CN111321524A - Seam fluted disc of full-automatic seam of weaving turns over all-in-one - Google Patents

Abstract

The invention discloses a slotted tooth disc of a full-automatic slot-stitch, thereby effectively ensuring the normal use of the sewing and turning integrated machine.

Description

Seam fluted disc of full-automatic seam of weaving turns over all-in-one

Technical Field

The invention relates to the field of a slotted fluted disc, in particular to a slotted fluted disc of a full-automatic weaving, sewing and overturning integrated machine.

Background

The sewing fluted disc is a component for sewing on the sewing and turning integrated machine, the sewing and turning integrated hosiery machine is a knitting machine for producing hosiery, the initially adopted method is to knit a formed sock piece by a hook needle, and then a double-needle cylinder circular hosiery machine appears to knit the rib-stitch hosiery because a double-head latch needle is applied to a small-caliber circular machine. The welt can be knitted by special mechanisms of the hosiery machine or manually transferred to the hosiery machine after being finished by other machines. The leg, high heel, foot (including sole and face), reinforcing ring and toe are knitted by hosiery machine, and hosiery machine classification hosiery machine can be classified according to needle bed form, knitting needle type and cylinder (bed) number. The flat stocking machine has a higher machine number, produces the full-width stocking pieces with the width of each section changed according to the shapes of feet and legs, and is sewn into the seamed stockings. The circular hosiery machine has wide range of machine size, and the tubular hosiery blank is produced by changing the size of the loops of each section, or by using elastic yarn, or by knitting to form the toe, the heel and other methods to adapt to the shape of the foot. The toe of the tubular sock blank is closed to form a seamless sock. The flat hosiery machine production efficiency is lower, at present widely uses the circular hosiery machine. The circular hosiery machine with hosiery machine structure is mainly composed of a yarn feeding mechanism, a knitting mechanism, a needle selecting mechanism, a control mechanism, a transmission mechanism, a density adjusting mechanism and a traction mechanism. Some hosiery machines also have opening and closing mechanisms. The hosiery machine is also provided with a loop transfer mechanism.

Be connected with a plurality of intensive syringe needles that are the circumference and distribute on the slotted chain dish, the syringe needle is too intensive and very thin, therefore after long-term the use, the condition that the single syringe needle of very easy emergence appears the crack or splits, the present slotted chain dish can not be changed to single syringe needle however, generally changes whole slotted chain dish, leads to the whole life of slotted chain dish to reduce, causes the waste of resource.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a slotted fluted disc of a full-automatic sewing and overturning all-in-one machine, which can detachably limit and install a needle head on the slotted fluted disc through the arrangement of a double-flute and a solidification limit layer, further, after a single needle head is damaged, only the single needle head needs to be replaced, thereby effectively prolonging the service efficiency and the service life of the slotted fluted disc, meanwhile, through the matching use of the porous photolysis section and the photosensitive rod, when the needle head cracks, external light can enter the outer needle shell through the crack and irradiate on the photosensitive rod, under the action of the upper light guide rod and the outer light guide rod, light can be transmitted to the surface of the porous photolysis section, further degrading the porous photolysis section, exposing the internal light sensor to sense light signals, and then can in time remind the damage of staff's syringe needle, and then effectively guarantee to knit the normal use of seam and turn over the all-in-one.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A seam fluted disc of a full-automatic seam-weaving and seam-turning integrated machine comprises a seam fluted disc body arranged on the seam-weaving and seam-turning integrated machine, wherein the outer end of the seam fluted disc body is connected with a plurality of uniformly distributed needles, the outer end of the seam fluted disc body is provided with a plurality of double-shaped grooves which are respectively matched with the needles, the double-shaped grooves comprise a lower fixed groove positioned below and an upper movable groove positioned above, the upper movable groove is communicated with the lower fixed groove and communicated with the outside, the needles comprise an outer needle shell and an inner fixing rod, the inner embedded groove is arranged inside the outer needle shell, the upper end of the inner fixing rod is fixedly connected with the inner top end of the inner embedded groove, the lower end of the inner fixing rod extends to the outer side of the inner embedded groove, the lower end of the inner fixing rod is in threaded connection with the lower fixed groove, the lower end of the outer needle shell is matched with the upper movable groove, and the setting of the double-shaped grooves and a solidification limiting layer can be realized, can be with spacing the installing on the seam fluted disc of syringe needle detachable, and then after single syringe needle damages, only need to change single syringe needle can, and then effectively prolong the availability factor and the life of this seam fluted disc, simultaneously through porous photolysis section, the cooperation of sensitization pole is used, after the syringe needle takes place the crack, external light can enter into outer syringe needle casing at the breach and shine on the sensitization pole, under the effect of last light guide rod and outer light guide rod, can be with light conduction to porous photolysis section surface, and then make porous photolysis section degradation, then inside light sensor takes place to expose, experience light signal, and then can in time remind the damage of staff's syringe needle, and then effectively guarantee to knit the seam and turn over the normal use of all-in-one.

Furthermore, the gap between the outer needle shell and the upper rotating groove is poured with a solidification limiting layer, the inner end and the outer end of the solidification limiting layer are respectively matched with the outer needle shell and the upper rotating groove, the outer needle shell can be locked in a double-shaped groove through the solidification limiting layer, the needle head is integrally incapable of rotating in the double-shaped groove, and therefore the stability of the needle head of the slotted-toothed disc in the using process is effectively guaranteed.

Further, solidification limit layer is made by the thermoplastic material, and the thermoplastic material can be moulding once more after the design is heated for the syringe needle is damaged the back, can be through the fixed point heating, makes the solidification limit layer that this syringe needle corresponds melt, thereby removes the locking effect of syringe needle that damages at the double-groove inslot, and the removal and the change of the syringe needle of being convenient for damage effectively reduce the holistic change frequency of slotted disk, increase of service life.

Furthermore, the part of the outer needle shell positioned in the upper rotating groove and the section of the upper rotating groove are rectangular, and the diagonal length of the section of the outer needle shell is between the inner diameter of the lower rotating groove and the minimum edge length of the section of the upper rotating groove, so that when a solidification limiting layer is not poured, the needle head can be ensured to normally rotate in the double-shaped groove, and the needle head can be conveniently installed.

Further, interior retention pole is inside to be inlayed and to have porous photodissociation section, porous photodissociation section middle part is inlayed and is had light sensor, light sensor and weave seam and turn over all-in-one signal connection.

Further, porous photolysis section surface is porous structure, be convenient for shine porous photolysis section through outer leaded light pole and can enter into inside the porous photolysis section, and then effectively accelerate the degradation speed of porous photolysis section after the photic, be convenient for light sensor can in time experience light signal, make the staff can in time know the damage of syringe needle, the staff of effectively being convenient for simultaneously is to the affirmation of the position of the syringe needle of damage, be convenient for to the change of syringe needle, and the part that porous photolysis section is located the light sensor outside is solid structure, effectively guarantee the holistic stability of outer needle casing, make the syringe needle when the installation, difficult emergence makes whole syringe needle damaged condition because of interior maintenance pole fracture.

Furthermore, the porous photolysis section is made of photolysis polymer materials and can be naturally degraded under the action of light, the thickness ratio of the porous structure to the solid structure is 1.5-2:1, the solid structure is partially too thick, when cracks or fractures are generated on the surface of the outer needle shell, the porous photolysis section cannot be timely degraded under the action of external light, so that a light sensor cannot timely receive light signals, the solid structure is too thin, the overall strength of the inner retention rod can be reduced, and the inner retention rod is easy to fracture in the process of mounting the needle head, so that the overall quality of the needle head is low.

Further, outer needle casing is inside to be inlayed and to have the sensitization pole, the sensitization pole is located embedded groove top, long-term back of using, outer needle casing surface produces damage such as crack after, external light can enter into outer needle casing at the breach and shine on the sensitization pole, lead the effect of polished rod and outer polished rod in the cooperation, can transmit light to porous photodissociation section on, porous photodissociation section constantly takes place the degradation under the light action, make inside light sensor take place to expose, after light sensor experienced the light signal, can give the signal feedback to knit the seam and turn over the all-in-one, thereby in time remind the damage of staff's syringe needle.

Further, the inside outer polished rod that leads that still inlays that has a plurality of evenly distributed of outer needle casing, sensitization pole lower extreme is connected with light guide rod, and is a plurality of outer polished rod that leads all is connected with last light guide rod, goes up and leads the polished rod and be used for transmitting external light with outer light guide rod, leads to the feasible light that comes from the external world can be used in porous photodissociation section surface.

Further, it is a plurality of the tip of outer light guide rod all extends to in the embedded groove, and outer light guide rod tip just to porous photolysis section for the light that comes from the sensitization pole can be more direct shine at porous photolysis section surface, and then effectively with higher speed porous photolysis section's photolysis, accelerate the staff to the acquisition of syringe needle damage information.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme can be through the setting of double-flute groove and solidification limit layer, can be with the spacing installation of syringe needle detachable on the seam fluted disc, and then after single syringe needle damages, only need to change single syringe needle can, and then effectively prolong the availability factor and the life of this seam fluted disc, simultaneously through porous photodissociation section, the cooperation of sensitization pole is used, after the syringe needle takes place the crack, external light can shine on the sensitization pole in the shell of outer syringe needle at the breach, under the effect of last polished rod and outer polished rod of leading, can be with light conduction to porous photodissociation section surface, and then make porous photodissociation section degradation, then inside light sensor takes place to expose, experience optical signal, and then can in time remind the damage of staff's syringe needle, and then effectively guarantee to knit the normal use that seam turns over the all-in-one.

(2) The outer needle casing has the solidification limit layer with the space pouring of last between the rotating groove that moves, and the outer both ends of solidification limit layer respectively with outer needle casing with move the rotating groove phase-match on with, can be with outer needle casing locking at the double flute inslot through the solidification limit layer for the syringe needle is whole can not rotate at the double flute inslot, thereby effectively guarantees this seam fluted disc at the holistic stability of syringe needle in the use.

(3) Solidification limit layer is made by the thermoplastic material, and the thermoplastic material can be moulding once more after the design is heated for the syringe needle is damaged the back, can pass through the fixed point heating, makes the solidification limit layer that this syringe needle corresponds melt, thereby removes the locking effect of syringe needle of damage in the double flute inslot, and the removal and the change of the syringe needle of being convenient for damage effectively reduce the holistic change frequency of seam fluted disc, increase of service life.

(4) The part of outer needle casing position in last rotary trough and the cross-section of last rotary trough are the rectangle, and outer needle casing cross-section diagonal length is between the minimum limit length of fixed rotary trough internal diameter and last rotary trough cross-section down for when not pouring solidification stop layer, can guarantee that the syringe needle normally rotates at the double-shaped inslot, the installation of the syringe needle of being convenient for.

(5) The inside of interior maintenance pole is inlayed and is had porous photodissociation section, and porous photodissociation section middle part is inlayed and is had light sensor, and light sensor and weave seam turn over all-in-one signal connection.

(6) Porous photolysis section surface is porous structure, it can enter into porous photolysis section inside to be convenient for shine the light on porous photolysis section through outer leaded light pole, and then effectively accelerate the degradation speed of porous photolysis section behind the photic, be convenient for light sensor can in time experience light signal, make the staff can in time know the damage of syringe needle, the staff of effectively being convenient for simultaneously is to the affirmation of the position of the syringe needle of damage, be convenient for the change to the syringe needle, and the part that porous photolysis section is located the light sensor outside is solid structure, effectively guarantee the holistic stability of outer needle casing, make the syringe needle when the installation, difficult emergence is because of the fracture of interior maintenance pole makes the impaired condition of whole syringe needle.

(7) The porous photolysis section is made of photolysis polymer materials and can be naturally degraded under the action of light, the thickness ratio of the porous structure to the solid structure is 1.5-2:1, the solid structure is partially too thick, when cracks or fractures are generated on the surface of the outer needle shell, the porous photolysis section cannot be timely degraded under the action of external light, so that a light sensor cannot timely receive light signals, the solid structure is too thin, the overall strength of the inner retention rod is reduced, and the inner retention rod is easy to fracture in the process of installing the needle head, so that the overall quality of the needle head is low.

(8) Outer needle casing is inside to be inlayed and to have the sensitization pole, the sensitization pole is located embedded groove top, after long-term use, outer needle casing surface produces damage such as crack after, external light can enter into outer needle casing at the breach and shine on the sensitization pole, lead the effect of polished rod and outer polished rod in the cooperation, can transmit light to porous photodissociation section on, porous photodissociation section constantly takes place the degradation under the light action, make inside light sensor take place to expose, experience the light signal after light sensor, can knit the seam with the signal feedback and turn over the all-in-one, thereby in time remind the damage of staff's syringe needle.

(9) The inside outer polished rod that leads that still inlays that has a plurality of evenly distributed of outer needle casing, sensitization pole lower extreme is connected with and leads the polished rod, and a plurality of outer polished rods that lead all are connected with last leaded light pole, and upward lead the polished rod and be used for transmitting the external light with outer leaded light pole, the direction to make the light that comes from the external world can act on porous photodissociation section surface.

(10) The tip of a plurality of outer light guide rods all extends to in the embedded groove, and outer light guide rod tip just to porous photolysis section for the light that comes from the sensitization pole can be more direct shine on porous photolysis section surface, and then effectively accelerates the photolysis of porous photolysis section, accelerates the staff to the acquisition of syringe needle damage information.

Drawings

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

FIG. 2 is a front view of the present invention;

FIG. 3 is a schematic view of a portion of the needle of the present invention mounted on a slotted disk body;

FIG. 4 is a schematic view of the structure at A in FIG. 3;

FIG. 5 is a perspective view of the needle of the present invention;

FIG. 6 is a front view of the needle of the present invention;

figure 7 is a schematic structural view in partial cross-section of a needle of the present invention.

The reference numbers in the figures illustrate:

the device comprises a slotted disk body 1, a needle head 2, an outer needle shell 21, an inner retention rod 22, an upper moving rotary groove 31, a lower fixed rotary groove 32, a curing limiting layer 4, an inner embedded groove 5, a porous photolysis section 6, a light ray sensor 7, a light sensitive rod 8, an upper light guide rod 91 and an outer light guide rod 92.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-2, a slotted gear of a full-automatic weaving, sewing and turning integrated machine includes a slotted gear body 1 installed on the weaving, sewing and turning integrated machine, and a plurality of needles 2 uniformly distributed are connected to an outer end of the slotted gear body 1.

Referring to fig. 3-4, a plurality of double grooves are cut at the outer end of the slotted-toothed disc body 1, the double grooves are respectively matched with a plurality of needles 2, each double groove comprises a lower fixed rotary groove 32 positioned below and an upper movable rotary groove 31 positioned above, the upper movable rotary groove 31 is communicated with the lower fixed rotary groove 32, the upper movable rotary groove 31 is communicated with the outside, a solidification limiting layer 4 is poured in a gap between the outer needle housing 21 and the upper movable rotary groove 31, the inner end and the outer end of the solidification limiting layer 4 are respectively matched with the outer needle housing 21 and the upper movable rotary groove 31, the outer needle housing 21 can be locked in the double grooves through the solidification limiting layer 4, so that the needles 2 can not rotate in the double grooves as a whole, the stability of the needles 2 in the use process is effectively ensured, the solidification limiting layer 4 is made of thermoplastic material, the thermoplastic material can be shaped again after being shaped and heated, make syringe needle 2 damaged the back, can heat through the fixed point for solidification limit layer 4 that this syringe needle 2 corresponds melts, thereby removes the locking effect of syringe needle 2 in the double-groove of damage, and the holistic change frequency of slotted fluted disc is effectively reduced with the change to the syringe needle 2 of being convenient for damage, increase of service life.

Referring to fig. 5-6, the needle head 2 includes an outer needle housing 21 and an inner retention bar 22, an inner caulking groove 5 is cut in the outer needle housing 21, the upper end of the inner retention bar 22 is fixedly connected with the inner top end of the inner caulking groove 5, the lower end of the inner retention bar 22 extends to the outer side of the inner caulking groove 5, the lower end of the inner retention bar 22 is in threaded connection with a lower fixed rotating groove 32, the lower end of the outer needle housing 21 is matched with an upper movable rotating groove 31, the cross sections of the part of the outer needle housing 21 located in the upper movable rotating groove 31 and the upper movable rotating groove 31 are rectangular, and the diagonal length of the cross section of the outer needle housing 21 is between the inner diameter of the lower fixed rotating groove 32 and the minimum length of the cross section of the upper movable rotating groove 31, so that the needle head 2 can be guaranteed to normally rotate in the double-groove when the solidified limiting layer 4 is.

Referring to fig. 7, a porous photolysis section 6 is embedded in an inner retention rod 22, a light sensor 7 is embedded in the middle of the porous photolysis section 6, the light sensor 7 is in signal connection with the seam-stitch-turning integrated machine, the outer surface of the porous photolysis section 6 is of a porous structure, so that light irradiated onto the porous photolysis section 6 through an outer light guide rod 92 can enter the porous photolysis section 6, the degradation speed of the porous photolysis section 6 after receiving light is effectively accelerated, the light sensor 7 can timely sense light signals, a worker can timely know the damage of the needle head 2, meanwhile, the worker can effectively confirm the position of the damaged needle head 2, the needle head 2 can be conveniently replaced, the part of the porous photolysis section 6, which is located outside the light sensor 7, is of a solid structure, the stability of the whole outer needle housing 21 is effectively ensured, and when the needle head 2 is installed, the condition that the whole needle head 2 is damaged due to breakage of the inner retention rod 22 is not easy to occur, the porous photolysis section 6 is made of photolysis polymer materials and can be naturally degraded under the action of light, the thickness ratio of the porous structure to the solid structure is 1.5-2:1, the solid structure is too thick, when cracks or breakage occur on the surface of the outer needle shell 21, the porous photolysis section 6 cannot be degraded in time under the action of external light, so that the light sensor 7 cannot receive light signals in time, the solid structure is too thin, the overall strength of the inner retention rod 22 is reduced, and in the process of mounting the needle head 2, the inner retention rod 22 is prone to breakage, and the overall quality of the needle head 2 is low.

The outer needle shell 21 is internally embedded with a photosensitive rod 8, the photosensitive rod 8 is of a structure of which the surface is connected with a plurality of silicon dioxide light guide rods, the photosensitive rod 8 is positioned above the inner embedded groove 5, after long-term use, after cracks and other damages are generated on the surface of the outer needle shell 21, external light can enter the outer needle shell 21 through the cracks and irradiate on the photosensitive rod 8, the light can be transmitted to the porous photolysis section 6 under the action of the upper light guide rod 91 and the outer light guide rod 92, the porous photolysis section 6 is continuously degraded under the action of light, so that the internal light sensor 7 is exposed, when the light sensor 7 senses light signals, the signals can be fed back to the seam-weaving and-turning integrated machine, thereby timely reminding workers of damage to the needle head 2, the outer needle shell 21 is also internally embedded with a plurality of uniformly distributed outer light guide rods 92, the lower end of the photosensitive rod 8 is connected with an upper light guide rod 91, and the plurality of outer light guide rods 92 are all connected with, sensitization pole 8, go up and lead polished rod 91 and lead polished rod 92 outward and be the silica material and make, all there is leaded light nature, it is used for transmitting external light to go up to lead polished rod 91 and lead polished rod 92 outward, the direction, thereby make the light that comes from the external world can act on in porous photolysis section 6 surfaces, a plurality of tip that lead polished rod 92 outward all extend to in the caulking groove 5, and lead polished rod 92 tip outward just to porous photolysis section 6, make the light that comes from sensitization pole 8 can be more direct shine on porous photolysis section 6 surfaces, and then effective photodissociation with higher speed porous photolysis section 6, accelerate the staff to the acquisition of syringe needle 2 damage information.

When the sewing and overturning all-in-one machine is used, after the sewing and overturning all-in-one machine receives a signal that the needle head 2 cracks, the corresponding needle head 2 can be directly dismantled, the corresponding curing limiting layer 4 is heated and softened at first, and then the needle head 2 is taken out in a rotating mode;

when the needle head 2 is broken in the using process, if the inner fixing rod 22 in the embedded groove 5 is directly exposed to the outside after the needle head 2 is broken, namely the outer needle shell 21 and the inner fixing rod 22 become two unconnected bodies, the inner fixing rod 22 can be directly rotated through tools such as pliers and the like, and the heating and softening limit layer 4 is heated, so that the broken needle head 2 can be smoothly taken out, and a new needle head 2 is replaced;

if the broken inner fixing rod 22 is not exposed outside, the solidified limiting layer 4 can be directly heated and softened, and then the broken needle 2 can be taken out by rotation.

Can be through the setting of double-flute profile and solidification limit layer 4, can be with the spacing installation on the seam fluted disc of 2 detachable of syringe needle, and then after single syringe needle 2 damages, only need to change single syringe needle 2 can, and then effectively prolong the availability factor and the life of this seam fluted disc, simultaneously through porous photolysis section 6, photosensitive rod 8's cooperation is used, after syringe needle 2 takes place the crack, external light can enter into outer needle casing 21 at the breach and shine on photosensitive rod 8, under the effect of last polished rod 91 of leading and outer polished rod 92, can be with light conduction to the 6 surfaces of porous photolysis section, and then make porous photolysis section 6 degrade, then inside light sensor 7 takes place to expose, experience light signal, and then can in time remind the damage of staff syringe needle 2, and then effectively guarantee to knit the seam and turn over the normal use of all-in-one-piece.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (10)

1. The utility model provides a full-automatic seam fluted disc of seam all-in-one that turns over weaves, turns over seam fluted disc body (1) on the all-in-one including installing the seam, seam fluted disc body (1) outer end is connected with a plurality of evenly distributed's syringe needle (2), its characterized in that: slotting disc body (1) outer end is excavated there are a plurality of double flute, and is a plurality of double flute is respectively with a plurality of syringe needle (2) phase-match, the double flute is including the lower fixed rotary trough (32) that is located the below and be located the top and move rotary trough (31), it communicates with each other with lower fixed rotary trough (32) to go up to move rotary trough (31), and goes up to move rotary trough (31) and external communicating, syringe needle (2) are including outer needle casing (21) and interior clamping bar (22), outer needle casing (21) inside is excavated there is interior caulking groove (5), interior clamping bar (22) upper end and interior caulking groove (5) interior top end fixed connection, interior clamping bar (22) lower extreme extends to interior caulking groove (5) outside, interior clamping bar (22) lower extreme and fixed rotary trough (32) threaded connection down, outer needle casing (21) lower extreme and last rotary trough (31) phase-match.

2. The slotted disk of the full-automatic weaving, sewing and overturning all-in-one machine according to claim 1, characterized in that: a curing limiting layer (4) is poured in a gap between the outer needle shell (21) and the upper moving rotating groove (31), and the inner end and the outer end of the curing limiting layer (4) are respectively matched with the outer needle shell (21) and the upper moving rotating groove (31).

3. The slotted disk of the full-automatic weaving, sewing and overturning all-in-one machine according to claim 2, characterized in that: the solidification limiting layer (4) is made of thermoplastic plastics.

4. The slotted disk of the full-automatic weaving, sewing and overturning all-in-one machine according to claim 1, characterized in that: the part of the outer needle shell (21) positioned in the upper rotating groove (31) and the section of the upper rotating groove (31) are both rectangular, and the diagonal length of the section of the outer needle shell (21) is between the inner diameter of the lower rotating groove (32) and the minimum side length of the section of the upper rotating groove (31).

5. The slotted disk of the full-automatic weaving, sewing and overturning all-in-one machine according to claim 1, characterized in that: interior solid fixed position pole (22) inside mosaic has porous photodissociation section (6), porous photodissociation section (6) middle part mosaic has light sensor (7), light sensor (7) with weave seam and turn over all-in-one signal connection.

6. The slotted disk of the full-automatic weaving, sewing and overturning all-in-one machine according to claim 5, wherein: the outer surface of the porous photolysis section (6) is of a porous structure, and the part of the porous photolysis section (6) located on the outer side of the light sensor (7) is of a solid structure.

7. The slotted disk of the full-automatic weaving, sewing and overturning all-in-one machine according to claim 6, wherein: the porous photolysis section (6) is made of photolysis polymer materials, and the thickness ratio of the porous structure to the solid structure is 1.5-2: 1.

8. The slotted disk of the full-automatic weaving, sewing and overturning all-in-one machine according to claim 5, wherein: the outer needle shell (21) is internally inlaid with a photosensitive rod (8), and the photosensitive rod (8) is positioned above the inner caulking groove (5).

9. The slotted disk of the full-automatic weaving, sewing and overturning all-in-one machine according to claim 8, wherein: the outer needle shell (21) is internally embedded with a plurality of outer light guide rods (92) which are uniformly distributed, the lower end of the photosensitive rod (8) is connected with an upper light guide rod (91), and the outer light guide rods (92) are connected with the upper light guide rod (91).

10. The slotted disk of the full-automatic weaving, sewing and overturning all-in-one machine according to claim 9, wherein: the ends of a plurality of outer light guide rods (92) extend into the embedded grooves (5), and the ends of the outer light guide rods (92) are opposite to the porous photolysis section (6).

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