CN116623328A - Hollow stator assembly of yarn cladding machine - Google Patents

Abstract

The invention discloses a hollow stator component of a yarn coating machine, which comprises an inner cylinder rotatably arranged on a frame of the yarn coating machine, wherein the surface of the inner cylinder is provided with an outer cylinder, and a stabilizing mechanism is arranged between the inner cylinder and the outer cylinder and comprises: the invention relates to the technical field of yarn cladding machines, in particular to a clamping part which is positioned at an upper layer position between an inner cylinder and an outer cylinder and used for realizing rotating clamping operation between the inner cylinder and the outer cylinder. This hollow stator subassembly of yarn cladding machine utilizes the gomphosis between ladder section of thick bamboo in the joint portion and the connecting cylinder to realize the spacing operation in lateral shifting position through being provided with stabilizing mean to produce the weakening of frictional force when realizing relative rotation between inner tube and the urceolus through rolling part, not only effectually avoid the direct cover to establish the lateral shifting problem that produces, reduced the great problem of frictional force of contact department moreover, realized the contact of buffering formula, thereby improved the stability of the hollow stator subassembly of this yarn cladding machine.

Description

Hollow stator assembly of yarn cladding machine

Technical Field

The invention relates to the technical field of yarn cladding machines, in particular to a hollow stator assembly of a yarn cladding machine.

Background

The stator assembly used for storing yarns is arranged in the yarn coating machine, yarns are stored stably through the stator assembly, the existing stator assembly generally comprises an inner cylinder and an outer cylinder, the outer cylinder is sleeved on the outer side of the inner cylinder, and the inner cylinder and the outer cylinder are directly sleeved between the inner cylinder and the outer cylinder, so that the connection stability of the stator assembly is low.

In the process of using the existing stator assembly, the existing stator assembly is sleeved and rotated between the inner cylinder and the outer cylinder, so that the processed product is easy to have uneven quality caused by shaking or deviation, and the existing stator assembly is clamped and rotated between the inner cylinder and the outer cylinder, so that the problem of deviation caused by shaking left and right is solved, but the friction force at the contact part is large, and the problem of clamping or incapability of rotating at a constant speed is easy to occur.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a hollow stator assembly of a yarn cladding machine, which solves the problem that the quality of processed products is uneven due to shaking or deviation when the existing stator assembly is directly sleeved between an inner cylinder and an outer cylinder, and solves the problems that the friction force at a contact part is larger after shaking left and right, and the phenomenon of jamming or incapability of uniform rotation is easy to occur.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the hollow stator subassembly of yarn cladding machine, including rotating the inner tube of installing in yarn cladding machine frame, and the surface of inner tube is provided with the urceolus, is located and is provided with stabilizing mean between inner tube and the urceolus and includes:

the clamping part is positioned at the upper layer position between the inner cylinder and the outer cylinder, realizes the rotating clamping operation between the inner cylinder and the outer cylinder, realizes the contact through a ladder cylinder arranged on the inner wall of the outer cylinder and a connecting cylinder sleeved on the surface of the inner cylinder, is provided with a jogging component between the ladder cylinder and the connecting cylinder, is positioned above the connecting cylinder and is provided with an upper cover cylinder on the surface of the inner cylinder, and is provided with a contact component between the upper cover cylinder and the ladder cylinder;

the rolling part is positioned at the lower layer position between the inner cylinder and the outer cylinder, the bottom cylinder is sleeved outside the inner cylinder by being arranged on the frame of the yarn coating machine, the bearing cylinder and the placing cylinder are respectively arranged at the top and the bottom opening of the bottom cylinder, and a rotating unit is arranged between the bearing cylinder and the placing cylinder.

Preferably, the top of the bearing cylinder is fixed with the bottom of the connecting cylinder through a fixed block, and the connecting cylinder is attached to the surface of the inner cylinder to realize relative rotation.

Preferably, the jogging assembly comprises a plurality of joggles, the plurality of joggles are positioned in the inner groove of the ladder barrel and fixed from top to bottom at equal intervals, the surface of the connecting barrel is provided with the joggles at equal intervals, and the joggles are positioned in the joggles and can rotate relatively.

Preferably, the contact assembly includes:

the inclined column is provided with a plurality of supporting circumferences which are equidistantly arranged at the bottom of the upper cover cylinder, the bottom is provided with a placing groove, contact beads are embedded and rotated in the placing groove, a supporting spring is arranged between the contact beads and the opposite sides of the placing groove, and one end of the supporting spring is connected with the inner wall of the placing groove;

the inclined ring groove is arranged above the inner side of the ladder barrel, is in embedded contact with the surface of the contact bead, and can realize relative rolling with the contact bead.

Preferably, the rotation unit includes:

the fixed cylinder is positioned below the bearing cylinder and is arranged on the surface of the inner cylinder, the top of the fixed cylinder is provided with a placing ring groove, the inside of the placing ring groove is provided with a propping component, the bottom of the bearing cylinder is provided with a rotating component, and the propping component is contacted with a component of the rotating component.

The connecting rod is installed in the bottom of fixed section of thick bamboo in circumference equidistance, and the surface is provided with elastic component and realizes with placing the contact between the section of thick bamboo.

Preferably, the abutment assembly comprises:

the placing ring is in vertical movement operation in the placing ring groove through the sliding component and is in contact sliding with the interior of the placing ring groove;

the pressing springs are arranged between the opposite sides of the placing ring and the placing ring groove and are distributed at equal intervals in circumference.

Preferably, the sliding component comprises protruding blocks symmetrically arranged on the surface of the placement ring, grooves symmetrically arranged in the placement ring groove, and the protruding blocks and the grooves are in fit sliding.

Preferably, the rotating assembly comprises vertical columns with equal intervals of bearing circumferences arranged at the bottom of the bearing cylinder, arc grooves which are suitable for rolling of rolling beads are formed in the bottoms of the vertical columns, and the vertical columns extend to the inside of the placement ring grooves.

Preferably, the elastic assembly includes:

the sliding rod is fixed at the bottom of the fixed cylinder at equal intervals in circumference, and the surface of the sliding rod is sleeved with a telescopic spring;

the hollow ring is sleeved on the surface of the sliding rod and fixed with one end of the telescopic spring arranged at the bottom of the fixed cylinder, the rolling groove is formed in the top of the placing cylinder, the rotating groove is formed between the opposite sides of the rolling groove, and the surface of the hollow ring is embedded in the inner side of the rotating groove and can rotate relative to the rotating groove.

Preferably, the section of the outer cylinder bears a shape, the middle part of the surface can be wound with external yarns, and the inner part of the inner cylinder forms a wire groove in the vertical direction to realize the passing of the internal yarns.

Advantageous effects

The invention provides a hollow stator assembly of a yarn cladding machine. Compared with the prior art, the method has the following beneficial effects:

(1) The hollow stator component of the yarn coating machine is provided with the stabilizing mechanism, limit operation of a transverse moving position is realized by utilizing the jogging between the ladder barrel and the connecting barrel in the clamping part, and the weakening of friction force is generated when the inner barrel and the outer barrel relatively rotate is realized through the rolling part, so that the problem of transverse offset generated by direct sleeving is effectively avoided, the problem of larger friction force at the contact position is reduced, the buffer type contact is realized, and the stability of the hollow stator component of the yarn coating machine is improved.

(2) The hollow stator component of the yarn cladding machine is supported by the bearing cylinder, the ladder cylinder is connected with the connecting cylinder in a jogged clamping manner, and the supporting movement between the upper cover cylinder and the ladder cylinder is matched, so that the stability and the limitation of the position during the relative rotation between the inner cylinder and the outer cylinder are effectively improved.

(3) This yarn cladding machine's hollow stator module through being provided with rotary unit and elastic component, utilizes the fixed section of thick bamboo to bear the weight of the section of thick bamboo and place the connection between the section of thick bamboo, realizes the reduction of the contact department frictional force between inner tube and the urceolus when rotatory through rotating the subassembly to through elastic component and support the slowing down that moves the subassembly realization vertical direction upward production force, thereby when improving transverse stability the effectual vertical steadiness when rotatory that has improved.

Drawings

FIG. 1 is an external perspective view of the present invention;

FIG. 2 is a partial cross-sectional view of the structure of the present invention;

FIG. 3 is an internal perspective view of the present invention;

FIG. 4 is a perspective view showing the structure of the moving component of the present invention;

FIG. 5 is a perspective view showing the elastic assembly of the present invention;

FIG. 6 is a perspective view of a contact assembly of the present invention in a split configuration;

fig. 7 is a perspective view showing a split structure of the fitting assembly of the present invention.

In the figure: 1-inner cylinder, 2-outer cylinder, 3-stabilizing mechanism, 31-ladder cylinder, 32-connecting cylinder, 33-fitting assembly, 33-1-caulking ring, 33-2-caulking groove, 34-upper cover cylinder, 35-contact assembly, 35-1-tilting column, 35-2-contact bead, 35-3-resisting spring, 35-4-tilting ring groove, 36-bottom cylinder, 37-bearing cylinder, 38-placing cylinder, 39-rotating unit, 39-1-fixing cylinder, 39-2-placing ring groove, 39-3-resisting assembly, 39-31-placing ring, 39-32-sliding assembly, 39-321-bump, 39-322-groove, 39-33-pressing spring, 39-4-rotating assembly, 39-41-vertical column, 39-42-rolling bead, 39-5-connecting rod, 39-6-elastic assembly, 39-61-sliding rod, 39-62-telescopic spring, 39-63-ring, 39-64-rolling groove, 39-65-rotating groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-4, the present invention provides two technical solutions:

example 1

The hollow stator subassembly of yarn cladding machine, including rotating the inner tube 1 of installing in yarn cladding machine frame, and the surface of inner tube 1 is provided with urceolus 2, is located and is provided with stabilizing mean 3 between inner tube 1 and the urceolus 2 and includes:

the clamping part is positioned at the upper layer between the inner cylinder 1 and the outer cylinder 2, realizes the rotating clamping operation between the inner cylinder 1 and the outer cylinder 2, realizes the contact through a ladder cylinder 31 arranged on the inner wall of the outer cylinder 2 and a connecting cylinder 32 sleeved on the surface of the inner cylinder 1, is provided with a jogging component 33 between the ladder cylinder 31 and the connecting cylinder 32, is positioned above the connecting cylinder 32 and is provided with an upper cover cylinder 34 on the surface of the inner cylinder 1, and is provided with a contact component 35 between the upper cover cylinder 34 and the ladder cylinder 31;

the rolling part is positioned at the lower layer position between the inner cylinder 1 and the outer cylinder 2, and is sleeved outside the inner cylinder 1 by a bottom cylinder 36 arranged on a frame of the yarn coating machine, a bearing cylinder 37 and a placing cylinder 38 are respectively arranged at the top and bottom openings of the bottom cylinder 36, and a rotating unit 39 is arranged between the bearing cylinder 37 and the placing cylinder 38.

Wherein, through being provided with stabilizing mean 3, utilize the gomphosis between ladder section of thick bamboo 31 and the connecting cylinder 32 in the joint portion to realize the spacing operation of lateral shifting position to produce the weakening of frictional force when rotating relatively between inner tube 1 and the urceolus 2 through rolling part, with this not only effectually avoid the direct cover to establish the lateral offset problem that produces, reduced the great problem of frictional force of contact department moreover, realized the contact of buffering formula, thereby improved the stability of the hollow stator module of this yarn cladding machine.

In this embodiment, the top of the bearing cylinder 37 is fixed to the bottom of the connecting cylinder 32 by a fixing block, and the connecting cylinder 32 is attached to the surface of the inner cylinder 1 to realize relative rotation.

Wherein, through the support of the bearing cylinder 37 and the jogged joint of the ladder cylinder 31 and the connecting cylinder 32, and the supporting between the upper cover cylinder 34 and the ladder cylinder 31 is matched, the stability and the limitation of the position during the relative rotation between the inner cylinder 1 and the outer cylinder 2 are effectively improved.

In one embodiment, the jogging assembly 33 comprises a plurality of joggles 33-1, the joggles 33-1 are positioned in the inner groove of the ladder barrel 31 and fixed from top to bottom at equal intervals, the surface of the connecting barrel 32 is provided with joggles 33-2 at equal intervals, and the joggles 33-1 are positioned in the joggles 33-2 and can rotate relatively.

In one embodiment, the contact assembly 35 includes:

the inclined column 35-1 is provided with a plurality of supporting circumferences which are equidistantly arranged at the bottom of the upper cover cylinder 34, the bottom is provided with a placing groove, the inside of the placing groove is embedded with a contact ball 35-2 in a rotating way, a supporting spring 35-3 is arranged between the contact ball 35-2 and the opposite side of the placing groove, and one end of the supporting spring 35-3 is connected with the inner wall of the placing groove;

the inclined ring groove 35-4 is arranged above the inner side of the ladder barrel 31 and is jogged and contacted with the surface of the contact bead 35-2, and can realize relative rolling with the contact bead 35-2.

In one embodiment, the rotation unit 39 includes:

the fixed cylinder 39-1 is positioned below the bearing cylinder 37 and is arranged on the surface of the inner cylinder 1, the top of the fixed cylinder 39-1 is provided with a placement ring groove 39-2, the inside of the placement ring groove 39-2 is provided with a propping component 39-3, the bottom of the bearing cylinder 37 is provided with a rotating component 39-4, and the propping component 39-3 is contacted with components of the rotating component 39-4.

The connecting rods 39-5 are circumferentially and equidistantly arranged at the bottom of the fixed cylinder 39-1, and elastic components 39-6 are arranged on the surface of the connecting rods to achieve contact with the placing cylinder 38.

Example two

As shown in fig. 4-7, a further improvement is made on the basis of the first embodiment:

in one embodiment, the abutment assembly 39-3 comprises:

the placement ring 39-31, which performs a vertical movement operation inside the placement ring groove 39-2 by the sliding assembly 39-32, and slides in contact with the inside of the placement ring groove 39-2;

the pressing springs 39-33 are installed between the opposite sides of the placement ring 39-31 and the placement ring groove 39-2, and are equally distributed along the circumference.

In this embodiment, the sliding component 39-32 includes protruding blocks 39-321 symmetrically installed on the surface of the placement ring 39-31, and grooves 39-322 symmetrically opened in the placement ring groove 39-2, and the protruding blocks 39-321 and the grooves 39-322 slide in an adaptive manner, so that the placement ring 39-31 and the placement ring groove 39-2 can only move in the vertical direction.

In one embodiment, the rotating assembly 39-4 comprises vertical columns 39-41 with equal distance of the bearing circumference mounted at the bottom of the bearing cylinder 37, the bottom of the vertical columns 39-41 is provided with a circular arc groove adapted to the rolling beads 39-42 to roll, and the vertical columns 39-41 extend to the inside of the placement ring groove 39-2 and contact between the rolling beads 39-42 and the surface of the placement ring 39-31 is achieved.

In one embodiment, the elastic assembly 39-6 includes:

the sliding rod 39-61 is fixed at the bottom of the fixed cylinder 39-1 at equal intervals in circumference, and the surface of the sliding rod 39-61 is sleeved with the telescopic spring 39-62;

the hollow ring 39-63 is sleeved on the surface of the sliding rod 39-61 and fixed with one end of the telescopic spring 39-62 arranged at the bottom of the fixed cylinder 39-1, the rolling groove 39-64 is arranged at the top of the placing cylinder 38, the rotating groove 39-65 is arranged between the opposite sides of the rolling groove 39-64, and the surface of the hollow ring 39-63 is embedded in the inner side of the rotating groove 39-65 and can rotate relative to the rotating groove 39-65.

Wherein, through being provided with rotary unit 39 and elastic component 39-6, utilize fixed section of thick bamboo 39-1 to bear the weight of the section of thick bamboo 37 and place the connection between the section of thick bamboo 38, realize the reduction of the frictional force of contact department between inner tube 1 and the urceolus 2 when rotatory through rotating component 39-4 to through elastic component 39-6 and support and move the slowing down of the vertical direction production power of subassembly 39-3 realization, thereby the effectual vertical steadiness when rotatory that has improved in the improvement lateral stability.

In one embodiment, the cross section of the outer cylinder 2 is shaped like a bearing, and the outer yarn can be wound around the middle of the surface, while the inner part of the inner cylinder 1 forms a vertical wire slot for the passage of the inner yarn.

And all that is not described in detail in this specification is well known to those skilled in the art.

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

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The hollow stator assembly of the yarn cladding machine comprises an inner cylinder (1) rotatably installed on a frame of the yarn cladding machine, and an outer cylinder (2) is arranged on the surface of the inner cylinder (1), and is characterized in that: a stabilizing mechanism (3) is arranged between the inner cylinder (1) and the outer cylinder (2) and comprises:

the clamping part is positioned at the upper layer position between the inner cylinder (1) and the outer cylinder (2), realizes the rotating clamping operation between the inner cylinder (1) and the outer cylinder (2), realizes the contact through a ladder cylinder (31) arranged on the inner wall of the outer cylinder (2) and a connecting cylinder (32) sleeved on the surface of the inner cylinder (1), is provided with a jogging component (33) between the ladder cylinder (31) and the connecting cylinder (32), is positioned above the connecting cylinder (32) and is provided with an upper cover cylinder (34) on the surface of the inner cylinder (1), and is provided with a contact component (35) between the upper cover cylinder (34) and the ladder cylinder (31);

the rolling part is positioned at the lower layer position between the inner cylinder (1) and the outer cylinder (2), a bottom cylinder (36) is arranged on the frame of the yarn coating machine and sleeved outside the inner cylinder (1), a bearing cylinder (37) and a placing cylinder (38) are respectively arranged at the top and bottom openings of the bottom cylinder (36), and a rotating unit (39) is arranged between the bearing cylinder (37) and the placing cylinder (38).

2. The hollow stator assembly of a yarn cladding machine according to claim 1, wherein: the top of the bearing cylinder (37) is fixed with the bottom of the connecting cylinder (32) through a fixed block, and the connecting cylinder (32) is attached to the surface of the inner cylinder (1) to realize relative rotation.

3. The hollow stator assembly of a yarn cladding machine according to claim 1, wherein: the embedded component (33) comprises a plurality of embedded rings (33-1), the embedded rings (33-1) are located in the inner groove of the ladder barrel (31) and fixed from top to bottom at equal intervals, embedded grooves (33-2) are formed in the surface of the connecting barrel (32) at equal intervals, and the embedded rings (33-1) are located in the embedded grooves (33-2) and can rotate relatively.

4. The hollow stator assembly of a yarn cladding machine according to claim 1, wherein: the contact assembly (35) comprises:

the inclined column (35-1) is provided with a plurality of supporting circumferences which are equidistantly arranged at the bottom of the upper cover cylinder (34), the bottom is provided with a placing groove, the inside of the placing groove is embedded with a contact ball (35-2) in a rotating way, a supporting spring (35-3) is arranged between the contact ball (35-2) and the opposite side of the placing groove, and one end of the supporting spring (35-3) is connected with the inner wall of the placing groove;

the inclined ring groove (35-4) is arranged above the inner side of the ladder barrel (31) and is in embedded contact with the surface of the contact bead (35-2), and can realize relative rolling with the contact bead (35-2).

5. The hollow stator assembly of a yarn cladding machine according to claim 1, wherein: the rotation unit (39) includes:

the fixed cylinder (39-1) is positioned below the bearing cylinder (37) and is arranged on the surface of the inner cylinder (1), the top of the fixed cylinder (39-1) is provided with a placement ring groove (39-2), the inside of the placement ring groove (39-2) is provided with a propping component (39-3), the bottom of the bearing cylinder (37) is provided with a rotating component (39-4), and the propping component (39-3) is contacted with a component of the rotating component (39-4).

The connecting rods (39-5) are circumferentially and equidistantly arranged at the bottom of the fixed cylinder (39-1), and elastic components (39-6) are arranged on the surfaces of the connecting rods to achieve contact with the placing cylinder (38).

6. The hollow stator assembly of a yarn cladding machine according to claim 5, wherein: the abutting assembly (39-3) includes:

the placement ring (39-31) performs a vertical movement operation in the placement ring groove (39-2) through the sliding component (39-32) and slides in contact with the interior of the placement ring groove (39-2);

the pressing springs (39-33) are arranged between the opposite sides of the placement ring (39-31) and the placement ring groove (39-2) and are distributed at equal intervals in the circumference.

7. The hollow stator assembly of a yarn cladding machine according to claim 6, wherein: the sliding component (39-32) comprises protruding blocks (39-321) symmetrically arranged on the surface of the placement ring (39-31), grooves (39-322) symmetrically arranged in the placement ring groove (39-2), and the protruding blocks (39-321) and the grooves (39-322) are matched to slide.

8. The hollow stator assembly of a yarn cladding machine according to claim 5, wherein: the rotating assembly (39-4) comprises vertical columns (39-41) with equal intervals of bearing circumference and arranged at the bottom of the bearing cylinder (37), arc grooves which are suitable for rolling of the rolling beads (39-42) are formed in the bottoms of the vertical columns (39-41), and the vertical columns (39-41) extend to the inside of the placement ring groove (39-2).

9. The hollow stator assembly of a yarn cladding machine according to claim 5, wherein: the elastic assembly (39-6) comprises:

the sliding rods (39-61) are circumferentially fixed at equal intervals at the bottom of the fixed cylinder (39-1), and telescopic springs (39-62) are sleeved on the surfaces of the sliding rods (39-61);

the hollow ring (39-63) is sleeved on the surface of the sliding rod (39-61) and fixed with one end of the telescopic spring (39-62) arranged at the bottom of the fixed cylinder (39-1), the rolling groove (39-64) is formed in the top of the placing cylinder (38), the rotating groove (39-65) is formed between the opposite sides of the rolling groove (39-64), and the surface of the hollow ring (39-63) is embedded in the inner side of the rotating groove (39-65) and can rotate relative to the rotating groove (39-65).

10. The hollow stator assembly of a yarn cladding machine according to claim 1, wherein: the cross section of the outer cylinder (2) bears a shape of a shape, the middle part of the surface can be wound with external yarns, and a wire groove in the vertical direction is formed in the inner cylinder (1) to realize the passing of the internal yarns.