CN205542184U - Die carrier structure for cable core transposition - Google Patents

Abstract

The utility model provides a die carrier structure for cable core transposition, belongs to wire and cable processingequipment technical field. Including the base, platform guiding mechanism is established on its upper portion, the adjustment platform, establish on the upper portion of base and with platform guiding mechanism transmission coordination, left socle and right branch frame are fixed on the adjustment platform in order to control the state that corresponds each other, die sleeve axle, its left end support on the upper portion of left socle and the constitution has a left spindle nose, and the left side that this left side spindle nose leant out the left socle is and the constitution has a die sleeve chamber, and the right -hand member of die sleeve axle supports the upper portion at the right branch frame, a die sleeve is established at the die sleeve intracavity and rotate along with the rotation of die sleeve axle, die sleeve axle actuating mechanism fixes on the adjustment platform, and is connected with the middle part transmission of die sleeve axle. Drive the die sleeve axle by die sleeve axle actuating mechanism and rotate, drive the die sleeve by the die sleeve axle and rotate, therefore the static fixed of die sleeve that becomes among the prior art rotate for developments, reduce the die sleeve to the damage of cable core, prolong the life of die sleeve.

Description

The die carrier structure that cable core is stranded

Technical field

This utility model belongs to technical field of electric wire processing devices, is specifically related to the die carrier structure that a kind of cable core is stranded.

Background technology

Aforesaid mould bases is also referred to as mold base or die sleeve seat.As is known in the industry, cable core is generally made up of through stranded complex root metallic conductor, specifically, by cable-former, multiple conducting wires is stranded and form pencil or strand according to the joint square of technological requirement, this be can be found in Chinese patent CN201289763B(cable-former), CN101885436B(cabling machine, cage cable-former and machine spool) and the cradle draw drum structure of CN103420212B(twisting cage of cabling machine device), etc..

And then as is known in the industry, need to be equipped with a mould bases in the position corresponding with cable-former, mould bases arranges die sleeve, this die sleeve is also referred to as collection beam sleeve, the cable core being i.e. twisted into formed under cage kinestate draws (being collected by traction apparatus such as take-up reel) from die sleeve, the indispensable parts during therefore die sleeve is complete electric wire processing devices.

The technical information of die sleeve can be seen in disclosed Chinese patent literature, " the aluminium alloy cable compacted stranded conductor twisted wire mould " typically recommended such as application for a patent for invention publication No. CN104269229A, this patent application scheme arranges strand adpressing mould in mold base, strand adpressing mould includes mould set and core rod, and on mold base, it is additionally provided with compressed air vane, compressed air vane plays the cooling effect of wire and the fricative heat of core rod during strand.By the reading to this patent application document, core rod is integrally fixed in mould set, and mould set is integrally fixed in mold base, thus mould set and core rod are static, are i.e. no motion of during twisted wire.The especially die sleeve in prior art is all to be arranged on mould bases in a static manner, and industry does not proposes any query yet.But facts have proved and die sleeve static state setting is suffered from the drawback that owing to twisted wire completes in die sleeve, thus easily undermine cable core when the cavity wall of die sleeve produces scar, produce burr and scar at the conductive surface constituting cable core, affect the quality of electric wire.

For above-mentioned prior art, it is necessary to be improved, has made positive and useful design for this applicant, finally defined technical scheme described below, and under taking secrecy provision, the production region of plant area the applicant is tested, and result proves practicable.

Summary of the invention

Task of the present utility model is to provide a kind of static state setting becoming the die sleeve in prior art that contributes to use the notable service life extending die sleeve into dynamically arranging and avoid because the damage of die sleeve imputes to the die carrier structure that the cable core of wire is stranded.

Task of the present utility model is performed by, the die carrier structure that a kind of cable core is stranded, including a pedestal, the top of this pedestal is provided with a platform regulating mechanism；One adjusts platform, and this adjustment platform is movably arranged at the top of described pedestal and coordinates with described platform regulating mechanism transmission；One left socle and a right support, this left socle and right support are fixed on described adjustment platform with state corresponding to left and right each other；One die sleeve axle, the left end of this die sleeve axle is rotatably supported at the top of described left socle and composition has a left spindle nose, and this left spindle nose leans out the left side of left socle and composition has a die sleeve chamber, and the right-hand member of die sleeve axle is rotatably supported at the top of described right support；One die sleeve, this die sleeve is arranged on described die sleeve intracavity and rotates with the rotation of described die sleeve axle；One die sleeve axle drive mechanism, this die sleeve axle drive mechanism is being fixed on described adjustment platform corresponding to the position between described left socle and right support, and is in transmission connection with the middle part of described die sleeve axle.

In a specific embodiment of the present utility model, described pedestal is constituted a pedestal chamber, and respectively constituting with rear side on front side of the top of pedestal and have a guide rail, described adjusting the while that platform coordinating with described platform regulating mechanism transmission in the position corresponding to pedestal chamber and goes back coordinates with described slide.

In another specific embodiment of the present utility model, described platform regulating mechanism includes a screw rod and a handwheel, screw rod is corresponding to described pedestal intracavity, the right-hand member of this screw rod is rotatably supported on the left chamber wall in pedestal chamber, and screw rod is rotatably supported on the right chamber wall in pedestal chamber and leans out the right chamber wall in pedestal chamber, handwheel is fixed on the right-hand member of screw rod and is limited nut restriction by the handwheel screwing on screw rod, towards the side in pedestal chamber and an adjustment platform nut it is fixed with in the position corresponding to screw rod at described adjustment platform, this adjustment platform nut coordinates with screw drive.

In another specific embodiment of the present utility model, respectively constituting in the front side of described adjustment platform and rear side and have a slide matching seat, this slide matching seat has sliding tray towards the side composition of guide rail, and this sliding tray coordinates with slide.

In another specific embodiment of the present utility model, constitute at the top of described left socle and have a left socle bearing block, a left socle bearing it is provided with in this left socle bearing block, constitute at the top of described right support and have a right support bearing block, a right support bearing it is provided with in this right support bearing block, the left end of described die sleeve axle is rotatably supported on left socle bearing, and right-hand member is rotatably supported on right support bearing.

Also have in a specific embodiment of the present utility model, described left spindle nose offers a bearing pin screw hole, this bearing pin screw hole communicates with described die sleeve chamber and is equipped with a bearing pin screw on this bearing pin screw hole, being provided with a bearing pin screw location dimples on described die sleeve and in the position corresponding to bearing pin screw hole, bearing pin screw probes in this bearing pin screw location dimples.

Of the present utility model more and in a specific embodiment, described die sleeve axle drive mechanism includes reduction box fixed plate, motor, reduction box, reduction box power output drive wheel, die sleeve through-drive wheel and transmission band, reduction box fixed plate is fixed with described adjustment platform, motor coordinates with reduction box transmission and is fixed in reduction box fixed plate together with motor by reduction box, reduction box power output drive wheel is fixed on the final stage power output shaft of reduction box and corresponding with die sleeve through-drive wheel, and die sleeve through-drive wheel is fixed on the middle part of described die sleeve axle, one end of transmission band is nested with on reduction box power output drive wheel, the other end is nested with on die sleeve through-drive is taken turns.

In an of the present utility model and then specific embodiment, described reduction box is worm gear reducer, and described reduction box power output drive wheel and die sleeve through-drive wheel are sprocket wheel, and described transmission band is driving chain.

The most more and in a specific embodiment, being provided with a die sleeve axle axle key of the present utility model at the middle part of described die sleeve axle, offer shaft key groove in the middle position of described die sleeve through-drive wheel, this shaft key groove coordinates with die sleeve axle axle key.

Of the present utility model again and then in a specific embodiment, described die sleeve axle the speed driving described die sleeve to rotate is that the rotating speed of the cage with cable-former is consistent.

The technical scheme that this utility model provides is driven die sleeve axle to rotate by die sleeve axle drive mechanism, die sleeve is driven to rotate by die sleeve axle, thus the static state of the die sleeve in change prior art is fixed as dynamically rotating, it is possible not only to the damage being substantially reduced die sleeve to cable core, and can significantly extend the service life of die sleeve.

Accompanying drawing explanation

Fig. 1 is example structure figure of the present utility model.

Fig. 2 is application examples schematic diagram of the present utility model.

Detailed description of the invention

In order to enable the public to be more clearly understood from technical spirit of the present utility model and beneficial effect, applicant will elaborate below by way of example, but the description to embodiment is not the restriction to this utility model scheme, the most pro forma rather than substantial equivalent transformation that is only done by any foundation this utility model design is regarded as the technical solution of the utility model category.

The most every relate to upper and lower, left and right, the directivity of front and rear or claim directionality) concept be all for the figure location state being described for, purpose is to facilitate public understanding, thus can not be understood as being particularly limited to the technical scheme that this utility model provides.

Embodiment:

Referring to Fig. 1, it is shown that a pedestal 1, this pedestal 1 is arranged in a state of use on the terrace in stranding place and shows with cage 8(Fig. 2) corresponding, a platform regulating mechanism 11 it is provided with on the top of this pedestal 1；Showing an adjustment platform 2, this adjustment platform 2 is the most i.e. slidably arranged in the top of pedestal 1 and coordinates with platform regulating mechanism 11 transmission；Show left socle 3 and a right support 4, this left socle 3 is fixed on adjustment platform 2 with state corresponding to left and right each other with right support 4, shows that the situation being welded and fixed in the bottom of left socle 3 and the left side adjusting platform 2 and the bottom showing right support 4 fix screw 42 corresponding to being preset in the position of the screw 23 adjusted on platform 2 and the situation that the right side adjusting platform 2 is fixing by right support in the drawings；Show a die sleeve axle 5, the left end of this die sleeve axle 5 is rotatably supported at the top of left socle 3 and composition has a left spindle nose 51, this left spindle nose 51 leans out the left side of left socle 3 and composition has a die sleeve chamber 511, and the right-hand member of die sleeve axle 5 is rotatably supported at the top of described right support 4；Show a die sleeve 6, in this die sleeve 6 is arranged on aforementioned die sleeve chamber 511 and rotate with the rotation of die sleeve axle 5；Showing a die sleeve axle drive mechanism 7, this die sleeve axle drive mechanism 7 is being fixed on corresponding to the position between aforementioned left socle 3 and right support 4 on adjustment platform 2, and is in transmission connection with the middle part of die sleeve axle 5.

Aforementioned pedestal 1 is constituted a pedestal chamber 12, and respectively constituting with rear side on front side of the top of pedestal 1 and have a guide rail 13, aforesaid adjustment platform 2 is slidably matched with aforementioned guide rail 13 while of coordinating with previous platform guiding mechanism 11 transmission in the position corresponding to pedestal chamber 12 and go back.

Please continue to refer to Fig. 1, aforesaid platform regulating mechanism 11 includes screw rod 111 and a handwheel 112, screw rod 111 is rotatably supported on the left chamber wall in pedestal chamber 12 corresponding to the left end of this screw rod 111 in aforesaid pedestal chamber 12, and the right-hand member of screw rod 111 is rotatably supported on the right chamber wall in pedestal chamber 12 and leans out the right chamber wall in pedestal chamber 12, handwheel 112 is fixed on the right-hand member of screw rod 111 and is limited nut 1111 by the handwheel screwed on screw rod 111 and limit, this handwheel limits the nut 1111 right side corresponding to handwheel 112, aforementioned adjustment platform 2 towards pedestal chamber 12 side i.e. towards under side and be fixed with an adjustment platform nut 21 in the position corresponding to screw rod 111, this adjustment platform nut 21 coordinates with screw rod 111 transmission.

Respectively constituting in the front side of aforementioned adjustment platform 2 and rear side and have a slide matching seat 22, this slide matching seat 22 has sliding tray 221 towards the side composition of guide rail 13, and this sliding tray 221 is slidably matched with guide rail 13.

When handwheel 112 is operated by operator clockwise or counterclockwise, screw rod 111 is driven to rotate accordingly by handwheel 112, adjustment platform nut 21 is driven by screw rod 111, driven adjustment platform 2 to follow guide rail 13 by adjustment platform nut 21 to move to the left or to the right, to realize the die sleeve 6 adjustment relative to the distance between cage 8.

As shown in Figure 1, constitute at the top of aforementioned left socle 3 and have a left socle bearing block 31, a left socle bearing 311 it is provided with in this left socle bearing block 31, constitute at the top of aforesaid right support 4 and have a right support bearing block 41, a right support bearing 411 it is provided with in this right support bearing block 41, the left end of aforementioned die sleeve axle 5 is rotatably supported on left socle bearing 311, and right-hand member is rotatably supported on right support bearing 411.

Also show the left socle pedestal cap 312 for being closed by the left accent in the left socle bearing block chamber of left socle bearing block 31 in FIG, specifically use left socle pedestal cap to fix screw 3121 and left socle pedestal cap 312 is fixed with left socle bearing block 31.Same reason, the position right support pedestal cap at the right accent in the right support bearing block chamber corresponding to right support bearing block 41 is fixed screw 4121 and is fixed with a right support pedestal cap 412.

Front described left spindle nose 51 offers a bearing pin screw hole 512, this bearing pin screw hole 512 communicates with die sleeve chamber 511 and is equipped with a bearing pin screw 5121 on this bearing pin screw hole 512, a bearing pin screw location dimples 61 it is provided with on aforementioned die sleeve 6 and in the position corresponding to bearing pin screw hole 512, bearing pin screw 5121 probes in this bearing pin screw location dimples 61, drives die sleeve 6 to rotate when die sleeve axle 5 rotates by bearing pin screw 5121.

nullThe most still see Fig. 1，The structure preferably rather than being definitely limited to of aforementioned die sleeve axle drive mechanism 7 is as follows: include reduction box fixed plate 71、Motor 72、Reduction box 73、Reduction box power output drive wheel 74、Die sleeve through-drive wheel 75 and transmission band 76，Reduction box fixed plate 71 uses fixed plate screw 711 to fix with aforementioned adjustment platform 2，Motor 72 coordinates with reduction box 73 transmission and is fixed in reduction box fixed plate 71 together with motor 72 by reduction box 73，Reduction box power output drive wheel 74 is fixed on the final stage power output shaft 731 of reduction box 73 and to take turns 75 with die sleeve through-drive corresponding，And die sleeve through-drive wheel 75 is fixed on the middle part of aforementioned die sleeve axle 5，One end of transmission band 76 is nested with on reduction box power output drive wheel 74，The other end is nested with on die sleeve through-drive wheel 75.

In the present embodiment, aforesaid reduction box 73 is worm gear reducer, and aforesaid reduction box power output drive wheel 74 and die sleeve through-drive wheel 75 are sprocket wheel, and aforesaid transmission band is driving chain.But, if reduction box power output drive wheel 74 and die sleeve through-drive being taken turns 75 use belt pulley instead, driving belt used instead by corresponding transmission band 76, then should be considered as equivalent.

Being provided with die sleeve axle axle key 52 at the middle part of aforementioned die sleeve axle 5, and offer shaft key groove 751 in the middle position of aforementioned die sleeve through-drive wheel 75, this shaft key groove 751 coordinates with die sleeve axle axle key 52 key.Preferably, and one location spacer ring 53(is being set can refer to Fig. 2 corresponding to the position between die sleeve through-drive wheel 75 and the right support bearing 411 of right support bearing block 41 on aforesaid die sleeve axle 5).

The speed being driven described die sleeve 6 to rotate by aforementioned die sleeve axle 5 is that the rotating speed of the cage with cable-former is consistent, that is the rotating speed of die sleeve 6 also can claim " stranding cage " with cage 8(illustrated by Fig. 2) rotating speed consistent, certain rotation direction must be consistent.

Application examples:

Referring to Fig. 2 and combine Fig. 1, figure 2 illustrates the cage 8 mentioned for twice above, this utility model is corresponding to the right side of cage 8, and the complex root metallic conductor 9 by way of the die sleeve chamber of die sleeve 6 is twisted into cable core 91 under the work of cage 8.Under cage 8 is in running order, die sleeve axle drive mechanism 7 of the present utility model works simultaneously, specific as follows: motor 72 works, reduction box 73 is driven by motor 72, slow down through reduction box 73 and driven reduction box power output drive wheel 74 by the final stage power output shaft 731 of reduction box 73, drive die sleeve through-drive wheel 75 through transmission band 76, by die sleeve through-drive wheel 75 drive die sleeve axle 5, die sleeve axle 5 drive die sleeve 6 to make the motion consistent with the movement velocity of winch 8.It follows that owing to die sleeve 6 is motion, thus show as positive type, even if die sleeve 6 occurs scar or similar situation after the use in a period, but conductor 9 will not be imputed to, so that it is guaranteed that be twisted into the quality of the cable core 91 of pencil or title strand.Owing to the operation principle of stranding belongs to known technology, thus applicant repeats no more.

In sum, the technical scheme that this utility model provides overcomes the deficiency in prior art, has favorably accomplished invention task, has cashed the technique effect referred in applicant's superincumbent technique effect hurdle faithfully.

Claims (10)

1.The die carrier structure that a kind of cable core is stranded, it is characterised in that include a pedestal (1) , at this pedestal (1) Top be provided with a platform regulating mechanism (11) ；One adjusts platform (2) , this adjustment platform (2) It is movably arranged at described pedestal (1) Top and with described platform regulating mechanism (11) Transmission coordinates；One left socle (3) With a right support (4) , this left socle (3) And right support (4) It is fixed on described adjustment platform with the state that left and right each other is corresponding (2) On；One die sleeve axle (5) , this die sleeve axle (5) Left end be rotatably supported at described left socle (3) Top and composition have a left spindle nose (51) , this left spindle nose (51) Lean out left socle (3) Left side and composition have a die sleeve chamber (511) , die sleeve axle (5) Right-hand member be rotatably supported at described right support (4) Top；One die sleeve (6) , this die sleeve (6) It is arranged on described die sleeve chamber (511) In and with described die sleeve axle (5) Rotation and rotate；One die sleeve axle drive mechanism (7) , this die sleeve axle drive mechanism (7) Corresponding to described left socle (3) With right support (4) Between position be fixed on described adjustment platform (2) On, and with described die sleeve axle (5) Middle part be in transmission connection.

2.According to claim 1 The die carrier structure that described cable core is stranded, it is characterised in that described pedestal (1) Constitute and have a pedestal chamber (12) , and at pedestal (1) Top on front side of and rear side respectively constitute and have a guide rail (13) , described adjustment platform (2) Corresponding to pedestal chamber (12) Position and described platform regulating mechanism (11) With described guide rail while that transmission coordinating and goes back (13) It is slidably matched.

3.According to claim 2 The die carrier structure that described cable core is stranded, it is characterised in that described platform regulating mechanism (11) Including a screw rod (111) With a handwheel (112) , screw rod (111) Corresponding to described pedestal chamber (12) In, this screw rod (111) Right-hand member be rotatably supported at pedestal chamber (12) Left chamber wall on, and screw rod (111) It is rotatably supported at pedestal chamber (12) Right chamber wall on and lean out pedestal chamber (12) Right chamber wall, handwheel (112) It is fixed on screw rod (111) Right-hand member and by screwing at screw rod (111) On handwheel limit nut (1111) Limit, at described adjustment platform (2) Towards pedestal chamber (12) Side and corresponding to screw rod (111) Position be fixed with an adjustment platform nut (21) , this adjustment platform nut (21) With screw rod (111) Transmission coordinates.

4.According to claim 2 The die carrier structure that described cable core is stranded, it is characterised in that at described adjustment platform (2) Front side and rear side respectively constitute and have a slide matching seat (22) , this slide matching seat (22) Towards guide rail (13) Side constitute have sliding tray (221) , this sliding tray (221) With guide rail (13) It is slidably matched.

5.According to claim 1 The die carrier structure that described cable core is stranded, it is characterised in that at described left socle (3) Top constitute have a left socle bearing block (31) , at this left socle bearing block (31) Inside it is provided with a left socle bearing (311) , at described right support (4) Top constitute have a right support bearing block (41) , at this right support bearing block (41) Inside it is provided with a right support bearing (411) , described die sleeve axle (5) Left end be rotatably supported at left socle bearing (311) On, and right-hand member is rotatably supported at right support bearing (411) On.

6.According to claim 1 The die carrier structure that described cable core is stranded, it is characterised in that at described left spindle nose (51) On offer a bearing pin screw hole (512) , this bearing pin screw hole (512) With described die sleeve chamber (511) Communicate and at this bearing pin screw hole (512) On be equipped with a bearing pin screw (5121) , at described die sleeve (6) Go up and corresponding to bearing pin screw hole (512) Position be provided with a bearing pin screw location dimples (61) , bearing pin screw (5121) Probe into this bearing pin screw location dimples (61) In.

7.According to claim 1 The die carrier structure that described cable core is stranded, it is characterised in that described die sleeve axle drive mechanism (7) Including reduction box fixed plate (71) , motor (72) , reduction box (73) , reduction box power output drive wheel (74) , die sleeve through-drive wheel (75) With transmission band (76) , reduction box fixed plate (71) With described adjustment platform (2) Fixing, motor (72) With reduction box (73) Transmission coordinates and by reduction box (73) Together with motor (72) It is fixed on reduction box fixed plate (71) On, reduction box power output drive wheel (74) It is fixed on reduction box (73) Final stage power output shaft (731) Above and with die sleeve through-drive take turns (75) Corresponding, and die sleeve through-drive wheel (75) It is fixed on described die sleeve axle (5) Middle part, transmission band (76) One end be nested with at reduction box power output drive wheel (74) On, the other end is nested with takes turns in die sleeve through-drive (75) On.

8.According to claim 7 The die carrier structure that described cable core is stranded, it is characterised in that described reduction box (73) For worm gear reducer, described reduction box power output drive wheel (74) And die sleeve through-drive wheel (75) For sprocket wheel, described transmission band is driving chain.

9.According to claim 7 The die carrier structure that described cable core is stranded, it is characterised in that at described die sleeve axle (5) Middle part be provided with a die sleeve axle axle key (52) , take turns in described die sleeve through-drive (75) Middle position offer shaft key groove (751) , this shaft key groove (751) With die sleeve axle axle key (52) Key coordinates.

10.According to claim 1 The die carrier structure that described cable core is stranded, it is characterised in that by described die sleeve axle (5) Drive described die sleeve (6) The speed rotated is that the rotating speed of the cage with cable-former is consistent。