CN206253560U - Wire knitting machine spindle - Google Patents

Abstract

Wire knitting machine spindle, including payingoff mechanism, bobbin and spindle body, the bobbin is wound with steel wire, the payingoff mechanism and bobbin are arranged on spindle body, by payingoff mechanism and spindle body by the steel wire rule unwrapping wire on bobbin, spindle body includes ingot butt seat and ingot main body, the ingot main body top is provided with polished rod I, polished rod II, polished rod III, lower shift fork and upper shift fork, the lower shift fork penetrates polished rod I and polished rod II, the lower shift fork is provided with two directive wheels, the upper shift fork is provided with two directive wheels, guiding trestle is provided between two directive wheels, the upper end of the guiding trestle is provided with universal bearing, directive wheel fixed block is provided with the ingot main body, a directive wheel is provided with the directive wheel fixed block.The utility model uses integral type directive wheel so that directive wheel rotates more smooth.

Description

Wire knitting machine spindle

Technical field

The utility model is related to wire knitting machine spindle, belongs to wire knitting machine technical field.

Background technology

Braided steel wire pipe has stronger resistance to compression anti-deformation, there is wide application market, braided steel wire Guan Yougang Silk braider braiding is formed.Traditional wire knitting machine is by frictional unwrapping wire assembly unwrapping wire, when line moves certain position to, line The friction plate and main body of axle bottom are separated, and bobbin is rotated, and is gone out line tension and is determined that friction plate can not have oil by actual spring specification, But spindle rotation needs oil lubrication, in the inevitable engaging friction piece of lubricating oil, tension force is influenceed.

Bobbin capacity is 610CM³ , bobbin capacity is small, changes bobbin frequently, influences braiding progress（Speed）, increase work Degree.Highest goes out linear velocity 1440MM per minute, and braid efficiency is low.One end positioning when bobbin is rotated, turns when bobbin one end positions It is dynamic to have some setbacks, tension force is influenceed, and bobbin abrasion is larger.

Utility model content

In order to solve above-mentioned problem, the utility model discloses a kind of wire knitting machine spindle, its particular technique Scheme is as follows：

Wire knitting machine spindle, it is characterized in that including payingoff mechanism, bobbin and spindle body, the bobbin is wound with steel Silk, the payingoff mechanism and bobbin are arranged on spindle body, are advised the steel wire on bobbin by payingoff mechanism and spindle body Rule unwrapping wire,

The spindle body includes ingot butt seat and ingot main body, and the ingot main body is arranged on ingot submounts, the ingot main body Top is provided with polished rod I, polished rod II, polished rod III, lower shift fork and upper shift fork, the polished rod I, polished rod II and polished rod III and ingot main body Vertical fixed, the lower shift fork penetrates polished rod I and polished rod II, and the lower shift fork can be moved on polished rod I and polished rod II, institute State lower shift fork and be provided with two directive wheels, the lower shift fork is provided with light near ingot main body between the lower shift fork and ingot main body Bar nylon jacket, the lower shift fork upper surface is provided with the set screw for extending out upward vertically, and the set screw is connected with Stop nut,

The upper shift fork penetrates polished rod I, polished rod II and polished rod III, and the upper shift fork is provided with ejecting mechanism, the top Going out mechanism includes apical axis, apical axis pad, apical axis spring, apical axis set and apical axis screw, and the ejecting mechanism is located at set screw Vertical direction, the apical axis penetrates upper shift fork, and the top of the apical axis extends to the top of upper shift fork, and sets in cone Shape, the bottom of the apical axis extends to the lower section of upper shift fork, and is provided with apical axis set, and the apical axis is passed through from apical axis spring, The apical axis spring is arranged between apical axis set and upper shift fork, and the apical axis pad is located between upper shift fork and apical axis spring,

The upper shift fork is provided with two directive wheels, and guiding trestle, the guiding trestle are provided between two directive wheels Upper end be provided with universal bearing,

The middle part of the polished rod II is provided through spring long, and the spring long is located between upper shift fork and lower shift fork, institute State polished rod I, the top of polished rod III and be provided with polished rod fixed block, the polished rod fixed block is located at the top of upper shift fork,

Directive wheel fixed block is provided with the ingot main body, a directive wheel is provided with the directive wheel fixed block.

The bobbin is installed through in locating rod, one end of the bobbin and the prominent plane contact of locating rod, another On the fixed payingoff mechanism on the securing lever in end, the steel wire on the bobbin sequentially passes through five directive wheels by polished rod III, Eventually pass through the endoporus of universal bearing.

The upper shift fork is fixed on polished rod I, polished rod II and polished rod III by polished rod fixed block and limited screw respectively.

The payingoff mechanism select torsion spring type friction clutch, including stand, rotating shaft, rotating shaft dop, Rectangular Section Spring, Cutting ferrule under cutting ferrule, spring, graphite copper sheathing and small axle is slided on spring, the rotating shaft is screwed on stand；Under spring Cutting ferrule is fixed in rotating shaft by the thrust screw of side two, in rotating shaft projection section insertion rotating shaft dop, rotating shaft dop lower end It is enclosed within the upper end of Rectangular Section Spring, the vertical jag of Rectangular Section Spring is inserted under spring in the embedded groove of cutting ferrule, rectangle On the horizontal jag insertion spring of section spring in the embedded groove of cutting ferrule, in graphite copper sheathing insertion rotating shaft dop, by rotating shaft Rotary Connection block on dop is secured to, and slides small axle and is arranged in stand by pivot pin, and the inside is provided with back-moving spring, The sidepiece of cutting ferrule is provided with needle bearing by pin on the spring.

After the payingoff mechanism and spindle body are installed, the needle bearing of the payingoff mechanism and the apical axis of spindle body Conical surface contact, the small axle of slip of payingoff mechanism can be fixed on the groove of the locating rod of spindle body under the effect of spring-return power It is interior.

The graphite copper sheathing of self-lubricating is inlayed in the bobbin two ends.

The upper shift fork selects aluminum alloy material.

Operation principle of the present utility model is：

The utility model, bobbin is installed on the securing lever, and payingoff mechanism on card is passed through wire by cabling mode respectively Five directive wheels are crossed, is finally drawn from the universal bearing of guiding trestle, pull lead-out wire, lower shift fork to move upward vertically pressure Contract spring long, and when spring-compressed long to certain length, set screw comes into contact with apical axis screw and causes apical axis spring-compressed, So that a whole set of ejecting mechanism is moved vertically upward, when the conical surface contact of apical axis is to needle bearing, so that cutting ferrule in push the spring Rotate counterclockwise, releases end and is stuck on spring in cutting ferrule, so Rectangular Section Spring is counterclockwise due to Rectangular Section Spring level Direction Hui Song, internal diameter becomes big so that the rotating shaft dop with its banding unclamps, and under a stretching force, bobbin drives rotating shaft dop one And rotate unwrapping wire, after line is released, line length is elongated, and in the presence of spring long, lower shift fork is moved vertically downward, cause its with Ejecting mechanism departs from, so that apical axis circular conical surface departs from needle bearing, under the restoring force effect of Rectangular Section Spring, on spring Cutting ferrule turns clockwise, and Rectangular Section Spring shrinks and tightens up whole torsion spring, and internal diameter reduces and banding bobbin starts, isochrone Axle rotation stops, and stops unwrapping wire.Shorten with the use of wire, lower shift fork pan-up compression spring long starts next Circulation.

The beneficial effects of the utility model are：

1. the utility model is by three polished rods（That is polished rod I, polished rod II and polished rod III）Formed with a locating rod positioning, three One end of root polished rod and a locating rod is separately fixed in spindle main body, three polished rod other ends by aluminium alloy be made upper group Fork positioning, is loaded onto after bobbin, and two polished rods and locating rod are repositioned by payingoff mechanism, it is ensured that four bars（That is polished rod I, polished rod IIth, polished rod III and locating rod）Between centre-to-centre spacing be consistent up and down；

2. Rectangular Section Spring have the advantages that rigidity it is big, closer to constant so that bobbin clutch is more stablized, if under Sliding block moves to the position of setting, and needle bearing to certain angle is opened on apical axis top, and Rectangular Section Spring stress, diameter of bore increases Greatly, bobbin cutting ferrule is unclamped, bobbin is rotated under the pulling of external force, bobbin tension force=（The stroke * spring rates of sliding block）/ 4, under The size of needle bearing is opened to the distance+top of apical axis in the stroke of sliding block=apical axis screw position（Constant）, according to different weavings It is required that different tension force, adjustment apical axis screw bit length is short just can be with.

3. the utility model is applied on high-speed knitter, and when spindle runs at high speed, bobbin frequently does locking and pine Work is started, such as 24 ingot braider spindle rotating speeds are 35RPM, bobbin locking per minute and release are acted 35*12=420 times, this practicality The Rectangular Section Spring of new use coordinates Hmp grease to avoid stuck phenomenon generation.

4. spindle runway（Table top groove）Distance from minimum point to peak must be less than the length that wire is reclaimed, Otherwise steel wire is organized on sebific duct loose ends or back of the body stock phenomenon, knits out the product quality come and substantially reduces, the utility model 5 directive wheels are added on spindle, when such as spindle tension force is 80N, impulse stroke is 60MM, and the recovery length of line is 60*4= 240MM, more than spindle runway from minimum point to peak apart from 190MM, it is ensured that production product quality.

5. because locating rod bears radial load（Pulling force）And axial direction（Gravity and pulling force）Power, easily produces fracture, this practicality New use locating rod and the reverse mounting means of spindle main body so that the antifatigue degree of mobile jib is greatly increased.

6. upper shift fork uses aluminium alloy, vibrating effect when playing alleviation whole spindle high-speed cruising.

7. the graphite copper sheathing of self-lubricating has been inlayed at bobbin two ends so that bobbin rotates more smooth, and noiselessness, tension force is more steady It is fixed.

8. the utility model uses integral type directive wheel so that directive wheel rotates more smooth.

Brief description of the drawings

Fig. 1 is spindle body construction schematic diagram of the present utility model,

Fig. 2 is bobbin structure schematic diagram of the present utility model,

Fig. 3 is payingoff mechanism structural decomposition diagram of the present utility model,

Reference numerals list：1-ingot main body, 2-1-polished rod I, 2-2-polished rod II, 2-3-polished rod III, 3-directive wheel Fixed block, 4-directive wheel bearing, 5-directive wheel, 6-upper shift fork, 7-polished rod fixed block, 8-limited screw, 9-it is oriented to branch Frame, 10-universal bearing, 11-locating rod, 12-apical axis, 13-apical axis spring, 14-apical axis screw, 15-apical axis set, 16- Stop nut, 17-lower shift fork, 18-polished rod nylon jacket, 19-ingot butt seat, 20-spring long, 21-bobbin, 22-base, 23-flange steel bushing, 24-needle bearing, 25-pin, 26-rotating shaft dop, 27-graphite copper sheathing, 28-Rotary Connection block, 29-Rectangular Section Spring, cutting ferrule on 30-spring, 31-rotating shaft, cutting ferrule under 32-spring, 33-slide small axle, 34-axle Pin.

Specific embodiment

With reference to the accompanying drawings and detailed description, the utility model is further elucidated.It should be understood that following specific embodiment parties Formula is merely to illustrate the utility model rather than limits scope of the present utility model.

This wire knitting machine spindle, including payingoff mechanism, bobbin 21 and spindle body, the bobbin 21 are wound with steel wire, The payingoff mechanism and bobbin 21 are arranged on spindle body, are advised the steel wire on bobbin 21 by payingoff mechanism and spindle body Rule unwrapping wire.

Fig. 1 is spindle body construction schematic diagram of the present utility model, visible with reference to accompanying drawing, and the spindle body includes ingot butt Seat 19 and ingot main body 1, the ingot main body 1 are arranged on above ingot butt seat 19, and the top of the ingot main body 1 is provided with the 2-1 of polished rod I, light The 2-2 of bar II, the 2-3 of polished rod II, lower shift fork 17 and upper shift fork 6, the 2-1 of the polished rod I, the 2-2 of polished rod II and the 2-3 of polished rod II with Ingot main body 1 is vertically fixed, and the lower shift fork 17 penetrates the 2-1 of the polished rod I and 2-2 of polished rod II, and the lower shift fork 17 can be in light Moved on the 2-1 of bar I and the 2-2 of polished rod II, the lower shift fork 17 is provided with two directive wheels 5, and the lower shift fork 17 is near ingot master Body 1, is provided with polished rod nylon jacket 18 between the lower shift fork 17 and ingot main body 1, the upper surface of the lower shift fork 17 is provided with vertically The set screw for extending out upward, the set screw is threaded with stop nut 16.

The upper shift fork 6 penetrates the 2-1 of polished rod I, the 2-2 of polished rod II and the 2-3 of polished rod II, and the upper shift fork 6 is provided with top Go out mechanism, the ejecting mechanism includes that apical axis 12, apical axis pad, apical axis spring 13, apical axis cover 15 and apical axis screw 14, the top Go out vertical direction of the mechanism positioned at set screw, the apical axis 12 penetrates upper shift fork 6, and the top of the apical axis 12 extends to The top of shift fork 6, and it is in cone shape to set, the bottom of the apical axis 12 extends to the lower section of upper shift fork 6, and is provided with apical axis Set 15, the apical axis 12 is passed through from apical axis spring 13, and the apical axis spring 13 is arranged between apical axis set 15 and upper shift fork 6, The apical axis pad is located between upper shift fork 6 and apical axis spring 13.

The upper shift fork 6 is provided with two directive wheels 5, and guiding trestle 9, the guiding are provided between two directive wheels 5 The upper end of support 9 is provided with universal bearing 10.

Spring long 20 is provided through in the middle part of the 2-2 of the polished rod II, the spring long 20 is located at upper shift fork 6 and sets aside Between fork 17, the top of the 2-2 of the polished rod II is provided with locating rod 11, and the locating rod 11 is located at the top of upper shift fork 6.

Directive wheel fixed block 3 is provided with the ingot main body 1, a directive wheel is provided with the directive wheel fixed block 3 5.All of directive wheel 5 is connected by directive wheel bearing 4 with corresponding part.

Fig. 2 is the structural representation of bobbin of the present utility model 21, visible with reference to accompanying drawing, and the two ends of the bobbin 21 have been inlayed from profit Sliding graphite copper sheathing 27.The middle part of bobbin 21 is used for winding steel wire line.The bobbin 21 is arranged in locating rod 11, the bobbin 21 one end is fixed to ingot main body 1, and the other end is fixed by locating rod 11, and the steel wire on the bobbin 21 passes through universal bearing 10 Endoporus, and sequentially pass through five directive wheels 5.

The upper shift fork 6 respectively by polished rod fixed block 7 and limited screw 8 be fixed on the 2-1 of polished rod I, the 2-2 of polished rod II and On the 2-3 of polished rod II.

Fig. 3 is payingoff mechanism structural decomposition diagram of the present utility model, the payingoff mechanism from torsion spring type friction from Clutch, it is visible with reference to accompanying drawing, torsion spring type friction clutch include stand, rotating shaft 31, rotating shaft dop 26, Rectangular Section Spring 29, Cutting ferrule 32 under cutting ferrule 30, spring, graphite copper sheathing 27 and small axle 33 is slided on spring, the rotating shaft 31 is screwed in stand On；Cutting ferrule 32 is fixed in rotating shaft 31 by the thrust screw of side two under spring, the projection section of rotating shaft 31 insertion rotating shaft dop In 26, the lower end of rotating shaft dop 26 is enclosed within the upper end of Rectangular Section Spring 29, and the vertical jag of Rectangular Section Spring 29 is inserted in bullet In the embedded groove of spring lower clamp set 32, on the horizontal jag insertion spring of Rectangular Section Spring 29 in the embedded groove of cutting ferrule 30, stone In the insertion rotating shaft dop of black copper sheathing 27, it is secured to by the Rotary Connection block 28 on rotating shaft dop, slides small axle 33 and pass through axle Pin 34 is arranged in stand, and the inside is provided with back-moving spring, and the sidepiece of cutting ferrule 30 is provided with by pin 25 on the spring Needle bearing 24.

The payingoff mechanism select torsion spring type friction clutch, including stand, rotating shaft, rotating shaft dop, Rectangular Section Spring, Cutting ferrule under cutting ferrule, spring, graphite copper sheathing and small axle is slided on spring, the rotating shaft is screwed on stand；Under spring Cutting ferrule is fixed in rotating shaft by the thrust screw of side two, in rotating shaft projection section insertion rotating shaft dop, rotating shaft dop lower end It is enclosed within the upper end of Rectangular Section Spring, the vertical jag of Rectangular Section Spring is inserted under spring in the embedded groove of cutting ferrule, rectangle On the horizontal jag insertion spring of section spring in the embedded groove of cutting ferrule, in graphite copper sheathing insertion rotating shaft dop, by rotating shaft Rotary Connection block on dop is secured to, and slides small axle and is arranged in stand by pivot pin, and the inside is provided with back-moving spring, The sidepiece of cutting ferrule is provided with needle bearing by pin on the spring.

Torsion spring type friction clutch, rotating shaft dop lower end is enclosed within the upper end of Rectangular Section Spring, and Rectangular Section Spring hangs down Straight jag is inserted under spring in cutting ferrule embedded groove, on horizontal jag insertion spring in cutting ferrule embedded groove.Rotating shaft projection section In embedded rotating shaft dop, it is coated uniform that Rectangular Section Spring is connected guarantee Rectangular Spring with rotating shaft；Rotating shaft be screwed in On base 22；Cutting ferrule is fixed in rotating shaft by the thrust screw of side two under spring, and its installation site is according to actual needs It is adjusted；Under graphite copper sheathing insertion spring in cutting ferrule, due to ensureing stability of rotation using the graphite copper sheathing with self-lubricating；It is sliding Small axle is moved to be arranged in base 22 by pivot pin, and the inside is provided with back-moving spring, the pressure small axle of slip is pushed outside and is inwardly transported Employ in stationary positioned bar；The conical surface contact of needle bearing and apical axis.Flange steel bushing 23 is embedded in the trough of base correspondence position In.

After the payingoff mechanism and spindle body are installed, the needle bearing 24 of the payingoff mechanism and the apical axis of spindle body 12 conical surface contact, the small axle 33 of slip of payingoff mechanism can under external force move the locating rod 11 of fixed spindle body.

The upper shift fork 6 selects aluminum alloy material.Shaken when alleviating whole spindle high-speed cruising.

Technological means disclosed in the utility model scheme is not limited only to the technological means disclosed in above-mentioned technological means, also Including being combined constituted technical scheme by above technical characteristic.

With above-mentioned according to desirable embodiment of the present utility model as enlightenment, by above-mentioned description, related work people Member can carry out various changes and amendments in the range of without departing from this utility model technological thought completely.This reality The content on specification is not limited to new technical scope, it is necessary to its technology is determined according to right Property scope.

Claims (7)

1. wire knitting machine spindle, it is characterized in that including payingoff mechanism, bobbin and spindle body, the bobbin is wound with steel wire, The payingoff mechanism and bobbin are arranged on spindle body, are put the steel wire rule on bobbin by payingoff mechanism and spindle body Line,

The spindle body includes ingot butt seat and ingot main body, and the ingot main body is arranged on ingot submounts, the ingot main body top It is provided with polished rod I, polished rod II, polished rod III, lower shift fork and upper shift fork, the polished rod I, polished rod II and polished rod III and ingot body normal Fixed, the lower shift fork penetrates polished rod I and polished rod II, and the lower shift fork can be moved on polished rod I and polished rod II, it is described under Shift fork is provided with two directive wheels, and the lower shift fork is provided with polished rod Buddhist nun near ingot main body between the lower shift fork and ingot main body The actor playing a supporting role, the lower shift fork upper surface is provided with the set screw for extending out upward vertically, and the set screw connects limited location Nut,

The upper shift fork penetrates polished rod I, polished rod II and polished rod III, and the upper shift fork is provided with ejecting mechanism, the ejector Structure includes apical axis, apical axis pad, apical axis spring, apical axis set and apical axis screw, and the ejecting mechanism is located at the vertical of set screw Top, the apical axis penetrates upper shift fork, and the top of the apical axis extends to the top of upper shift fork, and it is in cone shape to set, The bottom of the apical axis extends to the lower section of upper shift fork, and is provided with apical axis set, and the apical axis is passed through from apical axis spring, described Apical axis spring is arranged between apical axis set and upper shift fork, and the apical axis pad is located between upper shift fork and apical axis spring,

The upper shift fork is provided with two directive wheels, is provided with guiding trestle between two directive wheels, the guiding trestle it is upper End is provided with universal bearing,

The middle part of the polished rod II is provided through spring long, and the spring long is located between upper shift fork and lower shift fork, the light Bar I, the top of polished rod III are provided with polished rod fixed block, and the polished rod fixed block is located at the top of upper shift fork,

Directive wheel fixed block is provided with the ingot main body, a directive wheel is provided with the directive wheel fixed block.

2. wire knitting machine spindle according to claim 1, it is characterized in that the bobbin is installed through in locating rod, institute One end of bobbin and the prominent plane contact of locating rod are stated, the other end is fixed on payingoff mechanism on the securing lever, the bobbin On steel wire bypass polished rod III, and sequentially pass through five directive wheels, eventually pass through the endoporus of universal bearing.

3. wire knitting machine spindle according to claim 2, it is characterized in that the upper shift fork passes through polished rod fixed block respectively It is fixed on polished rod I, polished rod II and polished rod III with limited screw.

4. wire knitting machine spindle according to claim 3, it is characterized in that the payingoff mechanism from torsion spring type friction from Clutch, including stand, rotating shaft, rotating shaft dop, Rectangular Section Spring, cutting ferrule, graphite copper sheathing and slip under cutting ferrule, spring on spring Small axle, the rotating shaft is screwed on stand；Cutting ferrule is fixed in rotating shaft by the thrust screw of side two under spring, In rotating shaft projection section insertion rotating shaft dop, rotating shaft dop lower end is enclosed within the upper end of Rectangular Section Spring, Rectangular Section Spring Vertical jag is inserted under spring in the embedded groove of cutting ferrule, and cutting ferrule is embedding on the horizontal jag insertion spring of Rectangular Section Spring Enter in groove, in graphite copper sheathing insertion rotating shaft dop, be secured to by the Rotary Connection block on rotating shaft dop, slide small axle and pass through Pivot pin is arranged in stand, and the inside is provided with back-moving spring, and the sidepiece of cutting ferrule is provided with needle roller by pin on the spring Bearing.

5. wire knitting machine spindle according to claim 4, it is characterized in that after the payingoff mechanism is installed with spindle body, The conical surface contact of the needle bearing of the payingoff mechanism and the apical axis of spindle body, the small axle of slip of payingoff mechanism can be in spring It is fixed in the groove of the locating rod of spindle body under restoring force effect.

6. wire knitting machine spindle according to claim 1, it is characterized in that the graphite of self-lubricating has been inlayed at the bobbin two ends Copper sheathing.

7. wire knitting machine spindle according to claim 1, it is characterized in that the upper shift fork selects aluminum alloy material.