CN206328523U - The feed carrier of dynamic adjustment twisting balloon height - Google Patents

Abstract

The utility model provides a kind of feed carrier of dynamic adjustment twisting balloon height, including lever jack, and lever jack is located at the top of ingot tank, and the free end of lever jack is provided with guide eyelit, and lever jack is connected with lowering or hoisting gear.Comprise the following steps when using：Lever jack is adjusted to initial position, starts spindle position, is formed after high air ring, stabilization, measures power P_A；The height of lever jack is reduced, lever jack is reduced to the distance of ingot tank top, close to when allowing surge limit, lever jack reaches operating position, forms short air ring, record lever jack traverse and balloon height, measures power P_B, measurement, which is twisted thread, tension force and to be recorded, so as to match interior yarn tension；By above step, technological parameter is obtained, and suitable for the production of whole machine.Structure more than, can realize that maximum energy-conservation reaches 15%, and the parameter process obtained can be used in the whole machine production of same size product.

Description

The feed carrier of dynamic adjustment twisting balloon height

Technical field

The utility model is related to the spinning machinery field of components in textile machine, particularly a kind of dynamic adjustment twisting air ring The feed carrier of height.

Background technology

Carpet silk twisting machine twists bulked continuous filament（BCF）, the BCF of some certain species need regulation balloon height to A high position, could realize that startup avoids broken yarn, and after air ring is stable, energy consumption maintains a high position all the time.And balloon height and energy consumption into Direct ratio.If the air ring after stable is slowly reduced, the twisting of high-quality can be still kept, while significantly reducing energy consumption.

Existing carpet silk twisting machine twists thread air ring feed carrier for single ingot independent design, by chute with a scale, screw thread Pressing plate and guide bar assembly composition, realize that balloon height is lifted in the way of slack adjuster is manuallyd locate.Such a feed carrier tool Have the advantages that simple in construction, but it has the disadvantage that every ingot balloon height needs independent adjustment, and workload is big；Manual positioning, precision is low, ingot Between uniformity it is poor；Balloon height can not be adjusted again after spindle position starts, and energy consumption maintains a high position all the time.

Have no the technical scheme that can solve the problem that the technical problem at present.

The content of the invention

Technical problem to be solved in the utility model is to provide a kind of feed carrier of dynamic adjustment twisting balloon height, The height of lever jack can be dynamically adjusted, so as to adjust the balloon height of spindle position, workload and labor intensity is greatly decreased.Especially It is that after spindle position startup after air ring is stable, balloon height can be reduced, device energy conservation is realized.It is preferred that scheme in, can adjust The balloon height of unilateral all spindle positions.

In order to solve the above technical problems, the technical scheme that the utility model is used is：A kind of dynamic adjustment twisting air ring The feed carrier of height, including lever jack, lever jack are located at the top of ingot tank, and lever jack is connected with lowering or hoisting gear.

It is preferred that scheme in, described lever jack is multiple, corresponding with each spindle position respectively, lever jack and lever jack crossbeam It is fixedly connected, lever jack crossbeam is connected with lowering or hoisting gear.

It is preferred that scheme in, in described lowering or hoisting gear, lever jack or lever jack crossbeam are fixedly connected with optical axis sliding block, Optical axis sliding block is arranged on the optical axis guide rail erect；

Optical axis sliding block is also fixedly connected with leading suspender belt, is led suspender belt and is connected with leading suspension rod, is led suspension rod and is connected with drive device.

It is preferred that scheme in, the described suspender belt that leads bypasses four guide idler, the 3rd guide wheel, the second guide wheel and the first guide wheel successively Into " U " font structure, the two ends for leading suspender belt are fixedly connected with leading suspension rod.

It is preferred that scheme in, optical axis sliding block be located between the second guide wheel and the first guide wheel, in optical axis sliding block opposite side Lead and balancing weight is fixedly provided with suspender belt.

It is preferred that scheme in, in described drive device, lead suspension rod and be fixedly connected with nut bearing, nut bearing and screw mandrel Threaded connection, the termination of screw mandrel passes through transmission mechanism and motor connection.

It is preferred that scheme in, be additionally provided with linear guides, nut bearing is slidably connected with linear guides.

It is preferred that scheme in, the altitude scale of measurement lever jack beam height position is additionally provided with the side of lever jack crossbeam Chi or displacement transducer.

The utility model provides a kind of feed carrier of dynamic adjustment twisting balloon height, the knot more than Structure, can be after spindle position startup, air ring be stable, and the lever jack of the whole equipment of reduction of automation is so as to reduce balloon height, profit With the principle of balloon height and the proportional relation of energy consumption, on the premise of quality of twisting thread is not reduced, realize that maximum energy-conservation reaches 15%, test method is to connect the power number that ammeter measurement is used respectively in two adjacent spindle positions, and one of spindle position uses this reality Balloon height regulation is carried out with new device.It is preferred that scheme in, unilateral all spindle positions can realize balloon height Automatically adjust, in further preferred scheme, using leading suspender belt, leading suspension rod and the structure of feed screw nut drive device, pass through one Individual motor, you can drive the lever jack automatic lifting of unilateral all spindle positions.

Brief description of the drawings

The utility model is described in further detail with reference to the accompanying drawings and examples：

Fig. 1 is the structural representation of leading screw and nut mechanism in the utility model.

Fig. 2 is Fig. 1 A-A schematic cross-sectional views.

Fig. 3 is the main structure diagram of unilateral lever jack lift assembly of the present utility model.

Fig. 4 is the side view principle schematic diagram of unilateral lever jack lift assembly of the present utility model.

In figure：Rear bearing block 1, screw mandrel 2, nut bearing 3, short machine beam 4, front-end bearing pedestal 5, the first synchronous pulley 6 leads suspension rod 7, linear guides 8, Timing Belt 9, motor 10, the second synchronous pulley 11 leads suspender belt 12, and the first guide wheel 13, lever jack crossbeam 14 is led Yarn bar 15, optical axis sliding block 16, optical axis guide rail 17, balancing weight 18, the second guide wheel 19, altitude scale chi 20, ingot tank 21, high air ring 22, short air ring 23, twist unit 24, the 3rd guide wheel 25, four guide idler 26, guide eyelit 27, initial position A, operating position B.

Embodiment

As in Fig. 1 ~ 4, the feed carrier of balloon height, including lever jack 15, lever jack 15 are twisted in a kind of dynamic adjustment In the top of ingot tank 21, the free end of lever jack 15 is provided with guide eyelit 27, and lever jack 15 is connected with lowering or hoisting gear, lowering or hoisting gear by Electric drive.It is preferred that, lowering or hoisting gear can use cylinder, hydraulic cylinder, gear ＆ rack structure, screw-nut body, Timing Belt machine Structure, cam mechanism is controlled, thus structure, you can dynamically the height of air ring is twisted in adjustment after spindle position startup, so as to realize Maximum energy-saving effect.

It is preferred that scheme such as Fig. 3 in, described lever jack 15 be it is multiple, it is corresponding with each spindle position respectively, lever jack 15 and Lever jack crossbeam 14 is fixedly connected, and lever jack crossbeam 14 is connected with lowering or hoisting gear.Thus structure, realizes leading for unilateral all spindle positions The automatic lifting of yarn bar 15.

It is preferred that scheme such as Fig. 1 ~ 3 in, in described lowering or hoisting gear, lever jack 15 or lever jack crossbeam 14 are slided with optical axis Block 16 is fixedly connected, and optical axis sliding block 16 is arranged on the optical axis guide rail 17 erect；Thus structure, improves lever jack crossbeam 14 and lifts Accuracy, it is ensured that elevating movement is smooth.

Optical axis sliding block 16 is also fixedly connected with leading suspender belt 12, is led suspender belt 12 and is connected with leading suspension rod 7, is led suspension rod 7 and is filled with driving Put connection.Thus structure, is easy to drive the lifting of multiple lever jacks 15 with a drive device.It is preferred that, lead suspender belt 12, optical axis Sliding block 16 and optical axis guide rail 17 be multigroup, thus structure, it is to avoid the long rod deformation of member is impacted to lifting precision, for example The deformation of lever jack crossbeam 14.Realize the stress balance of lever jack crossbeam 14.

It is preferred that scheme such as Fig. 3 in, the described suspender belt 12 that leads bypasses four guide idler 26, the 3rd guide wheel 25, second led successively The guide wheel 13 of wheel 19 and first is into " U " font structure, and the two ends for leading suspender belt 12 are fixedly connected with leading suspension rod 7.Thus structure, is easy to Elevating control is realized in the rotating of motor in one drive device.

It is preferred that scheme such as Fig. 3 in, optical axis sliding block 16 be located between the second guide wheel 19 and the first guide wheel 13, in optical axis sliding block Leading for 16 opposite sides is fixedly provided with balancing weight 18 on suspender belt 12.Thus structure, makes the lifting process of lever jack crossbeam 14 by leading The mobile control of suspension rod 7, without being influenceed by the deadweight of lever jack crossbeam 14, to improve the precision of elevating control.Realization was lifted Load balance in journey.The moment of torsion that i.e. drive screw 2 rotates is roughly equal.

It is preferred that scheme such as Fig. 2 in, in described drive device, lead suspension rod 7 and be fixedly connected with nut bearing 3, nut branch Seat 3 is threadedly coupled with screw mandrel 2, and the termination of screw mandrel 2 is connected by transmission mechanism with motor 10.The two ends of screw mandrel 2 pass through rear bearing Seat 1 and front-end bearing pedestal 5 are supported, and rear bearing block 1 and front-end bearing pedestal 5 are fixedly mounted on short machine beam 4, are provided with the termination of screw mandrel 2 First synchronous pulley 6, the first synchronous pulley 6 is connected by Timing Belt 9 with the second synchronous pulley 11, the second synchronous pulley 11 and electricity Machine 10 is connected, and motor 10 preferably is using buncher, stepper motor or servomotor.

It is preferred that scheme such as Fig. 2 in, be additionally provided with linear guides 8, nut bearing 3 is slidably connected with linear guides 8.Thus tie Structure, improves the kinematic accuracy of nut bearing 3.

It is preferred that scheme such as Fig. 4 in, the height and position of measurement lever jack crossbeam 14 is additionally provided with the side of lever jack crossbeam 14 Altitude scale chi 20 or displacement transducer.Thus structure, is easy to implement the artificial of the height of lever jack crossbeam 14 and automation is controlled System.

Embodiment 2：

A kind of method of the feed carrier of dynamic adjustment twisting balloon height described in use embodiment 1, including it is following Step：

First, with reference to the balloon height of experience technological parameter, lever jack 15 is adjusted to initial position A, yarn passes through guide The guide eyelit 27 of bar 15, equipment, which is powered, starts spindle position, and twist unit 24 rotates, and is formed after high air ring 22, stabilization, measures power P_A；

2nd, controlled motor 10 drives the second synchronous pulley 11 to rotate, the first accordingly rotation, the first Timing Belt of synchronous pulley 6 Wheel 6 drives screw mandrel 2 to rotate, and the drive of nut bearing 3 is led left side of the suspension rod 7 into Fig. 3 and moved, lever jack crossbeam 14 and optical axis sliding block 16 decline along optical axis guide rail 17, and lever jack 15 declines with lever jack crossbeam 14, reduce the height of lever jack 15, reduce lever jack Distance at the top of 15 to ingot tank 21, close to when allowing surge limit, lever jack 15 reaches operating position B, forms short air ring 23, remembers The traverse of lever jack 15 and balloon height are recorded, power P is measured_B, measurement, which is twisted thread, tension force and to be recorded, so as to match interior yarn tension；

Described permission surge limit, refers to that air ring reaches the minimum form in the position that will not contact ingot tank.Because air ring is Formed in yarn running, therefore it is also contemplated that because yarn runs formed fluctuation, appropriate surplus should be kept.

By above step, technological parameter is obtained, and suitable for the production of whole machine.Different yarns are adjusted in the same way Examination, formation process formula archives.

It is preferred that scheme in, different traverse gears of lever jack 15 are set, programs, makes different fiber numbers, kind, technique The different traverse gear of lever jack 15 of situation correspondence.Thus scheme, realizes that one-key operation relevant parameter is set, and improves work effect Rate.

The above embodiments are only optimal technical scheme of the present utility model, and are not construed as limit of the present utility model Embodiment in system, the application and the feature in embodiment can be mutually combined in the case where not conflicting.This practicality is new Technical characteristic in the technical scheme that the protection domain of type should be recorded with claim, including the technical scheme of claim record Equivalents are protection domain.Equivalent i.e. within this range is improved, also protection domain of the present utility model it It is interior.

Claims (8)

1. a kind of feed carrier of dynamic adjustment twisting balloon height, including lever jack（15）, lever jack（15）Positioned at ingot tank （21）Top, it is characterized in that：Lever jack（15）It is connected with lowering or hoisting gear.

2. a kind of feed carrier of dynamic adjustment twisting balloon height according to claim 1, it is characterized in that：Described leads Yarn bar（15）For multiple, corresponding with each spindle position respectively, lever jack（15）With lever jack crossbeam（14）It is fixedly connected, lever jack is horizontal Beam（14）It is connected with lowering or hoisting gear.

3. a kind of feed carrier of dynamic adjustment twisting balloon height according to claim 1 or 2, it is characterized in that：It is described Lowering or hoisting gear in, lever jack（15）Or lever jack crossbeam（14）With optical axis sliding block（16）It is fixedly connected, optical axis sliding block（16）Peace Mounted in the optical axis guide rail of setting（17）On；

Optical axis sliding block（16）Also with leading suspender belt（12）It is fixedly connected, leads suspender belt（12）With leading suspension rod（7）Connection, leads suspension rod（7）With Drive device is connected.

4. a kind of feed carrier of dynamic adjustment twisting balloon height according to claim 3, it is characterized in that：Described leads Suspender belt（12）Four guide idler is bypassed successively（26）, the 3rd guide wheel（25）, the second guide wheel（19）With the first guide wheel（13）Into " U " font Structure, leads suspender belt（12）Two ends with leading suspension rod（7）It is fixedly connected.

5. a kind of feed carrier of dynamic adjustment twisting balloon height according to claim 4, it is characterized in that：Optical axis sliding block （16）Positioned at the second guide wheel（19）With the first guide wheel（13）Between, in optical axis sliding block（16）Opposite side leads suspender belt（12）It is upper to go back It is installed with balancing weight（18）.

6. a kind of feed carrier of dynamic adjustment twisting balloon height according to claim 3, it is characterized in that：Described drive In dynamic device, suspension rod is led（7）With nut bearing（3）It is fixedly connected, nut bearing（3）With screw mandrel（2）Threaded connection, screw mandrel（2） Termination pass through transmission mechanism and motor（10）Connection.

7. a kind of feed carrier of dynamic adjustment twisting balloon height according to claim 3, it is characterized in that：It is additionally provided with line Property guide rail（8）, nut bearing（3）With linear guides（8）It is slidably connected.

8. a kind of feed carrier of dynamic adjustment twisting balloon height according to claim 3, it is characterized in that：In lever jack Crossbeam（14）Side be additionally provided with measurement lever jack crossbeam（14）The altitude scale chi of height and position（20）Or displacement transducer.