CN208917440U - The interval yarn sley bar swing type electronic traversing device of super large gauge tricot machine - Google Patents

Abstract

The utility model relates to a kind of interval yarn sley bar swing type electronic traversing devices of super large gauge tricot machine, belong to tricot machine technical field.The connection that traversing cover for seat is set to traversing balance staff and can be driven with traversing balance staff, the output end of electric cylinder is connected with transmission component, sley bar swinging axle and traversing balance staff are coaxially disposed, multiple interval yarn sley bar swing arms are sheathed on the outside of sley bar swinging axle, the connection that the swing arm of interval yarn sley bar and sley bar swinging axle can be driven, interval yarn sley bar close to traversing seat is connected with sley bar top headstock, and sley bar top headstock is connect with transmission component by push rod component and tension spring component；The connection that servo-drive component can be driven with traversing balance staff and sley bar swinging axle respectively.The interval yarn sley bar swing type electronic traversing device of super large gauge tricot machine, structure is simple, and high-accuracy synchronous belt is conveyed, high transmission accuracy, electronics horizontal movement and interval yarn sley bar synchronous hunting, traversing displacement accuracy are high, it reduces machine-spoiled rate, reduce dropped stitch, improve woven product quality.

Description

The interval yarn sley bar swing type electronic traversing device of super large gauge tricot machine

Technical field

The utility model relates to tricot machine technical fields, in particular to a kind of interval yarn of super large gauge tricot machine Sley bar swing type electronic traversing device.

Background technique

In the electronic traversing device of existing tricot machine, the traversing pedestal of electronics horizontal movement is all mounted in the fixation on fuel tank Form, the tricot machine that this electronics horizontal movement form can only be used to certain gauge (close setting) use, and there are limitations.

As the lopping gauge of tricot machine increases, the swing displacement of interval yarn sley bar is consequently increased, and interval yarn sley bar Corresponding traversing seat set it is fixed, by mandril with sley bar swing and drift angle constantly increase, after guide bar shogging, will lead to guide Needle moves needle inaccuracy, scrapes yarn or latch needles, cause yarn can not lopping, or even damage latch needles or sley point.

Utility model content

The purpose of this utility model is that in view of the above-mentioned problems, providing a kind of interval yarn sley bar pendulum of super large gauge tricot machine Dynamic formula electronic traversing device, structure is simple, and function is easy, and high-accuracy synchronous belt is conveyed, high transmission accuracy, electronics horizontal movement and interval Yarn sley bar synchronous hunting, traversing displacement accuracy is high, reduces machine-spoiled rate, reduces dropped stitch, improves woven product quality, make The above problem is improved.

The utility model is realized in this way:

The embodiments of the present invention provide a kind of interval yarn sley bar swing type electronics horizontal movement of super large gauge tricot machine Device, including crossbeam, the multiple oscillating shaft seats for being installed on the crossbeam lower end, transverse-moving mechanism, sley bar bindiny mechanism and servo-drive Component, multiple oscillating shaft seats are arranged along the length direction interval of the crossbeam；

The transverse-moving mechanism includes mobilizable traversing balance staff for being arranged in the oscillating shaft seat, is sheathed on the traversing balance staff Traversing seat, traversing servo motor is installed electric cylinder, slidably connect with the traversing seat transmission component, with it is described The push rod component and tension spring component of transmission component connection, the traversing balance staff are arranged along the length direction of the crossbeam, the cross The connection that seat and the traversing balance staff can be driven is moved, the electric cylinder is installed on the knock-pin of the traversing seat and the electric cylinder It is removably connect with the transmission component；

The sley bar bindiny mechanism and the transverse-moving mechanism are arranged along the length direction interval of the crossbeam, and the sley bar connects Connection mechanism includes mobilizable sley bar swinging axle for being arranged in the oscillating shaft seat, the multiple intervals for being sheathed on the sley bar swinging axle The swing arm of yarn sley bar, be installed on the interval yarn sley bar swing arm downside interval yarn sley bar and sley bar top headstock, the sley bar Swinging axle and the traversing balance staff are coaxially disposed, the connection that the interval yarn sley bar swing arm can be driven with the sley bar swinging axle, It is connected with sley bar top headstock close to the interval yarn sley bar of the traversing seat, the sley bar top headstock and the transmission component are logical It crosses the push rod component to connect with the tension spring component, the electric cylinder is able to drive the transmission component along the traversing balance staff It is mobile axially with respect to the traversing seat so that axial movement of the sley bar top headstock along the sley bar swinging axle；

The connection that the servo-drive component can be driven with the traversing balance staff and the sley bar swinging axle respectively, it is described to watch Take driving assembly and be able to drive the traversing balance staff and the sley bar swinging axle and rotate synchronously so that the traversing seat and it is described between Every yarn sley bar synchronous hunting.

In the utility model optional embodiment, the servo-drive component includes reducer pedestal, is equipped with servo electricity The first speed reducer and the second speed reducer of machine, first speed reducer and second speed reducer are located at the length of the crossbeam The both ends in direction are spent, the reducer pedestal is correspondingly arranged with the transverse-moving mechanism, and the reducer pedestal and the crossbeam are detachable Connection, first speed reducer is installed on the reducer pedestal, and it is same that the output end of first speed reducer is equipped with first One end far from the sley bar bindiny mechanism of step wheel, the traversing balance staff is provided with the second synchronizing wheel, first synchronizing wheel The connection rotated synchronously with second synchronizing wheel by synchronous belt, second speed reducer are installed on the support base of the crossbeam On, the connection that the output end of second speed reducer and the sley bar swinging axle can be driven, second speed reducer and described the One speed reducer rotates synchronously, so that the interval yarn sley bar and the traversing seat rotate synchronously.

In the utility model optional embodiment, the traversing seat includes bottom plate and two side plates, two side plates Axially spaced-apart along the traversing balance staff is set on the bottom plate, and the side plate is connect with the bottom plate, the traversing balance staff The connection that is arranged in two side plates and can be driven with two side plates, the electric cylinder is installed on to be connected far from the sley bar On the side plate of connection mechanism, the knock-pin of the electric cylinder is arranged in the side plate of the electric cylinder installation and can be along institute The axial movement of traversing balance staff is stated, the transmission component is slidably arranged in another side plate.

In the utility model optional embodiment, the side plate is offered for first with the traversing balance staff cooperation Groove, the traversing balance staff are arranged in first groove, and the side plate can by breathing out not latch segment and the traversing balance staff The connection of transmission.

In the utility model optional embodiment, not latch segment offers corresponding with first groove for the Kazakhstan Two grooves, first groove and second groove are half slot, and not latch segment cover is buckled in the traversing balance staff for the Kazakhstan Outside, not latch segment and the side plate pass through bolt and removably connect for the Kazakhstan, so that being arranged of being driven of the side plate In on the traversing balance staff.

In the utility model optional embodiment, two side plates are respectively the first side plate and the second side plate, described For second side plate relative to first side plate close to the sley bar bindiny mechanism, the electric cylinder and first side plate are detachable Connection, the traversing servo motor be located at the electric cylinder far from first side plate one end and with the electric cylinder connect It connects, the knock-pin of the electric cylinder is arranged in first side plate and can be along the traversing balance staff axially adjacent to or far from institute State the second side plate.

In the utility model optional embodiment, the transmission component includes the first mandril, the second mandril, fixture block and cross Top headstock is moved, second side plate offers and the corresponding first through hole of first mandril and corresponding with the second mandril second One end of through-hole, first mandril is removably connect with the knock-pin of the electric cylinder, the other end of first mandril It being slidably arranged in the first through hole, second mandril is slidably arranged in second through-hole, and described One end close to the first side plate of two mandrils is connect with the first mandril by the fixture block, the other end of second mandril and institute The first mandril is stated by the traversing top headstock connection, the fixture block between first side plate and second side plate, The traversing top headstock is located at the side far from first side plate of second side plate, the tension spring component and the mandril Component is connect with the traversing top headstock respectively.

In the utility model optional embodiment, the one side far from second side plate of the traversing top headstock is installed There is the first heading for connecting with the push rod component, first heading is removably connect with the traversing top headstock, The side close to second side plate of the sley bar top headstock is equipped with the second heading corresponding with first heading, described Second heading is removably connect with the sley bar top headstock, and the both ends of the push rod component are headed a ball respectively with described first and institute It is hinged to state the second heading.

In the utility model optional embodiment, first heading includes first connecting rod and the first bulb, described One end of first connecting rod is connect with first bulb, and the circumferential direction of the first connecting rod is provided with thread segment, and described first One end far from first bulb of connecting rod is threadedly coupled with second mandril for being installed on the traversing top headstock, institute It states the first bulb and the push rod component is hinged；

Second heading includes the second connecting rod and the second bulb, one end of second connecting rod and second ball Head connection, the circumferential direction of second connecting rod are provided with thread segment, one far from second bulb of second connecting rod End is threadedly coupled with the sley bar top headstock, and second bulb and the push rod component are hinged.

In the utility model optional embodiment, the one side far from second side plate of the traversing top headstock is also pacified Equipped with the first drag hook for connecting with the tension spring component, first drag hook is threadedly coupled with the traversing top headstock, institute The opening of the first drag hook is stated towards the crossbeam, the side close to second side plate of the sley bar top headstock is also equipped with use In the second drag hook corresponding with first drag hook, second drag hook is threadedly coupled with the sley bar top headstock, and described second Towards the crossbeam, the tension spring component is used to respectively head a ball at the both ends of the push rod component with described first the opening of drag hook With the close connection of the second heading.

Compared with prior art, the utility model has the following beneficial effects:

The interval yarn sley bar swing type electronic traversing device of the super large gauge tricot machine, structure is simple, and function is easy, high-precision Close synchronous belt is conveyed, high transmission accuracy, and electronics horizontal movement and interval yarn sley bar synchronous hunting, traversing displacement accuracy is high, reduces machine Failure rate reduces dropped stitch, improves woven product quality.

Detailed description of the invention

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.

Fig. 1 is that the interval yarn sley bar swing type electronics horizontal movement of super large gauge tricot machine provided by the embodiment of the utility model fills The structural schematic diagram set；

Fig. 2 is the structural schematic diagram of the transverse-moving mechanism of Fig. 1；

Fig. 3 is side plate and the installation diagram for breathing out not latch segment；

Fig. 4 is the structural schematic diagram for breathing out not latch segment；

Fig. 5 is enlarged drawing at the A of Fig. 2；

Fig. 6 is enlarged drawing at the B of Fig. 2.

Icon: the interval yarn sley bar swing type electronic traversing device of 100- super large gauge tricot machine；1- crossbeam；2- balance staff Seat；3- transverse-moving mechanism；The traversing balance staff of 31-；The traversing seat of 32-；321- bottom plate；The first groove of 322-；The first side plate of 323-；324- Two side plates；325- first through hole；The second through-hole of 326-；33- electric cylinder；34- transmission component；The first mandril of 341-；342- second Mandril；343- fixture block；The traversing top headstock of 345-；346- first heads a ball；347- first connecting rod；The first bulb of 348-；349- One drag hook；35- push rod component；36- tension spring component；37- breathes out not latch segment；The second groove of 371-；4- sley bar bindiny mechanism；41- Sley bar swinging axle；42- interval yarn sley bar swing arm；43- interval yarn sley bar；44- sley bar top headstock；441- second heads a ball；442- Two connecting rods；The second bulb of 443-；The second drag hook of 444-；5- servo-drive component；51- reducer pedestal；The first speed reducer of 52-； The second speed reducer of 53-；The first synchronizing wheel of 54-；The second synchronizing wheel of 55-；56- synchronous belt.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Usually here in attached drawing description and The component of the utility model embodiment shown can be arranged and be designed with a variety of different configurations.

Therefore, requirement is not intended to limit to the detailed description of the embodiments of the present invention provided in the accompanying drawings below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Based in the utility model Embodiment, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, all Belong to the range of the utility model protection.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.

In the description of the present invention, it should be noted that the orientation or positional relationship of the instructions such as term "inner", "outside" For be based on the orientation or positional relationship shown in the drawings or the utility model product using when the orientation or position usually put Relationship is merely for convenience of describing the present invention and simplifying the description, rather than the device or element of indication or suggestion meaning must There must be specific orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.This Outside, term " first ", " second " etc. are only used for distinguishing description, are not understood to indicate or imply relative importance.

In the description of the present invention, it should also be noted that, unless otherwise clearly defined and limited, term " is set Set ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in utility model.

Embodiment

Fig. 1 is please referred to, the present embodiment provides a kind of interval yarn sley bar swing type electronics horizontal movement of super large gauge tricot machine dresses Set 100, including crossbeam 1, multiple oscillating shaft seats 2, transverse-moving mechanism 3, sley bar bindiny mechanism 4 and servo-drive component 5.

In the present embodiment, multiple oscillating shaft seats 2 are arranged at intervals at the lower end of crossbeam 1 along the length direction interval of crossbeam 1, and It is connect with crossbeam 1；Transverse-moving mechanism 3 include the movable traversing balance staff 31 for being arranged in oscillating shaft seat 2, be sheathed on traversing balance staff 31 and with The traversing seat 32 for the connection that traversing balance staff 31 can be driven, the electric cylinder 33 for being equipped with traversing servo motor can be slided with traversing seat 32 The transmission component 34 of dynamic connection, the push rod component 35 connecting with transmission component 34 and tension spring component 36, traversing balance staff 31 is along cross The length direction of beam 1 is arranged, and traversing balance staff 31 can be rotated relative to oscillating shaft seat 2, and electric cylinder 33 is pacified along the length direction of crossbeam 1 Loaded on traversing seat 32, and the knock-pin of electric cylinder 33 is removably connect with transmission component 34, and electric cylinder 33 is able to drive biography Dynamic component 34 is moved along the length direction of crossbeam 1；Sley bar bindiny mechanism 4 includes mobilizable sley bar pendulum for being arranged in oscillating shaft seat 2 Moving axis 41, be sheathed on sley bar swinging axle 41 and can be driven with sley bar swinging axle 41 the multiple interval yarn sley bar swing arms 42 connecting, It is installed on the interval yarn sley bar 43 and sley bar top headstock 44 of the downside of interval yarn sley bar swing arm 42, sley bar swinging axle 41 and cross It moves balance staff 31 to be coaxially disposed, sley bar swinging axle 41 is rotatably connect with oscillating shaft seat 2, and sley bar top headstock 44 and transmission component 34 are logical It crosses push rod component 35 and tension spring component 36 connects, the energization of electric cylinder 33 is able to drive transmission component 34 along the axial direction of traversing balance staff 31 It is mobile relative to traversing seat 32, so that axial movement of the sley bar top headstock 44 along sley bar swinging axle 41；Servo-drive component 5 is distinguished The connection that can be driven with traversing balance staff 31 and sley bar swinging axle 41, servo-drive component 5 are able to drive traversing balance staff 31 and sley bar Swinging axle 41 rotates synchronously, so that 43 synchronous hunting of traversing seat 32 and interval yarn sley bar.

Below to the tool of all parts of the interval yarn sley bar swing type electronic traversing device 100 of the super large gauge tricot machine Body structure and mutual positional relationship are described in detail.

In the present embodiment, crossbeam 1 is set up on support base, and crossbeam 1 has certain length, plays the work of supporting bridge With.

As shown in Figure 1, the lower end of crossbeam 1 is provided with the spaced oscillating shaft seat 2 of multiple length directions along crossbeam 1, Oscillating shaft seat 2 is connect with crossbeam 1, and oscillating shaft seat 2 is for wearing traversing balance staff 31 or sley bar swinging axle 41.In order to guarantee oscillating shaft seat 2 with The bonding strength of crossbeam 1, oscillating shaft seat 2 and crossbeam 1 weld, and support transverse-moving mechanism 3 or sley bar bindiny mechanism 4 convenient for oscillating shaft seat 2.? In the other embodiments of the utility model, oscillating shaft seat 2 can also be to be threadedly coupled with the connection type of crossbeam 1, and user can To choose different connection types according to the actual situation.

In the present embodiment, as depicted in figs. 1 and 2, transverse-moving mechanism 3 includes traversing balance staff 31, traversing seat 32, electric cylinder 33, transmission component 34, push rod component 35 and tension spring component 36.Traversing balance staff 31 is arranged along the length direction of crossbeam 1, traversing balance staff 31 are arranged at least two oscillating shaft seats 2, and rotatably connect with oscillating shaft seat 2, and traversing balance staff 31 can be relative to oscillating shaft seat 2 Rotation.Traversing seat 32 is sheathed on the outside of traversing balance staff 31, and the connection that can be driven with traversing balance staff 31, can follow traversing pendulum Axis 31 is rotated relative to oscillating shaft seat 2.Electric cylinder 33 has traversing servo motor, can control the expansion of the knock-pin of electric cylinder 33 Or shrink, electric cylinder 33 is mounted at traversing seat 32, and the knock-pin of electric cylinder 33 prolongs along the length direction of crossbeam 1 It stretches, the knock-pin of electric cylinder 33 is removably connect with transmission component 34.Transmission component 34 is slidably connect with traversing seat 32, One end of the separate electric cylinder 33 of transmission component 34 is connected with push rod component 35 and tension spring component 36.Electric cylinder 33 is powered, ejection Bar is able to drive transmission component 34 and moves along the length direction of crossbeam 1 relative to traversing seat 32.

Specifically, traversing seat 32 includes bottom plate 321 and two side plates, axial direction (crossbeam 1 of two side plates along traversing balance staff 31 Length direction) be arranged at intervals on bottom plate 321, side plate is connect with bottom plate 321, and bottom plate 321 plays connecting bridge beam action；It is horizontal It moves balance staff 31 and is arranged in two side plates, and the connection that can be driven with two side plates, traversing balance staff 31 is rotated relative to oscillating shaft seat 2 When, side plate can be followed to be rotated with traversing balance staff 31.Electric cylinder 33 is installed on one of side plate (far from sley bar bindiny mechanism 4 Side plate, sley bar bindiny mechanism 4 and transverse-moving mechanism 3 are arranged along the length direction interval of crossbeam 1) on, the knock-pin of electric cylinder 33 It is arranged in the side plate of the installation of electric cylinder 33 and another side can be arranged in along the axial movement of traversing balance staff 31, transmission component 34 Plate.

Further, as shown in figure 3, side plate offers the first groove 322 for cooperating with traversing balance staff 31, traversing pendulum Axis 31 is arranged in the first groove 322, the connection that side plate can be driven by breathing out not latch segment 37 and traversing balance staff 31.It is equivalent to, Not latch segment 37 removably connect and fixes traversing balance staff 31 side plate with Kazakhstan, and side plate is enabled to follow traversing 31 phase of balance staff Oscillating shaft seat 2 is rotated.Specific embodiment is as shown in Figure 3 and Figure 4, to breathe out not latch segment 37 and offer and the first groove 322 Corresponding second groove 371, the first groove 322 and the second groove 371 are half slot, breathe out the not cover of latch segment 37 and are buckled in traversing pendulum The outside of axis 31, breathes out not latch segment 37 and side plate and passes through bolt and removably connect, so that being sheathed on of being driven of side plate is traversing On balance staff 31.The setting for breathing out not latch segment 37 improves installation effectiveness convenient for the Assembly And Disassembly of side plate and traversing balance staff 31.

As shown in Fig. 2, two side plates are respectively the first side plate 323 and the second side plate 324, the second side plate 324 is relative to Side plate 323 is removably connect close to sley bar bindiny mechanism 4, electric cylinder 33 with the first side plate 323, and traversing servo motor is located at One end far from the first side plate 323 of electric cylinder 33, and connect with electric cylinder 33；Knock-pin the second side plate of direction of electric cylinder 33 324 settings, the knock-pin of electric cylinder 33 be arranged in the first side plate 323 and can along traversing balance staff 31 axially adjacent to or separate the Two side plates 324.

Transmission component 34 includes the first mandril 341, the second mandril 342, fixture block 343 and traversing top headstock 345, the second side plate 324 offer and the corresponding first through hole 325 of the first mandril 341 and second through-hole 326 corresponding with the second mandril 342, and first One end of mandril 341 is removably connect with the knock-pin of electric cylinder 33, and the other end of the first mandril 341 is slidably arranged in In first through hole 325；Second mandril 342 is slidably arranged in the second through-hole 326, close first side of the second mandril 342 One end of plate 323 is connect with the first mandril 341 by fixture block 343, and the other end of the second mandril 342 passes through with the first mandril 341 Traversing top headstock 345 connects, and fixture block 343 is positioned at the first side plate 323 and the second side plate 324 between, and traversing top headstock 345 is positioned at the The side far from the first side plate 323 of two side plates 324.Tension spring component 36 and push rod component 35 connect with traversing top headstock 345 respectively It connects, and is located at the side far from the second side plate 324 of traversing top headstock 345.

In the present embodiment, sley bar bindiny mechanism 4 and transverse-moving mechanism 3 are arranged along the length direction interval of crossbeam 1, and sley bar connects Connection mechanism 4 includes sley bar swinging axle 41, multiple interval yarn sley bar swing arms 42, interval yarn sley bar 43 and sley bar top headstock 44.Sley bar Swinging axle 41 and traversing balance staff 31 are coaxially disposed, and multiple interval yarn sley bar swing arms 42 are set along the axially spaced-apart of sley bar swinging axle 41 It sets, interval yarn sley bar swing arm 42 is sheathed on the outside of sley bar swinging axle 41, and the connection that can be driven with sley bar swinging axle 41；Interval Yarn sley bar 43 is installed on the downside of interval yarn sley bar swing arm 42, is connected with sley bar top close to the interval yarn sley bar 43 of traversing seat 32 Seat 44, sley bar top headstock 44 are connect with transmission component 34 by push rod component 35 and tension spring component 36, and the energization of electric cylinder 33 can The moving axially with respect to traversing seat 32 along traversing balance staff 31 of transmission component 34 is driven, so that interval yarn sley bar 43 is along traversing swing The axial movement of axis so that whole interval yarn sley bar 43 be driven to be moved forward or rearward, and then drives sley point along electronic The direction of motion of the knock-pin of cylinder 33 is mobile to head movement or to tail, meets the sley point on interval yarn sley bar 43 By the traversing requirement of lopping technique.

Specifically, be equipped on one side for being connect with push rod component 35 far from the second side plate 324 of traversing top headstock 345 The first heading 346, the first heading 346 removably connect with traversing top headstock 345, close second side of sley bar top headstock 44 The side of plate 324 is equipped with second heading 441 corresponding with the first heading 346, and the second heading 441 is removable with sley bar top headstock 44 The connection unloaded, the both ends of push rod component 35 are hinged with the first heading 346 and the second heading 441 respectively.Push rod component 35 is existing Technology, the connection in common-use words tricot machine with interval yarn sley bar 43, specific structure and principle the present embodiment do not describe in detail, Please refer to the push rod component 35 of the prior art.

As shown in figure 5, first heading 346 include first connecting rod 347 and the first bulb 348, the one of first connecting rod 347 End is connect with the first bulb 348, and the circumferential direction of first connecting rod 347 is provided with thread segment, separate first ball of first connecting rod 347 First 348 one end is threadedly coupled with the second mandril 342 for being installed on traversing top headstock 345, the first bulb 348 and push rod component 35 Hingedly；As shown in fig. 6, the second heading 441 includes the second connecting rod 442 and the second bulb 443, one end of the second connecting rod 442 It is connect with the second bulb 443, the circumferential direction of the second connecting rod 442 is provided with thread segment, separate second bulb of the second connecting rod 442 443 one end is threadedly coupled with sley bar top headstock 44, and the second bulb 443 and push rod component 35 are hinged.

The be also equipped on one side for being connect with tension spring component 36 far from the second side plate 324 of traversing top headstock 345 One drag hook 349, the first drag hook 349 are threadedly coupled with traversing top headstock 345, are convenient for Assembly And Disassembly；The opening of first drag hook 349 Towards crossbeam 1, prevent tension spring component 36 from separating with the first drag hook 349.The side close to the second side plate 324 of sley bar top headstock 44 It being also equipped with for second drag hook 444 corresponding with the first drag hook 349, the second drag hook 444 is threadedly coupled with sley bar top headstock 44, Convenient for Assembly And Disassembly；The opening of second drag hook 444 prevents tension spring component 36 from separating with the second drag hook 444 towards crossbeam 1.It draws Spring component 36 is used to for closely connecting with the first top and the second heading 441 respectively at the both ends of push rod component 35, guarantees the first top The connective stability of the connective stability or the second heading 441 and push rod component 35 of ball 346 and push rod component 35.

In the present embodiment, the connection that servo-drive component 5 can be driven with traversing balance staff 31 and sley bar swinging axle 41 respectively, Servo-drive component 5 is able to drive traversing balance staff 31 and sley bar swinging axle 41 rotates synchronously, so that traversing seat 32 and interval yarn comb 43 synchronous hunting of comb.

Specifically, servo-drive component 5 includes reducer pedestal 51, the first speed reducer 52 and second for being equipped with servo motor Speed reducer 53, the first speed reducer 52 and the second speed reducer 53 are located at the both ends of the length direction of crossbeam 1.Reducer pedestal 51 with Transverse-moving mechanism 3 is correspondingly arranged, and reducer pedestal 51 is removably connect with crossbeam 1, and the first speed reducer 52 is installed on reducer pedestal 51 On, the output end of the first speed reducer 52 is equipped with the first synchronizing wheel 54, one end of the separate sley bar bindiny mechanism 4 of traversing balance staff 31 It is provided with the second synchronizing wheel 55, the first synchronizing wheel 54 and the second synchronizing wheel 55 pass through the connection that synchronous belt 56 rotates synchronously.Second Speed reducer 53 is installed on the support base of crossbeam 1, the connection that the output end and sley bar swinging axle 41 of the second speed reducer 53 can be driven (being connected by shaft coupling), the second speed reducer 53 and the first speed reducer 52 rotate synchronously, so that interval yarn sley bar 43 and traversing seat 32 rotate synchronously.In the initial state, traversing seat 32 is located at identical initial position with interval yarn sley bar 43, in the first speed reducer 52 and second speed reducer 53 be powered simultaneously after, the first speed reducer 52 works asynchronously with the second speed reducer 53, so that traversing balance staff 31 It is rotated synchronously with sley bar swinging axle 41, to realize traversing seat 32 and 43 synchronous hunting of interval yarn sley bar.First speed reducer 52 with Second speed reducer 53 is connected by external control system, and the two can be realized synchronous working.

The working principle of the utility model embodiment are as follows:

When work, servo motor drives the first synchronizing wheel 54 to carry out forward or reverse, by same by the first speed reducer 52 Step band 56 drives the second synchronizing wheel 55 for being fixed on the end of traversing balance staff 31 to carry out forward or reverse, is fixed on cross to drive The traversing seat 32 moved on balance staff 31 is that swing rotary center is swung with traversing balance staff 31；Sley bar swinging axle 41 is in the second speed reducer It is also carried out forward or reverse under 53 driving, and then the interval yarn sley bar swing arm 42 being mounted on sley bar swinging axle 41 is driven to carry out It swings, so that the sley point for being installed on 43 front end of interval yarn sley bar be driven to swing with sley bar swinging axle 41 for rotation center；It is horizontal It moves balance staff 31 and sley bar swinging axle 41 is located on same axis, and the first speed reducer 52 and the second speed reducer 53 are in control system Driving is synchronized under effect with identical angular speed and identical initial position to swing；Under the action of traversing servo motor, The knock-pin of electric cylinder 33 is moved forward or rearward (on the length direction of crossbeam 1), and then drives 341 He of the first mandril Second mandril 342 is moved forward or rearward, so that traversing top headstock 345 is driven to be moved forward or rearward, traversing top headstock 345 drive sley bar top headstock 44 to synchronize under the action of push rod component 35 and tension spring component 36 is moved forward or rearward, from And whole interval yarn sley bar 43 is driven to be moved forward or rearward, and then drive sley point along the knock-pin of electric cylinder 33 The direction of motion is mobile to head movement or to tail, meets the cross by lopping technique of the sley point on interval yarn sley bar 43 It moves and requires.

The advantages of the utility model are as follows: the fixed static form for changing the traversing seat 32 of original interval yarn, be changed to and It every 43 synchronous hunting of yarn sley bar, efficiently solves after relaxing with lopping gauge, the sley point after traversing of interval yarn sley bar 43 moves Needle inaccuracy scrapes yarn or latch needles, or even the problems such as damage latch needles and sley point, it is traversing to substantially increase sley point needle position Precision；And 43 transverse-moving mechanism 3 of interval yarn sley bar is arranged separately at tail, will not interfere with the position of two sides veil traverse displacement unit It sets.

It should be noted that in the absence of conflict, the feature in the embodiments of the present invention can be tied mutually It closes.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of interval yarn sley bar swing type electronic traversing device of super large gauge tricot machine, which is characterized in that including crossbeam, peace Multiple oscillating shaft seats, transverse-moving mechanism, sley bar bindiny mechanism and servo-drive component loaded on the crossbeam lower end, multiple balance staffs Seat is arranged along the length direction interval of the crossbeam；

The transverse-moving mechanism includes mobilizable traversing balance staff for being arranged in the oscillating shaft seat, the cross for being sheathed on the traversing balance staff Move seat, the electric cylinder that is equipped with traversing servo motor, the transmission component slidably connecting with the traversing seat and the transmission The push rod component and tension spring component of component connection, the traversing balance staff are arranged along the length direction of the crossbeam, the traversing seat The connection that can be driven with the traversing balance staff, the electric cylinder are installed on knock-pin and the institute of the traversing seat and the electric cylinder Transmission component is stated removably to connect；

The sley bar bindiny mechanism and the transverse-moving mechanism are arranged along the length direction interval of the crossbeam, and the sley bar connects machine Structure includes mobilizable sley bar swinging axle for being arranged in the oscillating shaft seat, the multiple interval yarns comb for being sheathed on the sley bar swinging axle Comb swing arm, be installed on the interval yarn sley bar swing arm downside interval yarn sley bar and sley bar top headstock, the sley bar swings Axis and the traversing balance staff are coaxially disposed, and the connection that the interval yarn sley bar swing arm can be driven with the sley bar swinging axle is close The interval yarn sley bar of the traversing seat is connected with sley bar top headstock, and the sley bar top headstock and the transmission component pass through institute It states push rod component to connect with the tension spring component, the electric cylinder is able to drive the transmission component along the axis of the traversing balance staff It is moved to relative to the traversing seat, so that axial movement of the sley bar top headstock along the sley bar swinging axle；

The connection that the servo-drive component can be driven with the traversing balance staff and the sley bar swinging axle respectively, the servo are driven Dynamic component is able to drive the traversing balance staff and the sley bar swinging axle rotates synchronously, so that the traversing seat and the interval yarn Sley bar synchronous hunting.

2. the interval yarn sley bar swing type electronic traversing device of super large gauge tricot machine according to claim 1, feature It is, the servo-drive component includes reducer pedestal, the first speed reducer and the second speed reducer for being equipped with servo motor, described First speed reducer and second speed reducer are located at the both ends of the length direction of the crossbeam, the reducer pedestal with it is described Transverse-moving mechanism is correspondingly arranged, and the reducer pedestal is removably connect with the crossbeam, and first speed reducer is installed on described On reducer pedestal, the output end of first speed reducer is equipped with the first synchronizing wheel, the separate sley bar of the traversing balance staff One end of bindiny mechanism is provided with the second synchronizing wheel, and first synchronizing wheel turns with second synchronizing wheel by the way that synchronous belt is synchronous Dynamic connection, second speed reducer are installed on the support base of the crossbeam, the output end of second speed reducer with it is described The connection that sley bar swinging axle can be driven, second speed reducer and first speed reducer rotate synchronously, so that the interval yarn Sley bar and the traversing seat rotate synchronously.

3. the interval yarn sley bar swing type electronic traversing device of super large gauge tricot machine according to claim 1, feature It is, the traversing seat includes bottom plate and two side plates, and two side plates are set to along the axially spaced-apart of the traversing balance staff On the bottom plate, the side plate is connect with the bottom plate, the traversing balance staff be arranged in two side plates and with described in two The connection that side plate can be driven, the electric cylinder are installed on the side plate far from the sley bar bindiny mechanism, the electric cylinder Knock-pin be arranged in electric cylinder installation the side plate and can be along the axial movement of the traversing balance staff, the transmission Component is slidably arranged in another side plate.

4. the interval yarn sley bar swing type electronic traversing device of super large gauge tricot machine according to claim 3, feature It is, the side plate is offered for the first groove with the traversing balance staff cooperation, and the traversing balance staff is arranged in described the In one groove, the side plate is by breathing out the connection that not latch segment can be driven with the traversing balance staff.

5. the interval yarn sley bar swing type electronic traversing device of super large gauge tricot machine according to claim 4, feature It is, not latch segment offers the second groove corresponding with first groove, first groove and described second for the Kazakhstan Groove is half slot, the outside breathed out not latch segment cover and be buckled in the traversing balance staff, described to breathe out not latch segment and the side Plate is removably connected by bolt, so that being sheathed on the traversing balance staff of being driven of the side plate.

6. the interval yarn sley bar swing type electronic traversing device of super large gauge tricot machine according to claim 3, feature It is, two side plates are respectively the first side plate and the second side plate, and second side plate is close relative to first side plate The sley bar bindiny mechanism, the electric cylinder are removably connect with first side plate, and the traversing servo motor is located at institute It states one end far from first side plate of electric cylinder and is connect with the electric cylinder, the knock-pin of the electric cylinder is arranged in institute State the first side plate and can be along the traversing balance staff axially adjacent to or far from second side plate.

7. the interval yarn sley bar swing type electronic traversing device of super large gauge tricot machine according to claim 6, feature Be, the transmission component include the first mandril, the second mandril, fixture block and traversing top headstock, second side plate offer with The corresponding first through hole of first mandril and the second through-hole corresponding with the second mandril, one end of first mandril with it is described The knock-pin of electric cylinder removably connects, and the other end of first mandril is slidably arranged in the first through hole, Second mandril is slidably arranged in second through-hole, one end and the close to the first side plate of second mandril One mandril is connected by the fixture block, and the other end of second mandril and first mandril are connected by the traversing top headstock It connects, for the fixture block between first side plate and second side plate, the traversing top headstock is located at second side plate The side far from first side plate, the tension spring component connect with the traversing top headstock respectively with the push rod component.

8. the interval yarn sley bar swing type electronic traversing device of super large gauge tricot machine according to claim 7, feature It is, first be equipped on one side for being connect with the push rod component far from second side plate of the traversing top headstock Heading, first heading are removably connect with the traversing top headstock, close described second side of the sley bar top headstock The side of plate is equipped with the second heading corresponding with first heading, and second heading is detachable with the sley bar top headstock Connection, the both ends of the push rod component respectively with it is described first heading and it is described second heading hingedly.

9. the interval yarn sley bar swing type electronic traversing device of super large gauge tricot machine according to claim 8, feature It is, first heading includes first connecting rod and the first bulb, one end of the first connecting rod and first bulb Connection, the circumferential direction of the first connecting rod are provided with thread segment, one end far from first bulb of the first connecting rod It is threadedly coupled with second mandril for being installed on the traversing top headstock, first bulb and the push rod component are hinged；

Second heading includes the second connecting rod and the second bulb, and one end of second connecting rod and second bulb connect Connect, the circumferential direction of second connecting rod is provided with thread segment, one end far from second bulb of second connecting rod with The sley bar top headstock is threadedly coupled, and second bulb and the push rod component are hinged.

10. the interval yarn sley bar swing type electronic traversing device of super large gauge tricot machine according to claim 8, feature It is, the be also equipped on one side for being connect with the tension spring component far from second side plate of the traversing top headstock One drag hook, first drag hook are threadedly coupled with the traversing top headstock, and the opening of first drag hook is towards the crossbeam, institute The side close to second side plate for stating sley bar top headstock is also equipped with for the second drag hook corresponding with first drag hook, Second drag hook is threadedly coupled with the sley bar top headstock, and the opening of second drag hook is towards the crossbeam, the tension spring Component is used to for closely connecting with first heading and second heading respectively at the both ends of the push rod component.