CN205303074U - Cable jacketing machine - Google Patents

Abstract

The utility model discloses a cable jacketing machine for to protect on the online cable of ways. This cable jacketing machine includes cavity pipe, pipe support and spiral device, and wherein the cavity pipe is fixed in on the pipe support and has entry end and exit end. The outer wall of cavity pipe is used for set upper protective cover, and the inside of cavity pipe is used for supplying the cable from the entry end penetrates to pass. At a distance of the predetermined distance and be used for simultaneously pulling and roll -up cable and protective sheath between the exit end of spiral device and cavity pipe. The utility model discloses an automatic suit that cable jacketing machine realized basically, the very big raises the efficiency, practices thrift the place, retrencies the station, has also reduced the quality risk of product simultaneously.

Description

Cable rope sleeve machine

Technical field

This utility model relates generally to plant equipment, particularly relates to the equipment into cable suit protection set.

Background technology

When cable needs to be set with the protection overcoats such as soft reticulated duct; the many employings of method in the past are manually set with; cable is laid in ground; protection set is by one section of one section pushes ahead of workman; oversheath easily piles up the uneven out-of-flatness of outward appearance; inefficiency, work is taken up an area wide, and workload is big and has quality risk.

Utility model content

Therefore, for the deficiencies in the prior art, the purpose of this utility model is in that to provide one to be automatically set with cable, improves suit efficiency, also reduces the cable cover installation of the quality risk of product simultaneously.

In order to realize above-mentioned utility model purpose, according to one side of the present utility model, it is provided that a kind of cable rope sleeve machine, for protection set is enclosed within cable. This cable rope sleeve machine includes hollow conduit, catheter holder and coiling apparatus; wherein said hollow conduit is fixed on described catheter holder and has arrival end and the port of export; the outer wall of described hollow conduit is used for putting described protection set; the inside of described hollow conduit is for for the cable traverse that penetrates from described arrival end, and predetermined distance and for pulling and furl described cable and described protection set simultaneously between the port of export of described coiling apparatus and described hollow conduit.

In one embodiment, described cable rope sleeve machine also includes stock support, and described stock support is close to the arrival end of described hollow conduit and includes base and cable fixed disk, and described cable fixed disk is rotatably connected at described base.

In one embodiment, described catheter holder includes the first column and the second column, the top of described first column and the second column is connected to the first fixture and keeper, described first fixture is for clamping the arrival end of described hollow conduit, and the port of export of described conduit is through described keeper and spaced apart preset distance the described port of export with described keeper.

In one embodiment, described keeper includes the first keeper and the second keeper, and described first keeper is articulated with described second keeper and collectively forms the annulus around described hollow conduit with described second keeper.

In one embodiment, described annulus be circumferentially with multiple spaced adjusting rod, described adjusting rod can moving radially along described annulus, thus the distance regulated between described adjusting rod and described conduit.

In one embodiment, first fixture includes the middle part of interconnective first holder and the second holder and described first fixture and is formed with through hole, this through hole is for supplying described hollow conduit traverse, and the distance scalable between described first holder and described second holder.

In one embodiment, the top of described first column is connected to guiding mechanism further, and described guiding mechanism for being directed across described hollow conduit by cable.

In one embodiment, described guiding mechanism is positioned at the upstream of described first fixture.

In one embodiment, described guiding mechanism includes the second lead of two the first vertically-oriented leads and two horizontal orientations, it is formed for the first gap of described cable traverse between wherein said two the first vertically-oriented leads, and between the second lead of described two horizontal orientations, is formed for the second gap of described cable traverse.

The preset distance it is preferred that be spaced from each other between described first lead and described second lead. It is preferred that this preset distance is 10mm-100mm or any other suitable numerical value.

In one embodiment, described coiling apparatus includes spool stand, controls device and actuating unit, and wherein actuating unit is connected to described spool stand and for driving described spool stand to rotate, and described control device is used for controlling described actuating unit.

In one embodiment, described coiling apparatus can be manual spool stand and not include controlling device and actuating unit.

In one embodiment, described actuating unit includes motor and actuating device, and wherein said motor is used for driving described actuator movement, and described actuating device is used for driving described spool stand to rotate.

In one embodiment, described actuating device is gear-box, and the power shaft of described gear-box is connected with the output shaft of described motor, and the output shaft of described gear-box is connected with described spool stand.

In one embodiment, described protection set is soft reticulated duct.

The automatic suit that cable rope sleeve machine of the present utility model substantially carries out, improves efficiency greatly, saves place, simplify station, also reduce the quality risk of product simultaneously.

After the embodiment having read following specific non-limiting of the present utility model, other features and advantages of the utility model all can display.

Accompanying drawing explanation

Fig. 1 is the structural representation of the cable rope sleeve machine according to an embodiment of the present utility model.

Fig. 2 is the front view of the stock support of the cable rope sleeve machine of Fig. 1.

Fig. 3 is the front view of a part for the catheter holder of the cable rope sleeve machine of Fig. 1, it is shown that catheter holder is near one end of stock support.

Fig. 4 is the axonometric chart of a part for the catheter holder of the cable rope sleeve machine of Fig. 1, it is shown that catheter holder is near one end of stock support and with cable and protection set.

Fig. 5 is the axonometric chart of another part of the catheter holder of the cable rope sleeve machine of Fig. 1, it is shown that catheter holder is near one end of coiling apparatus and with cable and protection set.

Fig. 6 is the work process schematic diagram of the cable rope sleeve machine of Fig. 1.

Detailed description of the invention

Below with reference to accompanying drawing, preferred embodiment of the present utility model is described in detail, in order to become apparent from understanding the purpose of this utility model, feature and advantage. It should be understood that embodiment shown in the drawings is not the restriction to this utility model scope, and simply to illustrate that the connotation of technical solutions of the utility model. In accompanying drawing, identical element indicates with same or analogous accompanying drawing labelling. Herein, front side, rear side, left side, right side, transverse direction, longitudinal, upper and lower, upstream, downstream, top, the end, top, bottom etc. represent that the term in direction is commonly referred to as cable rope sleeve machine in the drawings or under normal operating condition, the orientation of each parts, unless otherwise indicated.

Cable rope sleeve machine of the present utility model is for being enclosed within cable by protection set. The wire harness that cable is usually made up of multiple conducting wires. Wire can be any type of wire. Protection set can be soft reticulated duct or gum sleeve etc.

Referring to Fig. 1; cable rope sleeve machine 100 mainly includes three parts; i.e. stock support 1, conduit tube component 2 and coiling apparatus 3; wait that the cable (as shown in Figure 6) putting protection set is placed on stock support 1; protection set is placed on conduit tube component 2, and coiling apparatus 3 is for pulling and furl cable and protection set simultaneously, while pulling cable and protection set; protection set is enclosed within cable, illustrates in further detail below.

Referring to Fig. 1 and 2, stock support 1 includes feed table 4 and base 5, and feed table 4 is rotatably connected on base 5, thus operationally, feed table 4 can rotate relative to base 5. Specifically, base 5 is provided with multiple roller 7, and feed table 4 is rotatably disposed on roller 7 by bearing 8. Being provided with location bar 8 on feed table 4, cable is placed around location bar 8.

Conduit tube component 4 includes hollow conduit 41 and catheter holder 42, and hollow conduit 41 is fixed on catheter holder 42. Hollow conduit 41 is a hollow pipeline, it is possible to be made up of metal or plastics, for instance the rustless steel hollow body of the long 4000mm of diameter 60mm. The outer wall of hollow conduit 41 is used for putting protection set 9 (as shown in Figure 6), and the inside of hollow conduit 41 is for passing for from cable. The arrival end 41a of the arrival end 41 of hollow conduit 41 is fixed on catheter holder 42. The port of export 41b suspension of hollow conduit 41.

Catheter holder 42 includes the first column 43 and the second column 44, and the bottom of the first column 43 and the second column 44 is connected to mounting seat 46 and 47. Mounting seat 46 and 47 is a flat board, and it has constant weight, to be conducive to stablizing of whole catheter holder. Between the first column 43 and the second column 44, it is connected to transverse support bar 45, is used for so that whole catheter holder 42 is more stable.

As Fig. 3 and 4 are shown in further detail, the top of the first column 43 is connected to the first fixture 48, and the first fixture 48 is for clamping the arrival end 41a of hollow conduit 41. First fixture 48 is made up of interconnective first holder 481 and the second holder 482. Distance scalable between first holder 481 and the second holder 482. The middle part of the first fixture 48 is formed with through hole 483, and through hole 483 is for passing for hollow conduit 41. The big I of through hole 483 is adjusted by regulating the distance between the first holder 481 and the second holder 482. It is pointed out that the effect of the first fixture is the arrival end releasably clamping hollow conduit 41. It will be apparent to one skilled in the art that under teaching herein, it is possible to adopt multiple clamp structure to realize above-mentioned effect.

Referring further to Fig. 3 and 4, the top of the first column 43 is connected to guiding mechanism 49 further, and guiding mechanism 49 is for being directed across hollow conduit by cable. In embodiment shown in figure, guiding mechanism is positioned at the upstream of the first fixture 48. Guiding mechanism 49 includes the second lead 493,494 of two first vertically-oriented 491,492 and two horizontal orientations of lead. First lead is fixed on an installing plate 497. Installing plate 497 is fixed on the top of the first column 43. Second lead 493 and 494 is individually fixed on lug 495 and 496. Lug 495 and 496 is installed on installing plate 497 equally. In embodiment shown in figure, the first lead is positioned at the upstream of the second lead.However, it should be understood that the first lead may be alternatively located at the downstream of the second lead.

It is formed for the first gap of cable traverse between two the first vertically-oriented leads, between the second lead of two horizontal orientations, is formed for the second gap of cable traverse. Be spaced from each other between first lead and the second lead preset distance. It is preferred that this preset distance is 10mm-100mm or any other suitable numerical value.

The top of the second column 44 is connected to keeper 50, and the port of export 41b of hollow conduit 41 is through keeper 50 and spaced apart preset distance port of export 41b with keeper 50. As Fig. 5 be shown in further detail, keeper 50 includes the first keeper 51 and the second keeper 52, the first keeper 51 be articulated with the second keeper 52 and and the second keeper 52 collectively form the annulus around hollow conduit. Annulus be circumferentially with multiple spaced adjusting rod 53. Adjusting rod 53 can moving radially along annulus, thus the distance regulated between adjusting rod and conduit. It is preferred that annulus be circumferentially with 3 spaced adjusting rods. It is preferred that 3 equidistant intervals of adjusting rod.

Coiling apparatus 3 includes spool stand 31, controls device 32 and actuating unit 33, and wherein actuating unit 33 is connected to spool stand 31 and for driving spool stand 31 to rotate. Control device 32 to be used for controlling actuating unit 33. Between the port of export 41b of coiling apparatus 32 and hollow conduit 41 predetermined distance and for pulling and furl cable 10 and protecting set 9 simultaneously, as shown in Figure 6. In one embodiment, actuating unit includes motor and actuating device, and motor is used for driving actuator movement, actuating device to be used for driving spool stand to rotate. In one embodiment, actuating device is gear-box, and the power shaft of gear-box is connected with the output shaft of motor, and the output shaft of gear-box is connected with spool stand. In one embodiment, coiling apparatus can be manual spool stand and not include controlling device and actuating unit.

During work, it would be desirable to the raw material cable of set protection set is loaded on feed table, and the protections such as sufficient length corrugated tube are enclosed within the outside of hollow conduit. By several cables by guiding mechanism, enter conduit from the arrival end of hollow conduit, until delivering to the port of export of hollow conduit. Now, the protection sets such as corrugated tube and cable are synchronized to move on coiling apparatus fixing, by controlling the switch activated force mechanisms on device (electric box). Actuating unit drives spool stand to rotate, thus reaching the effect of quick Bian Labian set.

Cable rope sleeve machine of the present utility model adopts automatization and supporting frame for movement to realize product suit quickly and easily; it is capable of bracing wire cable limit, the limit set protection set of product; substantially automatic suit is achieved except feeding; improve efficiency greatly; save place; simplify station, also reduce the quality risk of product simultaneously.

It should be noted, although in the above embodiments, cable rope sleeve machine comprises by stock support it should be understood that cable rope sleeve machine can not also include stock support, or cable disc is per se with pay-off.

For purposes of illustration and description, had been made by description before of the present utility model, but these descriptions have not been exhaustive or for this utility model is limited to described precise forms. Selecting these descriptions is to explain principle of the present utility model and practical application thereof, thus enables those skilled in the art to be suitable for the various embodiments of concrete application that consider and various remodeling utilizes this utility model best.While there has been shown and described that specific configuration of the present utility model, but other alternative constructions is also apparent to those skilled in the art and falls within desired extent of the present utility model.

Claims (12)

1. a cable rope sleeve machine; for protection set is enclosed within cable; it is characterized in that; described cable rope sleeve machine includes hollow conduit, catheter holder and coiling apparatus; wherein said hollow conduit is fixed on described catheter holder and has arrival end and the port of export; the outer wall of described hollow conduit is used for putting described protection set; the inside of described hollow conduit is for for the cable traverse that penetrates from described arrival end, and predetermined distance and for pulling and furl described cable and described protection set simultaneously between the port of export of described coiling apparatus and described hollow conduit.

2. cable rope sleeve machine according to claim 1, it is characterized in that, described cable rope sleeve machine also includes stock support, and described stock support is close to the arrival end of described hollow conduit and includes base and cable fixed disk, and described cable fixed disk is rotatably connected at described base.

3. cable rope sleeve machine according to claim 1, it is characterized in that, described catheter holder includes the first column and the second column, the top of described first column and the second column is connected to the first fixture and keeper, described first fixture is for clamping the arrival end of described hollow conduit, and the port of export of described conduit is through described keeper and spaced apart preset distance the described port of export with described keeper.

4. cable rope sleeve machine according to claim 3, it is characterized in that, described keeper includes the first keeper and the second keeper, and described first keeper is articulated with described second keeper and collectively forms the annulus around described hollow conduit with described second keeper.

5. cable rope sleeve machine according to claim 4, it is characterised in that described annulus be circumferentially with multiple spaced adjusting rod, described adjusting rod can moving radially along described annulus, thus the distance regulated between described adjusting rod and described conduit.

6. cable rope sleeve machine according to claim 3, it is characterized in that, first fixture includes the middle part of interconnective first holder and the second holder and described first fixture and is formed with through hole, this through hole is for supplying described hollow conduit traverse, and the distance scalable between described first holder and described second holder.

7. cable rope sleeve machine according to claim 3, it is characterised in that the top of described first column is connected to guiding mechanism further, described guiding mechanism for being directed across described hollow conduit by cable.

8. cable rope sleeve machine according to claim 7, it is characterised in that described guiding mechanism is positioned at the upstream of described first fixture.

9. cable rope sleeve machine according to claim 7, it is characterized in that, described guiding mechanism includes the second lead of two the first vertically-oriented leads and two horizontal orientations, it is formed for the first gap of described cable traverse between wherein said two the first vertically-oriented leads, and between the second lead of described two horizontal orientations, is formed for the second gap of described cable traverse.

10. cable rope sleeve machine according to claim 1, it is characterized in that, described coiling apparatus includes spool stand, controls device and actuating unit, and wherein actuating unit is connected to described spool stand and for driving described spool stand to rotate, and described control device is used for controlling described actuating unit.

11. cable rope sleeve machine according to claim 10, it is characterised in that described actuating unit includes motor and actuating device, wherein said motor is used for driving described actuator movement, and described actuating device is used for driving described spool stand to rotate.

12. cable rope sleeve machine according to claim 1, it is characterised in that described protection set is soft reticulated duct.