CN217263838U - Cheese yarn guide device - Google Patents

Abstract

The application relates to the technical field of textile machinery equipment, in particular to a cheese yarn guiding device, which comprises a yarn guiding frame, a yarn guiding groove drum, a yarn guiding driving motor and a winding seat, wherein the winding seat is used for rotatably installing a winding drum, the yarn guiding driving motor is used for driving the yarn guiding groove drum to drive the winding drum to wind the unwound bobbin, a follow-up connecting rod is rotatably installed on the yarn guiding frame in a horizontal transverse direction, the winding seat comprises a base, a fixed clamping lug and a movable clamping lug, the base is fixedly installed on the follow-up connecting rod, the fixed clamping lug and the movable clamping lug are respectively rotatably installed on two inner sides of the base, which are oppositely arranged, and the fixed clamping lug and the movable clamping lug are respectively used for clamping two ends of the winding drum; the base is provided with a damping rod, and the damping rod is used for controlling the movable clamping lugs to clamp the winding drum. This application controls the motion of activity clamp ear through setting up the damping lever, can be convenient for the workman accomplish around the change work of a section of thick bamboo.

Description

Cheese yarn guide device

Technical Field

The application relates to the technical field of textile machinery equipment, in particular to a cheese yarn guide device.

Background

In the textile industry, dyed bobbins need to be wound via yarn guiding devices to form cone-shaped bobbins which are easy to unwind.

At present, a yarn guide device generally comprises a yarn guide frame, a yarn guide groove drum, a yarn guide driving motor and a winding seat; in the process of the winding process, a worker firstly rotates the winding drum to be installed on the winding seat, then the yarn guide driving motor drives the yarn guide groove drum to rotate, the yarn guide groove drum drives the winding drum to rotate, and the winding drum can continuously wind yarns in the yarn drum to form required cheese.

However, the current winding seat usually adopts a screw locking mode to rotate the winding drum to clamp, and after the winding drum finishes winding work, a worker needs to disassemble a screw to take down the winding drum which finishes winding work, so that the worker is inconvenient to replace the winding drum. Therefore, further improvements can be made.

SUMMERY OF THE UTILITY MODEL

In order to be convenient for the workman to accomplish the change work of winding a section of thick bamboo, this application provides a cheese yarn guiding device.

The application provides a cheese yarn guider adopts following technical scheme:

a cheese yarn guiding device comprises a yarn guiding frame, a yarn guiding grooved drum, a yarn guiding driving motor and a winding seat, wherein the winding seat is used for rotating and installing a winding drum, the yarn guiding driving motor is used for driving the yarn guiding grooved drum to drive the winding drum to wind yarn after unwinding the drum, a follow-up connecting rod is installed on the yarn guiding frame in a horizontal transverse rotating mode, the winding seat comprises a base, a fixed clamping lug and a movable clamping lug, the base is fixedly installed on the follow-up connecting rod, the fixed clamping lug and the movable clamping lug are respectively installed on two inner sides of the base in a rotating mode, and the fixed clamping lug and the movable clamping lug are respectively used for clamping two ends of the winding drum in a holding mode; the base is provided with a damping rod, and the damping rod is used for controlling the movable clamping lugs to clamp the winding drum.

Through adopting above-mentioned technical scheme, when the installation was around a section of thick bamboo, after the workman will place around a section of thick bamboo between fixed clamp ear and activity clamp ear, damping rod promoted activity clamp ear this moment and moved towards being close to fixed clamp ear direction to embrace around a section of thick bamboo and press from both sides. In a similar way, after the winding drum finishes winding work, a worker presses the damping rod to retract so as to remove the clamping of the fixed clamping lug and the movable clamping lug on the winding drum, and the worker can finish the replacement work of the winding drum conveniently.

Optionally, the yarn guide frame is provided with a yarn feeding guide ring, a yarn discharging guide ring and a guide wheel, and the guide wheel is arranged between the yarn feeding guide ring and the yarn discharging guide ring.

By adopting the technical scheme, in the spooling process, the cone yarns are guided to the yarn guide groove drum through the yarn feeding guide ring, the guide wheel and the yarn discharging guide ring in sequence so as to guide the yarn feeding route of the cone yarns and control the cone yarns to stably release the yarns.

Optionally, the yarn guide frame comprises a first supporting rod and a second supporting rod between the yarn inlet guide ring and the yarn outlet guide ring; the first support rod is fixedly arranged on the guide frame, one end of the second support rod is arranged on the first support rod in a sliding mode along the length direction of the first support rod, and the second support rod is locked through an adjusting screw which is connected to the first support rod in a threaded mode; the leading wheel is installed in the second bracing piece and is kept away from first bracing piece one end.

Through adopting above-mentioned technical scheme, at the in-process of spooling, the workman can adjust the distance between wheel seat and the creel guide through first bracing piece, second bracing piece and adjusting screw to adjust the mounted position of leading wheel, and then can adjust the tensioning dynamics at transportation process of yarn.

Optionally, a horizontal rotating shaft is rotatably mounted on the yarn guide frame in a horizontal transverse direction, a first adjusting sliding barrel is slidably arranged on the horizontal rotating shaft, and the first adjusting sliding barrel is connected to a first locking screw on the first sliding barrel through a thread for locking and fixing; the follow-up connecting rod is arranged on the first adjusting sliding barrel.

Through adopting above-mentioned technical scheme, in carrying out the working process of spooling, along with the constantly expanding of the section of thick bamboo coiling thickness, horizontal rotating shaft drives follow-up connecting rod and carries out synchronous rotation fine setting to guarantee that the yarn guide groove section of thick bamboo can drive the section of thick bamboo of spooling and rotate the coiling all the time. Meanwhile, before spooling, a worker can adjust the follow-up connecting rod horizontally and transversely through the first adjusting sliding barrel so as to finely adjust the winding seat horizontally and transversely.

Optionally, a second adjusting sliding cylinder is fixed on the first adjusting sliding cylinder, and the second adjusting sliding cylinder is used for the sliding insertion of the follow-up connecting rod; and a second locking screw for locking the follow-up connecting rod is connected to the second adjusting sliding cylinder through threads.

Through adopting above-mentioned technical scheme, before carrying out the work of spooling, the workman can adjust the sliding barrel to follow-up connecting rod along the second and slide to finely tune the initial support position of coiling seat at the yarn guide groove section of thick bamboo.

Optionally, fixed clamp ear and activity clamp ear all include the side splint and install the location axle on the side splint, two the side splint are used for pressing the clamp around a section of thick bamboo side, the location axle is used for supplying to peg graft the location around a section of thick bamboo tip.

Through adopting above-mentioned technical scheme, at the installation around a section of thick bamboo in-process, the workman will at first peg graft the location axle in fixed clamp ear around a section of thick bamboo one end, then promotes movable clamp ear through the damping rod and embraces the clamp around a section of thick bamboo other end, and makes the location axle in the movable clamp ear peg graft in keeping away from fixed clamp ear one end around a section of thick bamboo. At the moment, the two ends of the winding drum can be positioned through the two positioning shafts, so that the winding drum is not easy to deviate.

Optionally, hand pressure rods are further fixed on the upper side and the lower side of each movable clamping lug.

Through adopting above-mentioned technical scheme, because both sides all still are fixed with the hand depression bar about the activity clamping ear, can be convenient for the workman through hand depression bar pressure damping lever retract to the workman changes around a section of thick bamboo.

Optionally, one end of each positioning shaft, which is far away from the side clamping plate, is rounded.

Through adopting above-mentioned technical scheme, because every location axle keeps away from side splint one end and all has the fillet, can be convenient for the workman's installation around a section of thick bamboo.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the installation was around a section of thick bamboo, after the workman will place around a section of thick bamboo between fixed clamping ear and activity clamping ear, damping rod promoted the activity clamping ear and removes towards being close to fixed clamping ear direction this moment to embrace the clamp around a section of thick bamboo. Similarly, when the winding drum finishes the winding work, a worker presses the damping rod to retract so as to remove the clamping of the fixed clamping lug and the movable clamping lug on the winding drum, and the worker can finish the replacement work of the winding drum conveniently;

2. in the process of spooling, the cone yarn is guided into the yarn guide groove drum through the yarn inlet guide ring, the guide wheel and the yarn outlet guide ring in sequence so as to guide the yarn inlet route of the cone yarn and control the cone yarn to release the stable yarn;

3. in the spooling process, a worker can adjust the distance between the wheel seat and the yarn guide frame through the first supporting rod, the second supporting rod and the adjusting screw so as to adjust the installation position of the guide wheel, and further can adjust the tensioning force of the yarn in the conveying process.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic view of the overall structure of the winding base.

Fig. 3 is a view for showing a specific installation manner of the guide wheel.

Description of the reference numerals:

1. a yarn guide frame; 2. a yarn guide groove drum; 3. a yarn guide driving motor; 4. a winding seat; 41. a base; 42. fixing the clamping lugs; 421. a side clamping plate; 422. positioning the shaft; 43. a movable clamping ear; 44. a damping lever; 45. A hand pressure lever; 5. a material platform; 6. a follower link; 61. a horizontal rotating shaft; 62. a first adjusting slide cylinder; 63. a second adjusting slide cylinder; 64. a first locking screw; 65. a second locking screw; 7. a guide table; 71. a yarn feeding guide ring; 72. a yarn outlet guide ring; 73. a guide wheel; 74. a first support bar; 75. a second support bar; 76. an adjusting screw; 100. cone yarn; 200. and (4) winding the cylinder.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a cheese yarn guide device.

Referring to fig. 1, the cheese yarn guiding device comprises a yarn guiding frame 1, a yarn guiding groove drum 2, a yarn guiding driving motor 3 and a winding seat 4; wherein, the bottom of the yarn guide frame 1 is provided with a material platform 5 for supporting and installing the cone yarn 100. The yarn guide groove drum 2 and the yarn guide driving motor 3 are both arranged at the top of the yarn guide frame 1, and the yarn guide driving motor 3 is used for driving the yarn guide groove drum 2 to rotate around the horizontal transverse direction. The top of the yarn guide frame 1 is provided with a follow-up connecting rod 6 in a horizontal and transverse rotating mode, the winding seat 4 is arranged at one end, far away from the yarn guide frame 1, of the follow-up connecting rod 6, and the winding seat 4 is used for rotating and installing the winding barrel 200.

When the spooling process is carried out, a worker firstly rotatably installs the winding drum 200 on the winding seat 4, and then the worker drives the winding drum 200 to be supported on the outer wall of the top of the yarn guide groove drum 2 through the follow-up connecting rod 6. And finally, the yarn guide driving motor 3 drives the yarn guide grooved drum 2 to rotate, so that the yarn guide grooved drum 2 drives the winding drum 200 to rotationally wind the yarn after the bobbin yarn 100 is unwound, and the required bobbin yarn is gradually formed.

Referring to fig. 2, in particular, in the present embodiment, the winding base 4 includes a base 41, a fixed clip 42 and a movable clip 43; the base 41 is in a U-shaped plate shape, and the base 41 is fixed to the follower link 6. The fixed clamping lug 42 is rotatably arranged on the left inner side surface of the base 41; a damping rod 44 is fixedly mounted on the right inner side surface of the base 41, and the movable clamping lug 43 is rotatably mounted on the piston rod end of the damping rod 44, so that the movable clamping lug 43 can move toward/away from the fixed clamping lug 42.

When the winding drum 200 is installed, after the worker places the winding drum 200 between the fixed clamping lug 42 and the movable clamping lug 43, the damping rod 44 pushes the movable clamping lug 43 to move towards the direction close to the fixed clamping lug 42, so as to clamp the winding drum 200. Similarly, after the winding drum 200 completes the winding operation, the worker presses the damping rod 44 to retract, so as to release the clasping of the fixed clamping lug 42 and the movable clamping lug 43 to the winding drum 200, and facilitate the worker to complete the replacement operation of the winding drum 200.

Specifically, in the present embodiment, the fixed clip lug 42 and the movable clip lug 43 each include a side plate 421 and a positioning shaft 422 installed on the side plate 421, and the two positioning shafts 422 are installed on the opposite sides of the two side plates 421. In the process of installing the winding drum 200, the two positioning shafts 422 can be respectively used for positioning and inserting the two ends of the winding drum 200, and meanwhile, the two side plates respectively press and clamp the two ends of the winding drum 200 so as to improve the installation stability of the winding drum 200.

Specifically, a supporting rotating shaft is arranged on the left inner side surface of the base 41, and correspondingly, a first supporting bearing for inserting and mounting the supporting rotating shaft is embedded and mounted on one side of the side clamping plate 421 in the fixing clamping lug 42, which is far away from the positioning shaft 422; similarly, a second support bearing for inserting and installing the piston rod end of the damping rod 44 is embedded and installed on one side of the side clamping plate 421 in the movable clamping lug 43, which is far away from the positioning shaft 422, so that the winding drum 200 can rotate relative to the winding seat 4.

In the present embodiment, each positioning shaft 422 has a rounded end at an end away from the side plate 421, so as to facilitate the installation of the winding drum 200 by a worker.

In the present embodiment, the hand pressure rods 45 are fixed to the upper and lower sides of the side plate 421 in the movable clamping ear 43, so that the worker can conveniently press the damping rods 44 to retract through the hand pressure rods 45, and the worker can conveniently replace the winding drum 200.

Referring to fig. 1, in particular, in the present embodiment, a horizontal rotating shaft 61, a first adjusting sliding barrel 62 and a second adjusting sliding barrel 63 are arranged at the top of the creel 1; the horizontal rotating shaft 61 is horizontally and rotatably mounted on the yarn guide frame 1, the first adjusting sliding barrel 62 is slidably sleeved on the horizontal rotating shaft 61, and the first adjusting sliding barrel 62 is in threaded connection with a first locking screw 64 for locking the first adjusting sliding barrel 62. The second adjusting sliding cylinder 63 is fixedly installed on the outer wall of the first adjusting sliding shaft, and the second adjusting sliding cylinder 63 is perpendicular to the first adjusting sliding cylinder 62. One end of the follow-up connecting rod 6 is slidably inserted into the second adjusting sliding barrel 63, and the follow-up connecting rod 6 is locked and fixed by a second locking screw 65 which is connected to the second adjusting sliding barrel 63 through threads.

In the process of spooling, along with the continuous expansion of the winding thickness of the winding drum 200, the horizontal rotating shaft 61 drives the follow-up connecting rod 6 to synchronously rotate and finely adjust, so that the yarn guide groove drum 2 can always drive the winding drum 200 to rotate and wind.

Meanwhile, before spooling, a worker can adjust the follower link 6 in the horizontal transverse direction through the first adjusting spool 62 to finely adjust the winding seat 4 in the horizontal transverse direction. Meanwhile, the worker can perform sliding adjustment of the follower link 6 along the second adjustment sliding barrel 63 to perform fine adjustment of the winding seat 4 at the initial supporting position of the yarn guiding grooved barrel 2.

In this embodiment, a guide table 7 is further installed at the middle position of the creel 1, and a yarn feeding guide ring 71, a yarn discharging guide ring 72 and a guide wheel 73 are provided on the guide table 7. The yarn feeding guide ring 71 is horizontally and fixedly mounted on the side surface of the guide table 7, the yarn discharging guide ring 72 is vertically fixed on the top surface of the guide table 7, the guide wheel 73 is mounted on the top surface of the guide table 7, and the guide wheel 73 is positioned between the yarn feeding guide ring 71 and the yarn discharging guide ring 72.

During the spooling process, the cone yarn 100 is guided into the yarn guiding groove drum 2 through the yarn feeding guide ring 71, the guide wheel 73 and the yarn discharging guide ring 72 in sequence so as to guide the yarn feeding route of the cone yarn 100 and control the cone yarn 100 to stably discharge yarn.

Referring to fig. 1 and 3, in particular, in the present embodiment, the guide table 7 includes a first support bar 74 and a second support bar 75 between the yarn feeding guide ring 71 and the yarn discharging guide ring 72; wherein, the first supporting rod 74 is vertically and fixedly arranged on the guide frame; an adjusting sliding groove is formed in the top of the first supporting rod 74, the bottom of the second supporting rod 75 is inserted into the adjusting sliding groove in a sliding mode, and the second supporting rod 75 is locked through an adjusting screw 76 which is connected to the first supporting rod 74 through threads. The guide wheel 73 is fixedly mounted on top of the second support bar 75.

During the spooling process, a worker can adjust the distance between the wheel base and the yarn guide frame 1 through the first support rod 74, the second support rod 75 and the adjusting screw 76 to adjust the installation position of the guide wheel 73, so that the tension of the yarn during the conveying process can be adjusted.

The embodiments of the present invention are preferred embodiments of the present application, and the protection scope of the present application is not limited thereby, wherein like parts are denoted by like reference numerals. Therefore, the method comprises the following steps: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a cheese yarn guide device, includes creel (1), leads yarn groove section of thick bamboo (2), leads yarn driving motor (3) and coiling seat (4), coiling seat (4) are used for supplying to rotate the installation around section of thick bamboo (200), it is used for driving around section of thick bamboo (200) to lead yarn groove section of thick bamboo (2) and drives and roll up its characterized in that around the yarn that section of thick bamboo (200) unreeled back to section of thick bamboo yarn (100) to lead yarn driving motor (3): the winding device is characterized in that a follow-up connecting rod (6) is installed on the yarn guide frame (1) in a horizontal and transverse rotating mode, the winding seat (4) comprises a base (41), a fixed clamping lug (42) and a movable clamping lug (43), the base (41) is fixedly installed on the follow-up connecting rod (6), the fixed clamping lug (42) and the movable clamping lug (43) are respectively installed on two inner sides, opposite to the base (41), in a rotating mode, and the fixed clamping lug (42) and the movable clamping lug (43) are respectively used for clamping two ends of the winding drum (200); the winding drum is characterized in that a damping rod (44) is installed on the base (41), and the damping rod (44) is used for controlling the movable clamping lug (43) to clamp the winding drum (200).

2. A package carrier as claimed in claim 1, wherein: the yarn guide device is characterized in that a yarn inlet guide ring (71), a yarn outlet guide ring (72) and a guide wheel (73) are installed on the yarn guide frame (1), and the guide wheel (73) is installed between the yarn inlet guide ring (71) and the yarn outlet guide ring (72).

3. A package carrier as claimed in claim 2, wherein: the yarn guide frame (1) is provided with a first support rod (74) and a second support rod (75) between the yarn inlet guide ring (71) and the yarn outlet guide ring (72); the first support rod (74) is fixedly installed on the guide frame, one end of the second support rod (75) is installed on the first support rod (74) in a sliding mode along the length direction of the first support rod (74), and the second support rod (75) is locked through an adjusting screw (76) which is connected to the first support rod (74) in a threaded mode; the guide wheel (73) is arranged at one end of the second support rod (75) far away from the first support rod (74).

4. A package traversing device according to claim 1, characterized in that: a horizontal rotating shaft (61) is installed on the yarn guide frame (1) in a horizontal and transverse rotating mode, a first adjusting sliding barrel (62) is arranged on the horizontal rotating shaft (61) in a sliding mode, and the first adjusting sliding barrel (62) is connected to a first locking screw (64) on the first sliding barrel in a threaded mode for locking and fixing; the follow-up connecting rod (6) is arranged on the first adjusting sliding barrel (62).

5. A package traversing device according to claim 4, further comprising: a second adjusting sliding cylinder (63) is fixed on the first adjusting sliding cylinder (62), and the second adjusting sliding cylinder (63) is used for the follow-up connecting rod (6) to be inserted in a sliding mode; and a second locking screw (65) used for locking the follow-up connecting rod (6) is connected to the second adjusting sliding barrel (63) through threads.

6. A package carrier as claimed in claim 1, wherein: fixed clamp ear (42) and activity clamp ear (43) all include side splint (421) and install location axle (422) on side splint (421), two side splint (421) are used for pressing the clamp to winding a section of thick bamboo (200) side, location axle (422) are used for supplying to carry out the grafting location around a section of thick bamboo (200) tip.

7. A package carrier as claimed in claim 1, wherein: hand pressing rods (45) are fixed on the upper side and the lower side of the movable clamping lugs (43).

8. The package carrier as claimed in claim 6, wherein: and one end of each positioning shaft (422) far away from the side clamping plate (421) is provided with a rounded corner.

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