CN214934821U - A cable take-up machine - Google Patents

Abstract

The utility model belongs to the technical field of electric wires and cables, in particular to a cable take-up machine, which comprises a base, a support frame, a lifting mechanism, a wire take-up mechanism and a uniform guide mechanism; the lifting mechanism is fixed on the base, and the support frame is installed Above the lifting mechanism, the wire take-up mechanism is installed on one end of the support frame, the wire take-up mechanism cooperates with a first motor to rotate, and the uniform guide mechanism is installed on the other end of the support frame , the uniform speed guide mechanism includes a guide wheel frame, a wire ring installed on the guide wheel frame, and a plurality of guide wheels installed on the guide wheel frame in a stepped manner. The wire mechanism cooperates with each other to send the cable to be taken up from the uniform guide mechanism to the wire take-up mechanism; the user controls the movement of the guide wheel frame at a constant speed, and uses the constant speed displacement of the guide wheel frame to adjust the position of the incoming wire, so that the cable is The wire take-up mechanism is evenly wound, the wire take-up space is increased, and the utilization rate of the wire take-up machine is improved.

Description

Cable take-up machine

Technical Field

The utility model belongs to the technical field of wire and cable, especially, relate to a cable admission machine.

Background

The cable is an electric energy or signal transmission device and is widely applied to the fields of electric power, communication and the like. In the process of processing and manufacturing the cable, a take-up machine is needed to take up the cable.

At present, the position of the take-up of equipment of a take-up machine on the market is fixed when the take-up is carried out, and the take-up action is completed by adjusting the position of a cable drum, so that the produced wires are not compact in the cable drum, a large amount of storage space is consumed, the wires of the cable drum are easily arranged in a disordered manner, and the production efficiency is greatly reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cable admission machine aims at solving among the prior art because of the cable admission machine income line rigidity, causes the wire rod to arrange chaotic technical problem.

In order to achieve the above object, an embodiment of the present invention provides a cable rewinding machine, which includes a base, a supporting frame, a lifting mechanism, a rewinding mechanism and a uniform speed guiding mechanism; the lifting mechanism is fixed on the base, the supporting frame is installed above the lifting mechanism, the take-up mechanism is installed at one end of the supporting frame, the take-up mechanism and a first motor are matched with each other to rotate, the uniform-speed guide mechanism is installed at the other end of the supporting frame, the uniform-speed guide mechanism comprises a guide wheel frame, a wire ring installed on the guide wheel frame and a plurality of guide wheels installed on the guide wheel frame and descending in a stepped mode, and the guide wheels are matched with the take-up mechanism to convey cables to be taken up to the take-up mechanism from the uniform-speed guide mechanism.

Optionally, the uniform-speed guide mechanism further comprises a bearing seat mounted at one end of the support frame, a second bearing mounted on the bearing seat, a screw rod mounted in the second bearing, and a sliding rod mounted on the bearing seat; the guide wheel frame with the screw rod with slide bar swing joint, install guide ring support, cylinder support and a plurality of guide wheel support on the guide wheel frame, the screw rod is connected with a second pulley group, second pulley group with a rigid coupling in the second motor interconnect of support frame.

Optionally, the guide wheel includes a first guide wheel, a second guide wheel and a third guide wheel mounted on a guide wheel bracket, the first guide wheel is matched with a second air cylinder mounted on the air cylinder bracket, and the heights of the first guide wheel, the second guide wheel and the third guide wheel are in a step-down arrangement.

Optionally, the guide ring support is provided with a mounting groove, the guide ring is mounted in the mounting groove, the guide ring is arranged in a # -shaped manner by mutually matching a plurality of guide rods, and the guide rods are movably connected with the guide ring support through the mounting groove.

Optionally, the take-up mechanism including install in the take-up shaft of support frame, connect in the cylinder fixing base of the one end of take-up shaft, install in the first cylinder of cylinder fixing base with be fixed in the epaxial cable spool of take-up, the other end and a first pulley group of take-up shaft are connected, a first pulley group with first motor interconnect, first motor rigid coupling in the support frame.

Optionally, through holes are formed in the two ends of the supporting frame, bearing end covers are installed in the through holes, first bearings are installed in the bearing end covers, and the two ends of the take-up shaft are fixed in the first bearings.

Optionally, the lifting mechanism includes a lifter arranged on the base and a lifting rod arranged on the lifter, and the lifting rod is connected with the supporting frame.

Optionally, the lifting mechanism further comprises a brake fixing seat installed on one side of the support frame, and a brake piece is installed on the brake fixing seat.

Optionally, the first belt pulley set includes a first belt cover, a first driving wheel and a first driven wheel, the first driving wheel is connected with the first motor, the first driving wheel is connected with the first driven wheel through a belt, the first driven wheel is connected with the take-up shaft, the first belt cover is installed on the support frame and coated with the first driving wheel and the first driven wheel.

Optionally, the second belt pulley set includes second belt cover, second action wheel and second from the driving wheel, the second action wheel with the second motor is connected, the second action wheel through still another belt with the second is connected from the driving wheel, the second from the driving wheel with the screw rod is connected, the second belt cover install in bearing frame and cladding the second action wheel with the second is followed the driving wheel.

The embodiment of the utility model provides an above-mentioned one or more technical scheme in the cable admission machine have one of following technological effect at least:

the utility model discloses a set up at the uniform velocity guiding mechanism, control the guide pulley frame drives guide ring and a plurality of the guide pulley uniform motion is waited to receive the line cable and is in the spacing of guide ring down with the guide pulley is connected to will wait to receive the line cable and guide to admission machine constructs, admission machine constructs is in rotate under the drive of first motor, and then will wait to receive the line cable be drawn into to admission machine constructs, from this, the user can the uniform velocity control guide pulley frame motion utilizes the position of line is in time adjusted into to the guide pulley frame uniform velocity displacement, makes the cable in even coiling extremely admission machine has increased and has received the line space, improves cable admission machine's utilization ratio has high practicality.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic structural view of a cable winding machine according to an embodiment of the present invention;

fig. 2 is another schematic structural view of a cable rewinding machine according to an embodiment of the present invention;

fig. 3 is a rear view of the cable winding machine according to the embodiment of the present invention;

fig. 4 is a left side view of the cable winding machine provided by the embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

base-100 support-200 first motor-210

Second motor 220 first pulley group 230 first drive pulley 231

First driven pulley-232 first belt cover-233 second belt pulley set-240

A second driving wheel 241, a second driven wheel 242, a second belt cover 243

Elevating mechanism-300 first supporting top plate-310 first movable bolt-320

Elevator base-330 elevator-340 lifting rod-341

Second supporting top plate-350 third supporting top plate-360 second movable latch 370

Supporting block-380 brake fixing seat-390 brake piece-391

Take-up mechanism-400 take-up shaft-410 cylinder fixing seat-420

First cylinder-430 cable spool-440 bearing end cap-450

First bearing-460 uniform speed guide mechanism-500 bearing seat-510

Second bearing-520 screw-530 slide-540

Guide wheel frame-550 guide ring support-551 mounting groove-5511

Cylinder bracket-552 guide bracket-553 guide wheel-560

First guide wheel-561 second guide wheel-562 third guide wheel-563

A second cylinder-570 guides a ring-580 to a rod-581.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary and intended to explain the embodiments of the present invention and are not to be construed as limiting the present invention.

In the description of the embodiments of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings, which is only for convenience in describing the embodiments of the present invention and simplifying the description, and do not indicate or imply that the device or element so indicated must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as fixed or detachable connections or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

In an embodiment of the present invention, as shown in fig. 1, fig. 2 and fig. 4, a cable rewinding machine is provided, which includes a base 100, a supporting frame 200, a lifting mechanism 300, a rewinding mechanism 400 and a uniform speed guiding mechanism 500; the lifting mechanism 300 is fixed on the base 100, the support frame 200 is installed above the lifting mechanism 300, the take-up mechanism 400 is installed at one end of the support frame 200, the take-up mechanism 400 and a first motor 210 are matched with each other to rotate, the uniform speed guide mechanism 500 is installed at the other end of the support frame 200, the uniform speed guide mechanism 500 comprises a guide wheel frame 550, a wire ring 580 installed on the guide wheel frame 550 and a plurality of guide wheels 560 which are installed on the guide wheel frame 550 and descend in a stepped manner, and the guide wheels 560 are matched with the take-up mechanism 400 to convey a cable to be taken up to the take-up mechanism 400 from the uniform speed guide mechanism 500.

The utility model discloses a set up at the uniform velocity guiding mechanism 500, control guide frame 550 drives guide ring 580 and a plurality of guide pulley 560 uniform motion is waited to receive the line cable and is in guide ring 580 spacing down with guide pulley 560 is stably connected to will wait to receive the line cable and guide to admission mechanism 400, admission mechanism 400 is in rotate under first motor 210's the drive, and then will wait to receive the line cable and be drawn into to admission mechanism 400, from this, the user can pass through under the control of uniform velocity guiding mechanism 500, control guide frame 550 uniform motion utilizes the position that the uniform velocity displacement of guide frame 550 in time adjusted the income line makes the cable in even coiling extremely admission mechanism 400 has increased the receipts line space, improves cable admission machine's utilization ratio has high practicality.

Specifically, in another embodiment of the present invention, as shown in fig. 1, fig. 2 and fig. 4, the constant velocity guide mechanism 500 further includes a bearing seat 510 installed at the other end of the supporting frame 200, a second bearing 520 installed on the bearing seat 510, a screw 530 installed in the second bearing 520, and a sliding rod 540 installed on the bearing seat 510; the guide wheel frame 550 is movably connected to the screw 530 and the sliding rod 540, the guide wheel frame 550 is provided with a guide ring support 551, a cylinder support 552 and a plurality of guide wheel supports 553, the screw 530 is connected to a second pulley set 240, and the second pulley set 240 is connected to a second motor 220 fixedly connected to the supporting frame 200. Therefore, the user can control the screw to move at a constant speed, so as to drive the wheel frame 550 to move at a constant speed.

Specifically, in another embodiment of the present invention, as shown in fig. 1 to 4, the guide wheel 560 includes a first guide wheel 561, a second guide wheel 562 and a third guide wheel 563 mounted on the guide wheel support 553, the first guide wheel 561 is engaged with a second cylinder 570 mounted on the cylinder support 552, and heights of the first guide wheel 561, the second guide wheel 562 and the third guide wheel 563 are set to be stepped down, so as to guide the cable to be received to the cable drum 440.

Further, the guide ring support 551 is provided with an installation groove 5511, the guide ring 580 is installed in the installation groove 5511, the guide ring 580 is formed by a plurality of guide rods 581 which are matched with each other in a # -shape, the guide rods 581 are movably connected with the guide ring support 551 through the installation groove 5511, and a user can flexibly adjust the lengths of the guide rods 581 according to the actual thickness of the cable to be received, so that the cable to be received passes through the guide ring 580.

Specifically, in another embodiment of the present invention, as shown in fig. 1 to 3, the winding mechanism 400 includes a winding shaft 410 installed at two ends of the supporting frame 200, a cylinder fixing seat 420 connected to one end of the winding shaft 410, a first cylinder 430 installed on the cylinder fixing seat 420, and a cable reel 440 fixed on the winding shaft 410, the other end of the winding shaft 410 is connected to a first pulley set 230, the first pulley set 230 is connected to the first motor 210, the first motor 210 is fixedly connected to the supporting frame 200, the winding shaft 410 is rotated by installing the first pulley set 230 on the side of the supporting frame 200 and fixedly connected to the first motor 210 of the supporting frame 200. Because the other end of the take-up shaft 410 is connected with the first pulley set 230, the first pulley set 230 is driven by the first motor 210 to rotate, and then the first pulley set 230 drives the take-up shaft 410 to rotate, and the cable drum 440 is fixed on the take-up shaft 410, and the take-up shaft 410 drives the cable drum 440 to rotate, the first motor 210 drives the cable drum 440 to rotate, thereby performing a take-up action. The uniform-speed guide mechanism 500 conveys the cable to the cable drum 440, and the cable is taken up to the cable drum 440 under the driving of the first motor 210.

Further, through holes (not shown) are formed at two ends of the supporting frame 200, a bearing end cover 450 is installed in the through holes, a first bearing 460 is installed in the bearing end cover 450, and two ends of the take-up shaft 410 are fixed in the first bearing 460. Through installing the first bearings 460 at the two ends of the supporting frame 200, the take-up shaft 410 can be driven by the first pulley group 230 to rotate, and then the cable drum 440 is driven to rotate.

The lifting mechanism 300 is fixed on the base 100, the supporting frame 200 is installed above the lifting mechanism 300, the lifting mechanism 300 comprises a first supporting top plate 310 fixedly installed on the base 100, a lifting machine base 330 movably connected with the first supporting top plate 310 through a first movable bolt 320, a lifting machine 340 installed on the lifting machine base 330, a lifting rod 341 installed on the lifting machine 340 and a second supporting top plate 350 connected with the lifting rod 341, and the second supporting top plate 350 is installed at the lower end of the supporting frame 200. Because the lifting machine base 330 is not directly connected with the base 100, sufficient space is provided for the lifting rod 341 to perform lifting action, so that the lifting machine 340 controls the support frame to perform lifting or descending action, and therefore, the lifting rod 341 is controlled to ascend or descend so as to drive the support frame 200 to perform lifting or descending action, so that the position of the uniform-speed guide mechanism 500 fixedly installed on the support frame 200 is adjusted, the angle of incoming lines is flexibly adjusted, cables are fully accommodated in the cable winding machine, the utilization rate of the cable winding machine is improved, and the high practicability is achieved.

Specifically, in another embodiment of the present invention, as shown in fig. 1, 3 and 4, the lifting mechanism 300 further includes a third supporting top plate 360 installed on the base 200, and a supporting block 380 movably connected to the third supporting top plate 360 through a second movable pin 370, wherein the supporting block 380 is fixedly connected to the supporting frame 200. By arranging the second movable bolt 370, the third supporting top plate is movably connected with the supporting block, so that when the lifter 340 performs a lifting action, the supporting block rotates along with the lifting action, and the supporting frame further performs a lifting action or a lowering action along with the rotation of the supporting block, thereby realizing the lifting function of the lifting mechanism.

Further, the lifting mechanism 300 further includes a brake fixing seat 390 and a brake member 391, the brake fixing seat 390 is fixedly connected to the third supporting base plate 360 and the supporting block 380, the brake member 391 is mounted on the brake fixing seat 390, and the brake member 391 is mutually matched with the third supporting base plate 360 and the supporting block 380. Preferably, the braking member 391 is an actuating brake. Because the brake fixing seat 390 is connected with the third top supporting plate 360, the supporting block 380 and the supporting frame 200, the brake piece 391 is installed on the brake fixing seat 390, so that the movement of the supporting frame 200 is controlled, the braking function of the brake piece 391 is realized, the supporting frame 200 is kept stable, and then the cable winding machine can stably wind the cable, which has high practicability.

Specifically, in another embodiment of the present invention, as shown in fig. 1 and 4, the first belt pulley set 230 includes a first belt cover 233, a first driving wheel 231 and a first driven wheel 232, the first driving wheel 231 is connected to the first motor 210, the first driving wheel 231 is connected to the first driven wheel 232 through a belt, the first driven wheel 232 is connected to the take-up shaft 410, and the first belt cover 233 is mounted on the supporting frame 200 and covers the first driving wheel 231 and the second driven wheel 231. Through the arrangement of the first pulley set 230, the first motor 210 drives the first driving wheel 231 to rotate, and the first driven wheel 232 rotates along with the rotation of the first driving wheel 231, so that the first driven wheel 232 drives the take-up shaft 410 to rotate, and the cable take-up machine performs a take-up action.

Further, the second pulley set 240 includes a second belt cover 243, a second driving pulley 241 and a second driven pulley 242, the second driving pulley 241 is connected to the second motor 220, the second driving pulley 241 is connected to the second driven pulley 242 through another belt, the second driven pulley 242 is connected to the screw 530, and the second belt cover 243 is installed on the bearing seat 510 and covers the second driving pulley 241 and the second driven pulley 242. Through the arrangement of the second pulley set 240, the second motor 220 drives the second driving wheel 241 to rotate, the second driven wheel 242 rotates along with the rotation of the second driving wheel 241, so that the second driven wheel 242 drives the screw 530 to rotate, and by rotating the screw 530, the position of the screw 530 is adjusted to timely adjust the positions of the wire guide ring 580, the first guide wheel 561, the second guide wheel 562 and the third guide wheel 563, thereby improving the wire winding efficiency of the cable winding machine.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A cable take-up machine is characterized by comprising a base (100), a support frame (200), a lifting mechanism (300), a take-up mechanism (400) and a uniform-speed guide mechanism (500); the wire winding mechanism comprises a lifting mechanism (300), a supporting frame (200), a wire winding mechanism (400), a first motor (210), a wire winding mechanism (400), a guide wheel frame (550), a wire guide ring (580) and a plurality of guide wheels (560), wherein the lifting mechanism (300) is fixed on the base (100), the supporting frame (200) is installed above the lifting mechanism (300), the wire winding mechanism (400) is installed at one end of the supporting frame (200), the wire winding mechanism (400) and the first motor (210) are matched with each other to rotate, the uniform-speed guide mechanism (500) is installed at the other end of the supporting frame (200), the uniform-speed guide mechanism (500) comprises a guide wheel frame (550), a wire guide ring (580) installed on the guide wheel frame (550) and a plurality of guide wheels (560) which are installed on the guide wheel frame (550) and descend in a stepped mode, and the guide wheels (560) and the wire winding mechanism (400) are matched with each other to convey a cable to be wound to the wire winding mechanism (400).

2. The cable rewinding machine as claimed in claim 1, wherein said constant speed guide mechanism (500) further comprises a bearing seat (510) mounted at the other end of said supporting frame (200), a second bearing (520) mounted on said bearing seat (510), a screw (530) mounted in said second bearing (520), and a sliding rod (540) mounted on said bearing seat (510); the guide wheel frame (550) is movably connected with the screw (530) and the sliding rod (540), a guide ring bracket (551), an air cylinder bracket (552) and a plurality of guide wheel brackets (553) are installed on the guide wheel frame (550), the screw (530) is connected with a second belt pulley group (240), and the second belt pulley group (240) is connected with a second motor (220) fixedly connected with the supporting frame (200).

3. The cable take-up machine according to claim 2, wherein the guide wheel (500) comprises a first guide wheel (561), a second guide wheel (562) and a third guide wheel (563) mounted on a guide wheel bracket (553), the first guide wheel (561) is matched with a second cylinder (570) mounted on the cylinder bracket (552), and the heights of the first guide wheel (561), the second guide wheel (562) and the third guide wheel (563) are arranged in a stepped descending manner.

4. The cable take-up machine according to claim 2, wherein the guide ring bracket (551) is provided with an installation groove (5511), the guide ring (580) is installed in the installation groove (5511), the guide ring (580) is arranged in a cross shape by a plurality of guide rods (581) which are mutually matched, and the guide rods (581) are movably connected with the guide ring bracket (551) through the installation groove (5511).

5. The cable take-up machine according to claim 1, wherein the take-up mechanism (400) comprises a take-up shaft (410) mounted on the supporting frame (200), a cylinder fixing seat (420) connected to one end of the take-up shaft (410), a first cylinder (430) mounted on the cylinder fixing seat (420), and a cable drum (440) fixed on the take-up shaft (410), wherein the other end of the take-up shaft (410) is connected with a first pulley group (230), the first pulley group (230) is connected with the first motor (210), and the first motor (210) is fixedly connected to the supporting frame (200).

6. The cable take-up machine according to claim 5, wherein through holes are formed at two ends of the supporting frame (200), a bearing end cover (450) is installed in each through hole, a first bearing (460) is installed in each bearing end cover (450), and two ends of the take-up shaft (410) are fixed in the first bearings (460).

7. The cable take-up machine according to claim 1, wherein the lifting mechanism (300) comprises a lifter (340) disposed on the base (100) and a lifting rod (341) mounted on the lifter (340), the lifting rod (341) being connected with the supporting frame (200).

8. The cable take-up machine according to claim 7, wherein the lifting mechanism (300) further comprises a brake holder (390) mounted on one side of the supporting frame (200), and the brake holder (390) is mounted with a brake member (391).

9. The cable rewinding machine as claimed in claim 5 or 6, wherein said first pulley set (230) comprises a first belt cover (233), a first driving pulley (231) and a first driven pulley (232), said first driving pulley (231) is connected to said first motor (210), said first driving pulley (231) is connected to said first driven pulley (232) through a belt, said first driven pulley (232) is connected to said rewinding shaft (410), said first belt cover (233) is mounted to said support frame (200) and covers said first driving pulley (231) and said first driven pulley (231).

10. The cable rewinding machine as claimed in claim 2, wherein said second pulley set (240) comprises a second pulley housing (243), a second driving pulley (241) and a second driven pulley (242), said second driving pulley (241) being connected to said second motor (220), said second driving pulley (241) being connected to said second driven pulley (242) by a further belt, said second driven pulley (242) being connected to said screw (530), said second pulley housing (243) being mounted to said bearing housing (510) and enveloping said second driving pulley (241) and said second driven pulley (242).

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