CN117800160A - Textile raw material silk thread winding disc processing device - Google Patents

Abstract

The invention discloses a textile raw material silk thread winding disc processing device, which relates to the technical field of textile thread winding disc devices, and comprises the following components: a base; the base is of an I-shaped structure as a whole, two ground contact supporting plates are symmetrically welded backwards on the middle transverse supporting connecting rod, two guide rails are symmetrically welded and supported at the top ends of the two ground contact supporting plates, four vertical supporting positioning shafts are symmetrically welded at the top ends of the left side supporting plate and the right side supporting plate of the base, and two sliding parts are sleeved on the four vertical supporting positioning shafts in a sliding mode through spring pushing; the guide rail comprises vertical baffles, and the two vertical baffles are symmetrically and downwards welded at the head end parts of the horizontal sections at the bottom of the guide rail; and the two buffer parts are inserted into the two vertical baffles in a penetrating way through the spring pushing. The invention can roll from high to ground along the guide track when the reel is fully loaded and released, which can solve the trouble of manually or by other mechanical supports to hold and drop the fully loaded reel.

Description

Textile raw material silk thread winding disc processing device

Technical Field

The invention relates to the technical field of a spinning winding disc device, in particular to a spinning raw material yarn winding disc processing device.

Background

In yarn production, a winding process is usually performed to form a semi-finished product or a finished product into a certain shape, so that the semi-finished product or the finished product is stored, transported or subjected to the next process, and a textile raw material yarn winding device is needed.

The existing winding disc processing device mainly needs manual loosening of a locating component of a wire disc to detach and replace the wire disc when the wire disc is fully loaded, the driving structure of the locating component and full load weight sliding force linkage of the wire disc cannot be combined to utilize full load weight of the wire disc to drive the wire disc to trip, operation and use are more troublesome and inconvenient, and the detached full load wire disc is mainly required to be manually output or supported and kept by other machines and falls on the ground, so that the wire disc is more laborious and time-consuming to use, and the detachment and replacement efficiency of the wire disc is poor.

Disclosure of Invention

In view of the above, the present invention provides a processing device for a filament winding disc of textile raw materials, which has a guiding track, and can roll down from a high place to the ground along the guiding track when the coil is fully loaded and released to drop, so that the trouble of manually holding and dropping the fully loaded coil by other mechanical supports is eliminated, the use is convenient and labor-saving, and the dismounting and replacing efficiency of the coil is improved.

The invention provides the following technical scheme: a textile raw material silk thread winding disc processing device comprises a base; the base comprises a vertical support positioning shaft and a ground contact supporting plate, the whole base is of an I-shaped structure, two ground contact supporting plates are symmetrically welded backwards on a middle transverse support connecting rod, two guide rails are symmetrically welded and supported at the top ends of the two ground contact supporting plates, four vertical support positioning shafts are symmetrically welded at the top ends of left and right side supporting plates of the base, and two sliding parts are sleeved on the four vertical support positioning shafts in a sliding mode through spring pushing; the guide rail comprises vertical baffles, and the two vertical baffles are symmetrically and downwards welded at the head end parts of the horizontal sections at the bottom of the guide rail; the two vertical baffles are provided with two buffer parts in a penetrating and inserting way through spring pushing; the whole buffer part is formed by jointly welding two inserted posts and stressed laths welded at the front ends of the two inserted posts, and the left and right protruding sections of the central rotating shaft of the reel are correspondingly contacted with the stressed laths of the two buffer parts in a rolling impact manner; a sliding member; the sliding component comprises an L-shaped supporting plate and bearing seats, wherein two bearing seats are locked and installed at the top end of the sliding component, a round positioning short column is installed in each bearing seat in an embedded and rotating mode, a six-edge driven shaft is inserted through the center of each round positioning short column through spring pushing, four L-shaped supporting plates are correspondingly welded and supported on the upper half parts of the two sliding components left and right, two motors are installed at the top ends of the four L-shaped supporting plates in opposite directions in a locking mode, and two positioning components are inserted through the middle parts of the transverse supporting plate sections of the four L-shaped supporting plates through spring pushing; the motors comprise six-edge rotating shafts, two motors are used for one by one, the rotors of the two motors are provided with one six-edge rotating shaft, and the motors can rotate to drive the reels to rotate and wind; six-edge driven shaft; a reel is inserted and installed between the head end sections of the two six-edge driven shafts; the sliding part further comprises a transverse support positioning shaft, the sliding part is of an I-shaped structure, the sliding part is formed by welding two vertical support plates at the bottom, two top vertical support plates and two middle vertical support plates at the upper and lower intervals, four transverse support positioning shafts are symmetrically welded between the top vertical support plates and four L-shaped support plates of the two sliding part, and can improve the sliding stability of four L-shaped sliding rods and two swivel rings, so that torsion and deflection of the sliding part during left and right sliding are avoided.

Preferably, the six-edge driven shaft comprises a shaft sleeve, the tail ends of the two six-edge driven shafts are welded and fixed with one shaft sleeve, one six-edge slot is formed in each shaft sleeve, the two six-edge driven shafts can be used for inserting and installing the installation reel between the two sliding parts, and the reel can be driven in a rotating way through power transmission motors of the two six-edge driven shafts; two limiting circular plates are arranged on the tail end sections of the two shaft sleeves at intervals, the two rotating rings are rotationally sleeved on the tail end sections of the two shaft sleeves and limited between the four limiting circular plates, the two rotating rings are rotationally connected with the two shaft sleeves, and the positioning functions of the four L-shaped sliding rods and the four positioning plates can be prevented from complementarily interfering with the rotating power transmission functions of the two six-edge driven shafts.

Preferably, the six-edge driven shaft comprises L-shaped sliding rods, two L-shaped sliding rods are symmetrically welded on the circumferential outer walls of the two rotating rings front and back, and the bottom sections of the four L-shaped sliding rods are correspondingly matched with the four transverse support positioning shafts in a sliding manner; the locating plate, the inboard welding of the bottom section of four L shape slide bars has a locating plate of horizontal support, and a jack has all been run through to the locating plate around on the part of two bearing frame of orientation.

Preferably, the whole positioning part is -shaped, front and rear vertical supporting shaft rods penetrate through and extend downwards in a protruding way through four L-shaped supporting plates, and two short inserting rods are symmetrically welded downwards on a longitudinal connecting shaft at the top end of the positioning part; and a distance is kept between the four vertical supporting shaft rods of the two positioning parts and the base, and four short inserting rods on the longitudinal connecting shafts at the top ends of the two positioning parts are correspondingly in inserting fit with inserting holes on four positioning plates.

Preferably, the guide rail is integrally of a three-section structure and is formed by jointly welding a top vertical supporting section, a middle inclined section and a bottom horizontal section, wherein a top opening of the vertical supporting section is correspondingly matched with a left protruding section cutting sleeve and a right protruding section cutting sleeve of a central rotating shaft of the reel.

Compared with the prior art, the invention has the beneficial effects that:

1. when the two positioning parts touch the ground, reversely push, slide and loosen, the springs on the two six-edge driven shafts can automatically push the six-edge driven shafts to rebound and push the six-edge driven shafts outwards to separate from the reel to finish loosening and unloading of the reel, and further, the six-edge driven shafts can indirectly drive the automatic tripping to implement loosening and unloading of the reel by using the full-load gravity of the reel through the power transmission of the two positioning parts, so that the reel can be automatically tripped, loosened and unloaded to fall under full load, the trouble of manually and manually loosening and unloading the full-load reel is omitted, the reel disassembling step is simplified, and the use is convenient and efficient;

2. when the reel is fully loaded, the gravity of the reel can weight and drive the two sliding parts and the two positioning parts to gradually slide downwards along the four vertical supporting positioning shafts, and as the four vertical supporting shaft rods of the positioning parts extend downwards in a protruding manner, the two six-edge driven shafts can contact with the ground along with the sliding downwards and are reversely pushed to slide upwards to automatically loosen the two six-edge driven shafts, so that the trouble of manually pulling and loosening the two six-edge driven shafts when the reel is replaced is avoided, and the reel is convenient to use and time-saving;

3. according to the invention, when the reel is fully loaded and tripped and falls, the reel can roll down to the ground from a high position along the guide rail, so that the trouble of manually or by other mechanical supports to hold and fall the fully loaded reel is eliminated, the use is convenient and labor-saving, and the dismounting and replacing efficiency of the reel is improved;

4. the buffer part can buffer the impact force when the reel rolls down, so that the problem that two vertical baffles directly meet the impact force to generate fatigue deformation or even break is avoided, the blocking and limiting functions of the reel are lost, and the reel rolls down on the ground directly to roll or crush operators is avoided.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of a rear three-dimensional structure of the present invention;

FIG. 3 is a schematic view of a three-dimensional structure of a sliding member according to the present invention;

FIG. 4 is a schematic diagram of a reel structure according to the present invention;

FIG. 5 is a schematic view of a six-sided through-penetration assembly of a driven shaft according to the present invention;

FIG. 6 is a schematic view of a six-edge driven shaft structure according to the present invention;

FIG. 7 is a schematic view of the semi-sectioned internal structure of the sleeve according to the present invention;

FIG. 8 is a schematic view of a guide rail structure according to the present invention;

FIG. 9 is a schematic view of a positioning member according to the present invention;

in the figure, the correspondence between the component names and the drawing numbers is:

1. a base; 101. a vertical support positioning shaft; 102. a ground contact supporting plate; 2. a reel; 3. a sliding member; 301. an L-shaped supporting plate; 302. a cross brace positioning shaft; 303. a bearing seat; 4. a motor; 401. a six-edge rotating shaft; 5. six-edge driven shaft; 501. a shaft sleeve; 502. a swivel; 503. an L-shaped slide bar; 504. a positioning plate; 6. a positioning member; 7. a guide rail; 701. a vertical baffle; 702. and a buffer part.

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.

Please refer to fig. 1 to 9;

the invention provides a textile raw material silk thread winding disc processing device, which comprises: a base 1; the base 1 comprises a vertical support positioning shaft 101 and a ground contact support plate 102, the whole base 1 is of an I-shaped structure, two ground contact support plates 102 are symmetrically welded backwards on a middle transverse support connecting rod, two guide rails 7 are symmetrically welded and supported at the top ends of the two ground contact support plates 102, four vertical support positioning shafts 101 are symmetrically welded at the top ends of left and right side support plates of the base 1, and two sliding parts 3 are symmetrically sleeved on the four vertical support positioning shafts 101 in a sliding manner through spring pushing; the motors 4 comprise six-edge rotating shafts 401, two motors 4 are used one by one, and the rotors of the two motors 4 are provided with one six-edge rotating shaft 401; the six-edge driven shaft 5 comprises shaft sleeves 501, one shaft sleeve 501 is welded and fixed at the tail ends of the two six-edge driven shafts 5, and one six-edge slot is formed in each shaft sleeve 501; two limiting circular plates are arranged on the tail end sections of the two shaft sleeves 501 at intervals, and the two rotating rings 502 are rotationally sleeved on the tail end sections of the two shaft sleeves 501 and are limited between the four limiting circular plates;

a sliding member 3; the sliding component 3 comprises an L-shaped supporting plate 301 and bearing seats 303, wherein two bearing seats 303 are locked and installed at the top end of the sliding component 3, a round positioning short column is installed in each of the two bearing seats 303 in an embedded and rotating manner, a six-edge driven shaft 5 is inserted through the center of each of the two round positioning short columns through spring pushing, four L-shaped supporting plates 301 are correspondingly welded and supported on the upper half parts of the two sliding components 3 left and right, two motors 4 are installed at the top ends of the four L-shaped supporting plates 301 in opposite locking manner, and two positioning components 6 are inserted through the middle parts of the transverse supporting plate sections of the four L-shaped supporting plates 301 through spring pushing; a six-edge driven shaft 5; a reel 2 is inserted and installed between the head end sections of the two six-edge driven shafts 5; the sliding part 3 further comprises a transverse support positioning shaft 302, the sliding part 3 is of an I-shaped structure as a whole and is formed by welding two vertical support plates at the bottom, top vertical support plates and two middle vertical support plates at the upper and lower intervals together, and four transverse support positioning shafts 302 are symmetrically welded between the top vertical support plates of the two sliding parts 3 and the four L-shaped support plates 301; the six-edge driven shaft 5 comprises L-shaped slide bars 503, two L-shaped slide bars 503 are symmetrically welded on the circumferential outer walls of the two rotating rings 502 front and back, and the bottom sections of the four L-shaped slide bars 503 are correspondingly matched with the four transverse support positioning shafts 302 in a sliding manner; the inner sides of the bottom sections of the four L-shaped slide bars 503 of the positioning plates 504 are welded with a positioning plate 504 which is transversely supported, and a jack is formed in the part, facing the two bearing seats 303, of the four positioning plates 504 in a penetrating manner.

As shown in fig. 1, the positioning component 6 is in a structure integrally, the front vertical supporting shaft rod and the rear vertical supporting shaft rod penetrate through the four L-shaped supporting plates 301 to extend in a downward protruding mode, two short inserting rods are symmetrically welded downwards on the top longitudinal connecting shaft of the positioning component 6, when the reel 2 is fully loaded, gravity of the positioning component can stress and drive the two sliding components 3 and the two positioning components 6 to slide downwards gradually along the four vertical supporting positioning shafts 101, and because the four vertical supporting shaft rods of the positioning components 6 extend in a downward protruding mode, the positioning component can follow the downward sliding to contact with the ground and are pushed upwards in a reverse mode to automatically release the two six-edge driven shafts 5, the trouble of manually pulling and releasing the two six-edge driven shafts 5 when the reel 2 is replaced is omitted, and the positioning component is convenient to use and time-saving.

As shown in fig. 4, a space is kept between four vertical supporting shafts of two positioning components 6 and a base 1, four short inserting rods on the longitudinal connecting shafts at the top ends of the two positioning components 6 are correspondingly in inserting fit with inserting holes on four positioning plates 504, the two positioning components 6 can be inserted and fixed with the positioning plates 504, so that two six-edge driven shafts 5 are kept in an inner sliding and inserting use state, when the two positioning components 6 are in contact with the ground to reversely push and slide and release, springs on the two six-edge driven shafts 5 can automatically push and rebound the outer sliding and the pulling and releasing of the coils 2 to complete releasing and releasing of the coils 2, and further, the invention can drive the six-edge driven shafts 5 to automatically release and release the coils 2 indirectly by using full-load gravity of the coils 2 through power transmission of the two positioning components 6, so that the coils 2 can automatically release and drop in full-load state, so that the trouble of manually releasing and releasing the coils 2 is omitted, and the steps of releasing the coils 2 are convenient and efficient.

As shown in fig. 2, the guide rail 7 is integrally in a three-section structure and is formed by jointly welding a top vertical supporting section, a middle inclined section and a bottom horizontal section, wherein a top opening of the vertical supporting section is correspondingly matched with a left protruding section cutting sleeve and a right protruding section cutting sleeve of a central rotating shaft of the reel 2, when the reel 2 falls off in a full-load tripping manner, the guide rail 7 can roll down to the ground from a high place, the trouble of manually holding and falling the full-load reel 2 by other mechanical supports is omitted, the use is convenient and labor-saving, and the disassembly and replacement efficiency of the reel 2 is improved.

As shown in fig. 8, the guide rail 7 comprises a vertical baffle 701, and two vertical baffles 701 are symmetrically welded downwards at the head end parts of the horizontal sections at the bottoms of the two guide rails 7; the buffer parts 702 are inserted through the two vertical baffle plates 701 by pushing the springs; the buffer part 702 is integrally formed by jointly welding two inserted posts and stressed laths welded at the front ends of the two inserted posts, the left protruding section and the right protruding section of the central rotating shaft of the reel 2 are correspondingly contacted with the stressed laths of the two buffer parts 702 in a rolling impact manner, the buffer parts 702 can buffer impact force of the reel 2 when the reel 2 rolls down, the two vertical baffle plates 701 are prevented from being directly connected with the impact force to generate fatigue deformation or even broken, the blocking limiting function of the reel 2 is lost, and the reel 2 is caused to roll down on the ground directly or to crush or crush operators.

Working principle: the coil 2 can be driven to wind by the power transmission motor 4 of the two six-edge driven shafts 5, the two positioning components 6 can be inserted into the fixed positioning plates 504, so that the two six-edge driven shafts 5 are kept in a use state of inner sliding insertion, when the coil 2 is fully loaded, gravity of the two six-edge driven shafts can be used for pressing the two sliding components 3 and the two positioning components 6 to gradually slide downwards along the four vertical supporting positioning shafts 101, as the four vertical supporting shafts of the positioning components 6 extend downwards in a protruding mode, the positioning components can contact with the ground in a contact mode and are reversely pushed upwards to automatically loosen the two six-edge driven shafts 5, when the two positioning components 6 contact with the ground to reversely push upwards to loosen the six-edge driven shafts, springs on the two six-edge driven shafts 5 can automatically enable the two six-edge driven shafts to rebound outwards to be separated from the coil 2 in a pulling mode, and when the coil 2 is released and released from the coil 2, and the coil 2 can roll from the high place along the guide rail 7 when the coil 2 falls off after full loading and releasing.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. A textile raw material wire winding disc processing device, which is characterized in that: a coil processing device comprises

A base (1); the base (1) comprises a vertical support positioning shaft (101) and a ground contact support plate (102), the base (1) is of an I-shaped structure as a whole, two ground contact support plates (102) are symmetrically welded backwards on a middle transverse support connecting rod, two guide rails (7) are symmetrically welded and supported at the top ends of the two ground contact support plates (102), four vertical support positioning shafts (101) are symmetrically welded at the top ends of left and right side support plates of the base (1), and two sliding parts (3) are symmetrically sleeved on the four vertical support positioning shafts (101) through spring pushing and sliding;

a sliding member (3); the sliding component (3) comprises an L-shaped supporting plate (301) and bearing seats (303), two bearing seats (303) are fixedly arranged at the top ends of the sliding component (3), a round positioning short column is arranged in each bearing seat (303) in an embedded and rotating mode, a six-edge driven shaft (5) is inserted through the center of each round positioning short column in a penetrating mode through spring pushing, four L-shaped supporting plates (301) are correspondingly welded and supported on the upper half portions of the two sliding components (3) in a left-right mode, two motors (4) are oppositely arranged at the top ends of the four L-shaped supporting plates (301) in a locking mode, and two positioning components (6) are inserted through spring pushing in the middle portions of transverse supporting plate sections of the four L-shaped supporting plates (301);

a six-edge driven shaft (5); a reel (2) is inserted and installed between the head end sections of the two six-edge driven shafts (5).

2. A textile raw silk thread winding disc processing device according to claim 1, characterized in that: the sliding part (3) further comprises a transverse support positioning shaft (302), the sliding part (3) is of an I-shaped structure, the sliding part is formed by welding two vertical support plates at the bottom, two top vertical support plates and two middle vertical support plates at the upper and lower intervals, and four transverse support positioning shafts (302) are symmetrically welded between the top vertical support plates of the two sliding parts (3) and the four L-shaped support plates (301).

3. A textile raw silk thread winding disc processing device according to claim 1, characterized in that: the motor (4) comprises six-edge rotating shafts (401), two motors (4) are used for one time, and one six-edge rotating shaft (401) is arranged on the rotor of each motor (4).

4. A textile raw silk thread winding disc processing device according to claim 1, characterized in that: the six-edge driven shaft (5) comprises

The tail ends of the two six-edge driven shafts (5) are welded and fixed with one shaft sleeve (501), and one six-edge slot is formed in each shaft sleeve (501);

two limiting circular plates are arranged at intervals on the tail end sections of the two shaft sleeves (501), and the two rotating rings (502) are rotatably sleeved on the tail end sections of the two shaft sleeves (501) and limited between the four limiting circular plates.

5. A textile raw silk thread winding disc processing device according to claim 1, characterized in that: the six-edge driven shaft (5) comprises

The two L-shaped sliding rods (503) are symmetrically welded on the circumferential outer walls of the two rotating rings (502) front and back, and the bottom sections of the four L-shaped sliding rods (503) are correspondingly matched with the four transverse support positioning shafts (302) in a sliding manner;

the inner sides of the bottom sections of the four L-shaped slide bars (503) are welded with a positioning plate (504) which is transversely supported, and a jack is formed in the part, facing the two bearing seats (303), of the four positioning plate (504) in a penetrating mode.

6. A textile raw silk thread winding disc processing apparatus as claimed in claim 5, wherein: the positioning part (6) is of a -shaped structure, front and rear vertical supporting shafts penetrate through the L-shaped supporting plates (301) at four places to extend in a downward protruding mode, and two short inserting rods are symmetrically welded downwards on a longitudinal connecting shaft at the top end of the positioning part (6).

7. A textile raw silk thread winding disc processing apparatus as claimed in claim 6, wherein: the four vertical supporting shaft rods of the two positioning parts (6) are kept at intervals with the base (1), and four short inserting rods on the longitudinal connecting shafts at the top ends of the two positioning parts (6) are correspondingly matched with inserting holes on the four positioning plates (504) in an inserting mode.

8. A textile raw silk thread winding disc processing device according to claim 1, characterized in that: the guide rail (7) is of a three-section structure integrally and is formed by jointly welding a top vertical supporting section, a middle inclined section and a bottom horizontal section, wherein a top opening of the vertical supporting section is correspondingly matched with a left protruding section cutting sleeve and a right protruding section cutting sleeve of a central rotating shaft of the reel (2).

9. A textile raw silk thread winding disc processing device according to claim 1, characterized in that: the guide rail (7) comprises

The two vertical baffles (701) are symmetrically and downwards welded at the head end parts of the horizontal sections at the bottoms of the guide rails (7);

and the two buffer parts (702) are inserted into the two vertical baffle plates (701) in a penetrating way through the pushing of the springs.

10. A textile raw silk thread winding disc processing apparatus as claimed in claim 9, wherein: the buffer part (702) is integrally formed by welding two inserted posts and stressed laths welded at the front ends of the two inserted posts, and the left protruding section and the right protruding section of the central rotating shaft of the reel (2) are correspondingly contacted with the stressed laths of the two buffer parts (702) in a rolling impact manner.