Disclosure of Invention
The present invention has been made in view of the above problems, and it is an object of the present invention to provide a tape-wound optical/electrical transmission composite cable winding device that can wind a plurality of cables simultaneously. The invention achieves the above purpose through the following technical scheme.
A winding device for a ribbon winding type photoelectric transmission composite cable comprises: the device comprises a case, a pressing fixing device, a moving device, a winding rod, a transmission screw rod and an elastic fixing device.
The machine case comprises a driving gear and a driven gear, the driving gear and the driven gear are mounted outside the machine case, the machine case drives the driving gear to rotate, the driven gear can synchronously move together, so that the winding rod is driven to rotate, and the winding rod is provided with an outer rectangular key and a protruding stop block.
The mobile device includes: the movable device is provided with the movable arm with internal threads and arranged with a circumference, the movable arm comprises a guide head, a lead screw and a wire control mechanism, the pulley is installed at the front end of the guide head and used for guiding the movement of a cable, the cable can pass through the wire holes to reach the pulley, the guide head is integrally installed in a groove on the movable device and can move up and down, the two ends of the lead screw are movably connected to the groove and penetrate through the guide head, and the guide head is provided with threads matched with the lead screw.
The accuse line mechanism includes: the control rod is pressed to separate the pawl from the ratchet wheel, the gear can rotate reversely to enable the cable to be drawn out, and the cable enters a space between the belt wheel and the gear through a shell hole and extends out of a shell notch.
Pressing down fixing device comprises fixed casing, chucking spare and pressing the cap, the chucking spare is spacing in the square notch of fixed casing, presses the reciprocating that can realize the chucking spare of cap installation above that through pressing down, compresses tightly the cable head through the contact pressure who supports notch and cable, and the elastic protrusion that has on the chucking spare is fixed through the annular notch counterbalance realization with on the fixed casing, breaks away from then can loosen, and the annular notch that has a plurality of different distances on the fixed casing can adapt to the cable of different diameters.
The elastic fixing device includes: fixed cover, the adjusting collar, spring three, support the cover, fixed cover registrates and installs and support the cover, the left side with support the cover and support the cover to close, the right side closes with three supports of spring, adjusting collar screw thread is installed and is being sheathe in supporting, play the effect of closing spring three, also can adjust the size of three power of spring through rotatory adjusting collar simultaneously, thereby adjust and press from both sides tight degree, the fixed semi-ring baffle that has in sheathe in, the twist grip through rotatory fixed cover makes the protruding dog counterbalance of semi-ring baffle and winding rod realize fixed cover fixed for supporting the cover, winding rod one end has outer rectangular key, be connected with interior rectangular key on the driven gear during installation, play the effect of power connection.
Has the advantages that:
according to the invention, through the design of the moving device and the fixing mechanism, the plurality of cables can be simultaneously wound, and the fixing device is simple to operate and high in fixing efficiency, so that the whole cable winding process is high in speed and efficiency.
Drawings
Fig. 1 is an overall schematic view of a winding device for a strip-wound optical-electrical transmission composite cable according to the present invention.
Fig. 2 is a partial schematic view of a winding device for a strip-wound optical-electrical transmission composite cable according to the present invention.
Fig. 3 is a schematic structural diagram of a moving device in a winding device for a strip-wound optical-electrical transmission composite cable according to the present invention.
Fig. 4 is an exploded view of a moving arm of a winding device for a strip-wound optical-electrical composite transmission cable according to the present invention.
Fig. 5 is a schematic view of a structure and a part of a wire control mechanism of a winding device for a strip-wound optical-electrical transmission composite cable according to the present invention.
FIG. 6 is a cross-sectional view of a central control cable mechanism of a winding device for a ribbon-wound optical-electrical transmission composite cable according to the present invention.
Fig. 7 is an exploded and partially schematic view of a pressing and fixing device in a winding device for a strip-wound optical-electrical transmission composite cable according to the present invention.
Fig. 8 is a schematic view of a winding rod in the winding device for a band-wound optical-electrical transmission composite cable according to the present invention.
Fig. 9 is an exploded and sectional view of an elastic fixing device in a winding device of a strip-wound optical-electrical transmission composite cable according to the present invention.
Reference numerals:
100. a chassis; 101. a driving gear; 102. a driven gear; 110. pressing the fixing device; 111. a stationary housing; 111a, annular notch; 111b, square notches; 112. a retainer; 112a, an elastic protrusion; 112b, abutting the notch; 113. pressing the cap; 120. a mobile device; 121. a moving arm; 121a, a groove; 121b, a positioning notch; 122. a moving member; 123. a pulley; 124. a guide head; 124a, threads; 125. a lead screw; 126. a wire control mechanism; 126a, a control lever; 126b, a stopper; 126c, a housing; 126d, a first spring; 126e, a ratchet wheel; 126f, a pawl; 126g and a second spring; 126h, belt wheel; 126k, a pulley shaft; 126i, a gear; 126z, a rotating shaft; 127. threading holes; 130. a winding rod; 131. an outer rectangular key; 132. a protruding stopper; 140. a drive screw; 150. an elastic fixing device; 151. fixing a sleeve; 151a, an angular protrusion; 151b, half-ring baffle; 151c, a rotating handle; 152. an adjusting sleeve; 153. a third spring; 154. and a support sleeve.
Detailed Description
The present invention is further illustrated in the following description with reference to specific embodiments and the accompanying drawings, wherein the details are set forth in order to provide a thorough understanding of the present invention, but it is apparent that the present invention can be embodied in many other forms different from the description herein, and it will be readily appreciated by those skilled in the art that the present invention can be embodied in many different forms without departing from the spirit and scope of the invention.
As shown in fig. 1 and 2, a winding device for a ribbon wound optical-electrical transmission composite cable includes: the pressing fixing device comprises a case 100, a pressing fixing device 110, a moving device 120, a winding rod 130, a transmission screw 140 and an elastic fixing device 150.
As shown in fig. 2, the chassis 100 includes: a driving gear 101 and a driven gear 102.
The driving gear 101 and the driven gear 102 are installed outside the casing 100, the casing 100 drives the driving gear 101 to rotate, and the driven gear 102 moves synchronously together, thereby driving the winding rod 130 to rotate.
As shown in fig. 3 and 4, the mobile device 120 includes: the wire control device comprises a moving arm 121, a moving member 122, a pulley 123, a guide head 124, a lead screw 125 and a wire control mechanism 126.
The moving device 120 has a moving member 122 with internal threads and 4 moving arms 121 arranged circumferentially, and the moving arms 121 include a guide head 124, a lead screw 125 and a wire control mechanism 126.
The tail end of the moving arm 121 is provided with a positioning notch 121b, the positioning notch 121b is used for supporting a winding rod 130, the tail end of the moving arm is also provided with a groove 121a, the front end of the guide head 124 is provided with a pulley 123 for guiding the movement of the cable, the guide head 124 is provided with a threading hole 127, the cable can pass through the threading hole 127 to reach the pulley 123, the guide head 124 is integrally arranged in the groove 121a on the tail end of the moving arm 121 so as to be capable of moving up and down, two ends of the lead screw 125 are movably connected above and below the groove 121a and pass through the guide head 124, the part through which the guide head 124 passes is provided with a thread 124a matched with the lead screw 125, and the lead screw 125 can be controlled to move up and down relative to the moving device 120 by.
As shown in fig. 5 and 6, the wire control mechanism 126 includes: a control rod 126a, a limiting member 126b, a shell 126c, a first spring 126d, a ratchet wheel 126e, a pawl 126f, a second spring 126g, a belt wheel 126h, a belt wheel shaft 126k, a gear 126i and a rotating shaft 126 z.
The pulley 126h is mounted at the shaft end of the pulley shaft 126k, the pulley shaft 126k is fixedly limited in the limiting member 126b through two springs one 126d, the pulley shaft 126k can move up and down relative to the limiting member 126b under the action of the springs one 126d to adapt to cables with different diameters, the pulley 126h can be better matched with the gear 126i under the pressure of the springs one 126d, the limiting member 126b can be manually pulled up and down to separate the pulley 126h from the gear 126i when needed so as to facilitate the entering of the cables, the gear 126i is connected with the ratchet 126e through the rotating shaft 126z, the ratchet 126e is matched with the pawl 126f to realize that the gear 126i can only rotate in one direction to prevent the cables from being separated from the wire control mechanism 126 after being cut, the pawl 126f is connected with the control rod 126a, the control rod 126a is fixed in the shell 126c through a spring two 126g, and when the cables need to be separated from the wire control mechanism 126, pressing the lever 126a disengages the pawl 126f from the ratchet 126e, and the gear 126i can be rotated in reverse to allow the cable to be withdrawn, through the housing aperture 126cb into the space between the pulley 126h and the gear 126i, and out of the housing notch 126 ca.
As shown in fig. 7, the pressing and fixing device 110 is composed of a fixing housing 111, a clamping member 112 and a pressing cap 113, the clamping member 112 is limited in a square notch 111b of the fixing housing 111, the pressing cap 113 is installed at the upper part of the pressing cap to realize the up-and-down movement of the clamping member 112 by pressing, the cable head is pressed by the contact pressure of the abutting notch 112b and the cable, an elastic protrusion 112a on the clamping member 112 is fixed by abutting against an annular notch 111a on the fixing housing 111, and is released when being separated, and a plurality of annular notches 111a with different distances on the fixing housing 111 can adapt to cables with different diameters.
As shown in fig. 8, the winding rod 130 has an outer rectangular key 131 and a protruding stopper 132.
As shown in fig. 9, the elastic fixing device 150 includes: fixed cover 151, adjusting sleeve 152, spring three 153, support cover 154.
The fixed sleeve 151 is sleeved on the support sleeve 154, the left side of the fixed sleeve is abutted to the support sleeve 154, the right side of the fixed sleeve is abutted to the spring III 153, the adjusting sleeve 152 is arranged on the support sleeve 154 in a threaded mode to play a role in abutting the spring III 153, and meanwhile the force of the spring III 153 can be adjusted by rotating the adjusting sleeve 152, so that the clamping degree is adjusted.
The front end surface of the fixing sleeve 151 is provided with an angular protrusion 151a, when the cable is clamped and fixed, the angular protrusion 151a is tightly closed on the surface of the cable, so that the cable can be more firmly fixed, the fixing sleeve 151 is further provided with a half-ring baffle 151b, the half-ring baffle 151b is abutted to the protruding stop block 132 on the winding rod 130 through rotating the rotating handle 151c of the fixing sleeve 151, so that the fixing sleeve 151 is fixed relative to the supporting sleeve 154, one end of the winding rod 130 is provided with an outer rectangular key 131, and the outer rectangular key is connected with an inner rectangular key on the driven gear 102 during installation, so that the power connection effect is achieved.
The working principle of the invention is as follows:
the cable is firstly threaded through a shell hole 126cb in the cable control mechanism 126, the limiting piece 126b is manually pulled upwards to separate the belt wheel 126h from the gear 126i, the cable can pass through the space between the belt wheel 126h and the gear 126i and is limited in a belt groove of the belt wheel 126h, then the cable passes through a threading hole 127 in the guide head 124, the guide head 124 can be controlled to move up and down relative to the moving device 120 by rotating the lead screw 125, and the guide head 124 is adjusted to a corresponding position according to different diameters of spiral cables to be wound.
The winding rods 130 are sequentially arranged on the positioning notches 121b at the tail ends of the moving arms 121 on the moving device 120 and are abutted against the inner rectangular keys on the driven gear 102, then one end of the cable is placed into the square notch 111b of the pressing and fixing device 110 by bypassing the pulley 123, the pressing cap 113 is pressed to lower the clamping piece 112, when the elastic protrusion 112a on the clamping piece 112 is abutted against the annular notch 111a on the fixing shell 111 to be fixed, then the transmission lead screw 140 rotates, the moving device 120 moves, so that the winding rods 130 start to rotate and wind the cable, the cable is cut after winding is finished, the cable after cutting is only allowed to move forwards by the ratchet mechanism in the wire control mechanism 126, therefore, the cut cable cannot be separated from the wire control mechanism 126, the next use of the cable is facilitated, the cable head is placed between the elastic fixing device 150 and the winding rod 130 after cutting, then, the fixing sleeve 151 is rotated to separate the half-ring blocks 151b from the protrusion stoppers 132 of the winding rods 130, the fixing sleeve 151 clamps the cable by the elastic force of the spring three 153, and then each winding rod 130 is sequentially removed to perform the next winding.