CN101984169B

CN101984169B - Needle selecting motion mechanism for electromagnetic glove machine

Info

Publication number: CN101984169B
Application number: CN2010105675240A
Authority: CN
Inventors: 张建义; 胡旭东; 鄢和平; 袁嫣红
Original assignee: Zhejiang Sci Tech University ZSTU
Current assignee: Zhejiang Sci Tech University ZSTU; Zhejiang University of Science and Technology ZUST
Priority date: 2010-11-26
Filing date: 2010-11-26
Publication date: 2012-02-15
Anticipated expiration: 2030-11-26
Also published as: CN101984169A

Abstract

The invention discloses a needle selecting motion mechanism for an electromagnetic glove machine. The motion mechanism comprises two mounting plates, wherein a first grating plate and a second grating plate are arranged between the two mounting plates; a reset torsion spring is arranged on the first grating plate, and a sliding top block is arranged on the second grating plate; the sliding top block is movably connected with a swing rod; the two mounting plates are respectively provided with an electromagnet; and the electromagnets are connected with the swing rod. The invention adopts an electromagnetic needle section mode, needle selecting conversion is not limited by the number of transverse slots of a mechanical needle drum so as to realize weaving process of various complex gloves, improve needle selection speed and improve production capacity.

Description

Electromagnet type glove knitting machine needle selection motion

Technical field

The present invention relates to a kind of electromagnet type glove knitting machine needle selection motion.

Background technology

The at present domestic glove knitting machine that generally uses adopts mechanical needle drum needle selection mode; It exists 1, the gloves of various different sizes, needs to use different arrangement modes to realize, so all will be to equipment (cylinder when changing the kind size at every turn; Bird sheet etc.) carry out dismounting; General replacement once needs 4 hours, time-consuming taking a lot of work, and also often dismounting pin drum can damage mechanism itself and pin drum (the pin drum itself is torn open several times with regard to easy damage) easily.2, owing to structural reason, the translot limited amount of pin drum can't be produced such as jacquard weave and the complicated gloves of kind.3, in actual production, after machine uses certain time,, be very easy to take place the phenomenon of random pin drum owing to reasons such as mechanical wears, influenced the quality of product.

And, need be made into needle selecting device supporting with it and that availability is optimum with utilizing ability for the electromagnet type glove knitting machine of present ground zero, apparent is particularly important.

Summary of the invention

The object of the present invention is to provide a kind of electromagnet type glove knitting machine selecting mechanism.The present invention adopts electromagnet type needle selection mode, and the needle selection conversion does not receive the restriction of the translot quantity of mechanical needle drum, can realize the basketry of all kinds of complicated gloves, has improved needle selection speed, thereby has improved output.

In order to achieve the above object, technical scheme of the present invention is:

A kind of electromagnet type glove knitting machine needle selection motion comprises 2 packaged matching boards, is provided with the first grid sheet and the second grid sheet between the 2 packaged matching boards; On the first grid sheet reduction torsion spring is installed; On the second grid sheet slip jacking block is installed, slip jacking block and fork flexibly connect; 2 packaged matching boards are separately installed with electromagnet; Electromagnet links to each other with fork.

Described buck plate comprises the electromagnet assembly cavity, and being intervally arranged on the electromagnet assembly cavity offers installing hole, and described installing hole comprises through hole and the screwed hole that links to each other with the through hole bottom; The described electromagnet assembly cavity back side offers inside groove.

Described first grid sheet two ends are provided with buckle, and first grid sheet middle part offers the motion chamber, and a side that is positioned at the motion chamber is provided with boss, and the below of boss offers movable chamber.

The described second grid sheet two ends are provided with buckle, and second grid sheet middle part lengthwise position offers chute, are positioned on the grid sheet at chute top laterally to offer movement slots, offer 2 chute holes on the chute.

Described chute hole diameter is 5mm.

Described slip jacking block comprises the jacking block body, offers the jacking block through hole in the middle of the jacking block body, and the base of jacking block through hole one side forms the jacking block boss to the front upper place projection, and jacking block body bottom offers spring mounting hole; The slip jacking block is movably arranged in the chute of the second grid sheet; A described jacking block body top margin and a side side are connected to form certain angle a.

Described angle a is the 40-50 degree.

Described fork comprises the fork body, and the fork bodies top is provided with push rod head, and the bottom offers the fulcrum installing hole, and offers the electromagnet core installing hole on the fork body; Described push rod head and jacking block boss flexibly connect.

Described electromagnet core installing hole offers 4.

Described electromagnet comprises that an end is equipped with the electromagnet ontology of retaining thread; Be movably installed with iron core in the electromagnet ontology; And iron core one end exposes electromagnet ontology, is installed with pad on the described iron core, and fit is equipped with returning spring on the iron core between pad and the electromagnet ontology; Electromagnet is installed in the buck plate installing hole; Described iron core top is provided with drag hook, and drag hook links to each other with electromagnet core installing hole on the fork; The riveted joint of described iron core and drag hook is connected perhaps, and iron core and drag hook one process.

Beneficial effect of the present invention is: glove knitting machine of the present invention adopts electromagnet type needle selection mode; The needle selection conversion does not receive the restriction of the translot quantity of mechanical needle drum, has improved the adaptability of kind, any time; Any pin can Automatic Control by computer; Can realize the basketry of all kinds of complicated gloves, be to have improved needle selection speed again, thereby just improved output and product diversity.And it is small and exquisite to have structure, easily manufactured, long service life, high-efficiency reliable characteristics.

Description of drawings

Fig. 1 is a structural representation of the present invention;

Fig. 2 is the structural representation of buck plate of the present invention;

Fig. 3 is the left view of Fig. 2;

Fig. 4 is the vertical view of Fig. 3;

Fig. 5 is the enlarged diagram of first grid sheet of the present invention;

Fig. 6 is the enlarged diagram of the present invention's second grid sheet;

Fig. 7 is the slide enlarged diagram of jacking block 4 of the present invention;

Fig. 8 is the A-A cutaway view of Fig. 7;

Fig. 9 is the enlarged diagram of fork of the present invention;

Figure 10 is the enlarged diagram of electromagnet of the present invention.

The specific embodiment

Embodiment 1

As shown in Figure 1, a kind of electromagnet type glove knitting machine needle selection motion comprises between 2 packaged matching board 1, the 2 packaged matching boards 1 being provided with the first grid sheet 2 and the second grid sheet 3; Reduction torsion spring 8 is installed on the first grid sheet 2; On the second grid sheet 3 slip jacking block 4 is installed, slip jacking block 4 flexibly connects with fork 5; 2 packaged matching boards 1 are separately installed with electromagnet 6; Electromagnet 6 links to each other with fork 5.Described buck plate 1 comprises electromagnet assembly cavity 11, shown in Fig. 2-4, is intervally arranged on the electromagnet assembly cavity 11 and offers installing hole, and described installing hole comprises through hole 12 and the screwed hole 13 that links to each other with through hole 12 bottoms; Wherein through hole 12 is used to lay electromagnet ontology 61, screwed hole 13 just with electromagnet ontology 61 on retaining thread be screwed; Described electromagnet assembly cavity 11 back sides offer inside groove 14.After 2 electromagnet type glove knitting machines are installed with buck plate 1 relatively, as shown in Figure 1, form certain cavity between 2 inside grooves, the one, can avoid main shaft, the 2nd, can be used as motion an actor's rendering of an operatic tune of the fork 5 that links to each other with electromagnet ontology 61.Described first grid sheet 2 two ends are provided with buckle 21, and as shown in Figure 5, buckle 21 is used to engage the screen that is installed in electromagnet type glove knitting machine; First grid sheet 2 middle parts offer motion chamber 22, and motion chamber 22 is cavitys of fork 5 activities; A side that is positioned at motion chamber 22 is provided with boss 23, and boss 23 is used as the fulcrum of fork 5; The below of boss 23 offers movable chamber 24, and movable chamber 4 is cavitys of reduction torsion spring 8 activities.The described second grid sheet 3 two ends are provided with buckle 31, and as shown in Figure 6, buckle 31 is used to engage the screen that is installed in electromagnet type glove knitting machine; The second grid sheet, 3 middle part lengthwise positions offer chute 32, are positioned on the grid sheet at chute 32 tops laterally to offer movement slots 33, and bird sheet 7 just is positioned at movement slots 33; Offer 2 chute holes 34 on the chute 32.Described chute hole 34 diameters are 5mm.Described slip jacking block 4 comprises jacking block body 41; Shown in Fig. 7-8; Offer jacking block through hole 42 in the middle of the jacking block body 41, the base of jacking block through hole 42 1 sides forms jacking block boss 43 to the front upper place projection; Jacking block body 41 bottoms offer spring mounting hole 44, and spring mounting hole 44 is used to install reduction torsion spring 8; Slip jacking block 4 is movably arranged in the chute 32 of the second grid sheet 3; Described jacking block body 41 top margins and a side side are connected to form certain angle a, and described angle a is the 40-50 degree.This angle just is complementary with bird sheet radian.Described fork 5 comprises fork body 51, and is as shown in Figure 9, and fork body 51 tops are provided with push rod head 52, and the bottom offers fulcrum installing hole 53, and offers electromagnet core installing hole 54 on the fork body 51; Described push rod head 52 flexibly connects with jacking block boss 43.Described electromagnet core installing hole 54 offers 4.Described electromagnet 6 comprises that an end is equipped with the electromagnet ontology 61 of retaining thread; Shown in figure 10; Be movably installed with iron core 62 in the electromagnet ontology 61; And iron core 62 1 ends expose electromagnet ontology 61, are installed with pad 63 on the described iron core 62, and fit is equipped with returning spring 64 on the iron core 62 between pad 63 and the electromagnet ontology 61; Electromagnet 6 is installed in buck plate 1 installing hole; Described iron core 62 tops are provided with drag hook 65, and drag hook 65 links to each other with electromagnet core installing hole 54 on the fork 5; Described iron core 62 is connected with drag hook 65 riveted joints or iron core 62 forms with drag hook 65 integrally castings.

During the glove knitting machine needle selection; After electromagnet 6 energisings, iron core 62 produces suction, through drag hook 65 fork 5 is drawn to electromagnet 6 directions; Because slip jacking block 4 is withstood on the upper end by the reduction torsion spring 8 of first grid sheet 2; Fork 5 moves under the jacking block boss 43, and the lower surface of the push rod head 52 of fork 5 just places on the boss 23 at this moment, makes the fulcrum of boss 23 as fork 5; And stop slip jacking block 4 to move downward, when motion swung to bird sheet below, limited thereupon slip jacking block 4 jack-up bird sheets 7 carried out needle selection.

Claims

1. an electromagnet type glove knitting machine needle selection motion is characterized in that: comprise 2 packaged matching boards (1), be provided with the first grid sheet (2) and the second grid sheet (3) between the 2 packaged matching boards (1); Reduction torsion spring (8) is installed on the first grid sheet (2); On the second grid sheet (3) slip jacking block (4) is installed, slip jacking block (4) and fork (5) flexibly connect; 2 packaged matching boards (1) are separately installed with electromagnet (6); Electromagnet (6) links to each other with fork (5).

2. electromagnet type glove knitting machine needle selection motion as claimed in claim 1; It is characterized in that: described buck plate (1) comprises electromagnet assembly cavity (11); Be intervally arranged on the electromagnet assembly cavity (11) and offer installing hole, described installing hole comprises through hole (12) and the screwed hole (13) that links to each other with through hole (12) bottom; Described electromagnet assembly cavity (11) back side offers inside groove (14).

3. electromagnet type glove knitting machine needle selection motion as claimed in claim 1; It is characterized in that: described first grid sheet (2) two ends are provided with buckle (21); First grid sheet (2) middle part offers motion chamber (22); A side that is positioned at motion chamber (22) is provided with boss (23), and the below of boss (23) offers movable chamber (24).

4. electromagnet type glove knitting machine needle selection motion as claimed in claim 1; It is characterized in that: described second grid sheet (3) two ends are provided with buckle (31); The second grid sheet (3) middle part lengthwise position offers chute (32); On the grid sheet, have the chute of being positioned at (32) top and laterally offer movement slots (33), offer 2 chute holes (34) on the chute (32).

5. electromagnet type glove knitting machine needle selection motion as claimed in claim 4 is characterized in that: described chute hole (34) diameter is 5mm.

6. electromagnet type glove knitting machine needle selection motion as claimed in claim 1; It is characterized in that: described slip jacking block (4) comprises jacking block body (41); Offer jacking block through hole (42) in the middle of the jacking block body (41); The base of jacking block through hole (42) one sides forms jacking block boss (43) to the front upper place projection, and jacking block body (41) bottom offers spring mounting hole (44); Slip jacking block (4) is movably arranged in the chute (32) of the second grid sheet (3); Described jacking block body (a 41) top margin and a side side are connected to form certain angle a.

7. electromagnet type glove knitting machine needle selection motion as claimed in claim 6 is characterized in that: described angle a is the 40-50 degree.

8. electromagnet type glove knitting machine needle selection motion as claimed in claim 1; It is characterized in that: described fork (5) comprises fork body (51); Fork body (51) top is provided with push rod head (52); The bottom offers fulcrum installing hole (53), and offers electromagnet core installing hole (54) on the fork body (51); Described push rod head (52) flexibly connects with jacking block boss (43).

9. electromagnet type glove knitting machine needle selection motion as claimed in claim 8 is characterized in that: described electromagnet core installing hole (54) offers 4.

10. electromagnet type glove knitting machine needle selection motion as claimed in claim 1; It is characterized in that: described electromagnet (6) comprises that an end is equipped with the electromagnet ontology of retaining thread (61); Be movably installed with iron core (62) in the electromagnet ontology (61); And iron core (62) one ends expose electromagnet ontology (61), are installed with pad (63) on the described iron core (62), and the last fit of the iron core (62) between pad (63) and the electromagnet ontology (61) is equipped with returning spring (64); Electromagnet (6) is installed in buck plate (1) installing hole; Described iron core (62) top is provided with drag hook (65), and drag hook (65) links to each other with electromagnet core installing hole (54) on the fork (5); Described iron core (62) is connected with drag hook (65) riveted joint or iron core (62) processes with drag hook (65) one.