CN205122288U - A wire arm device that is arranged in cable winding displacement system - Google Patents

Abstract

The utility model relates to a wire arm device that is arranged in cable winding displacement system, wire arm device includes: the base with stretch out the guide arm of base, guide arm one end is equipped with the switching -over subassembly, the switching -over subassembly is connected with direction wheelset no. 1, direction wheelset no. 1 can slide along one side of connected base, the other end of guide arm be the free end, the free end of guide arm be equipped with direction wheelset no. 2 and with the two complex laser sensor of wheelset that lead, the cable is got into by direction wheelset one end, and through two outputs of direction wheelset, direction wheelset no. 1, two pairs of cables of guide arm and direction wheelset support, and at the in -process of cable wire, the switching -over subassembly makes the guide arm turn to, and in -process that the guide arm turned to is revised the moving trajectory of cable. The device simple structure simulates human arm and supports the cable to can revise the moving trajectory who receives line in -process cable, make the receipts line position of traverse point distance on the cable dish remain throughout in the position of an ideal, guarantee to receive the stability that the lineman did.

Description

A kind of for the conductive arms device in cable Cable Assembly system

Technical field

The utility model belongs to cable production equipment field, is specifically related to a kind of for the conductive arms device in cable Cable Assembly system.

Background technology

In the cable production process of numerous kinds, need, in operations such as cable core outer wrap steel band, sheaths, then to carry out take-up.In traditional sheath production process equipment, because whole process equipment winding displacement automaticity is not high, at least need a workman at pay off rack money, be responsible for neat for optical cable above take-up reel tool, and repeat above-mentioned work, labor intensity is large, and efficiency is low always, and workman works long hours by winding device, larger to the injury of human body.In traditional sheath production technology, need three people at a sheathing line: main frame hand, print personnel, take-up personnel, wherein, the personnel that print are except printing work, also will help take-up personnel that optical cable is regular when changing dish tool, neat puts on the ground, and efficiency is low.

On the sheathing line of reality, need the cable for different-diameter, therefore, the adaptability of often kind of model cable is different, the tensile force of the tensioning apparatus of take-up should corresponding change, enough for thicker cable strain like this, plays good tension, can not break again for thinner cable, but the take-up of production line cannot well realize this function at present; And in actual take-up process, the running orbit of optical cable has error, the take-up position on the traverse point distance reel in take-up cannot remain at an ideal position, affects the stability of take-up work.

In traditional take-up, the structure realizing wire function is generally, take turns work by the support arm support wire of fixing, this structure cannot be revised the movement locus of optical cable, the take-up position on traverse point distance reel cannot be made to remain at an ideal position, affect the stability of take-up work.

Therefore, need a kind of wire installation now, this device just can be revised the movement locus of optical cable, and make the take-up position on traverse point distance reel remain at an ideal position, the whole take-up course of work is stablized.

Utility model content

For solving the problems of the technologies described above, the utility model provides a kind of for the conductive arms device in cable Cable Assembly system

For achieving the above object, the technical solution of the utility model is as follows:

A kind of for the conductive arms device in cable Cable Assembly system, conductive arms device comprises: base and the guide rod stretching out described base, described guide rod is provided with commutation assembly, described commutation assembly is connected with guiding wheels one, described guiding wheels one can along a Slideslip of connected base, the other end of described guide rod is free end, the laser sensor that the free end of described guide rod is provided with guiding wheels two and coordinates with described guiding wheels two; Cable is entered by described guiding wheels one end, exported by described guiding wheels two, described guiding wheels one, guide rod and guiding wheels two pairs of cable support, in the process of cable guide, described commutation assembly makes described guide rod turn to, and revises in the process that described guide rod turns to the running orbit of cable.

In a preferred embodiment of the present utility model, comprise further, described commutation assembly comprises: reversing motor, synchronous pulley one, synchronous pulley two, the output shaft of described reversing motor connects synchronous pulley one, described synchronous pulley two connects described guide rod, described synchronous pulley one is connected by belt with synchronous pulley two, and described reversing motor drives described guide rod to rotate by synchronous pulley one and synchronous pulley two.

In a preferred embodiment of the present utility model, comprise further, the angle that described guide rod rotates is 180 °.

In a preferred embodiment of the present utility model, comprise further, also comprise a support, described support is for supporting described commutation assembly and guiding wheels one, the part of described support and described base contacts is provided with slide block, and described slide block drives it to slide on described base by motor.

In a preferred embodiment of the present utility model, comprise further, described support is provided with rotating shaft holder, and described bearing pedestal connects described commutation assembly by balance bracket, and described rotating shaft holder is used for described commutation assembly and rotates commutation.

In a preferred embodiment of the present utility model, comprise further, also comprise slide rail, described slide rail coordinates with described slide block, and described slide rail is arranged on described base.

In a preferred embodiment of the present utility model, comprise further, the shape of described base is right-angled triangle, and described slide rail is arranged on the side of described base.

In a preferred embodiment of the present utility model, comprise further, also comprise counterweight, described counterweight is arranged on described commutation assembly, and described counterweight is for balancing described commutation assembly commutation balance.

The beneficial effects of the utility model are:

In one, the take-up process of conductive arms application of installation of the present utility model in cable Cable Assembly system, this apparatus structure is simple, reasonable in design, simulation human arm supports cable, and the running orbit of cable in take-up process can be revised, calculated by control logic, make the take-up position of traverse point distance on cable disc remain at a desirable position, ensure that the stability of take-up work.

Two, conductive arms device of the present utility model can be applied on the wire and cable product line of different size, the use of its auxiliary take-up, ensure that the stable of take-up by this conductive arms wire, and improves the efficiency of take-up, decrease human input, the cost relatively saved.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the utility model embodiment technology, be briefly described to the accompanying drawing used required in the description of embodiment technology below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is structural representation of the present utility model.

Wherein, 1-base, 11-slide rail, 12-slide block, 2-guide wheel group one, 21-support, 31-reversing motor, 32-synchronous pulley one, 33-belt, 34-synchronous pulley two, 35a-induction contact, 35b-proximity switch, 36-controls lifting mimic panel, 37-balance bracket, 38-rotating shaft holder, 39-counterweight, 4-guide rod, 41-laser sensor, 42-guide wheel group two.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Embodiment

As shown in Figure 1, disclose a kind of for the conductive arms device in cable Cable Assembly system in the present embodiment, take-up on this conductive arms device assist with cable production line uses, conductive arms device comprises: base 1 and the guide rod 4 stretching out above-mentioned base 1, guiding wheels 1 are provided with in one end of guide rod 4, guiding wheels 2 42 are provided with at the other end of guide rod 4, in the process of take-up, cable is entered from guiding wheels 1 by a upper station, after guide rod 4 supports, be delivered to take-up by guiding wheels 2 42.

Because in the take-up process of reality, cable is motion, the running orbit of cable is not unalterable, therefore, take-up position on the traverse point distance cable disc of cable cannot remain on a position, such take-up is unstable, in order to address this problem, in the present embodiment, the guide rod 4 of above-mentioned conductive arms device is designed to the form simulating arm, support cable, and guide rod 4 can commutate, adjustment or rotation are revised the running orbit of cable, and its concrete structure is as follows:

Above-mentioned base 1 is right-angled triangle, short right-angle side is fixed on ground or other device, and hypotenuse is provided with slide rail 11, and slide rail 11 coordinates with slide block 12 and drives whole guide rod 4 and the component slippage that commutates, by the height regulating guide rod that slides, for revising the running orbit of cable.

Commutation assembly is provided with in above-mentioned guide rod 4 one end, above-mentioned commutation assembly connects above-mentioned guiding wheels 1, above-mentioned guiding wheels 1 also can slide along the hypotenuse of connected base, the other end of above-mentioned guide rod 4 is free end, the laser sensor 41 that the free end of above-mentioned guide rod 4 is provided with above-mentioned guiding wheels 2 42 and coordinates with above-mentioned guiding wheels 2 42; Cable is entered by above-mentioned guiding wheels 1 end, exported by above-mentioned guiding wheels 2 42, above-mentioned guiding wheels 1, guide rod 4 and guiding wheels 2 42 pairs of cable support, in the process of cable guide, above-mentioned commutation assembly makes above-mentioned guide rod 4 turn to, and above-mentioned guide rod 4 turns to and revises the running orbit of cable in the process of sliding.

Concrete, above-mentioned commutation assembly comprises: reversing motor 31, synchronous pulley 1, synchronous pulley 2 34, the output shaft of above-mentioned reversing motor 31 connects synchronous pulley 1, above-mentioned synchronous pulley 2 34 connects above-mentioned guide rod 4, above-mentioned synchronous pulley 1 is connected by belt 33 with synchronous pulley 2 34, and above-mentioned reversing motor 31 drives above-mentioned guide rod 4 to rotate by synchronous pulley 1 and synchronous pulley 2 34.The angle that reversing motor 31 drives above-mentioned guide rod 4 to rotate by synchronous pulley 1, belt 33 and synchronous pulley 2 34 is 180 °.

Above-mentioned commutation assembly and guiding wheels 1 use a support 21 to carry out support and connection, and the part that above-mentioned support 21 contacts with above-mentioned base 1 arranges above-mentioned slide block 12, and above-mentioned slide block 12 drives it to slide on the hypotenuse of above-mentioned base 1 by motor.Further, above-mentioned support 21 is provided with rotating shaft holder 38, the logical 38 overbalance supports 37 of above-mentioned bearing pedestal connect above-mentioned commutation assembly, and above-mentioned rotating shaft holder 38 rotates commutation for above-mentioned commutation assembly.

In order to ensure the balance that guide rod 4 slides and rotates, be also provided with counterweight 39, above-mentioned counterweight 39 is arranged on above-mentioned commutation assembly, and above-mentioned counterweight 39 is for balance those commutation assembly commutation balance.

In the take-up process of conductive arms application of installation of the present utility model in cable Cable Assembly system, this apparatus structure is simple, reasonable in design, simulation human arm supports cable, and the running orbit of cable in take-up process can be revised, calculated by control logic, make the take-up position of traverse point distance on cable disc remain at a desirable position, ensure that the stability of take-up work.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the utility model.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from spirit or scope of the present utility model, can realize in other embodiments.Therefore, the utility model can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (8)

1. one kind for the conductive arms device in cable Cable Assembly system, it is characterized in that, conductive arms device comprises: base and the guide rod stretching out described base, described guide rod is provided with commutation assembly, described commutation assembly is connected with guiding wheels one, described guiding wheels one can along a Slideslip of connected base, and the other end of described guide rod is free end, the laser sensor that the free end of described guide rod is provided with guiding wheels two and coordinates with described guiding wheels two; Cable is entered by described guiding wheels one end, exported by described guiding wheels two, described guiding wheels one, guide rod and guiding wheels two pairs of cable support, in the process of cable guide, described commutation assembly makes described guide rod turn to, and revises in the process that described guide rod turns to the running orbit of cable.

2. according to claim 1 for the conductive arms device in cable Cable Assembly system, it is characterized in that, described commutation assembly comprises: reversing motor, synchronous pulley one, synchronous pulley two, the output shaft of described reversing motor connects synchronous pulley one, described synchronous pulley two connects described guide rod, described synchronous pulley one is connected by belt with synchronous pulley two, and described reversing motor drives described guide rod to rotate by synchronous pulley one and synchronous pulley two.

3. according to claim 2ly it is characterized in that for the conductive arms device in cable Cable Assembly system, the angle that described guide rod rotates is 180 °.

4. according to described in claim 2 or 3 any one for the conductive arms device in cable Cable Assembly system, it is characterized in that, also comprise a support, described support is for supporting described commutation assembly and guiding wheels one, the part of described support and described base contacts is provided with slide block, and described slide block drives it to slide on described base by motor.

5. according to claim 4 for the conductive arms device in cable Cable Assembly system, it is characterized in that, described support is provided with rotating shaft holder, and described bearing pedestal connects described commutation assembly by balance bracket, and described rotating shaft holder is used for described commutation assembly and rotates commutation.

6. according to claim 5ly it is characterized in that for the conductive arms device in cable Cable Assembly system, also comprise slide rail, described slide rail coordinates with described slide block, and described slide rail is arranged on described base.

7. according to claim 6ly it is characterized in that for the conductive arms device in cable Cable Assembly system, the shape of described base is right-angled triangle, and described slide rail is arranged on the side of described base.

8. according to claim 1ly it is characterized in that for the conductive arms device in cable Cable Assembly system, also comprise counterweight, described counterweight is arranged on described commutation assembly, and described counterweight is for balancing described commutation assembly commutation balance.