CN210763717U - Winding device for aluminum core cable production and manufacturing - Google Patents

Abstract

The utility model discloses a coiling mechanism is used in aluminium core cable manufacturing, the utility model relates to an aluminium core cable manufacturing technical field, including the rolling frame, the bottom swing joint of rolling frame has the support base, and supports the up end of base and seted up the inside groove, the inside of rolling frame is equipped with cable winding mechanism, and cable winding mechanism's inside including the ball, the ball is attached to on the outer wall of rolling frame, and the outside swing joint of ball has the reel. This coiling mechanism is used in aluminium core cable manufacturing, the structure through reel and baffle combination is the same with the structure of rolling frame, and the reel can rotate with the baffle, like this when the unwrapping wire, takes out the locating pin, stimulates the cable, and the reel just rotates automatically to extend out the cable, utilize this kind of mode when the unwrapping wire, can make the whole stay of rolling frame motionless, replace in the past need place the rolling frame on strutting arrangement or come the mode of unwrapping wire through rolling the rolling frame.

Description

Winding device for aluminum core cable production and manufacturing

Technical Field

The utility model relates to an aluminium core cable manufacturing technical field specifically is an aluminium core cable manufacturing uses take-up device.

Background

The inner core of cable divide into the multiple, mainly is copper core and aluminium core, and the cost of aluminium core is cheap, so the application volume is great, when aluminium core cable produced, need utilize rolling or take-up device to collect aluminium core cable, can make things convenient for the storage and the later stage transportation of cable like this.

The existing aluminum core cable winding device basically installs a winding frame on a support frame, a driving device is arranged outside the support frame, the driving device is used for driving the winding frame to rotate, the winding frame can be wound, when the winding frame is installed and replaced and disassembled, a driving shaft of the driving device needs to be separated from the winding frame, and then the winding frame is taken down from the support frame, so that the installation and replacement work is more troublesome, when the winding frame is fully wound with a filter core cable, the gravity is larger, and the replacement is more laborious.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides an aluminium core cable winding device for manufacturing, it all installs the rolling frame on a support frame basically to have solved current aluminium core cable winding device, there is drive arrangement the outside of support frame, it rotates to utilize drive arrangement to drive the rolling frame, although can carry out the rolling, nevertheless when installation and change are dismantled, need the drive shaft and the separation of rolling frame with drive arrangement, take off the rolling frame from the support frame again, it is more troublesome to make installation and change work, when the rolling frame is convoluteed full filter core cable, gravity is great, the problem of more painstaking of getting up of change.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides an aluminium core is coiling mechanism for cable manufacture, includes the rolling frame, the bottom swing joint of rolling frame has the support base, and supports the up end of base and seted up the inside groove, the inside of rolling frame is equipped with cable winding mechanism, and cable winding mechanism's inside is including the ball, the ball is attached to on the outer wall of rolling frame, and the outside swing joint of ball has the reel, the baffle is installed at the both ends of reel, and runs through between baffle and the rolling frame and have the locating pin, the inside of supporting the base is equipped with actuating mechanism, the interior terminal surface of rolling frame is equipped with the abrasionproof and decreases the mechanism.

Further, the baffle is axisymmetrical about the central axis of the winding drum, and the winding drum and the winding frame form a rotating structure through balls.

Further, actuating mechanism's inside is including the drive shaft, and the drive shaft transversely runs through in the inside of supporting the base, the drive shaft still runs through in the inside of two sand tables, and is fixed connection between sand table and the drive shaft, one side welding of supporting the base has the backup pad, and the upper portion of backup pad installs gear motor, gear motor's output is connected with the drive shaft.

Furthermore, be swing joint between sand table and the baffle, its sand table passes through the drive shaft and constitutes revolution mechanic with the support base, and supports the base and be trapezoidal shape structure.

Further, the inside of abrasionproof decreases the mechanism includes the recess, and the recess is seted up at the inner terminal surface of rolling frame, the inside both sides of recess are inlayed and are had the loose axle, and the one end that the loose axle is close to the recess central line is connected with the drum.

Furthermore, the cylinder forms a rotating structure through the movable shaft and the grooves, the grooves are arranged on the inner end face of the winding frame in an annular array mode, and the cylinder is movably connected with the outer end face of the baffle.

Compared with the prior art, the beneficial effects of the utility model are that:

1. this coiling mechanism is used in aluminium core cable manufacturing, structure through reel and baffle combination is the same with the structure of rolling frame, and the reel can rotate with the baffle, like this when the unwrapping wire, take out the locating pin, the pulling cable, the reel just rotates automatically, thereby extend out the cable, utilize this kind of mode when the unwrapping wire, can make the rolling frame wholly remain motionless, replace and need place the rolling frame on strutting arrangement or come the mode of unwrapping wire through rolling the rolling frame in the past, it is more convenient to make the unwrapping wire work of cable, the baffle can block the protection to the cable of coiling, avoid the unwrapping wire in-process, the cable contacts and produces wearing and tearing with the rolling frame.

2. The winding device for producing and manufacturing the aluminum core cable can rotate along with the driving shaft through the sand disc, the sand disc is contacted with the baffle plate, the baffle plate can be driven to rotate, so that the winding work can be completed, the surface of the sand disc is in a particle shape, the friction force between the sand disc and the baffle plate is increased, the sliding between the sand disc and the baffle plate is prevented, the two sides of the supporting base are provided with slopes, so that the winding frame can be pushed onto the supporting base, the baffle plate is contacted and attached with the sand disc, through the actions, when the winding frame is installed or replaced, the positioning rod can be drawn out, the winding frame is pushed to carry out, the installation and replacement of the winding frame are more convenient, the winding frame is effectively installed on one supporting frame in the past, a driving device is arranged outside the supporting frame, the driving device is used for driving the winding frame to rotate, although the winding can be carried out, need separate drive arrangement's drive shaft and rolling frame, take off the rolling frame from the support frame again, make installation and change work more troublesome, when the rolling frame is fully convoluteed the filter core cable, gravity is great, changes the problem of getting up more labouring.

3. This coiling mechanism is used in aluminium core cable manufacturing, through, a section of thick bamboo can rotate in the inside of recess after the atress, and drum and baffle contact, then when the baffle rotates, the drum can make the frictional force between baffle and the rolling frame reduce, makes the baffle slide more smoothly on the terminal surface in the rolling frame, can prevent like this to skid between sand dish and the baffle, or more smoothly at the in-process of cable unwrapping wire.

Drawings

FIG. 1 is a schematic view of the winding frame of the present invention;

FIG. 2 is a schematic side view of the support base of the present invention;

fig. 3 is the utility model discloses the rolling frame looks sideways at the schematic diagram from inside to outside.

In the figure: 1-winding frame, 2-supporting base, 3-inner groove, 4-cable winding mechanism, 401-ball, 402-winding drum, 403-baffle, 404-locating pin, 5-fixing plate, 6-locating rod, 7-driving mechanism, 701-driving shaft, 702-sand disc, 703-supporting plate, 704-speed reducing motor, 8-anti-abrasion mechanism, 801-groove, 802-movable shaft and 803-cylinder.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a winding device for producing and manufacturing aluminum core cables comprises a winding frame 1, wherein the bottom of the winding frame 1 is movably connected with a supporting base 2, an inner groove 3 is formed in the upper end face of the supporting base 2, a cable winding mechanism 4 is arranged inside the winding frame 1, a ball 401 is arranged inside the cable winding mechanism 4, the ball 401 is attached to the outer wall of the winding frame 1, a winding drum 402 is movably connected to the outside of the ball 401, two ends of the winding drum 402 are provided with baffle plates 403, a positioning pin 404 penetrates between each baffle plate 403 and the winding frame 1, the baffle plates 403 are symmetrical about a central axis of the winding drum 402, the winding drum 402 and the winding frame 1 form a rotating structure through the ball 401, the structure of the combination of the winding drum 402 and the baffle plates 403 is the same as that of the winding frame 1, the winding drum 402 and the baffle plates 403 can rotate, so that the positioning pin 404 is drawn out to pull cables, the winding drum 402, therefore, the cable extends out, when the cable is paid off, the whole winding frame 1 can be kept still, the traditional mode that the winding frame 1 needs to be placed on a supporting device or the winding frame 1 is rolled to pay off is replaced, the cable paying off work is more convenient, the baffle 403 can block and protect the wound cable, the abrasion caused by the contact of the cable and the winding frame 1 in the paying off process is avoided, a driving mechanism 7 is arranged in the supporting base 2, a driving shaft 701 is arranged in the driving mechanism 7, the driving shaft 701 transversely penetrates through the supporting base 2, the driving shaft 701 further penetrates through the two sand discs 702, the sand discs 702 and the driving shaft 701 are fixedly connected, a supporting plate is welded on one side of the supporting base 2, the speed reducing motor 704 is installed on the upper portion of the supporting plate 703, and the output end of the speed reducing motor 704 is connected with the driving shaft 701, the sand disc 702 is movably connected with the baffle 403, the sand disc 702 forms a rotating structure with the supporting base 2 through the driving shaft 701, the supporting base 2 is in a trapezoid structure, the sand disc 702 can rotate along with the driving shaft 701, the baffle 403 can be driven to rotate due to the contact of the sand disc 702 and the baffle 403, so that the winding work can be completed, the surface of the sand disc 702 is in a particle shape, the friction force between the sand disc 702 and the baffle 403 is increased, the sand disc and the baffle 403 are prevented from slipping, the two sides of the supporting base 2 are provided with slopes, so that the winding frame 1 can be pushed onto the supporting base 2, the baffle 403 is in contact fit with the sand disc 702, through the actions, when the winding frame 1 is installed or replaced, the positioning rod 6 can be drawn out, and the winding frame 1 is pushed to be installed and replaced more conveniently, and the winding frame 1 is effectively installed on a supporting frame, the outside of the support frame is provided with a driving device, the winding frame is driven to rotate by the driving device, although the winding can be carried out, when the winding frame is mounted and replaced and disassembled, a driving shaft of the driving device needs to be separated from the winding frame, and then the winding frame is taken down from the support frame, so that the mounting and replacing work is relatively troublesome, when the winding frame is fully wound with the filter element cable, the gravity is relatively large, and the replacement is relatively laborious, the inner end surface of the winding frame 1 is provided with an anti-abrasion mechanism 8, the inside of the anti-abrasion mechanism 8 comprises a groove 801, the groove 801 is arranged on the inner end surface of the winding frame 1, two sides inside the groove 801 are embedded with movable shafts 802, one end of the movable shafts 802 close to the central line of the groove 801 is connected with a cylinder 803, the cylinder 803 forms a rotating structure with the groove 801 through the movable shafts 802, the groove 801 is in a ring array on the inner end surface of the winding frame, the cylinder 803 can rotate inside the groove 801 after being stressed, and the cylinder 803 is in contact with the baffle 403, so that when the baffle 403 rotates, the friction between the baffle 403 and the winding frame 1 can be reduced by the cylinder 803, and the baffle 403 can slide more smoothly on the inner end face of the winding frame 1, so that the sand tray 702 and the baffle 403 can be prevented from sliding, or the cable can be more smoothly paid off.

When the device works or is used, firstly, the winding frame 1 is pushed to the upper part of the supporting base 2 from one side of the supporting base 2, then the positioning rod 6 is introduced from the outside of the fixing plate 5 and is inserted into the winding frame 1 to fix the winding frame 1, at the moment, the baffle 403 is contacted and attached with the sand disc 702, then the positioning pin 404 between the winding frame 1 and the baffle 403 is drawn out, the speed reducing motor 704 outside the supporting base 2 is started, the speed reducing motor 704 drives the two sand discs 702 to rotate through the driving shaft 701, then the baffle 403 can be driven to rotate, so that the winding work can be completed, the surface of the sand disc 702 is in a particle shape, the friction force between the sand disc and the baffle 403 is increased, the slip between the sand disc and the baffle 704 is prevented, the baffle 403 drives the winding drum 402 to rotate in the winding frame 1, so that the aluminum core cable can be wound, when the winding drum 402 has a certain cable, the new winding, when replacing, the positioning pin 404 is inserted between the winding frame 1 and the baffle 403, and the positioning rod 6 is pulled out to push the winding frame 1 off the supporting base 2.

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

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 an aluminium core cable winding device for manufacturing, includes rolling frame (1), its characterized in that: the utility model discloses a winding device, including rolling frame (1), baffle (403), locating pin (404), the inside of support base (2) is equipped with actuating mechanism (7), the bottom swing joint of rolling frame (1) has support base (2), and supports the up end of base (2) and seted up inside groove (3), the inside of rolling frame (1) is equipped with cable winding mechanism (4), and the inside of cable winding mechanism (4) is including ball (401), ball (401) are attached to on the outer wall of rolling frame (1), and the outside swing joint of ball (401) has reel (402), baffle (403) are installed at the both ends of reel (402), and run through between baffle (403) and rolling frame (1) have locating pin (404), the inside of supporting base (2) is equipped with actuating mechanism (7), the interior terminal surface of rolling frame (1) is.

2. The winding device for producing and manufacturing the aluminum-core cable according to claim 1, wherein: the baffle plates (403) are axisymmetric with respect to the central line of the winding drum (402), and the winding drum (402) and the winding frame (1) form a rotating structure through the balls (401).

3. The winding device for producing and manufacturing the aluminum-core cable according to claim 1, wherein: the inside of actuating mechanism (7) is including drive shaft (701), and drive shaft (701) transversely run through in the inside of supporting base (2), drive shaft (701) still runs through the inside at two abrasive disc (702), and be fixed connection between abrasive disc (702) and drive shaft (701), one side welding of supporting base (2) has backup pad (703), and the upper portion of backup pad (703) installs gear motor (704), the output of gear motor (704) is connected with drive shaft (701).

4. The winding device for producing and manufacturing the aluminum-core cable according to claim 3, wherein: the sand disc (702) is movably connected with the baffle (403), the sand disc (702) forms a rotating structure with the supporting base (2) through the driving shaft (701), and the supporting base (2) is in a trapezoid structure.

5. The winding device for producing and manufacturing the aluminum-core cable according to claim 1, wherein: the inside of abrasionproof decreases mechanism (8) is including recess (801), and the interior terminal surface in rolling frame (1) is seted up in recess (801), the inside both sides of recess (801) are inlayed and are had loose axle (802), and the one end that loose axle (802) are close to recess (801) central line is connected with drum (803).

6. The winding device for producing and manufacturing the aluminum-core cable according to claim 5, wherein: the cylinder (803) and the groove (801) form a rotating structure through the movable shaft (802), the grooves (801) are annularly arrayed on the inner end face of the winding frame (1), and the cylinder (803) is movably connected with the outer end face of the baffle (403).

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