CN216426365U - Taper core mold expanding mechanism for taper wire release - Google Patents

Abstract

The utility model relates to the technical field of textile equipment, and discloses a taper core mold expanding mechanism for taper thread releasing, which comprises a connecting shaft, an outer shell sleeved on the periphery of the connecting shaft, wherein one end of the connecting shaft is a connecting end, the other end of the connecting shaft is a free end, a first support rod is adjustably installed on the connecting end of the connecting shaft through an adjusting mechanism, and the first support rod is arranged in a circular array; a first sliding sleeve and a rotating sleeve are sleeved at the free end of the connecting shaft, an end plate is fixed at the free end of the connecting shaft, and the first sliding sleeve, the rotating sleeve and the end plate are sequentially arranged from the connecting end of the connecting shaft to the free end of the connecting shaft; the sliding sleeve I is rotatably connected with a second supporting rod, the second supporting rods are arranged on the sliding sleeve I in a circular array mode, and the first supporting rods and the second supporting rods are arranged in a one-to-one corresponding mode; the shell body is including the outer arc board around the circular array of connecting axle, and outer arc board corresponds the setting with branch one, and an outer arc board one end and a branch swing joint who corresponds, the utility model discloses the one end that the winding line becomes littleer from the diameter is taken off on enabling, effective reduce cost improves the efficiency of taking off the line.

Description

Taper core mold expanding mechanism for taper wire release

Technical Field

The utility model relates to a weaving equipment technical field specifically is a tapering core that tapering took off line rises mould mechanism.

Background

The textile industry is an industry with high labor intensity and large external dependence in China, which is the biggest textile garment production and export country in the world, and in the textile process, the procedures of dyeing threads, changing threads, taking threads and changing rollers are generally carried out, and in the procedures, the threads are generally required to be taken off from a winding roller.

In the existing textile industry, the off-line is usually realized by a rewinding mode, and some large winding wires usually need to be rewound and off-line by a machine, so that the mode has high cost and low off-line efficiency, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a purpose, in order to solve needs to twine again and take off the line, with high costs, take off the technical problem of line inefficiency.

The technical scheme of the utility model is realized like this: a taper core mold expanding mechanism for taper wire release comprises a connecting shaft and an outer shell sleeved on the periphery of the connecting shaft, wherein one end of the connecting shaft is a connecting end, the other end of the connecting shaft is a free end, a first support rod is adjustably mounted at the connecting end of the connecting shaft through an adjusting mechanism, and the first support rods are arranged in a circular array; the free end of the connecting shaft is sleeved with a first sliding sleeve and a rotating sleeve, the free end of the connecting shaft is fixed with an end plate, and the first sliding sleeve, the rotating sleeve and the end plate are sequentially arranged from the connecting end of the connecting shaft to the free end of the connecting shaft; the sliding sleeve I is rotatably connected with a second supporting rod, the second supporting rods are arranged on the sliding sleeve I in a circular array mode, and the first supporting rods and the second supporting rods are arranged in a one-to-one corresponding mode; the outer shell comprises outer arc plates in a circular array around a connecting shaft, the outer arc plates are arranged corresponding to the first supporting rods, one ends of the outer arc plates are movably connected with the corresponding first supporting rods, the other ends of the outer arc plates are movably connected with the second supporting rods corresponding to the first supporting rods, and gaps are formed among the outer arc plates in the circular array; the utility model discloses a wire drawing device, including end plate, rotatory cover, locking knob, locking inclined plane, spiral inclined plane, support rod, support.

Further, adjustment mechanism is including fixing the fixed cover at the connecting axle link, sliding connection is at the sliding sleeve two of connecting axle link, fixed cover, sliding sleeve two set gradually from the free end of connecting axle to the link of connecting axle, and the branch of circular array is swing joint respectively and is sheathe in fixed, and every branch is connected with sliding sleeve two through the connecting rod, and the side threaded connection of sliding sleeve two has a locking bolt, locking bolt's end and the lateral surface extrusion fit of connecting axle can fix sliding sleeve two through locking bolt to sliding sleeve two can make a relative connecting axle of branch static through the connecting rod, thereby make the branch two of connecting axle expansion end adjust, thereby can satisfy the regulation of shell body one end diameter.

Furthermore, branch rods are arranged on the outer side of the rotary sleeve in a circular array, rotary handles are fixed at the outer ends of the branch rods of the circular array, the branch rods can be adjusted more easily by rotating the rotary handles, and the function of saving labor is mainly achieved.

Furthermore, the side array of outer arc board has the through-hole, and the through-hole can effectively reduce the whole weight of shell body, and when the shell body was rotatory, can effectively reduce the inertia of whole rotation, the brake operation of being more convenient for.

Furthermore, chamfers are arranged at two ends of the outer arc plate, and can prevent wires wound on the outer shell from being scraped, so that the quality of the wires is guaranteed.

The beneficial effects of the utility model are summarized as: through the direction cooperation between the direction inclined plane one and the direction inclined plane two, can change sliding sleeve one and connect epaxial position, because of its branch two motionless to make the branch one of circular array gather together or scatter, thereby the diameter of the outer arc board one end of circular array diminishes or the grow, and after one end diameter diminishes, the one end that can make winding line on it take off from the diameter diminishes, can effectively reduce cost, improves and takes off line efficiency.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of the adjusting mechanism of the present invention.

In the figure: the device comprises a connecting shaft 1, an outer shell 2, a support rod I3, a slide sleeve I4, a rotary sleeve 5, an end plate 6, a locking knob 7, a support rod II 8, an outer arc plate 9, a guide inclined plane I10, a guide inclined plane II 11, an adjusting mechanism 12, a fixed sleeve 13, a slide sleeve II 14, a connecting rod 15, a locking bolt 16, a support rod 17, a rotary handle 18, a through hole 19, a chamfer 20 and a jack 21.

Detailed Description

In order to deepen the understanding of the utility model, the following example and the attached drawing are combined to make the taper core mold expanding mechanism of the taper off-line make further details, and this embodiment is only used for explaining the utility model discloses, does not constitute the limitation to the protection scope of the utility model.

As shown in fig. 1 to 2, a taper core mold expanding mechanism for taper off-line comprises a connecting shaft 1 and an outer shell 2 sleeved on the periphery of the connecting shaft 1, wherein one end of the connecting shaft 1 is a connecting end, the other end of the connecting shaft is a free end, a first support rod 3 is adjustably mounted at the connecting end of the connecting shaft 1 through an adjusting mechanism 12, and the first support rods 3 are arranged in a circular array; a first sliding sleeve 4 and a rotating sleeve 5 are sleeved at the free end of the connecting shaft 1, an end plate 6 is fixed at the free end of the connecting shaft 1, and the first sliding sleeve 4, the rotating sleeve 5 and the end plate 6 are sequentially arranged from the connecting end of the connecting shaft 1 to the free end of the connecting shaft 1; the sliding sleeve I4 is rotatably connected with a second supporting rod 8, the second supporting rods 8 are arranged on the sliding sleeve I4 in a circular array mode, and the first supporting rods 3 and the second supporting rods 8 are arranged in a one-to-one corresponding mode; the outer shell 2 comprises outer arc plates 9 in a circular array around the connecting shaft 1, the outer arc plates 9 are arranged corresponding to the first support rods 3, one ends of the outer arc plates 9 are movably connected with the corresponding first support rods 3, the other ends of the outer arc plates 9 are movably connected with the second support rods 8 corresponding to the first support rods 3, and gaps are formed among the outer arc plates 9 in the circular array; the end plate 6 is in threaded connection with a locking knob 7, the end face of the rotating sleeve 5 is provided with a jack 21, the locking knob 7 is in plug-in fit with the jack 21, the end face of the sliding sleeve I4 is provided with a spiral guide inclined plane I10, the end face of the rotating sleeve 5 is provided with a spiral guide inclined plane II 11, the spiral guide inclined plane I10 is matched with the spiral guide inclined plane II 11, the position of the sliding sleeve I4 on the connecting shaft 1 can be changed through the guide fit between the guide inclined plane I10 and the guide inclined plane II 11, and the support rod II 3 is fixed, so that the support rods I8 of the circular array are gathered or scattered, the diameter of one end of the outer arc plate 9 of the circular array is reduced or enlarged, when the diameter of one end is reduced, a wire wound on the support rod can be separated from the end with the reduced diameter, the cost can be effectively reduced, and the wire separating efficiency is improved; the adjusting mechanism 12 comprises a fixed sleeve 13 fixed at the connecting end of the connecting shaft 1, and a sliding sleeve II 14 slidably connected at the connecting end of the connecting shaft 1, wherein the fixed sleeve 13 and the sliding sleeve II 14 are sequentially arranged from the free end of the connecting shaft 1 to the connecting end of the connecting shaft 1, a first support rod 3 in a circular array is respectively and movably connected to the fixed sleeve 13, each first support rod 3 is connected with the sliding sleeve II 14 through a connecting rod 15, a locking bolt 16 is in threaded connection with the side end of the sliding sleeve II 14, the end of the locking bolt 16 is in extrusion fit with the outer side surface of the connecting shaft 1, and the sliding sleeve II 14 can be fixed through the locking bolt 16, so that the sliding sleeve II 14 can enable the first support rod 3 to be static relative to the connecting shaft 1 through the connecting rod 15, so that a second support rod 8 at the movable end of the connecting shaft 1 can be adjusted, and the adjustment of the diameter of one end of the outer shell 2 can be met; the branch rods 17 are arranged on the outer side of the rotary sleeve 5 in a circular array, the outer ends of the branch rods 17 in the circular array are fixed with rotary handles 18, and the branch rods 17 can be adjusted more easily by rotating the rotary handles 18, so that the effect of saving labor is mainly achieved; the side surface of the outer arc plate 9 is arrayed with the through holes 19, the through holes 19 can effectively reduce the overall weight of the outer shell 2, and when the outer shell 2 rotates, the inertia of overall rotation can be effectively reduced, so that the brake operation is more convenient; the two ends of the outer arc plate 9 are provided with chamfers 20, the chamfers 20 can prevent wires wound on the outer shell 2 from being scratched, so that the wire quality is ensured, the insertion holes 21 are arranged around the central circular array of the end plate 6, and the arrangement is mainly that the outer shell 2 at the free end of the connecting shaft 1 can change the sizes of different diameters.

Instructions for use: when the device is installed, the connecting end of the connecting shaft 1 is installed at a position needing to be installed, and the connecting end of the connecting shaft 1 can be connected with an output shaft of an external motor, a speed reducing motor or other driving devices, so that the connecting shaft can rotate and the installation is completed; initially, the contact fit area between the guide surface of the first guide inclined surface 10 and the guide surface of the second guide inclined surface 11 is smaller, the locking knob 7 is inserted into one insertion hole 21 in the rotary sleeve 5, the rotary sleeve 5 is limited by the locking knob 7 and cannot rotate, the distance between the first sliding sleeve 4 and the rotary sleeve 5 is larger, the first support rod 3 of the array is relatively opened, and therefore the overall diameter of the outer shell 2 at the end is larger; then, winding can be carried out on the outer shell 2, when the wire wound on the outer shell 2 reaches a certain thickness and reaches a certain winding amount and the formed wire harness ring needs to be taken off, the locking knob 7 is rotated at the moment to be pulled out from the jack 21, then the outer arc plate 9 is gathered by hand and slightly pressed, the diameter of the outer shell 2 at the end is gradually reduced, and the wire harness ring can be taken off; meanwhile, friction sliding is generated between the first guide inclined plane 10 and the second guide inclined plane 11, the contact and the bonding area between the first guide inclined plane 10 and the second guide inclined plane 11 are increased, and the first sliding sleeve 4 is close to the rotary sleeve 5; after the coil is taken off and is wound again, the rotating sleeve 5 is driven to rotate through the rotating handle 18, the rotating sleeve 5 rotates to drive the guide inclined plane II 11 to rotate, the guide inclined plane II 11 drives the sliding sleeve I4 to move towards the connecting end through the guide inclined plane I10, so that the support rods I3 of the array are opened again, the diameter of the end of the outer shell 2 is increased, after the end of the outer shell is expanded to a certain degree, the locking can be limited by inserting the rotating locking knob 7 into the jack 21 again, and then the coil is wound on the outer shell 2 again; the above steps are repeated to realize the circular winding of the outer shell 2, and when a plurality of wires are in a situation, the diameter of the outer shell 2 connected with the connecting end of the connecting shaft 1 needs to be correspondingly increased, so that the amount of the wound wire in each circle is increased; or the number of wires is small, and the diameter of the connecting end outer shell 2 needs to be reduced; under the two conditions, when the diameter of the connecting end outer shell 2 of the connecting shaft 1 is adjusted, the sliding sleeve II 14 slides, the sliding sleeve II 14 drives the support rods II 8 of the array to open or gather through the connecting rods 15, and the support rods II 8 of the array drive the connecting end outer arc plate 9 to correspondingly change, so that the diameter of the connecting end outer shell 2 is adjusted; after adjustment is completed, the locking bolt 16 is used for locking, and after adjustment, when the free end is positioned in an off-line mode, corresponding adjustment is needed, so that the locking knob 7 can be correspondingly adjusted after being inserted into different insertion holes 21.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a tapering core that tapering was taken off line rises mould mechanism, includes connecting axle (1), and the suit is at connecting axle (1) outlying shell body (2), connecting axle (1) one end is the link, and the other end is free end, its characterized in that: the connecting end of the connecting shaft (1) is adjustably provided with a first support rod (3) through an adjusting mechanism (12), and the first support rods (3) are arranged in a circular array; a first sliding sleeve (4) and a rotating sleeve (5) are sleeved at the free end of the connecting shaft (1), an end plate (6) is fixed at the free end of the connecting shaft (1), and the first sliding sleeve (4), the rotating sleeve (5) and the end plate (6) are sequentially arranged from the connecting end of the connecting shaft (1) to the free end of the connecting shaft (1); the sliding sleeve I (4) is rotatably connected with a support rod II (8), the support rods II (8) are arranged on the sliding sleeve I (4) in a circular array mode, and the support rods I (3) and the support rods II (8) are arranged in a one-to-one correspondence mode; the outer shell (2) comprises outer arc plates (9) in a circular array around the connecting shaft (1), the outer arc plates (9) are arranged corresponding to the first support rods (3), one ends of the outer arc plates (9) are movably connected with the corresponding first support rods (3), the other ends of the outer arc plates (9) are movably connected with the second support rods (8) corresponding to the first support rods (3), and gaps are formed among the outer arc plates (9) in the circular array; threaded connection has locking knob (7) on end plate (6), be provided with jack (21) on the terminal surface of rotary sleeve (5), locking knob (7) and jack (21) cooperation of pegging graft, the terminal surface of sliding sleeve (4) is provided with spiral direction inclined plane one (10), the terminal surface of rotary sleeve (5) is provided with spiral direction inclined plane two (11), and spiral direction inclined plane one (10) and spiral direction inclined plane two (11) cooperation.

2. The taper core die expanding mechanism for taper wire release according to claim 1, wherein: adjustment mechanism (12) are including fixing fixed cover (13) at connecting axle (1) link, sliding connection is at sliding sleeve two (14) of connecting axle (1) link, fixed cover (13), sliding sleeve two (14) set gradually from the free end of connecting axle (1) to the link of connecting axle (1), and swing joint is on fixed cover (13) respectively in branch (3) of circular array, and every branch (3) are connected with sliding sleeve two (14) through connecting rod (15), and the side threaded connection of sliding sleeve two (14) has locking bolt (16), the end of locking bolt (16) and the lateral surface extrusion fit of connecting axle (1).

3. The taper core die expanding mechanism for taper wire release according to claim 1, wherein: the outer side of the rotary sleeve (5) is circularly provided with branch rods (17), and the outer ends of the branch rods (17) in the circular array are fixedly provided with rotary handles (18).

4. The taper core die expanding mechanism for taper parting according to any one of claims 1 to 3, wherein: through holes (19) are arrayed on the side surface of the outer arc plate (9).

5. The taper core die expanding mechanism for taper wire release according to claim 4, wherein: chamfers (20) are arranged at two ends of the outer arc plate (9).

6. The taper core die expanding mechanism for taper wire release according to claim 2, wherein: the receptacles (21) are arranged in a central circular array around the end plate (6).

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