixing plate, the positioning unit is electrically connected with the cutting knife, the infrared transmitting unit is used for transmitting infrared rays to irradiate the end of thread at the edge of the textile fabric and detecting whether the end of thread exists at the edge of the fabric, the infrared receiving unit is used for receiving the infrared rays irradiated by the infrared transmitting unit, the irradiated infrared rays and the end of thread are projected and generate projection data, the projection analysis subunit is used for analyzing the position of the end of thread at the edge of the fabric and generating position data, the data counting unit is used for receiving and analyzing the projection data irradiated by the infrared receiving unit, the positioning unit is used for receiving the end of thread position data of the projection analysis subunit and controlling the displacement of the cutting knife, and facilitating fixed-point positioning cutting of the end of thread at different positions.

According to the technical scheme, the data statistics unit comprises a thickness recording subunit, a soft and hard recording subunit and a length recording unit, the length recording subunit is electrically connected with the positioning unit, and the thickness recording module is used for extracting the thickness of a thread head in the data statistics unit and generating thickness data; the soft and hard recording subunit is used for extracting the soft and hard degree of the thread head in the booknote counting unit and generating soft and hard data, and the length recording subunit is used for extracting the length of the thread head in the counting unit and generating degree data.

According to the technical scheme, the detection module is including temperature detecting element and cutting strength adjustment unit, temperature detecting element is located the connecting rod and surveys the junction of wheel, cutting strength adjustment unit is connected for the electricity with thickness record subunit, cutting strength adjustment unit and soft or hard record subunit are connected for the electricity, temperature detecting element is used for detecting the temperature that produces because of the friction between surveying wheel and the connecting rod for differentiate the thick super degree of cloth, and produce the temperature value, cutting strength adjustment unit is used for receiving the thickness data that thickness subunit produced and the soft or hard data that soft or hard record subunit produced, handles, with the cutting strength of this control cut-off knife.

According to the above technical solution, the thread end cutting module and the detecting module comprise the following operation steps:

s1, transmitting projection data of infrared rays to a data statistics unit by an infrared ray receiving unit, and automatically extracting the projection data into thickness data, soft and hard data and length data by the data statistics unit;

s2, transmitting the textile material position data analyzed by the projection analysis subunit to a positioning unit, so that the positioning unit controls the position of the shearing knife, and the fixed-point positioning effect can be realized just for a point with a wire head;

and S3, the thickness data generated by the thickness recording subunit and the hardness data generated by the hardness recording subunit are transmitted to the cutting force adjusting unit together, so that the cutting force of the cutter is controlled, and the self-adaptive effect is achieved.

According to the above technical solution, in the step S2, a calculation formula of a position moving distance of the cutting knife is as follows:

in the formula (I), the compound is shown in the specification,

for the distance of movement of the cutting blade 5 from the initial end,

is the total value of the end of the line,

the number of the thread ends is the same as the number of the thread ends,

is the distance from the thread end to the initial end,

in order to cut the length of the edge of the cloth,

in the form of a time period,

is the moving speed of the cutting knife and is,

in order to increase the moving speed of the textile fabric,

is the coefficient of friction.

According to the technical scheme, the spraying mechanism comprises a pigment barrel, a pressing wheel is arranged on one side, close to the detection wheel, of the pigment barrel, a connecting shaft is connected between the pressing wheel and the pigment barrel, a transmission pipe is connected to the lower portion of the pigment barrel, a nozzle is arranged at the tail end of the transmission pipe, a plurality of spray holes are formed in the surface of the nozzle, a baffle is arranged inside the nozzle, a limiting hole is formed in the surface of the baffle, a rotary rod is connected to one side of the baffle, the limiting hole is in contact with the spray holes, and a rolling cavity is formed between the detection wheel and the pressing wheel.

According to the technical scheme, the spraying module is including projection unit, light irradiation unit, dose adjustment unit and local fine setting unit, temperature detecting element is connected for the electricity with dose adjustment unit, local fine setting unit is connected for the electricity with projection unit, light irradiation unit is located one side that a pigment section of thick bamboo is close to the conveyer belt, projection unit is located between the connecting rod, dose adjustment unit is connected for the electricity with the shower nozzle, light irradiation unit is used for shining lamp light to textile fabric surface, projection unit is used for receiving light irradiation unit and shines textile fabric's projection to the depth degree and the position of the shadow of discernment projection, dose adjustment unit is used for receiving the temperature value that temperature detecting element produced and adjusts the volume of shower nozzle spun pigment, local fine setting unit is used for receiving the data of the projection depth and the position that projection unit received.

According to the above technical solution, the spraying module comprises the following operation steps:

a1, when the textile fabric moves in a rolling cavity, the textile fabric moves downwards all the time, and in the moving process, a light irradiation unit irradiates light on the textile fabric to generate projection, so that the projection unit receives the projection;

a2, the dosage regulating unit receives the temperature value of the temperature detecting unit, when the roughness of the textile fabric is larger, the friction force is increased, the rotating speed of the detecting wheel is reduced, and the friction with the connecting rod is smaller, so the temperature value is reduced, otherwise, the temperature value is increased, when the temperature value is increased, the dosage regulating unit controls the amount of the pigment sprayed out by the spray head to be less, and when the temperature value is increased, the dosage regulating unit controls the amount of the pigment sprayed out by the spray head to be greatly increased, so that the pigment spraying amount is controlled according to the coarse degree and the excessive degree, and the pigment saving effect is achieved;

a3, analyzing the shadow projected by the textile fabric by a projection unit, wherein the textile fabric with higher roughness has small pigment ductility and is not easy to scatter, otherwise, the pigment is easy to scatter, so that the depth degree of a certain local influence and other shadows is automatically identified, the position of the certain local shadow is analyzed, and comprehensive data of the shadow depth degree and the position relation is generated;

a4, the comprehensive data that produces is received to local fine setting unit, the degree and the position relation of certain local shade of the different textile fabric of assay roughness, and the length of the telescopic link of control corresponding textile fabric shade position, the distance that spacing hole and orifice adjusted corresponding shade position on the promotion baffle is spun, when the great textile fabric pigment of roughness is difficult for scattering, the distance that local fine setting unit control telescopic link removed is great, make the baffle can block the orifice, make the orifice spout corresponding shade position spout vaporific pigment, make the pigment on coarse textile fabric surface comparatively even, when textile fabric roughness is little, otherwise the baffle can not remove, spacing hole and orifice overlap, can spout water column dress pigment, make the textile fabric roughness absorb when little.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the shearing and cutting knife is arranged, the power supply is started, the motor is electrified, so that the transmission shaft is rotated, the transmission belt is driven to rotate and move, the household textile fabric can be transmitted, when the fabric is transported on the surface of the transmission belt, the fabric passes through the side fixing plate, and whether the edge of the fabric has a thread end or not is identified through the control of the thread end cutting module, if the thread end exists, the shearing and cutting knife is controlled to automatically identify and position the position of the thread end through the thread end cutting unit, and the thread end is cut, so that the thread end is cut by a worker, and the effects of saving manpower and time are achieved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a schematic of the control system of the present invention;

in the figure: 1. a drive shaft; 2. a conveyor belt; 3. a side fixing plate; 4. a connecting rod; 5. shearing a cutter; 6. a conveying pipe; 7. a connecting shaft; 8. a paint cartridge; 9. a pinch roller; 10. a detection wheel; 11. and (4) a spray head.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: the utility model provides a domestic weaving forming device of usefulness is tailor to circulated formula, includes weaving forming device and cloth and tailors spraying control system, its characterized in that: the textile forming device comprises a cutting mechanism and a spraying mechanism, a cloth cutting and spraying control system comprises a thread end cutting module, a detection module and a spraying module, wherein the thread end cutting module is used for identifying the thread end at the edge of the cloth and automatically positioning and cutting the thread end, the detection module is used for detecting the smoothness degree of the cloth, the spraying module is used for spraying pigment on the cloth, when the household textile cloth needs to be conveyed, the cloth passes through the cutting mechanism, the thread end at the edge of the cloth is automatically identified through the matching of the thread end cutting module and the cutting mechanism, the thread end at the edge of the cloth is cut off by the cutting module, the cloth can be conveyed by the cutting mechanism, and the spraying mechanism can perform feeding action on the cut cloth through the matching of the spraying mechanism and the spraying module;

the cutting mechanism comprises two groups of transmission shafts 1, a conveying belt 2 is arranged on the surface of each group of transmission shafts 1, a side fixing plate 3 is arranged between the two groups of transmission shafts 1, the side fixing plate 3 is in sliding connection with the transmission shafts 1, a cutting knife 5 is arranged on one side, close to the conveying belt 2, of the side fixing plate 3, two sides of each transmission shaft 1 are in bearing connection with a connecting rod 4, a detection wheel 10 is in bearing connection between the two groups of connecting rods 4, one side of each transmission shaft 1 is electrically connected with a motor, one side of each motor is electrically connected with a power supply, the power supply is started, the motors are electrified, the transmission shafts are rotated, the conveying belts are further driven to rotate and move, household textile cloth can be transmitted, when the cloth is transported on the surface of the conveying belt, the side fixing plate can pass through the side fixing plate, whether a thread end exists on the edge of the cloth or not can be identified through the control of a thread end cutting module, if the thread end is automatically identified and positioned to the position of the thread end through the cutting knife, the thread end cutting unit, the thread cutting is cut, a worker is replaced, and the effect of saving is achieved;

the end cutting module comprises an infrared transmitting unit, an infrared receiving unit, a data counting unit and a positioning unit, wherein the infrared receiving monocular comprises a projection analysis subunit, the projection analysis subunit is electrically connected with the positioning unit, the infrared transmitting unit is positioned above the side fixing plate 3, the infrared receiving unit is positioned below the side fixing plate 3, the positioning unit is electrically connected with the cutting knife 5, the infrared transmitting unit is used for transmitting infrared rays to irradiate the end of the textile fabric edge and is used for detecting whether the end of the textile fabric edge has the end of the textile fabric edge, the infrared receiving unit is used for receiving the infrared rays irradiated by the infrared transmitting unit, the irradiated infrared rays and the end of the textile fabric edge generate projection and generate projection data, the projection analysis subunit is used for analyzing the position of the end of the textile fabric edge and generating position data, the data counting unit is used for receiving the projection data generated by the infrared receiving unit and analyzing the projection data, the positioning unit is used for receiving the end position data of the projection analysis subunit and controlling the displacement of the cutting knife so as to position and cut the end of the textile fabric at different positions,

the data statistics unit comprises a thickness recording subunit, a soft and hard recording subunit and a length recording unit, the length recording subunit is electrically connected with the positioning unit, and the thickness recording module is used for extracting the thickness of a thread end in the data statistics unit and generating thickness data; the soft and hard recording subunit is used for extracting the soft and hard degree of the thread head in the booknote counting unit and generating soft and hard data, the length recording subunit is used for extracting the length of the thread head in the counting unit and generating length data,

the detection module comprises a temperature detection unit and a cutting force adjusting unit, the temperature detection unit is positioned at the joint of the connecting rod 4 and the detection wheel 10, the cutting force adjusting unit is electrically connected with the thickness recording subunit, the cutting force adjusting unit is electrically connected with the soft and hard recording subunit, the temperature detection unit is used for detecting the temperature generated by friction between the detection wheel 10 and the connecting rod 4, the temperature detection unit is used for distinguishing the thickness degree of cloth and generating a temperature value, the cutting force adjusting unit is used for receiving the thickness data generated by the thickness subunit and the soft and hard data generated by the soft and hard recording subunit, processing the thickness data and the soft and hard data, and controlling the cutting force of the cutting knife 5,

the thread end cutting module and the detection module comprise the following operation steps:

s2, transmitting the textile material distribution position data analyzed by the projection analysis subunit to a positioning unit, so that the positioning unit controls the position of the shearing knife 5, and the fixed-point positioning effect can be realized just for a point with a thread head;

s3, the thickness data generated by the thickness recording subunit and the soft and hard data generated by the soft and hard recording subunit are transmitted to the cutting force adjusting unit together to control the cutting force of the cutter so as to achieve the self-adaptive effect,

in the step S2, the calculation formula of the position movement distance of the scissors is as follows:

in the formula (I), the compound is shown in the specification,

the distance of movement of the cutting blade 5 from the initial end,

is the total value of the end of the line,

the number of the thread ends is the same as the number of the thread ends,

is the distance from the thread end to the initial end,

in order to cut the length of the edge of the cloth,

in the form of a time period,

in order to determine the speed of movement of the cutting knife,

the moving speed of the textile fabric is the moving speed of the textile fabric,

in order to obtain the coefficient of friction,

the spraying mechanism comprises a pigment cylinder 8, a pressing wheel 10 is arranged on one side, close to a detection wheel 10, of the pigment cylinder 8, a connecting shaft 7 is connected between the pressing wheel 10 and the pigment cylinder 8, a transmission pipe 6 is connected below the pigment cylinder 8, a spray head 11 is arranged at the tail end of the transmission pipe 6, a plurality of spray holes are formed in the surface of the spray head 11, a baffle is arranged inside the spray head 11, a limiting hole is formed in the surface of the baffle, a rotary rod is connected to one side of the baffle and is in contact with the spray holes, a rolling cavity is formed between the detection wheel 10 and the pressing wheel 9, a worker puts textile cloth into the rolling cavity, the pressing wheel and the detection wheel can extrude the textile cloth, so that the cloth can be smoother and prevented from being wrinkled, when the textile cloth continues to move downwards, the transmission pipe can spray pigment in the pigment cylinder from the spray head to the surface of the textile cloth, and dye the cloth;

the spraying module comprises a projection unit, a light irradiation unit, a dose adjusting unit and a local fine adjusting unit, wherein the temperature detection unit is electrically connected with the dose adjusting unit, the local fine adjusting unit is electrically connected with the projection unit, the light irradiation unit is positioned on one side, close to the conveyor belt 2, of the pigment barrel 8, the projection unit is positioned between the connecting rods 4, the dose adjusting unit is electrically connected with the spray head 11, the light irradiation unit is used for irradiating light to the surface of the textile fabric, the projection unit is used for receiving the projection of the textile fabric irradiated by the light irradiation unit and identifying the depth degree and the position of the shadow of the projection, the dose adjusting unit is used for receiving the temperature value generated by the temperature detection unit to adjust the amount of the pigment sprayed by the spray head 11, and the local fine adjusting unit is used for receiving the data of the depth degree and the position of the projection received by the projection unit,

the spraying module comprises the following operation steps:

a2, the dose adjusting unit receives the temperature value of the temperature detecting unit, when the roughness of the textile fabric is larger, the friction force is increased, the rotating speed of the detecting wheel 10 is reduced, and the friction generated with the connecting rod 4 is smaller, so that the temperature value is lower, otherwise, the temperature value is higher, when the temperature value is higher, the amount of pigment sprayed out by the spray head 11 is controlled to be less by the dose adjusting unit, and when the temperature value is higher, the amount of pigment sprayed out by the spray head 11 is controlled to be larger by the dose adjusting unit, so that the effect of saving the pigment is achieved by controlling the amount of pigment sprayed out according to the roughness;

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a domestic weaving forming device of usefulness is tailor to circulated formula, includes weaving forming device and cloth and tailors spraying control system, its characterized in that: weaving forming device is including tailorring mechanism and spraying mechanism, the spraying control system is tailor to the cloth includes that the line head tailors module, detection module and spraying module, the line head tailors the end of a thread that the module is used for discerning the cloth edge and carries out automatic positioning and tailors, detection module is used for detecting the smoothness degree of cloth, the spraying module is used for carrying out spraying pigment for the cloth.

2. A home textile forming apparatus for circular cutting, as claimed in claim 1, wherein: tailor the mechanism including two sets of transmission shafts (1), it is two sets of the surface of transmission shaft (1) is provided with conveyer belt (2), and is two sets of be provided with side fixing plate (3) between transmission shaft (1), side fixing plate (3) are sliding connection with transmission shaft (1), one side that side survey fixed plate (3) is close to conveyer belt (2) is provided with cuts out cutter (5), the equal bearing in both sides of transmission shaft (1) is connected with connecting rod (4), and is two sets of the bearing is connected with between connecting rod (4) and surveys wheel (10), one side electricity of transmission shaft (1) is connected with the motor, one side electricity of motor is connected with the power.

3. A home textile forming apparatus for circular cutting, as claimed in claim 2, wherein: the end of thread cutting module is including infrared emission unit, infrared receiving unit, data statistics unit and positioning unit, infrared reception monocular is including projection analysis subunit, projection analysis subunit is connected for the electricity with positioning unit, infrared emission unit is located the top of side fixed plate (3), infrared receiving unit is located the below of side fixed plate (3), positioning unit and clipper (5) are the electricity and are connected, infrared emission unit is used for emitting the end of thread that infrared ray shines the edge of textile fabric, is used for detecting whether the cloth edge has the end of thread, infrared receiving unit is used for receiving the infrared ray that infrared emission unit shines, and the infrared ray that receives the illumination produces the projection with the end of thread to produce the projection data, projection analysis subunit is used for analyzing cloth edge end of thread position and generating the position data, data statistics unit is used for receiving the projection data that infrared receiving unit produced, and carry out the analysis with it, positioning unit is used for receiving the end of thread position data of projection analysis subunit to control the displacement of clipper, be convenient for carrying out the fixed point location cutting to the end of different positions.

4. A home textile forming apparatus for circular cutting, as claimed in claim 3, wherein: the data statistics unit comprises a thickness recording subunit, a soft and hard recording subunit and a length recording unit, the length recording subunit is electrically connected with the positioning unit, and the thickness recording module is used for extracting the thickness of a thread head in the data statistics unit and generating thickness data; the soft and hard recording subunit is used for extracting the soft and hard degree of the thread head in the booknote counting unit and generating soft and hard data, and the length recording subunit is used for extracting the length of the thread head in the counting unit and generating degree data.

5. Household textile forming apparatus for circular cutting, according to claim 4, characterized in that: the detection module is including temperature detect unit and tailorring dynamics adjustment unit, temperature detect unit is located connecting rod (4) and the junction of surveying wheel (10), tailorring dynamics adjustment unit and thickness record subunit are the electricity and are connected, tailorring dynamics adjustment unit and soft or hard record subunit are the electricity and are connected, temperature detect unit is used for detecting the temperature that produces because of the friction between surveying wheel (10) and connecting rod (4) for differentiate the thick super degree of cloth, and produce the temperature value, tailorring dynamics regulating unit is used for receiving the thickness data that the thickness subunit produced and the soft or hard data that the soft or hard record subunit produced, handles, cuts the tailorring dynamics of cut-off knife (5) with this control.

6. A home textile forming apparatus for circular cutting, as claimed in claim 5, wherein: the thread end cutting module and the detection module comprise the following operation steps:

s2, the textile material position data analyzed by the projection analysis subunit is transmitted to a positioning unit, so that the positioning unit controls the position of the shearing knife (5), and the fixed-point positioning effect can be realized just for the point with the thread head;

7. The home textile forming apparatus for circulation type cutting of claim 6, wherein: in the step S2, a calculation formula of the position movement distance of the shearing knife is as follows:

in the formula (I), the compound is shown in the specification,

is the moving distance of the cutting knife (5) from the initial end,

is the total value of the end of the line,

the number of the thread ends is the number of the thread ends,

the distance from the thread end to the initial end,

in order to cut the length of the edge of the cloth,

in the form of a time period,

in order to determine the speed of movement of the cutting knife,

in order to increase the moving speed of the textile fabric,

is the coefficient of friction.

8. A home textile forming apparatus for circular cutting, as claimed in claim 7, wherein: the spraying mechanism comprises a pigment barrel (8), wherein a pressing wheel (10) is arranged on one side, close to a detection wheel (10), of the pigment barrel (8), a connecting shaft (7) is connected between the pressing wheel (10) and the pigment barrel (8), a transmission pipe (6) is connected below the pigment barrel (8), a spray head (11) is arranged at the tail end of the transmission pipe (6), a plurality of spray holes are formed in the surface of the spray head (11), a baffle is arranged inside the spray head (11), a limiting hole is formed in the surface of the baffle, a rotary rod is connected to one side of the baffle, the limiting hole is in contact with the spray holes, and a rolling cavity is formed between the detection wheel (10) and the pressing wheel (9).

9. A home textile forming apparatus for circulation cutting, as claimed in claim 8, wherein: the spraying module is including projection unit, light irradiation unit, dose adjustment unit and local fine setting unit, temperature detecting element is connected for the electricity with dose adjustment unit, local fine setting unit is connected for the electricity with projection unit, local fine setting unit is connected for the electricity with the telescopic link, light irradiation unit is located the one side that pigment cylinder (8) are close to conveyer belt (2), projection unit is located between connecting rod (4), dose adjustment unit is connected for the electricity with shower nozzle (11), light irradiation unit is used for shining lamp light to the textile fabric surface, projection unit is used for receiving light irradiation unit and shines the projection of textile fabric to the depth degree and the position of discernment projected shadow, dose adjustment unit is used for receiving the temperature value that temperature detecting element produced and adjusts the volume of shower nozzle (11) spun pigment, local fine setting unit is used for receiving the data of the projection depth and the position that projection unit received.

10. A home textile forming apparatus for circular cutting, as claimed in claim 9, wherein: the spraying module comprises the following operation steps:

a2, the dose adjusting unit receives the temperature value of the temperature detecting unit, when the roughness of the textile fabric is larger, the friction force is increased, the rotating speed of the detecting wheel (10) is reduced, the friction generated with the connecting rod (4) is smaller, the temperature value is lower, otherwise, the temperature value is higher, when the temperature value is higher, the amount of pigment sprayed out by the dose adjusting unit control spray head (11) is reduced, when the temperature value is higher, the amount of pigment sprayed out by the dose adjusting unit control spray head (11) is greatly increased, so that the amount of pigment sprayed out is controlled according to the roughness degree, and the effect of saving the pigment is achieved;

a4, the comprehensive data that produces is received to local fine setting unit, the degree and the positional relation of certain local shadow of the different textile fabric of assay roughness, and the length of the telescopic link of the corresponding textile fabric shadow position of control, the distance that spacing hole and orifice on the promotion baffle adjusted the local pigment blowout volume of corresponding shadow position, when the great textile fabric pigment of roughness is difficult for scattering, the distance that local fine setting unit control telescopic link removed is great, make the baffle can block the orifice, make the orifice spout fog pigment in corresponding shadow position, make the pigment on rough textile fabric surface comparatively even, when textile fabric roughness is not big, otherwise the baffle can not remove, spacing hole overlaps with the orifice, can spout water column dress pigment, make the textile fabric roughness absorb when not big easily.