CN211968775U - Moxa is all spread and is spilt device and moxa is all spread and spilt single needle combined machine - Google Patents

Abstract

The utility model relates to a moxa all spreads and spills device and moxa all spread and spill single needle compound combined machine belongs to moxa goods production facility technical field, has solved the moxa goods processing method who exists among the prior art and has made its production effect lower through the thickness or the degree of consistency of artifical adjustment moxa, the poor technical problem of product quality. The device comprises a hopper and a discharge adjusting roller positioned below the hopper, wherein a plurality of adjusting teeth are arranged on the discharge adjusting roller and are parallel to the longitudinal central axis of the discharge adjusting roller, the adjusting teeth are arranged at equal intervals, and the adjusting teeth are positioned under the discharge hole of the hopper; one side of the discharging adjusting roller is provided with a first motor used for controlling the discharging adjusting roller to reciprocate along the length direction of the hopper, and the first motor is connected with the discharging adjusting roller through a sliding connecting rod. The utility model discloses a mechanical production replaces artifically, has improved production efficiency, has also improved off-the-shelf quality simultaneously.

Description

Moxa is all spread and is spilt device and moxa is all spread and spilt single needle combined machine

Technical Field

The utility model belongs to the technical field of moxa goods production facility technique and specifically relates to a moxa all spreads and spills device and moxa all spread and spill single needle combined machine is related to.

Background

Moxa wool is a soft and fine cotton-like substance obtained by repeatedly drying folium artemisiae argyi in the sun, pestling, beating, crushing and screening impurities and dust. Moxa is a natural processed product of wormwood, and has the effects of clearing and activating the channels and collaterals, warming the channels to stop bleeding, dispelling cold to stop pain, promoting tissue regeneration and preventing miscarriage and the like. According to the efficacy of the moxa, people can utilize the moxa to process various health care products, such as moxa bellyband, pillow, cushion, insole, moxa clothes, various protective tools (knee pad, waist support, belly support and the like), moxa quilt, mattress, moxa foot-soaking bag, shower bag and other moxa products.

The applicant has found that the prior art has at least the following technical problems: in the prior art, the preparation method of the moxa product generally adopts the steps that moxa is manually paved between two layers of cloth and then sewn, and the thickness and the uniformity of the paved moxa depend on the manual work, so that on one hand, the manual input cost is increased, and the production efficiency is lower; on the other hand, the mode of uniformly spreading moxa is adopted, so that the uniform spreading of moxa is not ensured, and the quality of the product is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a moxa all spreads and spills device and moxa all spread and spill single needle combined machine to the moxa goods processing method who solves to exist among the prior art makes its production effect lower through the thickness or the degree of consistency of artifical adjustment moxa, the poor technical problem of product quality. The utility model provides a plurality of technical effects that preferred technical scheme among a great deal of technical scheme can produce see the explanation below in detail.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a moxa uniform spreading device, which comprises a hopper and a discharge adjusting roller positioned below the hopper, wherein a plurality of adjusting teeth are arranged on the discharge adjusting roller and are parallel to the longitudinal central axis of the discharge adjusting roller, the adjusting teeth are arranged at equal intervals, and the adjusting teeth are positioned under the discharge port of the hopper; and a first motor used for controlling the discharging adjusting roller to reciprocate along the length direction of the hopper is arranged on one side of the discharging adjusting roller, and the first motor is connected with the discharging adjusting roller through a sliding connecting rod.

According to a preferred embodiment, the adjusting teeth are arranged with a cross-sectional area that decreases gradually from the connection with the discharge adjusting roller to a direction away from the discharge adjusting roller.

According to a preferred embodiment, the longitudinal section of the adjusting teeth is in an isosceles triangle structure.

According to a preferred embodiment, two ends of the discharging adjusting roller are connected with a hopper support, a plurality of connecting holes used for being connected with the discharging adjusting roller are horizontally arranged on the hopper support so as to adjust the horizontal positions of the two ends of the discharging adjusting roller on the hopper support, and then adjusting teeth on the discharging adjusting roller are far away from or close to the discharging port.

The invention also provides a moxa uniformly spreading and scattering single-needle compound machine, which comprises the moxa uniformly spreading and scattering device, wherein a lower-layer cloth guide-in mechanism is arranged below the moxa uniformly spreading and scattering device, a lower-layer cotton guide-in mechanism is arranged in front of the moxa uniformly spreading and scattering device, an upper-layer cotton guide-in mechanism is arranged behind the moxa uniformly spreading and scattering device, an upper-layer cloth guide-in mechanism is arranged behind the upper-layer cotton guide-in mechanism, a single-needle quilting machine mechanism is arranged behind the upper-layer cloth guide-in mechanism, and a coiling mechanism is arranged behind the single-needle quilting machine mechanism.

According to a preferred embodiment, the lower cloth introducing mechanism includes a lower guide roller and an upper guide roller, and the lower guide roller and the upper guide roller are arranged in a vertical direction.

According to a preferred embodiment, the lower cotton guide mechanism comprises a first lower cotton guide roller, a second lower cotton guide roller and a lower cotton press roller, wherein the first lower cotton guide roller and the second lower cotton guide roller are arranged in parallel; the lower cotton pressing roller is in transmission connection with a second motor;

the lower-layer cotton guide-in mechanism further comprises a movable support and a guide rail, wherein the movable support is used for mounting the first lower-layer cotton guide-in roller, the second lower-layer cotton guide-in roller and the lower-layer cotton press roller, the guide rail allows the movable support to move towards the direction close to or away from the hopper, a gear is arranged below the movable support, and a rack meshed with the gear is arranged on the guide rail so that the movable support can move on the guide rail;

and a first cloth storage pool is arranged in the direction of the movable bracket towards the hopper.

According to a preferred embodiment, the upper cotton guide mechanism comprises a first upper cotton guide roller, a second upper cotton guide roller and an upper cotton press roller, and the first upper cotton guide roller and the second upper cotton guide roller are arranged in parallel; the upper cotton press roller is in transmission connection with a third motor;

a support frame is arranged below the first upper cotton guide-in roller, the second upper cotton guide-in roller and the upper cotton press roller, and a second cloth storage pool is arranged on the support frame in the direction towards the single-needle quilter mechanism;

the upper cotton leading-in mechanism further comprises an upper cotton leading-out press roller positioned behind the second cloth storage pool.

According to a preferred embodiment, the upper cloth introducing mechanism includes an upper cloth introducing roller; and a free guide roller for respectively guiding the upper layer cloth, the upper layer cotton, the lower layer cotton and the lower layer cloth into the single-needle quilting machine mechanism is arranged below the upper layer cloth guide roller.

According to a preferred embodiment, the single-needle quilting machine mechanism includes a single-needle quilting machine reciprocally movable on a frame in a moxa product processing movement direction;

the winding mechanism comprises a first winding roller and a second winding roller, wherein the first winding roller is in transmission connection with a fourth motor, and the second winding roller is located above the first winding roller in an inclined mode and is in contact with the first winding roller.

Based on the technical scheme, the utility model discloses a moxa all spreads and spills device and moxa all spread and spill single needle combined machine has following technological effect at least:

the utility model discloses a moxa all spreads and spills device includes the hopper and is located the ejection of compact dancer rools of hopper below, wherein, on ejection of compact dancer rools and parallel with the vertical axis of ejection of compact dancer rools be equipped with a plurality of regulation teeth, a plurality of equidistant settings of regulation teeth, and a plurality of regulation teeth are located the discharge gate of hopper under, one side of ejection of compact dancer rools is provided with the first motor of control ejection of compact dancer rools along hopper length direction reciprocating motion, first motor is connected with ejection of compact dancer rools through the slip connecting rod, thereby make ejection of compact dancer rools can drive ejection of compact regulation teeth along hopper length direction round trip movement, and then adjust the moxa volume from hopper discharge gate whereabouts, make it evenly spread and spill the lower floor cotton.

On the other hand, the utility model discloses a moxa all spreads both ends of the ejection of compact dancer rools that spills the device and is connected with the hopper support, and the hopper support is improved level and is set up a plurality of connecting holes that are used for being connected with ejection of compact dancer rools to when connecting the connecting hole of different positions with the both ends of ejection of compact dancer rools, can adjust the horizontal position of the both ends on the hopper support of ejection of compact dancer rools, and then adjust the regulation tooth on the ejection of compact dancer rools and keep away from or be close. The distance between the adjusting teeth and the lower part of the discharge hole can be adjusted by adjusting the mounting position of the discharge adjusting roller on the hopper support. In addition, as the longitudinal section of each adjusting tooth is of an isosceles triangle structure, when the adjusting teeth are close to the lower part of the discharge port, the gap distance between adjacent adjusting teeth is reduced, so that the amount of the moxa falling from the discharge port is correspondingly reduced; and when adjusting the tooth and keeping away from discharge gate below setting, the interstitial distance grow between the adjacent regulation tooth, consequently, the moxa volume that falls to the lower floor on the cotton increases from the discharge gate, therefore can adapt to the requirement of different moxa goods moxa thickness.

On the other hand, the utility model discloses a moxa is all spread and is spilt single needle compound combined machine all spreads the device, lower floor's cloth guiding-in mechanism, the cotton guiding-in mechanism of lower floor, upper cloth guiding-in mechanism, the cotton guiding-in mechanism of upper strata so that the compound lower floor that has the moxa, upper cotton, upper cloth and lower floor's cloth are sewed up through the single needle quilter, form the finished product through setting up the moxa. The utility model discloses a moxa is all spread and is spilt single needle combined machine adopts mechanical production to replace the manual work, has improved production efficiency, has also improved off-the-shelf quality simultaneously.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the moxa uniform spreading device of the present invention;

fig. 2 is a schematic structural view of the single-needle compound machine for spreading moxa according to the present invention.

In the figure: 101-a hopper; 102-discharge regulating roller; 103-adjusting teeth; 104-a first motor; 105-a sliding link; 106-a second shaft; 107-first shaft; 108-a connection plate; 109-hopper holders; 110-U-shaped groove; 20-single needle quilting machine mechanism; 201-single needle quilting machine; 202-a slide block; 203-free guide rollers; 204-upper cloth leading-in mechanism; 207-upper cloth; 30-a winding mechanism; 301-a second winding roller; 302-a first winding roller; 303-a fourth motor; 40-lower cotton guide mechanism; 400-a guide rail; 401-moving the carriage; 402-a gear; 404-hand wheel; 405-lower cotton press roll; 406-a first lower layer cotton lead-in roll; 406' -a second lower cotton guide roll; 407-a second motor; 408-a first cloth storage pool; 409-lower cotton layer; 50-an upper cotton guide-in mechanism; 500-a first upper cotton lead-in roll; 500' -a second upper cotton guide-in roll; 501-upper cotton press roll; 502-a second storage cloth tank; 503-a third motor; 504-upper cotton; 505-upper cotton guiding-out press roller; 506-a support frame; 507-vertical ladder; 600-lower guide rolls; 601-an upper guide roller; 602-lower cloth.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The technical solution of the present invention will be described in detail with reference to the accompanying drawings 1 and 2.

As shown in fig. 1, the utility model provides a moxa uniformly spreading device, which comprises a hopper 101 and a discharging adjusting roller 102 positioned below the hopper 101. The discharging adjusting roller 102 is used for adjusting the amount of moxa falling from the discharging port of the hopper 101, so that moxa products with different moxa thicknesses can be adapted or processed.

Preferably, a plurality of adjusting teeth 103 are arranged on the discharging adjusting roller 102 and parallel to the longitudinal central axis of the discharging adjusting roller 102, the plurality of adjusting teeth 103 are arranged at equal intervals, and the plurality of adjusting teeth 103 are positioned right below the discharging port 100 of the hopper 101; a first motor 104 for controlling the discharging adjustment roller 102 to reciprocate along the length direction of the hopper 101 is provided at one side of the discharging adjustment roller 102, and the first motor 104 is connected to the discharging adjustment roller 102 through a sliding link 105. Therefore, the discharging adjusting roller 102 moves back and forth along the length direction of the hopper, so that the falling speed of the moxa is adjusted, and the moxa is uniformly spread on the lower cotton layer.

Preferably, as shown in fig. 1, a first rotating shaft 107 and a second rotating shaft 106 for driving moxa to be uniformly moved to the discharge hole 100 are provided at the bottom of the hopper 101. The circumferential surfaces of the first rotating shaft 107 and the second rotating shaft 106 are provided with a coating layer or a plurality of protrusions with adhesiveness, so that moxa is adsorbed conveniently, the moxa is uniformly distributed along the axial directions of the first rotating shaft 107 and the second rotating shaft 106, and the movement of the moxa towards the discharge hole is promoted. Preferably, one side of the discharge port 100 of the hopper 101 is an arc surface, and the axis of the arc surface coincides with the axis of the second rotating shaft 106, so that the distance between any position on the arc surface and the second rotating shaft 106 is equal, so that the moxa is uniformly spread, and the other side of the arc surface is a smooth plane, so that the moxa slides and falls down from the discharge port.

Preferably, the regulating teeth 103 are arranged in such a manner that their cross-sectional area gradually decreases from the junction with the discharging regulating roller 102 toward a direction away from the discharging regulating roller 102. The distance between the adjacent regulation tooth is outwards crescent from the surface of ejection of compact regulating roller promptly to can fall to the clearance distance between two regulation teeth and then realize adjusting moxa content through adjusting the moxa. Preferably, the longitudinal section of the adjusting tooth 103 is in an isosceles triangle structure. The longitudinal section direction of the adjusting teeth refers to the direction from the top ends of the self-adjusting teeth to the discharging adjusting roller.

Preferably, both ends of the discharging adjustment roller 102 are connected with the hopper holder 109. Preferably, a plurality of connecting holes for connecting with the discharging adjusting roller 102 are horizontally arranged on the hopper bracket 109 to adjust the horizontal position of the two ends of the discharging adjusting roller 102 on the hopper bracket 109, so as to adjust the adjusting teeth 103 on the discharging adjusting roller 102 to be far away from or close to the discharging port 100. Wherein, the horizontal position refers to the moving direction of the moxa product. Therefore, as the longitudinal section of each adjusting tooth is in an isosceles triangle structure, when the adjusting teeth are close to the lower part of the discharge hole, the gap distance between the adjacent adjusting teeth is reduced, and the amount of the moxa falling from the discharge hole is correspondingly reduced; and when adjusting the tooth and keeping away from discharge gate below setting, the interstitial distance grow between the adjacent regulation tooth, consequently, the moxa volume that falls to the lower floor on the cotton increases from the discharge gate, therefore can adapt to the requirement of different moxa goods moxa thickness.

Preferably, the moxa uniformly spreading device further comprises a hopper bracket 109 for mounting the hopper 101, and the hopper 101 and the hopper bracket 109 are connected in a lifting manner. So set up, can change the moxa volume that discharge gate 100 fell. When the hopper is lifted, the falling distance of the moxa is lengthened, other conditions are unchanged, the content of the moxa on the lower cotton layer is reduced, and otherwise, the content of the moxa is increased. Preferably, the hopper 101 is provided with a connecting plate 108 for connecting with a hopper support 109, the connecting plate 108 is provided with a U-shaped groove 110 for adjusting the height of the hopper, the hopper support 109 is provided with a plurality of through holes which are different in height and matched with the U-shaped groove, and the U-shaped groove is connected with the through holes through bolts, so that the hopper adjustment with different heights is realized.

The utility model discloses a moxa all spreads and spills the whereabouts volume that the device can automatically regulated moxa, makes its requirement that is adapted to the moxa goods that different thickness needs, can make the moxa evenly spread simultaneously and spill on lower cotton, realizes the machining of moxa goods, improves the machining efficiency and the quality of moxa goods.

As shown in figure 2, the utility model also provides a moxa is all spread and is spilt single needle compound combined machine, including aforementioned moxa is all spread and is spilt the device. Preferably, a lower cloth guiding mechanism is arranged below the moxa uniformly spreading device. Preferably, a lower cotton guide mechanism 40 is arranged in front of the moxa uniformly spreading device. Preferably, an upper cotton guide mechanism 50 is provided behind the moxa uniformly spreading device. Preferably, an upper layer cloth introducing mechanism 204 is provided behind the upper layer cotton introducing machine 50. Preferably, a single-needle quilting machine mechanism 20 is provided behind the upper cloth guide-in mechanism 204. Preferably, a take-up mechanism 30 is provided behind the single-needle quilting machine mechanism 20. As used herein, "front" or "rear" refers to the direction of movement of the moxa product in the process, i.e., the direction along the movement of the moxa product is the rear and the direction opposite the movement of the moxa product is the front.

Preferably, the lower cloth introduction mechanism includes a lower guide roller 600 and an upper guide roller 601. Preferably, the lower guide roller 600 and the upper guide roller 601 are disposed in a vertical direction. So that the lower fabric sequentially passes through the lower guide roll 600 and the upper guide roll 601 and then passes through the free guide roll 203 to enter the single-needle quilting machine 201.

Preferably, the lower cotton guide mechanism 40 includes a first lower cotton guide roller 406, a second lower cotton guide roller 406', and a lower cotton press roller 405. Preferably, the first lower cotton guide roll 406 and the second lower cotton guide roll 406' are arranged in parallel; so that the lower lap enters the lower nip roll 405 by the action of the first lower cotton guide roll 406 and the second lower cotton guide roll 406'. Preferably, the lower cotton press roll 405 is in transmission connection with a second motor 407; preferably, the second motor 407 is a servo motor. Thereby driving the lower cotton press roll 405 to rotate through the second motor 407 so that the lower cotton can move towards the hopper direction.

Preferably, the lower cotton guide mechanism 40 further includes a moving frame 401 for mounting the first lower cotton guide roller 406, the second lower cotton guide roller 406' and the lower cotton press roller 405, and a guide 400 for allowing the moving frame 401 to move toward or away from the hopper 101. Preferably, a gear 402 is provided below the moving rack 401, and a rack engaged with the gear 402 is provided on the guide rail 400 so that the moving rack 401 can move on the guide rail 400. Through the structure that increases removal support and guide rail to the distance between adjustable lower floor's cotton guiding-in mechanism to the hopper, so that adjust the distance between lower floor's cotton guiding-in mechanism and the hopper according to the cotton length of lower floor, when lower floor's cotton long term, can remove lower floor's cotton guiding-in mechanism to the direction of keeping away from the hopper, when lower floor is cotton short, can remove lower floor's cotton guiding-in mechanism to the direction that is close to the hopper, make lower floor's cotton can expand, the fold can not appear. Preferably, a hand-operated wheel 404 is provided at one side of the moving bracket 401 to adjust the movement of the moving bracket 401 on the guide rail 400 by shaking the hand-operated wheel 404.

Preferably, a first cloth storage tank 408 is provided in a direction of the moving rack 401 toward the hopper 101. The first cloth storage tank 408 is used for storing the lower cotton layer and has a buffering effect on the movement of the lower cotton layer, so that the lower cotton layer can pass through the lower part of the discharging adjusting roller and enter the single-needle quilting machine through the free guide roller. Thereby leading the lower layer cotton to be evenly spread with moxa and then to enter a single-needle quilter for sewing through a free guide roller.

With continued reference to fig. 2, the upper cotton guide mechanism 50 includes a first upper cotton guide roller 500, a second upper cotton guide roller 500', and an upper cotton press roller 501. Preferably, the first upper cotton introduction roller 500 and the second upper cotton introduction roller 500' are disposed in parallel. Preferably, the upper cotton press roller 501 is in transmission connection with a third motor 503. Preferably, the third motor 503 is a servo motor. Preferably, a support frame 506 is arranged below the first upper cotton guide-in roller 500, the second upper cotton guide-in roller 500' and the upper cotton press roller 501, and a second cloth storage tank 502 is arranged on the support frame 506 in the direction towards the single-needle quilting machine mechanism 20; to cushion the movement of the upper cotton 504. Preferably, the upper cotton guide mechanism 50 further includes an upper cotton guide press roller 505 located behind the second storage 502. The upper cotton roll passes through an upper cotton press roll 501 under the action of a first upper cotton guide roll 500 and a second upper cotton guide roll 500', then is guided out by an upper cotton guide press roll 505, and then enters the single-needle quilting machine 201 through a free guide roller 203. Preferably, a vertical ladder 507 is provided at one side of the support frame 506, facilitating manual climbing up to adjust the installation of the upper cotton layer.

With continued reference to fig. 1, the upper cloth introducing mechanism 204 includes an upper cloth introducing roller. Preferably, the upper cloth guide-in roller is higher than the upper cotton guide-out press roller 505 so that the upper cloth 207 can be distributed above the upper cotton. Preferably, free guide rollers 203 for guiding the upper cloth, the upper cotton, the lower cotton and the lower cloth into the single-needle quilting machine mechanism 20, respectively, are provided below the upper cloth guide rollers. That is, the upper layer cloth 207, the upper layer cotton 504, the lower layer cotton 409 with moxa and the lower layer cloth 602 are sequentially arranged from top to bottom and enter the single-needle quilting machine 201 through the free guide roller 203 for sewing.

With continued reference to fig. 1, the single-needle quilting machine mechanism 20 includes a single-needle quilting machine 201. The single-needle quilting machine 201 can reciprocate on the frame 10 in the moxa product processing direction. Preferably, a slider 202 is provided below the single-needle quilting machine 201, and a slide rail is provided on the frame 10 to be engaged with the slider 202, so that the single-needle quilting machine 201 can move along the frame 10 to form various stitches or stitch patterns on the moxa products.

Preferably, the take-up mechanism 30 includes a first roll 302 and a second roll 301. The first winding roller 302 is in transmission connection with a fourth motor 303, and the second winding roller 301 is located obliquely above the first winding roller 302 and is in contact with the first winding roller 302. Preferably, the fourth motor 303 is a synchronous motor. The first winding roller 302 is driven by a fourth motor 303 to rotate so as to roll the finished manufactured moxa product.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The moxa uniformly spreading device is characterized by comprising a hopper (101) and a discharging adjusting roller (102) positioned below the hopper (101), wherein a plurality of adjusting teeth (103) are arranged on the discharging adjusting roller (102) and parallel to the longitudinal central axis of the discharging adjusting roller (102), the adjusting teeth (103) are arranged at equal intervals, and the adjusting teeth (103) are positioned right below a discharging port (100) of the hopper (101); a first motor (104) used for controlling the discharging adjusting roller (102) to reciprocate along the length direction of the hopper (101) is arranged on one side of the discharging adjusting roller (102), and the first motor (104) is connected with the discharging adjusting roller (102) through a sliding connecting rod (105).

2. A moxa wool spreading device according to claim 1, wherein the adjusting teeth (103) are provided in such a manner that the cross-sectional area thereof is gradually reduced from the connection with the discharging adjusting roller (102) to a direction away from the discharging adjusting roller (102).

3. The moxa wool spreading device according to claim 2, wherein the longitudinal section of the adjusting teeth (103) is in an isosceles triangle structure.

4. The moxa wool uniform spreading device according to claim 1, wherein two ends of the discharging adjusting roller (102) are connected with a hopper support (109), a plurality of connecting holes for connecting with the discharging adjusting roller (102) are horizontally arranged on the hopper support (109) so as to adjust the horizontal positions of the two ends of the discharging adjusting roller (102) on the hopper support (109), and further adjust the adjusting teeth (103) on the discharging adjusting roller (102) to be far away from or close to the discharging port (100).

5. A moxa uniformly spreading single-needle compound machine, comprising the moxa uniformly spreading device according to any one of claims 1 to 4, wherein a lower layer cloth guiding mechanism is arranged below the moxa uniformly spreading device, a lower layer cotton guiding mechanism (40) is arranged in front of the moxa uniformly spreading device, an upper layer cotton guiding mechanism (50) is arranged behind the moxa uniformly spreading device, an upper layer cloth guiding mechanism (204) is arranged behind the upper layer cotton guiding mechanism (50), a single-needle quilting machine mechanism (20) is arranged behind the upper layer cloth guiding mechanism (204), and a coiling mechanism (30) is arranged behind the single-needle quilting machine mechanism (20).

6. The moxa uniformly spreading single-needle compound machine according to claim 5, wherein the lower layer cloth guiding mechanism comprises a lower guide roller (600) and an upper guide roller (601), and the lower guide roller (600) and the upper guide roller (601) are arranged in a vertical direction.

7. The moxa wool spreading single-needle compound machine according to claim 5, wherein the lower cotton guide mechanism (40) comprises a first lower cotton guide roller (406), a second lower cotton guide roller (406 ') and a lower cotton press roller (405), wherein the first lower cotton guide roller (406) and the second lower cotton guide roller (406') are arranged in parallel; the lower cotton pressing roller (405) is in transmission connection with a second motor (407);

the lower cotton guiding mechanism (40) further comprises a movable bracket (401) for mounting the first lower cotton guiding roller (406), the second lower cotton guiding roller (406') and the lower cotton pressing roller (405), and a guide rail (400) for allowing the movable bracket (401) to move towards or away from the hopper (101), a gear (402) is arranged below the movable bracket (401), and a rack meshed with the gear (402) is arranged on the guide rail (400) so that the movable bracket (401) can move on the guide rail (400);

a first cloth storage pool (408) is arranged in the direction of the moving bracket (401) towards the hopper (101).

8. The moxa wool spreading single-needle compound machine according to claim 5, wherein the upper cotton guide mechanism (50) comprises a first upper cotton guide roller (500), a second upper cotton guide roller (500 '), and an upper cotton press roller (501), the first upper cotton guide roller (500) and the second upper cotton guide roller (500') are arranged in parallel; the upper cotton pressing roller (501) is in transmission connection with a third motor (503);

a support frame (506) is arranged below the first upper cotton guide-in roller (500), the second upper cotton guide-in roller (500') and the upper cotton press roller (501), and a second cloth storage pool (502) is arranged on the support frame (506) towards the direction of the single-needle quilting machine mechanism (20);

the upper cotton guide-in mechanism (50) further comprises an upper cotton guide-out press roller (505) positioned behind the second cloth storage pool (502).

9. The moxa uniform spreading single-needle compound machine according to claim 5, wherein the upper cloth guiding mechanism (204) comprises an upper cloth guiding roller; and a free guide roller (203) for respectively guiding the upper layer cloth (207), the upper layer cotton (504), the lower layer cotton (409) and the lower layer cloth (602) into the single-needle quilting machine mechanism (20) is arranged below the upper layer cloth guiding roller.

10. The moxa wool spreading and single-needle compounding machine according to claim 5, wherein the single-needle quilting machine mechanism (20) comprises a single-needle quilting machine (201), and the single-needle quilting machine (201) is capable of reciprocating on the frame (10) in a moxa product processing moving direction;

the winding mechanism (30) comprises a first winding roller (302) and a second winding roller (301), wherein the first winding roller (302) is in transmission connection with a fourth motor (303), and the second winding roller (301) is located above the first winding roller (302) in an inclined mode and is in contact with the first winding roller (302).

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