CN216293062U - Manufacturing equipment for cotton winding device and atomizing seat - Google Patents

Abstract

The application provides a manufacturing equipment around cotton device and atomizing seat. The cotton winding device comprises a base, a positioning, pressing and winding mechanism and an aligning and tightening mechanism; the positioning, pressing and winding mechanism is arranged on the base and used for positioning the heating wire, pressing and abutting the liquid guide piece against the heating wire and enabling the liquid guide piece to rotate along with the heating wire and to be wound on the heating wire so as to form an atomizing core; the counterpoint straining device sets up in the base, and counterpoint straining device is used for pressing from both sides tight atomizing core to cup joint at the installation cover seat and assemble and loosen atomizing core before atomizing core. Foretell around cotton device has avoided traditional atomizing core to make the atomizing core cup joint the inconsistent of elasticity in the installation cover seat because of atomizing core winds cotton elasticity and the difference of the number of turns in manufacturing process, even unable equipment, also need not to loosen winding once more again, has avoided the equipment repeatedly, has improved the manufacturing efficiency of atomizing core, and then has improved the manufacturing efficiency of atomizing seat, has solved the lower problem of the packaging efficiency of atomizing seat.

Description

Manufacturing equipment for cotton winding device and atomizing seat

Technical Field

The utility model relates to the technical field of electronic cigarette manufacturing, in particular to equipment for manufacturing a cotton winding device and an atomizing base.

Background

The atomizing seat of electron cigarette includes atomizing core and installation cover seat, and the atomizing core includes heater and drain, and the drain twines on the heater if leading oily cotton, and the installation cover seat cup joints on atomizing core. The inlet port has been seted up to the mount sleeve seat, and atomizing liquid flows in through the inlet port, leads oily cotton to absorb oil and lead oily effect to atomizing liquid, and the heater produces the heat when the circular telegram to atomizing liquid on leading oily cotton heats the atomizing.

During the equipment, earlier through the manual work with leading the cotton winding of oil in order to form the atomizing core in the heater, cup joint the installation cover seat in the atomizing core again, make the atomizing core install on the installation cover seat. However, because of the difference of manual operation skill and winding degree of progress, the volume size that makes the different atomizing cores that the equipment obtained is different, so make the atomizing core cup joint the not unanimous of the elasticity in the installation sleeve seat, even unable equipment, need loosen again and twine, so equipment repeatedly, make the packaging efficiency of atomizing seat lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provides the manufacturing equipment of the cotton winding device and the atomizing seat, which has higher assembly efficiency.

The purpose of the utility model is realized by the following technical scheme:

a cotton winding device comprising:

a base;

the positioning, pressing and winding mechanism is arranged on the base and used for positioning the heating wire, pressing and abutting the liquid guide piece on the heating wire and enabling the liquid guide piece to rotate along with the heating wire and wind the heating wire so as to form an atomizing core;

and the alignment elastic mechanism is arranged on the base and used for clamping the atomization core and sleeving and assembling the installation sleeve seat on the atomization core to loosen the atomization core.

In one embodiment, the positioning and loosening mechanism is movably arranged on the base.

In one embodiment, the aligning and tightening mechanism is elastically and slidably arranged on the base.

In one embodiment, the cotton winding device further comprises an auxiliary telescopic assembly, the auxiliary telescopic assembly is arranged on the base, and a power output end of the auxiliary telescopic assembly is connected with the alignment loosening and tightening mechanism; the auxiliary telescopic assembly is used for driving the alignment elastic mechanism to move towards a first direction in the process that the mounting sleeve seat is sleeved and assembled on the atomization core, and driving the alignment elastic mechanism to move towards a second direction opposite to the first direction when the alignment elastic assembly loosens the atomization core.

In one embodiment, the base comprises a base body and a fixed seat which are connected, the auxiliary telescopic assembly is installed on the base body, and the base body is provided with a through hole;

counterpoint take-up mechanism includes elastic component and counterpoint take-up unit, counterpoint take-up unit sliding connection in the fixing base, the power take-off end of supplementary flexible subassembly passes through wear to establish the hole with counterpoint take-up unit connects, the elastic component cover is located the power take-off end of supplementary flexible subassembly, the both ends of elastic component respectively with counterpoint take-up unit with base body butt, counterpoint take-up unit is used for pressing from both sides tightly the atomizing core, and the installation cover seat cup joint the equipment in loosen before the atomizing core.

In one embodiment, the aligning take-up assembly comprises a driving member, a first gripper and a second gripper, the driving member is slidably connected to the fixed seat, the first gripper and the second gripper are both connected to the power output end of the driving member, the positioning, pressing and winding mechanism is located between the first gripper and the second gripper, and the driving member is used for driving the first gripper and the second gripper to approach each other to form a gripping positioning slot for clamping the atomizing core; the driving piece is further used for driving the first gripper and the second gripper to be away from each other before the mounting sleeve is sleeved and assembled on the atomizing core, so that the atomizing core is loosened.

In one embodiment, one of the first gripper and the second gripper is provided with a feeding notch, the feeding notch is communicated with the gripping positioning groove, and the liquid guide piece is fed through the feeding notch.

In one embodiment, the elastic member is a coil spring or an elastic rubber sleeve.

In one embodiment, the positioning, pressing and winding mechanism is used for loosening the liquid guide piece after the mounting sleeve is sleeved and assembled on the atomizing core.

In one embodiment, the positioning, compressing and winding mechanism comprises a rotary driving component, a positioning component and a compressing component, the rotary driving component is mounted on the base, the positioning component is arranged at a power output end of the rotary driving component, the positioning component is used for positioning the heating wire, the compressing component is arranged at a power output end of the rotary driving component, and the compressing component is used for compressing and abutting the liquid guiding component against the heating wire and loosening the liquid guiding component after the mounting sleeve seat is sleeved and assembled on the atomizing core.

An atomizing seat manufacturing device comprises the cotton winding device in any one of the above embodiments.

Compared with the prior art, the utility model has at least the following advantages:

according to the cotton winding device, when the atomization seat is manufactured, the heating wire is positioned through the positioning and pressing winding mechanism; then, the liquid guiding piece is pressed and abutted against the heating wire through the positioning pressing winding mechanism, and the liquid guiding piece rotates along with the heating wire and is wound on the heating wire to form an atomizing core; then the atomization core is clamped through an alignment elastic mechanism so as to clamp and position the atomization core; then clamping the mounting sleeve seat through an assembly driving mechanism, and sleeving the mounting sleeve seat on the atomizing core; then loosen the atomizing core through counterpoint straining device, in order to assemble the mount sleeve seat in the atomizing core better, obtain the atomizing seat, so realize the automatic manufacturing of atomizing core, the centre need not artifical intervention, the difference of cotton elasticity and number of turns has been around because of the atomizing core to avoided traditional atomizing core in manufacturing process, make the degree of tightness inconsistent that the atomizing core cup jointed in the mount sleeve seat, even unable equipment, also need not to loosen winding once more again, the repeated assembly has been avoided, the manufacturing efficiency of atomizing core has been improved, and then the manufacturing efficiency of atomizing seat has been improved, the lower problem of the packaging efficiency of atomizing seat has been solved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural view of a cotton winding device according to an embodiment;

FIG. 2 is a cross-sectional view of the cotton winding device of FIG. 1;

FIG. 3 is a partial schematic view of the cotton winding device of FIG. 1 from another perspective;

fig. 4 is a schematic structural diagram of a manufacturing apparatus of an atomizing base according to an embodiment.

Detailed Description

To facilitate an understanding of the utility model, the utility model will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The utility model provides a cotton winding device, which comprises a base, a positioning, pressing and winding mechanism and an alignment and loosening mechanism, wherein the base is provided with a positioning, pressing and winding mechanism; the positioning, pressing and winding mechanism is arranged on the base and used for positioning the heating wire, pressing and abutting the liquid guide piece on the heating wire and enabling the liquid guide piece to rotate along with the heating wire and wind the heating wire so as to form an atomizing core; counterpoint straining device set up in the base, counterpoint straining device is used for pressing from both sides tight the atomizing core to cup joint the equipment at the installation cover seat in before the atomizing core loosen the atomizing core.

When the atomization seat is manufactured, the heating wire is positioned by the positioning, pressing and winding mechanism; then, the liquid guiding piece is pressed and abutted against the heating wire through the positioning pressing winding mechanism, and the liquid guiding piece rotates along with the heating wire and is wound on the heating wire to form an atomizing core; then the atomization core is clamped through an alignment elastic mechanism so as to clamp and position the atomization core; then clamping the mounting sleeve seat through an assembly driving mechanism, and sleeving the mounting sleeve seat on the atomizing core; then loosen the atomizing core through counterpoint straining device, in order to assemble the mount sleeve seat in the atomizing core better, obtain the atomizing seat, so realize the automatic manufacturing of atomizing core, the centre need not artifical intervention, the difference of cotton elasticity and number of turns has been around because of the atomizing core to avoided traditional atomizing core in manufacturing process, make the degree of tightness inconsistent that the atomizing core cup jointed in the mount sleeve seat, even unable equipment, also need not to loosen winding once more again, the repeated assembly has been avoided, the manufacturing efficiency of atomizing core has been improved, and then the manufacturing efficiency of atomizing seat has been improved, the lower problem of the packaging efficiency of atomizing seat has been solved.

In order to better understand the technical scheme and the beneficial effects of the present application, the following detailed description is further provided in conjunction with specific embodiments:

as shown in fig. 1, the cotton winding device 10 of an embodiment is used for manufacturing the atomizing core and clamping the atomizing core so that the mounting sleeve is sleeved and assembled on the atomizing core. Further, the cotton winding device 10 includes a base 100, a positioning, pressing and winding mechanism 200, and an aligning and tightening mechanism 300. The positioning and pressing winding mechanism 200 is disposed on the base 100, and the positioning and pressing winding mechanism 200 is configured to position the heater 20, press and abut the liquid guiding member against the heater, and make the liquid guiding member 30 rotate with the heater and wind around the heater to form an atomizing core. The alignment elastic mechanism 300 is disposed on the base 100, and the alignment elastic mechanism 300 is used for clamping the atomizing core and loosening the atomizing core before the mounting sleeve seat 40 is sleeved on and assembled on the atomizing core.

In the above-mentioned cotton winding device 10, when the atomization seat is manufactured, the heating wire is first positioned by the positioning, pressing and winding mechanism 200; then, the liquid guiding piece is pressed and abutted against the heating wire through the positioning pressing winding mechanism 200, and the liquid guiding piece rotates along with the heating wire and is wound on the heating wire to form an atomizing core; then the atomization core is clamped through an alignment elastic mechanism 300 so as to clamp and position the atomization core; then clamping the mounting sleeve seat through an assembly driving mechanism, and sleeving the mounting sleeve seat on the atomizing core; then loosen the atomizing core through counterpoint straining device 300, avoid atomizing core and installation cover seat assembling process in with counterpoint straining device 300 emergence mechanical interference, in order to assemble the installation cover seat in the atomizing core better, so realize the automatic manufacturing of atomizing core, the centre need not artifical intervention, traditional atomizing core has been avoided simultaneously in the manufacturing process because of the difference of atomizing core around cotton elasticity and number of turns, make the degree of tightness inconsistent that the atomizing core cup jointed in the installation cover seat, even unable equipment, also need not to loosen winding once more again, the repeated assembly has been avoided, the manufacturing efficiency of atomizing core has been improved, and then the manufacturing efficiency of atomizing seat has been improved, the lower problem of packaging efficiency of atomizing seat has been solved.

As shown in fig. 1 and fig. 2, in one embodiment, the positioning elastic mechanism 300 is movably disposed on the base 100, so that the positioning elastic mechanism 300 can move relative to the base 100, and the positioning elastic mechanism 300 is flexible in the process of clamping and positioning the atomizing core. In one embodiment, the positioning elastic mechanism 300 is elastically slidably disposed on the base 100, so that the positioning elastic mechanism 300 can slide relative to the base 100, and thus the positioning elastic mechanism 300 is more flexible in the process of clamping and positioning the atomizing core.

As shown in fig. 1 and fig. 2, in one embodiment, the cotton winding device 10 further includes an auxiliary telescopic assembly 400, the auxiliary telescopic assembly 400 is disposed on the base 100, and a power output end of the auxiliary telescopic assembly 400 is connected to the aligning slackening and tightening mechanism 300. Supplementary flexible subassembly 400 be used for cup jointing the mount pad assemble in the in-process drive of atomizing core counterpoint the elastic mechanism 300 to first direction motion, and counterpoint the elastic component 320 and loosen during the atomizing core drive counterpoint the elastic mechanism 300 to with the second direction motion that first direction is opposite, make supplementary flexible subassembly 400 cup joint the equipment in the mount pad the process of atomizing core plays supplementary promotion counterpoint elastic mechanism 300 along the effect of first direction motion, loosens at counterpoint elastic component 320 simultaneously play supplementary promotion counterpoint elastic mechanism 300 along the effect of second direction motion during the atomizing core.

As shown in fig. 1 and 2, in one embodiment, the base 100 includes a base body 110 and a fixing base 120 connected to each other, the auxiliary telescopic assembly 400 is installed on the base body 110, and the base body 110 is provided with a through hole 112, so that the base 100 is provided with a through hole. The alignment tightening mechanism 300 includes an elastic member 310 and an alignment tightening unit 320, and the alignment tightening unit 320 is slidably connected to the fixing base 120, so that the alignment tightening unit 320 is elastically slidably connected to the fixing base 120. The power output end of the auxiliary telescopic assembly 400 is connected with the alignment tightening assembly 320 through the through hole. The elastic member 310 is sleeved on the power output end of the auxiliary telescopic assembly 400, and two ends of the elastic member 310 are respectively abutted against the alignment elastic assembly 320 and the base body 110, so that the auxiliary telescopic assembly 400 drives the alignment elastic assembly 320 to elastically move relative to the base body 110. Counterpoint tight subassembly 320 is used for pressing from both sides tightly the atomizing core, and the installation cover seat cup joint the equipment in loosen before the atomizing core, make supplementary flexible subassembly 400 cup joint in the installation cover seat and promote counterpoint tight mechanism 300 to the first direction motion in the atomizing core in-process, compress elastic component 310 simultaneously, and promote counterpoint tight mechanism 300 to the second direction motion when counterpoint tight subassembly 320 loosens the atomizing core, play the effect that supplementary elastic component 310 resets. In this embodiment, the auxiliary telescopic assembly 400 is a cylinder telescopic assembly.

As shown in fig. 1 and fig. 2, in one embodiment, the alignment and tightening mechanism 320 includes a driving member 322, a first gripper 324 and a second gripper 326, the driving member 322 is slidably connected to the fixing base 120, and the first gripper 324 and the second gripper 326 are both connected to a power output end of the driving member 322, so that the driving member 322 drives the first gripper 324 and the second gripper 326 to move relatively. The positioning, pressing and winding mechanism 200 is located between the first gripper 324 and the second gripper 326, and the driving member 322 is used to drive the first gripper 324 and the second gripper 326 to approach each other to form a gripping and positioning slot for clamping the atomizing core, so that the positioning and loosening assembly 320 can reliably clamp and position the atomizing core on the positioning, pressing and winding mechanism 200. The driving member 322 is further configured to drive the first gripper 324 and the second gripper 326 to move away from each other before the mounting sleeve is sleeved on the atomizing core, so as to release the atomizing core, and enable the mounting sleeve to be better sleeved on the atomizing core.

As shown in fig. 1 and 3, in one embodiment, one of the first gripper 324 and the second gripper 326 is provided with a feeding notch 325, the feeding notch 325 is communicated with the grasping positioning groove, the liquid guiding member is fed through the feeding notch 325, and since the positioning pressing winding mechanism 200 is located between the first gripper 324 and the second gripper 326 and the feeding notch 325 is communicated with the grasping positioning groove, the positioning pressing winding mechanism 200 winds the liquid guiding member located in the grasping positioning groove, so that the liquid guiding member rotates with the heater and winds around the heater to form the atomizing core.

In order to provide the elastic member 310 with better elasticity, in one embodiment, the elastic member 310 is a coil spring or an elastic rubber sleeve, so that the elastic member 310 has better elasticity. In this embodiment, the elastic member 310 is a coil spring.

As shown in fig. 1 and 3, the first clamping jaw 324 is formed with a first clamping groove 324a, and the second clamping jaw 326 is formed with a second clamping groove 326a corresponding to the first clamping groove 324 a. The driving member 322 is used for driving the first clamping jaw 324 and the second clamping jaw 326 to approach each other when clamping the atomizing core, and is used for driving the first clamping jaw 324 and the second clamping jaw 326 to move away from each other when loosening the atomizing core. In this embodiment, the first clamping groove 324a and the second clamping groove 326a are correspondingly communicated to form a gripping positioning groove. Since the first clamping jaw 324 is opened with the first clamping groove 324a, the second clamping jaw 326 is opened with the second clamping groove 326a corresponding to the first clamping groove 324 a. When the atomizing core is clamped, the driving member 322 drives the first clamping jaw 324 and the second clamping jaw 326 to approach each other, so that the atomizing core is clamped in the first clamping groove 324a and the second clamping groove 326a, and the atomizing core is positioned in the fixture jig assembly, so that the mounting sleeve is sleeved on the atomizing core; when the atomizing core is released, the driving member 322 drives the first clamping jaw 324 and the second clamping jaw 326 away from each other; so through first clamping jaw 324 of driving piece 322 drive and second clamping jaw 326 relative motion, realize the clamp of atomizing core or loosen, avoided the manual work to grasp the problem that there is too pine or tension in the atomizing core, avoided the great problem of the degree of difficulty of atomizing core equipment in the mount pad, or avoided the problem that the efficiency of atomizing core equipment in the mount pad is lower, realized the self-holding location of atomizing core simultaneously, need not artifical the intervention, further improved the manufacturing efficiency of atomizing seat.

In one embodiment, the positioning, pressing and winding mechanism 200 is configured to loosen the liquid guiding member after the mounting sleeve is sleeved and assembled on the atomizing core, so that the atomizing base obtained after the mounting sleeve is sleeved and assembled on the atomizing core can be quickly removed from the positioning, pressing and winding mechanism 200, thereby improving the convenience of the cotton winding device 10.

In one embodiment, the positioning and pressing winding mechanism 200 comprises a rotary driving component 210, a positioning component 220 and a pressing component 230, wherein the rotary driving component 210 is mounted on the base 100. The positioning component 220 is disposed at a power output end of the rotation driving component 210, and the positioning component 220 is used for positioning the heating wire so as to position the heating wire. The compressing component 230 is disposed at the power output end of the rotation driving component 210, the compressing component 230 is configured to compress and abut the liquid guiding member against the heater, and the mounting sleeve is sleeved and assembled on the atomizing core and then loosened to compress and abut the liquid guiding member against the heater, so that the liquid guiding member rotates along with the heater and winds around the heater to form the atomizing core.

As shown in fig. 1 and fig. 2, in one embodiment, the rotary driving assembly 210 includes a rotary driving member 212 and a rotary seat body 214, the rotary driving member 212 is mounted on the substrate 100, the rotary seat body 214 is connected to a power output shaft of the rotary driving member 212, the positioning member 220 is connected to the rotary seat body 214, the pressing member 230 is slidably disposed on the rotary seat body 214, so that the driving member drives the rotary seat body 214 to rotate relative to the substrate 100, and since the pressing member 230 is movably disposed on the rotary seat body 214, the positioning member 220 positions the heating wire, so that the pressing member 230 presses and abuts against the heating wire, the liquid guiding member can reliably rotate along with the heating wire and wind around the heating wire, so as to form an atomizing core. In this embodiment, when the liquid guiding member needs to be pressed, the pressing end of the pressing component 230 moves toward the direction close to the positioning component 220, so that the pressing component 230 presses and abuts against the liquid guiding member. When the liquid guiding member is not required to be compressed, i.e. the atomizing core is sleeved with the mounting sleeve seat, the compressing end of the compressing assembly 230 moves in the direction away from the positioning assembly 220, so that the compressing assembly 230 releases the liquid guiding member, and the atomizing seat can be taken out.

As shown in fig. 4, the present application further provides a manufacturing apparatus 50 for an atomizing base, which includes the cotton winding device 10 according to any of the above embodiments. It will be appreciated that the cotton winding device 10 is used to manufacture and clamp the atomizing core so that it is positioned in the cotton winding device. When the atomizing sleeve seat is assembled, the atomizing sleeve seat can be sleeved and assembled on the atomizing core through manual work or an assembling driving mechanism. In this embodiment, the manufacturing apparatus 50 of the atomizing base further includes an assembling driving mechanism 52, and the assembling driving mechanism is used for sleeving and assembling the atomizing sleeve base on the atomizing core, so as to realize automatic assembling of the atomizing base, and improve assembling efficiency of the atomizing base.

Compared with the prior art, the utility model has at least the following advantages:

according to the cotton winding device 10, when the atomization seat is manufactured, the heating wire is firstly positioned through the positioning and pressing winding mechanism 200; then, the liquid guiding piece is pressed and abutted against the heating wire through the positioning pressing winding mechanism 200, and the liquid guiding piece rotates along with the heating wire and is wound on the heating wire to form an atomizing core; then the atomization core is clamped through an alignment elastic mechanism 300 so as to clamp and position the atomization core; then clamping the mounting sleeve seat through an assembly driving mechanism, and sleeving the mounting sleeve seat on the atomizing core; then loosen the atomizing core through counterpoint straining device 300, in order to assemble the installation cover seat in the atomizing core better, obtain the atomizing seat, so realize the automatic manufacturing of atomizing core, the centre need not artifical intervention, avoided traditional atomizing core to wind cotton elasticity and the difference of the number of turns because of the atomizing core in manufacturing process, make the degree of tightness inconsistent that the atomizing core cup jointed in the installation cover seat, even unable equipment, also need not to loosen winding once more again, the repeated assembly has been avoided, the manufacturing efficiency of atomizing core has been improved, and then the manufacturing efficiency of atomizing seat has been improved, the lower problem of the packaging efficiency of atomizing seat has been solved.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A cotton winding device, comprising:

a base;

the positioning, pressing and winding mechanism is arranged on the base and used for positioning the heating wire, pressing and abutting the liquid guide piece on the heating wire and enabling the liquid guide piece to rotate along with the heating wire and wind the heating wire so as to form an atomizing core;

and the alignment elastic mechanism is arranged on the base and used for clamping the atomization core and sleeving and assembling the installation sleeve seat on the atomization core to loosen the atomization core.

2. A cotton winding device according to claim 1, wherein the positioning take-up mechanism is movably mounted on the base.

3. A cotton winding device according to claim 2, wherein the aligning and tightening mechanism is elastically and slidably arranged on the base; the cotton winding device further comprises an auxiliary telescopic assembly, the auxiliary telescopic assembly is arranged on the base, and the power output end of the auxiliary telescopic assembly is connected with the alignment tightening mechanism; the auxiliary telescopic assembly is used for driving the alignment elastic mechanism to move towards a first direction in the process that the mounting sleeve seat is sleeved and assembled on the atomization core, and driving the alignment elastic mechanism to move towards a second direction opposite to the first direction when the alignment elastic assembly loosens the atomization core.

4. The cotton winding device according to claim 3, wherein the base comprises a base body and a fixed seat which are connected, the auxiliary telescopic assembly is mounted on the base body, and the base body is provided with a through hole;

counterpoint take-up mechanism includes elastic component and counterpoint take-up unit, counterpoint take-up unit sliding connection in the fixing base, the power take-off end of supplementary flexible subassembly passes through wear to establish the hole with counterpoint take-up unit connects, the elastic component cover is located the power take-off end of supplementary flexible subassembly, the both ends of elastic component respectively with counterpoint take-up unit with base body butt, counterpoint take-up unit is used for pressing from both sides tightly the atomizing core, and the installation cover seat cup joint the equipment in loosen before the atomizing core.

5. The cotton winding device according to claim 4, wherein the alignment slack assembly comprises a driving member, a first gripper and a second gripper, the driving member is slidably connected to the fixing seat, the first gripper and the second gripper are both connected to a power output end of the driving member, the positioning and pressing winding mechanism is located between the first gripper and the second gripper, and the driving member is used for driving the first gripper and the second gripper to approach each other to form a gripping positioning slot for clamping the atomizing core; the driving piece is further used for driving the first gripper and the second gripper to be away from each other before the mounting sleeve is sleeved and assembled on the atomizing core, so that the atomizing core is loosened.

6. The cotton winding device according to claim 5, wherein one of the first gripper and the second gripper is provided with a feeding notch, the feeding notch is communicated with the gripping positioning groove, and the liquid guide member is fed through the feeding notch.

7. A cotton winding device according to claim 4, wherein the elastic member is a helical spring or an elastic rubber sleeve.

8. The cotton winding device according to claim 1, wherein the positioning, pressing and winding mechanism is used for loosening the liquid guide member after the mounting sleeve base is sleeved and assembled on the atomizing core.

9. The cotton winding device according to claim 8, wherein the positioning, pressing and winding mechanism comprises a rotary driving component, a positioning component and a pressing component, the rotary driving component is mounted on the base, the positioning component is arranged at a power output end of the rotary driving component, the positioning component is used for positioning the heating wire, the pressing component is arranged at a power output end of the rotary driving component, and the pressing component is used for pressing and abutting the liquid guide member against the heating wire and loosening the liquid guide member after the mounting sleeve seat is sleeved and assembled on the atomizing core.

10. An atomizing base manufacturing apparatus, characterized by comprising the cotton winding device according to any one of claims 1 to 9.

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