CN205861956U - A kind of double plate cooking-pot type yarn bundler - Google Patents

Abstract

The utility model discloses a kind of double plate cooking-pot type yarn bundler, including frame, it is horizontally mounted a front hollow spindle by bearing on clutch shaft bearing seat, the inside of front hollow spindle yarn group hollow axle in the past passes, front guide pot covers the rear end of front yarn group hollow axle, multiple front guide eyelit is had on front guide pot, hollow spindle after being horizontally mounted one by bearing on 3rd bearing block, it is horizontally mounted a rear yarn group hollow axle by bearing in 5th bearing block, rear hollow spindle passes from the inside of rear yarn group hollow axle, rear guide pot covers the rear end of rear yarn group hollow axle, multiple rear guide eyelit is had on rear guide pot.This utility model has the advantages such as optical fiber processing is effective, efficiency is high, noise is little.

Description

A kind of double plate cooking-pot type yarn bundler

Technical field

This utility model relates to the production and processing field of optical fiber, specifically a kind of double plate cooking-pot type yarn bundler.

Background technology

It is optical fiber critical process of SZ twisted synthesizing cable after secondary coating that double plate pricks yarn, not only directly affects optical cable core SZ The quality of twisted synthesizing cable, and directly determine cable-former line speed, if double plate pricks existing defects during yarn, the most directly Connect and affect optical cable stranding quality and speed, but also be likely to result in scrapping of optical cable.

At present, main employing double plate bundling machine carries out double plate and pricks yarn, and existing double plate bundling machine is mainly by putting yarn unit, leading Yarn unit and bundle yarn unit composition, the yarn-placing shaft of the most existing double plate yarn bundler is propped up mutually by bearing with pricking yarn core axle Support, owing to bearing frictional force in the case of high-revolving is very big, is difficult to control, if putting so putting yarn tension under high speed conditions Yarn tension is big, and the beam tube meeting stress in stranded optical cable, the fibre loss in beam tube in optical cable is big, if putting yarn tension Little, beam tube stranded parcel pine, have bending at beam tube after sheath, the fibre loss in beam tube is also big, thus causes bundle yarn The defect of weak effect, the most existing double plate yarn bundler uses Flight Vehicle Structure guide, owing to aircraft only has mutually symmetrical with Two panels aluminium make flabellum, and directly be threadedly attached in bundle yarn core axle on, this structure not only equilibrium problem without Method solves, and under high speed conditions, just as fan, vibration is very big, thus produces the biggest noise problem.

Summary of the invention

The purpose of this utility model in order to solve waste of manpower of the prior art and muscle power, optical cable production efficiency low Defect, it is provided that a kind of double plate cooking-pot type yarn bundler solves the problems referred to above.

To achieve these goals, the technical solution of the utility model is as follows: the utility model discloses a kind of double plate pot Formula yarn bundler, including frame, the fixed clutch shaft bearing seat in front end of described frame, described clutch shaft bearing seat passes through Bearing is horizontally mounted a front hollow spindle, fixed first motor in front end of described frame, and the first described motor leads to Cross Timing Belt to be connected with front hollow spindle with synchronous pulley, fixed second bearing block in described frame, described Being horizontally mounted a front yarn group hollow axle by bearing in two bearing bracket, the interior of hollow axle rolled into a ball by described front hollow spindle yarn in the past Portion passes, the axis of the axis of described front hollow spindle and front yarn group hollow axle on same straight line, described before The outer circumference surface of hollow spindle does not contacts with the inner peripheral surface of front yarn group hollow axle, fixed one second electricity in described frame Machine, the second described motor is connected with front yarn group hollow axle by Timing Belt and synchronous pulley, the second described bearing block Installing a front guide pot by bearing on outer surface, described front guide pot covers the rear end of front yarn group hollow axle, described Having multiple front guide eyelit on front guide pot, fixed 3rd motor in described frame, the 3rd described motor is by same Step band is connected with front guide pot with synchronous pulley, and the fixed guide rail of rear horizontal of described frame, on described guide rail Being provided with slide block, in described frame, a fixed pushing motor, described frame is horizontally mounted a screw mandrel by bearing, The output shaft of described pushing motor is connected with the front end of screw mandrel, and the mode that described screw mandrel is threaded connection is vertically-mounted One catch bar, the upper end of described catch bar is connected with slide block, fixed 3rd bearing on the upper surface of described slide block Seat, hollow spindle after the 3rd described bearing block is horizontally mounted by bearing, described rear hollow spindle is front hollow The dead astern of main shaft, the axis of described rear hollow spindle and the axis of front hollow spindle are on same axis, described The front end of rear hollow spindle be cased with a yarn storage hollow axle, described yarn storage hollow axle is connected with rear hollow spindle, described A yarn storage bucket it is cased with, fixed 4th bearing block, described the 4th on the upper surface of described slide block on yarn storage hollow axle It is horizontally mounted a gap bridge belt shaft by bearing on bearing block, fixed 4th motor on the upper surface of described slide block, The 4th described motor is connected with gap bridge belt shaft with synchronous pulley by Timing Belt, and described gap bridge belt shaft is by synchronizing Band is connected with rear hollow spindle with synchronous pulley, and on the upper surface of described slide block, fixed 5th bearing block, described Being horizontally mounted a rear yarn group hollow axle by bearing in 5th bearing block, described rear hollow spindle is from rear yarn group hollow axle Inside passes, and the axis of the axis of described rear hollow spindle and rear yarn group hollow axle is on same straight line, described The inner peripheral surface of the outer circumference surface of rear hollow spindle and rear yarn group hollow axle does not contacts, on described slide block fixed one the 5th Motor, the 5th described motor is connected with rear yarn group hollow axle by Timing Belt and synchronous pulley, the 5th described bearing block Outer surface on by bearing, guide pot after is installed, described rear guide pot covers the rear end of rear yarn group hollow axle, described Rear guide pot on have multiple rear guide eyelit, described gap bridge belt shaft is by Timing Belt and synchronous pulley and rear guide pot phase Connecting, described rear guide pot is with front guide pot on the same axis.

As preferably, the shape of described front guide pot and the shape of rear guide pot are cylindrical.

As preferably, described front guide pot is identical with the size of rear guide pot.

As preferably, the outer circumference surface of described front guide pot and the outer circumference surface of rear guide pot are the most smooth.

This utility model has the advantage that compared to existing technology

1, pricking yarn position concentric co-axial, rotating speed is fast, pricks yarn efficiency high；

2, pricking yarn effective, the quality of the optical cable produced is high；

3, noise is little.

Accompanying drawing explanation

Fig. 1 is the profile of this utility model a kind of double plate cooking-pot type yarn bundler；

Fig. 2 is the plan structure schematic diagram of this utility model a kind of double plate cooking-pot type yarn bundler.

Wherein: 1-frame；2-clutch shaft bearing seat；Hollow spindle before 3-；4-the first motor；5-the second bearing block；Yarn before 6- Group's hollow axle；7-the second motor；Guide pot before 8-；Guide eyelit before 9-；10-the 3rd motor；11-guide rail；12-slide block；13-promotes Motor；14-screw mandrel；15-catch bar；16-the 3rd bearing block；Hollow spindle after 17-；18-yarn storage hollow axle；19-yarn storage bucket； 20-the 4th bearing block；21-gap bridge belt shaft；22-the 4th motor；23-the 5th bearing block；24-rear yarn group hollow axle；25-the 5th Motor；Guide pot after 26-；Guide eyelit after 27-.

Detailed description of the invention

By making, architectural feature of the present utility model and effect of being reached are had a better understanding and awareness, in order to relatively Good embodiment and accompanying drawing coordinate detailed description, are described as follows:

As shown in Figure 1-2, the utility model discloses a kind of double plate cooking-pot type yarn bundler, including frame 1, described frame The fixed clutch shaft bearing seat 2 in front end of 1, described clutch shaft bearing seat 2 is horizontally mounted a front hollow spindle by bearing 3, fixed first motor 4 in front end of described frame 1, the first described motor 4 passes through Timing Belt and synchronous pulley with front Hollow spindle 3 is connected, and in described frame 1, fixed second bearing block 5, passes through bearing in the second described bearing block 5 Being horizontally mounted front yarn group hollow axle 6, the inside of described front hollow spindle 3 yarn group hollow axle 6 in the past passes, described before The axis of the axis of hollow spindle 3 and front yarn group hollow axle 6 is on same straight line, outside described front hollow spindle 3 Periphery does not contacts with the inner peripheral surface of front yarn group hollow axle 6, and in described frame 1, fixed second motor 7, described Second motor 7 is rolled into a ball hollow axle 6 with synchronous pulley with front yarn by Timing Belt and is connected, the outer surface of the second described bearing block 5 On by bearing install a front guide pot 8, described front guide pot 8 cover front yarn group hollow axle 6 rear end, described is leading Having multiple front guide eyelit 9 on yarn pot 8, fixed 3rd motor 10 in described frame 1, the 3rd described motor 10 passes through Timing Belt is connected with front guide pot 8 with synchronous pulley, the fixed guide rail 11 of rear horizontal of described frame 1, described Being provided with slide block 12 on guide rail 11, a fixed pushing motor 13 in described frame 1, by bearing water in described frame 1 Safety fills a screw mandrel 14, and the output shaft of described pushing motor 13 is connected with the front end of screw mandrel 14, logical on described screw mandrel 14 Crossing the vertically-mounted catch bar 15 of threaded mode, the upper end of described catch bar 15 is connected with slide block 12, described On the upper surface of slide block 12, fixed 3rd bearing block 16, the 3rd described bearing block 16 is horizontally mounted one by bearing Rear hollow spindle 17, described rear hollow spindle 17 in the dead astern of front hollow spindle 3, the axis of described rear hollow spindle 17 The axis of line and front hollow spindle 3 is on same axis, and the front end of described rear hollow spindle 17 is cased with a yarn storage sky Mandrel 18, described yarn storage hollow axle 18 is connected with rear hollow spindle 17, described yarn storage hollow axle 18 is cased with a yarn storage Bucket 19, on the upper surface of described slide block 12, fixed 4th bearing block 20, the 4th described bearing block 20 passes through bearing It is horizontally mounted a gap bridge belt shaft 21, fixed 4th motor 22, described the 4th on the upper surface of described slide block 12 Motor 22 is connected with gap bridge belt shaft 21 with synchronous pulley by Timing Belt, described gap bridge belt shaft 21 by Timing Belt with Synchronous pulley is connected with rear hollow spindle 17, and on the upper surface of described slide block 12, fixed 5th bearing block 23, described The 5th bearing block 23 in be horizontally mounted a rear yarn by bearing and roll into a ball hollow axle 24, described rear hollow spindle 17 is from rear yarn group The inside of hollow axle 24 passes, and the axis of described rear hollow spindle 17 and rear yarn roll into a ball the axis of hollow axle 24 at same On straight line, the outer circumference surface of described rear hollow spindle 17 does not contacts with the inner peripheral surface of rear yarn group hollow axle 24, described Fixed 5th motor 25 on slide block 12, the 5th described motor 25 rolls into a ball hollow axle by Timing Belt and synchronous pulley with rear yarn 24 are connected, guide pot 26 after the outer surface of the 5th described bearing block 23 installs by bearing, described rear guide Pot 26 covers the rear end of rear yarn group hollow axle 24, and described rear guide pot 26 has multiple rear guide eyelit 27, described gap bridge Belt shaft 21 is connected with rear guide pot 26 with synchronous pulley by Timing Belt, and described rear guide pot 26 exists with front guide pot 8 On same axis.

As preferably, the shape of described front guide pot 8 and the shape of rear guide pot 26 are cylindrical.

As preferably, described front guide pot 8 is identical with the size of rear guide pot 26.

As preferably, the outer circumference surface of described front guide pot 8 and the outer circumference surface of rear guide pot 26 are the most smooth.

This utility model is implemented: the yarn group in front is enclosed within the rear end of front yarn group hollow axle 6 by processing staff, The front guide eyelit 9 on yarn premenstrual guide pot 8 in this yarn group is guided between front hollow spindle 3 and rear hollow spindle 17, then The yarn group at rear is enclosed within rear yarn group hollow axle 24 rear end on, then by this yarn roll into a ball on yarn from rear guide pot 26 after lead Yarn hole 27 is after the rear end of rear hollow spindle 17 is introduced in hollow spindle 17, the most further by this yarn from rear hollow spindle 17 Front end stretch out, and yarn and the yarn rolled into a ball of rear yarn rolled into a ball by front yarn are tied, and processing staff is by strengthening core and light Behind the inside of the fine beam tube premenstrual hollow spindle in front end 3 of hollow spindle 3 in the past, the rear end of hollow spindle 3 exports in the past, the second electricity Machine the 7, the 3rd motor the 10, the 4th motor the 22, the 5th motor 25 and the first motor 4 start simultaneously, the first motor 4 by Timing Belt and Before synchronous pulley drives, hollow spindle 3 carries out rotating and reverse turning of fast reciprocating rotation, the second motor 7 and the 3rd motor 10 Dynamic direction is identical, and speed is variant, and the 4th motor 22 is identical with the rotation direction of the 5th motor 25, and speed is variant, and second The rotation direction of motor 7 and the 4th motor 22 is contrary, and the first motor 4 drives front hollow spindle 3 by Timing Belt and synchronous pulley Rotating, the first motor 4 is by driving the reciprocating rotation rotated and reverse of hollow spindle 3, thus is added with center by optical fiber bundle tubes Positive and negative centered by strong core twist together, the most stranded after optical fiber bundle tubes through after hollow spindle 17 front end entrance after hollow In main shaft 17, the most stranded after optical fiber bundle tubes export from the rear end of rear hollow spindle 17, the second motor 7 by Timing Belt and Before synchronous pulley drives, yarn group hollow axle 6 carries out unwrapping wire, and then the 3rd motor 10 drives leading by Timing Belt and synchronous pulley Yarn pot 8 carries out guide, and in like manner the 5th motor 25 drives hollow axle 24 rotation of rear yarn group to put by Timing Belt and synchronous pulley Line, the 4th motor 22 drives gap bridge belt shaft 21 to rotate by Timing Belt and synchronous pulley, and gap bridge belt shaft 21 can be by synchronizing After band and synchronous pulley drive, guide pot 26 carries out guide, the rotation direction of rear guide pot 26 and rear hollow spindle 17 rotation direction Identical, the rotation direction of rear guide pot 26 and the rotation direction of front guide pot 8 are contrary, so during rotating, are stranded in Beam tube together deliver into after by forward direction after in hollow spindle 17 during, it is achieved thereby that the bundle that strand is together Pipe carries out pricking with one heart the purpose of yarn with some double end, is wherein carried out power drive, front yarn group due to front hollow axle 3 by the first motor 4 Hollow axle 6 is carried out power drive by the second motor 7, and front guide pot 8 is carried out power drive by the 3rd motor 10, such three parts Power is separate, non-interference, and therefore processing staff can control payingoff speed by the second motor 7 is independent, so processes Personnel i.e. can realize preferably controlling yarn to optical fiber bundle tubes degree of tightening, and effectively avoids and can not control degree of tightening and make The defect becoming yarn to strangle bad optical fiber bundle tubes and to cause optical fiber bundle tubes loss even to scrap greatly, therefore optical fiber bundle tubes pricks yarn effect Good, and processing staff can effectively control the rotation of front guide pot 8 by the 3rd motor 10, so can control yarn and prick The spacing in the gap on optical fiber bundle tubes, the raising of the most beneficially binding effect, in like manner the 4th motor 22 is for rear sky Heart main shaft 17 and rear guide pot 26 provide power, and the 5th motor 25 provides power for rolling into a ball hollow axle 24 to rear yarn, therefore power Being divided into two independent parts, yarn group hollow axle 24 puts the speed of yarn will not be affected by rear hollow spindle 17, the most permissible The independent degree of tightening pricking yarn to the optical fiber bundle tubes after stranded, the most beneficially optical cable of controlling pricks the raising of yarn effect, and Owing to front hollow spindle 3 and rear hollow spindle 17 are on same straight line, front guide pot 8 and rear guide pot 26 are at same straight line On, the most stranded is concentric co-axial formula with binding process, and therefore stability is higher, is beneficial to improve rotating speed, pricks the efficiency of yarn also Just improve, be cylinder, and the cylindrical of front guide pot 8 additionally, due to the shape of front guide pot 8 and the shape of rear guide pot 26 The outer circumference surface of side face and rear guide pot 26 is the most smooth, and therefore during pricking yarn, front guide pot 8 and rear guide pot 26 are more Stable, run more steady, vibrate little, noise is also substantially reduced, and additionally resistance is little, and running speed is also increased by, and is beneficial to prick The raising of yarn efficiency, additionally before pricking yarn, people can start pushing motor 13, and pushing motor 13 drives screw mandrel 14 to rotate, Under the effect of the rotation of screw mandrel 14, catch bar 15 is then moved rearwards by, and catch bar 15 then band movable slider 12 is moved rearwards by, so after Yarn group's hollow axle 24 then then moves along with the rear shifting of slide block 12, and it is hollow that standby yarn group can be placed on yarn storage by such processing staff On axle 18, then control pushing motor 13 and invert, until yarn storage hollow axle 18 carries out resetting, once front yarn group hollow axle 6 On yarn group make to be finished after, processing staff the yarn group on yarn storage hollow axle 18 is installed to front yarn group hollow axle 6 on, use compare More convenient.

Of the present utility model ultimate principle, principal character and of the present utility model advantage have more than been shown and described.One's own profession Skilled person will appreciate that of industry, this utility model is not restricted to the described embodiments, described in above-described embodiment and description Simply principle of the present utility model, on the premise of without departing from this utility model spirit and scope, this utility model also has respectively Planting changes and improvements, these changes and improvements both fall within the range of claimed this utility model.This utility model requirement Protection domain defined by appending claims and equivalent thereof.

Claims (4)

1. a double plate cooking-pot type yarn bundler, including frame (1), the fixed clutch shaft bearing seat in front end of described frame (1) (2), described clutch shaft bearing seat (2) is horizontally mounted a front hollow spindle (3) by bearing, before described frame (1) Holding fixed first motor (4), described the first motor (4) is by Timing Belt and synchronous pulley and front hollow spindle (3) phase Connect, it is characterised in that: upper fixed second bearing block (5) of described frame (1), logical in described the second bearing block (5) Cross bearing and be horizontally mounted front yarn group's hollow axle (6), the inside of described front hollow spindle (3) yarn in the past group's hollow axle (6) Passing, the axis of the axis of described front hollow spindle (3) and front yarn group's hollow axle (6) is on same straight line, described The inner peripheral surface of outer circumference surface and front yarn group's hollow axle (6) of front hollow spindle (3) do not contact, in described frame (1) Fixed second motor (7), described the second motor (7) rolls into a ball hollow axle (6) phase by Timing Belt and synchronous pulley with front yarn Connect, the outer surface of described the second bearing block (5) installs a front guide pot (8), described front guide pot by bearing (8) cover the rear end of front yarn group's hollow axle (6), described front guide pot (8) has multiple front guide eyelit (9), described machine Upper fixed 3rd motor (10) of frame (1), the 3rd described motor (10) is by Timing Belt and synchronous pulley and front guide pot (8) it is connected, the fixed guide rail (11) of rear horizontal of described frame (1), described guide rail (11) is provided with slide block (12), the upper fixed pushing motor (13) of described frame (1), described frame (1) is horizontally mounted one by bearing Screw mandrel (14), the output shaft of described pushing motor (13) is connected with the front end of screw mandrel (14), described screw mandrel (14) passes through The vertically-mounted catch bar (15) of threaded mode, the upper end of described catch bar (15) is connected with slide block (12), institute Fixed 3rd bearing block (16) on the upper surface of the slide block (12) stated, by bearing water on the 3rd described bearing block (16) Safety fill one after hollow spindle (17), described rear hollow spindle (17) in the dead astern of front hollow spindle (3), described after The axis of the axis of hollow spindle (17) and front hollow spindle (3) on same axis, described rear hollow spindle (17) front end is cased with a yarn storage hollow axle (18), and described yarn storage hollow axle (18) is connected with rear hollow spindle (17), institute A yarn storage bucket (19) it is cased with, fixed 4th axle on the upper surface of described slide block (12) on the yarn storage hollow axle (18) stated Bearing (20), the 4th described bearing block (20) is horizontally mounted a gap bridge belt shaft (21), described slide block by bearing (12) fixed 4th motor (22) on upper surface, the 4th described motor (22) is by Timing Belt and synchronous pulley and mistake Bridge belt shaft (21) is connected, and described gap bridge belt shaft (21) is by Timing Belt and synchronous pulley and rear hollow spindle (17) phase Connect, fixed 5th bearing block (23) on the upper surface of described slide block (12), logical in the 5th described bearing block (23) Crossing bearing and be horizontally mounted rear yarn group's hollow axle (24), described rear hollow spindle (17) is interior from rear yarn group's hollow axle (24) Portion passes, the axis of the axis of described rear hollow spindle (17) and rear yarn group's hollow axle (24) on same straight line, The outer circumference surface of described rear hollow spindle (17) does not contacts with the inner peripheral surface of rear yarn group's hollow axle (24), described slide block (12) upper fixed 5th motor (25), the 5th described motor (25) is hollow with rear yarn group by Timing Belt and synchronous pulley Axle (24) is connected, guide pot (26) after the outer surface of the 5th described bearing block (23) installs by bearing, described Rear guide pot (26) cover rear yarn group hollow axle (24) rear end, described rear guide pot (26) has multiple rear guide eyelit (27), described gap bridge belt shaft (21) is connected with rear guide pot (26) with synchronous pulley by Timing Belt, described after lead Yarn pot (26) is with front guide pot (8) on the same axis.

A kind of double plate cooking-pot type yarn bundler the most according to claim 1, it is characterised in that: described front guide pot (8) The shape of shape and rear guide pot (26) is cylindrical.

A kind of double plate cooking-pot type yarn bundler the most according to claim 1 and 2, it is characterised in that: described front guide pot (8) Identical with the size of rear guide pot (26).

A kind of double plate cooking-pot type yarn bundler the most according to claim 1 and 2, it is characterised in that: described front guide pot (8) Outer circumference surface and the outer circumference surface of rear guide pot (26) the most smooth.