CN212503368U - Splicing type winding machine driving device - Google Patents

Abstract

The utility model relates to a concatenation formula cone winder drive arrangement, it includes a plurality of bottom plates of fixed connection in the frame, frame up end sliding connection has glide machanism, the coaxial fixed connection of groove section of thick bamboo is on glide machanism, bottom plate up end fixedly connected with supporting mechanism, be provided with drive groove section of thick bamboo pivoted actuating mechanism on the supporting mechanism, be provided with the fixed establishment who connects supporting mechanism and glide machanism on the supporting mechanism, actuating mechanism includes the motor of fixed connection in bottom plate up end, motor drive groove section of thick bamboo rotates, motor spindle is parallel with groove section of thick bamboo axis. Glide machanism drives the groove section of thick bamboo and slides to through fixed establishment and supporting mechanism fixed connection, the utility model discloses have a plurality of groove section of thick bamboos of motor simultaneous drive and rotate and carry out the work of doffing, a plurality of groove section of thick bamboo rotate and only provide power, resources are saved's effect by a power supply.

Description

Splicing type winding machine driving device

Technical Field

The utility model belongs to the technical field of the technique of cone winder and specifically relates to a concatenation formula cone winder drive arrangement is related to.

Background

At present, a bobbin winder is special equipment in the textile industry; the winding is used as the last process of spinning and the first process of weaving, plays a role of bearing a bridge from top to bottom, and therefore plays an important role in the field of spinning; the bobbin winder has two main functions, namely changing a package to increase the yarn containing amount of the yarn package, and removing defects on the yarn to improve the quality of the yarn.

The prior Chinese patent publication No. CN110171746A discloses an automatic winder in 2019, 8.27.A bobbin winder comprises a frame, wherein a plurality of bobbin winding assemblies and a bobbin winding motor for driving the bobbin winding assemblies are arranged on the frame, each bobbin winding assembly comprises a groove drum which is rotatably arranged on the frame, a cradle assembly is arranged above the groove drum on the frame, a yarn drum is detachably arranged on the cradle assembly, and the outer wall of the yarn drum is abutted against the outer wall of the groove drum. The yarn is fixed on the outer wall of the yarn drum through the groove frame, the winding motor is started, the groove drum is driven by the winding motor to rotate, the yarn drum is driven by the groove drum to rotate, and the yarn reciprocates on the groove drum and is wound on the outer wall of the yarn drum.

The above prior art solutions have the following drawbacks: the winding motor drives the grooved drums to rotate, the yarn drums are driven by the grooved drums to rotate, and when a plurality of yarn drums need to be wound, each grooved drum needs to be driven by one winding motor, so that resources are wasted greatly.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a concatenation formula cone winder drive arrangement to the not enough of prior art existence. A plurality of grooved drums can be driven to rotate simultaneously through the driving device, power is provided by only one power source, and resources are saved.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a concatenation formula cone winder drive arrangement, includes the bottom plate of fixed connection in the frame, frame up end sliding connection has multiunit glide machanism, and the coaxial fixed connection of groove section of thick bamboo is on glide machanism, bottom plate up end fixed connection has supporting mechanism, the last drive groove section of thick bamboo pivoted actuating mechanism that is provided with of supporting mechanism, the last fixed establishment who is provided with the multiunit and is connected supporting mechanism and glide machanism of supporting mechanism, actuating mechanism includes the motor of fixed connection in bottom plate up end, motor drive groove section of thick bamboo rotates, motor spindle is parallel with groove section of thick bamboo axis.

Through adopting above-mentioned technical scheme, glide machanism drives the groove section of thick bamboo and slides to through fixed establishment and supporting mechanism fixed connection, the motor drives a plurality of groove sections of thick bamboo simultaneously and rotates and carry out the work of reeling, and a plurality of groove sections of thick bamboo rotate and only provide power, resources are saved by a power supply.

The present invention may be further configured in a preferred embodiment as: the glide machanism includes along the radial sliding connection of groove section of thick bamboo in the first backup pad of frame up end, the vertical fixedly connected with second backup pad of first backup pad up end, rotate in the second backup pad and be connected with the bracing piece, the coaxial fixed connection of groove section of thick bamboo is on the bracing piece, the motor drive bracing piece rotates.

Through adopting above-mentioned technical scheme, first backup pad slides and drives a groove section of thick bamboo and be close to actuating mechanism, and the bracing piece provides the holding power for a groove section of thick bamboo, drives a groove section of thick bamboo when the bracing piece rotates under motor drive and rotates easy operation convenience.

The present invention may be further configured in a preferred embodiment as: actuating mechanism still connects the actuating lever on supporting mechanism including rotating, the coaxial fixed connection of actuating lever and motor, a plurality of first drive gear of coaxial fixedly connected with on the actuating lever, two second drive gears of the coaxial fixedly connected with in bracing piece both ends, second drive gear and first drive gear meshing.

Through adopting above-mentioned technical scheme, the motor starts the drive actuating lever and rotates, and the actuating lever rotates and drives first drive gear and rotate, and first drive gear drives second drive gear and rotates, and second drive gear drives the bracing piece and rotates to drive the grooved drum and rotate easy operation convenience.

The present invention may be further configured in a preferred embodiment as: the supporting mechanism comprises a plurality of bearing seats fixedly connected to the upper end face of the bottom plate, bearings are fixedly connected in the bearing seats, and the driving rod is fixedly connected with the bearings in a coaxial mode.

Through adopting above-mentioned technical scheme, when the bearing frame provided the support for the actuating lever, a plurality of bearing frames can reduce the vibration that produces when the actuating lever rotated, reduce the influence of actuating lever to grooved drum work, and the bearing reduces the resistance when the actuating lever rotated.

The present invention may be further configured in a preferred embodiment as: the fixing mechanism comprises two fixing rods which are connected in the bottom plate in a sliding mode along the axial direction of the driving rod, two limiting sleeves are fixedly connected with the fixing rods coaxially, the outer diameters of the limiting sleeves are larger than the diameters of the fixing rods, a third sliding groove is formed in the bottom plate along the axial direction of the driving rod, the fixing rods are connected in the third sliding groove in a sliding mode, the third sliding groove is close to the side wall of the first supporting plate, a through hole is formed in the first supporting plate towards two connecting blocks fixedly connected with one side of the bottom plate, the connecting blocks penetrate through the through hole to enter the third sliding groove, a first sliding groove is formed in the connecting blocks towards one side of the bottom plate along the axial direction of the driving rod, the fixing rods are connected in the first sliding groove in a.

By adopting the technical scheme, the connecting block passes through the through hole to enter the third sliding groove, the uncovered part of the limiting sleeve corresponds to the connecting block by the sliding fixing rod, the fixing rod enters the second sliding groove through the first sliding groove, the limiting sleeve enters the second sliding groove by the sliding fixing rod, and the connecting block is fixed at the current position by the limiting sleeve, so that the sliding mechanism is fixed at the current position, and the operation is simple and convenient.

The present invention may be further configured in a preferred embodiment as: the upper end surface of the bottom plate is radially provided with a fourth sliding groove along the driving rod, and the first supporting plate is connected in the fourth sliding groove in a sliding mode.

Through adopting above-mentioned technical scheme, the fourth spout slides for first backup pad and plays the guide effect, restricts first backup pad sliding direction.

The present invention may be further configured in a preferred embodiment as: the dead lever outside cover is equipped with extrusion spring, extrusion spring one end is contradicted in third spout diapire, the extrusion spring other end is contradicted in the stop collar.

Through adopting above-mentioned technical scheme, the dead lever slides and will extrude the spring compression, and in the connecting block got into the third spout, the dead lever was located the second spout, loosens the dead lever, and extrusion spring promoted the dead lever for the reconversion and slides to make the stop collar get into the second spout, fix the joint piece in current position, easy operation is convenient.

The present invention may be further configured in a preferred embodiment as: the driving rod is characterized in that one end of the driving rod is fixedly connected with a square convex block, the other end of the driving rod is provided with a second groove, the convex block is clamped in the second groove of the adjacent driving rod, and the motor spindle is fixedly connected in the second groove.

Through adopting above-mentioned technical scheme, connect through lug and second recess between the adjacent actuating lever to increase motor drive's groove drum quantity, reduce energy consumption.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the sliding mechanism drives the grooved drums to slide and is fixedly connected with the supporting mechanism through the fixing mechanism, the motor simultaneously drives the plurality of grooved drums to rotate to perform winding operation, and the plurality of grooved drums rotate and are powered by only one power source, so that resources are saved;

2. the bearing blocks support the driving rod, and simultaneously, the plurality of bearing blocks can reduce the vibration generated when the driving rod rotates, reduce the influence of the driving rod on the operation of the grooved drum, and reduce the resistance of the driving rod during rotation;

3. the connecting block passes through the through hole and enters the third chute, the uncovered part of the limiting sleeve corresponds to the connecting block by the sliding fixing rod, the fixing rod enters the second chute through the first chute, the limiting sleeve enters the second chute by the sliding fixing rod, and the connecting block is fixed at the current position by the limiting sleeve, so that the sliding mechanism is fixed at the current position, and the operation is simple and convenient.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a schematic view of the structure of FIG. 1 from another view angle for showing the supporting mechanism, the driving mechanism and the sliding mechanism;

FIG. 3 is a schematic view, partially in section, of the present embodiment showing a securing mechanism;

FIG. 4 is an enlarged partial schematic view of portion A of FIG. 2;

fig. 5 is a partial cross-sectional view of the present embodiment for illustrating the position relationship between the driving rod and the protrusion and the second sliding slot.

Reference numerals: 110. a frame; 120. a base plate; 130. a first groove; 140. a grooved drum; 150. a through hole; 160. a third chute; 170. a fourth chute; 210. a support mechanism; 211. a bearing seat; 212. a bearing; 310. a drive mechanism; 311. a motor; 312. a drive rod; 313. a first drive gear; 314. a second drive gear; 315. a second groove; 316. a bump; 410. a sliding mechanism; 411. a first support plate; 412. a second support plate; 413. a support bar; 510. a fixing mechanism; 511. fixing the rod; 512. a limiting sleeve; 513. connecting blocks; 514. a first chute; 515. a second chute; 516. compressing the spring.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, for the utility model discloses a splicing type bobbin winder drive arrangement, including a plurality of bottom plates 120 of fixed connection on frame 110, bottom plate 120 up end fixedly connected with supporting mechanism 210 is provided with actuating mechanism 310 on the supporting mechanism 210, and bottom plate 120 up end sliding connection has glide mechanism 410, and the coaxial fixed connection of groove section of thick bamboo 140 is provided with the fixed establishment 510 of connecting supporting mechanism 210 and glide mechanism 410 on the supporting mechanism 210 on glide mechanism 410.

Referring to fig. 1, a first groove 130 is formed on an upper end surface of the frame 110, and the base plate 120 is fixedly connected in the first groove 130.

Referring to fig. 2, the supporting mechanism 210 includes a plurality of bearing seats 211 fixedly coupled to the upper end surface of the base plate 120, and bearings 212 are fixedly coupled to the inside of the bearing seats 211.

Referring to fig. 2, the driving mechanism 310 includes a motor 311 fixedly connected to the upper end surface of the base plate 120, a driving rod 312 is fixedly connected to the inside of the bearing 212, and the driving rod 312 is coaxially and fixedly connected to the motor 311.

Referring to fig. 2, two second driving gears 314 are coaxially and fixedly connected to both ends of the supporting rod 413, a plurality of first driving gears 313 are coaxially and fixedly connected to the driving rod 312, and the second driving gears 314 are engaged with the first driving gears 313.

Referring to fig. 2, the sliding mechanism 410 includes a first supporting plate 411 connected to the upper end surface of the frame 110 in a sliding manner along the radial direction of the grooved drum 140, a second supporting plate 412 is vertically and fixedly connected to the upper end surface of the first supporting plate 411, a supporting rod 413 is rotatably connected to the second supporting plate 412, and the grooved drum 140 is coaxially and fixedly connected to the outer wall of the supporting rod 413.

Referring to fig. 2, the upper end surface of the frame 110 is provided with a fourth sliding slot 170 along the radial direction of the driving rod 312, and the first supporting plate 411 is slidably connected in the fourth sliding slot 170.

Referring to fig. 3 and 4, the fixing mechanism 510 includes two fixing rods 511 axially slidably connected in the bottom plate 120 along the driving rod 312 (see fig. 2), two limiting sleeves 512 are coaxially and fixedly connected on the fixing rods 511, the limiting sleeves 512 are cylindrical, the outer diameter of the limiting sleeves 512 is greater than that of the fixing rods 511, two connecting blocks 513 are fixedly connected on one side of the first supporting plate 411 facing the bottom plate 120, a first sliding groove 514 is radially formed on one side of the connecting block 513 facing the bottom plate 120 along the driving rod 312, the fixing rod 511 is slidably connected in the first sliding groove 514, a second sliding groove 515 is axially formed on the bottom wall of the first sliding groove 514 along the driving rod 312, and the limiting sleeves 512 are slidably connected in the.

Referring to fig. 3, a third sliding groove 160 is axially formed in the bottom plate 120 along the driving rod 312 (see fig. 2), the fixing rod 511 is slidably connected in the third sliding groove 160, a through hole 150 is formed in the third sliding groove 160 near the side wall of the first supporting plate 411, and the connecting block 513 passes through the through hole 150 and enters the third sliding groove 160.

Referring to fig. 3, an extrusion spring 516 is sleeved outside the fixing rod 511, one end of the extrusion spring 516 abuts against the bottom wall of the third sliding chute 160, and the other end abuts against the limiting sleeve 512.

Referring to fig. 5, one end of the driving rod 312 is fixedly connected with a protrusion 316, the other end of the driving rod 312 is provided with a second groove 315, the protrusion 316 is clamped in the second groove 315 of the adjacent driving rod 312, and the main shaft of the motor 311 is fixedly connected in the second groove 315.

The implementation manner of the embodiment is as follows: when the first supporting plate 411 is slid, the connecting block 513 enters the third sliding groove 160 through the through hole 150, the fixing rod 511 is slid to enable the uncovered part of the limiting sleeve 512 to correspond to the connecting block 513, the fixing rod 511 slides to compress the extrusion spring 516, when the connecting block 513 enters the third sliding groove 160, the fixing rod 511 is located in the second sliding groove 515, the fixing rod 511 is released, the extrusion spring 516 pushes the fixing rod 511 to slide for restoring, so that the limiting sleeve 512 enters the second sliding groove 515, the clamping block is fixed at the current position, and the first supporting plate 411 is fixed at the current position.

When a certain grooved drum 140 needs to stop working, the sliding fixing rod 511 slides the limiting sleeve 512 out of the second sliding groove 515, and the connecting block 513 is withdrawn from the third sliding groove 160 and the through hole 150 without stopping the motor 311.

The first driving gear 313 is meshed with the second driving gear 314, the motor 311 is started, the driving rod 312 is driven by the motor 311 to rotate, so that the driving supporting rod 413 rotates, and the supporting rod 413 drives the grooved drum 140 to rotate for winding.

The adjacent support rods 413 are connected through the bumps 316 and the second grooves 315, and the same motor 311 drives the grooved drums 140 to rotate, so that energy is saved.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. A splicing type bobbin winder driving device is characterized in that: including bottom plate (120) of fixed connection on frame (110), frame (110) up end sliding connection has multiunit glide machanism (410), and coaxial fixed connection of groove section of thick bamboo (140) is on glide machanism (410), bottom plate (120) up end fixed connection has supporting mechanism (210), be provided with drive groove section of thick bamboo (140) pivoted actuating mechanism (310) on supporting mechanism (210), be provided with the fixed establishment (510) that the multiunit is connected supporting mechanism (210) and glide machanism (410) on supporting mechanism (210), actuating mechanism (310) are including motor (311) of fixed connection in bottom plate (120) up end, motor (311) drive groove section of thick bamboo (140) rotate, motor (311) main shaft is parallel with groove section of thick bamboo (140) axis.

2. A spliced winder drive as claimed in claim 1, wherein: glide machanism (410) include along radial sliding connection in first backup pad (411) of frame (110) up end of groove section of thick bamboo (140), the vertical fixedly connected with second backup pad (412) of first backup pad (411) up end, it is connected with bracing piece (413) to rotate on second backup pad (412), and the coaxial fixed connection of groove section of thick bamboo (140) is on bracing piece (413), motor (311) drive bracing piece (413) rotate.

3. A spliced winder drive as claimed in claim 2, wherein: actuating mechanism (310) still including rotating actuating lever (312) of connecting on supporting mechanism (210), actuating lever (312) and the coaxial fixed connection of motor (311), a plurality of first drive gear (313) of coaxial fixedly connected with on actuating lever (312), two second drive gear (314) of the coaxial fixedly connected with in bracing piece (413) both ends, second drive gear (314) and first drive gear (313) meshing.

4. A spliced winder drive as claimed in claim 3, wherein: the supporting mechanism (210) comprises a plurality of bearing seats (211) fixedly connected to the upper end face of the base plate (120), bearings (212) are fixedly connected in the bearing seats (211), and the driving rod (312) is coaxially and fixedly connected with the bearings (212).

5. The splicing type winder driving device according to claim 4, wherein: the fixing mechanism (510) comprises two fixing rods (511) which are axially and slidably connected into the bottom plate (120) along the driving rod (312), two limiting sleeves (512) are coaxially and fixedly connected onto the fixing rods (511), the outer diameter of each limiting sleeve (512) is larger than the diameter of each fixing rod (511), a third sliding groove (160) is formed in the bottom plate (120) along the axial direction of the driving rod (312), the fixing rods (511) are slidably connected into the third sliding grooves (160), a through hole (150) is formed in the third sliding groove (160) close to the side wall of the first supporting plate (411), two connecting blocks (513) are fixedly connected onto one side, facing the bottom plate (120), of the first supporting plate (411), the connecting blocks (513) penetrate through the through holes (150) to enter the third sliding grooves (160), and a first sliding groove (514) is formed in the connecting blocks (513) along the driving rod (312) and facing, the fixed rod (511) is connected in a first sliding groove (514) in a sliding mode, a second sliding groove (515) is formed in the bottom wall of the first sliding groove (514) along the axial direction of the driving rod (312), and the limiting sleeve (512) is connected in the second sliding groove (515) in a sliding mode.

6. A spliced winder drive as claimed in claim 5, wherein: the upper end surface of the bottom plate (120) is radially provided with a fourth sliding groove (170) along the driving rod (312), and the first supporting plate (411) is connected in the fourth sliding groove (170) in a sliding manner.

7. The splicing type winder driving device according to claim 6, wherein: dead lever (511) outside cover is equipped with extrusion spring (516), extrusion spring (516) one end is contradicted in third spout (160) diapire, extrusion spring (516) other end is contradicted in stop collar (512).

8. The splicing type winder driving device according to claim 7, wherein: the driving rod (312) one end fixedly connected with square lug (316), second recess (315) have been seted up to driving rod (312) other end, lug (316) joint is in adjacent driving rod (312) second recess (315), motor (311) main shaft fixed connection is in second recess (315).

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