CN109137250A - knitting needle - Google Patents

Abstract

The present invention provides a kind of knitting needle that can be controlled when in use the flowing of lubricating oil and make lubricating oil distribution.A kind of knitting needle (10), it has the shank portion (20) for the syringe slot (55) that can be slidably mounted to knitting machine, wherein, the shank portion (20) has the rising portions (40) of the glide direction (D) towards the knitting needle (10).The protrusion (41) of glide direction (D) the shell shape outstanding along the knitting needle (10) is formed in the rising portions (40).

Description

Knitting needle

Technical field

The present invention relates to the knitting needles for the syringe slot (Japanese: kettle ditch) that can be slidably mounted to knitting machine.

Background technique

This knitting needle (crochet hook, latch needles etc.) has the shank portion for the syringe slot that can be slidably mounted to knitting machine.It examines Considering prevents damaged, high speed, power saving of braiding etc., and the shape development in shank portion is in the jagged such shape of plate needle setting Shape (see, for example patent document 1).

According to the knitting needle of such shape, elasticity can be assigned to shank portion, therefore, the broken of needle top can be prevented Damage.In addition, the contact area between syringe slot is reduced, therefore, resistance of motion when shank portion reciprocatingly slides can be reduced.It is logical Resistance of motion reduction is crossed, is also able to suppress fever when sliding, therefore energy consumption can be realized high speed, the power saving of braiding Change.

In addition, being supplied in operation using fluid supply apparatus to syringe slot in the knitting machine using such knitting needle Lubricating oil.By so supplying lubricating oil, resistance of motion when shank portion reciprocatingly slides can be further reduced.

In addition, being disclosed in patent document 2 such as flowering structure: forming recess portion in shank portion, come from fuel feeding unit feeding Oil intensively lodges in recess portion.In this configuration, oil is gradually imported to the path of navigation of cam, therefore, can utilize oil film It is whole to cover cam guidance path, in addition, can import oil between needle side and needle tray.

Existing technical literature

Patent document

Patent document 1: Japanese Unexamined Patent Publication 9-310255 bulletin

Patent document 2: Japanese Unexamined Patent Publication 5-195394 bulletin

Summary of the invention

Problems to be solved by the invention

However, not guided to the lubricating oil accumulated to recess portion in the structure documented by above-mentioned patent document 2 Component, accordingly, it is difficult to steadily spread lubricating oil in the reciprocatingly sliding of knitting needle.

I.e., when knitting needle slides, accumulate the lubricating oil to recess portion because viscosity will stay in the position, therefore, lubricating oil It collides with the standing wall of recess portion.However, in the structure documented by above-mentioned patent document 2, the standing wall and needle of the recess portion The glide direction of knitting needle is vertical, and accordingly, there exist following problems: the standing wall is worked in a manner of stopping lubricating oil flow, profit The flow stagnation of lubricating oil.In addition, can not be to making the lubricating oil for colliding wall is controlled to which direction flowing, therefore, lubrication The flowing of oil is non-constant, it is possible to can not obtain the lubricant effect of anticipation.

Therefore, the present invention a kind of can when in use control the flowing of lubricating oil to provide and spread lubricating oil Knitting needle be project.

The solution to the problem

The present invention is made into order to solve above-mentioned problem, is a kind of knitting needle, and having slidably to pacify The shank portion of syringe slot loaded on knitting machine, which is characterized in that the shank portion has the glide direction towards the knitting needle Rising portions, be formed with the protrusion of the glide direction shell shape outstanding along the knitting needle in the rising portions.

Alternatively, it is also possible to be, the protrusion is formed by the curved surface of the glide direction protrusion relative to the knitting needle.

Alternatively, it is also possible to be, it is formed with and the curvilinear continuous recess portion in the protrusion in the inner corner portion of the rising portions.

Alternatively, it is also possible to be, the recess portion is recessed along the width direction in the shank portion.

Alternatively, it is also possible to be to have multiple rising portions, the protrusion is formed in whole rising portions.

Alternatively, it is also possible to be, it is formed in the rear end of the knitting needle prominent along the glide direction of the knitting needle Shell shape protrusion.

Alternatively, it is also possible to be, the protrusion is formed in the two sides of the rising portions.

The effect of invention

The present invention is as described above, and shank portion has the rising portions of the glide direction towards knitting needle, is formed in rising portions There is the protrusion of the glide direction shell shape outstanding along knitting needle.According to this structure, in the knitting for being provided with notch section Needle can guide lubricating oil using protrusion.I.e., when knitting needle reciprocatingly slides, accumulate to notch section lubricating oil with It is played a role by the mode that the wall (rising portions) of notch section presses, but controls the flowing of the lubricating oil after being pressed using protrusion, Guide it to the direction of anticipation.At this point, protrusion is shell shape, therefore, the flowing of lubricating oil is by along upper and lower point of protrusion It cuts, therefore, lubricating oil can be made to spread in the entirety in shank portion.

By so spreading lubricating oil, the frictional resistance between component can be reduced, is able to suppress abrasion, the damage of knitting needle Wound.In addition, driving torque reduces by becoming good lubricating status, therefore, power saving can be realized.Even in addition, high speed In the case where operating, it is also able to suppress fever.

Alternatively, it is also possible to be, protrusion is formed by the curved surface of the glide direction protrusion relative to knitting needle.According to such knot Structure, lubricating oil will flow (wall attachment effect) along convex curved surface, therefore, can steadily control the flowing of lubricating oil.

Alternatively, it is also possible to be, it is formed with and the curvilinear continuous recess portion in protrusion in the inner corner portion of rising portions.According in this way Structure, the lubricating oil after being guided by protrusion lodges in recess portion, and lubricating oil can be made to spread in the entirety in shank portion.

Alternatively, it is also possible to be, recess portion is recessed along the width direction in shank portion.According to this structure, can make very much Lubricating oil lodges in recess portion.In addition, lubricating oil can be made broadly to spread along the width direction in shank portion.

Alternatively, it is also possible to be to have multiple rising portions, protrusion is formed in whole rising portions.According to this structure, Even in the longer situation of the overall length of knitting needle, lubricating oil can also spread in the entirety in shank portion.

Alternatively, it is also possible to be, the glide direction shell shape outstanding along knitting needle is formed in the rear end of knitting needle Protrusion.According to this structure, lubricating oil can also be made to spread from rear portion side.

Alternatively, it is also possible to be, protrusion is formed in the two sides of rising portions.According to this structure, either in knitting needle Which side in the case where sliding, lubricating oil can be guided using any of the protrusion of two sides.

Detailed description of the invention

(a) of Fig. 1 is the side view of knitting needle, is (b) portion A enlarged drawing.

(a) of Fig. 2 is the figure for illustrating the flowing of the lubricating oil in knitting needle of the invention, is (b) to illustrate previous knitting The figure of the flowing of lubricating oil in needle.

Fig. 3 is the side view of variation 1 (a) knitting needle, is (b) portion B enlarged drawing.

Fig. 4 is the side view of variation 2 (a) knitting needle, is (b) portion C enlarged drawing.

Fig. 5 is the side view of variation 3 (a) knitting needle, is (b) portion D enlarged drawing.

Fig. 6 is the side view of variation 4 (a) knitting needle, is (b) portion E enlarged drawing.

Fig. 7 is the explanatory diagram that knitting needle is configured to the state of syringe slot.

Description of symbols

10, knitting needle；11, needle latch；11a, rotation axis；12, needle main body；13, hook；20, shank portion；21, lower notch section； 22, upper notch section；30, lower bar portion；31, the back side；32, horizontal part；33, rake；34, bellying；35, upper pole part；36, on Edge；38, cam holding section；40, rising portions；41, protrusion；41a, front end；41b, upper guide surface；41c, lower guide surface；42, recessed Portion；43, medial surface；44, protrusion；45, rear end；46, protrusion；47, recess portion；50, previous shank portion；51, rising portions；52, Lower notch section；55, syringe slot；55a, syringe bottom；56, needle cylinder wall；57, cam bit；57a, engaging recessed part；58, oil-feed port；D, cunning Dynamic direction；W, width direction；R, angle.

Specific embodiment

Illustrate embodiments of the present invention while referring to attached drawing.

The cylinder that the knitting needle 10 of present embodiment is installed on knitting machine comes using passing through the alongst (left and right of Fig. 1 Direction) sliding, carrys out knitted or woven fabrics.For example, as shown in fig. 7, knitting machine has along the syringe slot 55 configured with knitting needle 10 The cam bit 57 that opening edge (needle cylinder wall 56) moves back and forth.Knitting needle 10 is fixed in the cam bit 57, with 57 one of cam bit Ground sliding.In addition, be provided with the oil-feed port 58 for being externally supplied lubricating oil in cam bit 57, via the oil-feed port 58 to needle The upper surface of knitting needle 10 supplies lubricating oil.

In addition, in the following description, as shown in Figure 1, the width direction W in shank portion 20 refers to the sliding with knitting needle 10 Direction D orthogonal direction, and be the direction (side orthogonal with the rotation axis 11a of needle latch 11 that the needle latch 11 then discussed is opened and closed To).In addition, the width direction W along the shank portion 20 is observed, the direction (the upper direction in Fig. 1) that needle latch 11 is opened is set as The direction (the lower direction in Fig. 1) that needle latch 11 is closed is set as " lower direction " to be illustrated by " upper direction ".In addition, along needle The glide direction D of knitting needle 10 is observed, and the side for being equipped with needle latch 11 is set as " preceding ", its opposite side is set as " rear " to say It is bright.

As shown in (a) of Fig. 1, which has needle main body 12 and needle latch 11.

Needle latch 11 is rotatably installed on the front end of needle main body 12 by rotation axis 11a.Be configured to, if the needle latch 11 to Closing direction rotation, the then top for the hook 13 that the front end covering of needle latch 11 is then discussed.In addition, in the present embodiment, with tool Be illustrated for the knitting needle of standby needle latch 11, but the present invention is not limited to knitting needle, be equally applicable to sliding needle, crochet hook etc. its His knitting needle 10.

Needle main body 12 has hook 13 and shank portion 20.The needle main body 12 passes through after carrying out Blanking Shaping to metal plate Plastic processing is carried out to top end part and forms hook 13.Shank portion 20 is the plate of constant thickness, can be slidably mounted to be knitted The syringe slot 55 of machine.

As shown in (a) of Fig. 1, shank portion 20 is lengthways formed along the glide direction D of knitting needle 10.In addition, upper and lower It is formed with mutually different notch geometry (lower notch section 21 and upper notch section 22).In addition, notch geometry is not necessarily required to hand over up and down Alternately be arranged, can also with above to or notch geometry is arranged in adjacent mode upwards for lower section.In addition, notch geometry is not required If multiple, 1 notch geometry can also be only formed.

Above-mentioned shank portion 20 has lower bar portion 30, upper pole part 35, cam holding section 38 and rising portions 40.

For example, in the present embodiment, as shown in (a) of Fig. 1, by with the rear of hook 13 it is continuous in a manner of be provided with lower beam Portion 30.In addition, by from the rear end of the lower bar portion 30 it is continuous upwards in a manner of be provided with rising portions 40.In addition, with from the standing Rearward continuous mode is provided with upper pole part 35 for the upper end in portion 40.In addition, with continuous downwards from the rear end of the upper pole part 35 Mode be provided with rising portions 40.In this way, lower bar portion 30 and upper pole part 35 are along the width direction W observation in shank portion 20 and mutually not It is uniformly set, is provided with rising portions 40 in a manner of connecting the lower bar portion 30 and upper pole part 35.In other words, lower bar portion 30, Upper pole part 35 and rising portions 40 are continuously provided with roughly the same width.In this way, shank portion 20 is formed as meander-like, thus Shank portion 20 has elasticity.

Lower bar portion 30 is that the state of the syringe bottom 55a of syringe slot 55 of knitting machine is abutted to its back side 31 (face of downside) The position of setting.The back side 31 of lower bar portion 30 is formed parallel to the glide direction D of knitting needle 10.The shank portion of present embodiment 20 have multiple lower bar portions 30 along the glide direction D of knitting needle 10, are provided between multiple lower bar portions 30 and open downward The lower notch section 21 of mouth.

In addition, the face (face for being located at opposite side from the back side 31) of the upside of lower bar portion 30 is configured to and opens upward The upper notch section 22 of mouth is opposite.Therefore, when shank portion 20 to be configured to the syringe slot 55 of knitting machine, existed using upper notch section 22 The upside of lower bar portion 30 forms space.Lubricating oil can be accumulated in the space.

In addition, in the present embodiment, as shown in (b) of Fig. 1, the face of the upside of lower bar portion 30 is formed with 32 He of horizontal part Rake 33.Horizontal part 32 is the face being formed parallel to the glide direction D of knitting needle 10.In addition, rake 33 be relative to The face that the glide direction D of knitting needle 10 is slightly askew formed.The rake 33 is formed between horizontal part 32 and rising portions 40, The width of following bar portion 30 is tilted with from horizontal part 32 to the mode that the direction of rising portions 40 is gone and become narrow gradually.

Upper pole part 35 is the position configured in the mode opposite with the cam bit 57 of knitting needle 10 is kept.35 shape of upper pole part Become, positioned at the position more against the top than hook 13.The upper limb 36 of the upper pole part 35 and the parallel landform of the glide direction D of knitting needle 10 At.The shank portion 20 of present embodiment has multiple upper pole parts 35 along the glide direction D of knitting needle 10, in multiple upper pole parts 35 Between be provided with the upper notch section 22 being open upward, be additionally provided with cam holding section 38 outstanding upward.On in addition, The face (face for being located at opposite side from upper limb 36) of the downside of bar portion 35 is configured to, with the lower notch section 21 being open downward Relatively.Therefore, when shank portion 20 to be configured to the syringe slot 55 of knitting machine, using lower notch section 21 in the downside of upper pole part 35 Form space.Lubricating oil can be accumulated in the space.

As shown in fig. 7, cam holding section 38 be for when knitting needle 10 is installed on the cam bit 57 of knitting machine with The protrusion for the engaging recessed part 57a engaging that cam bit 57 is formed.The cam holding section 38 is formed as the upper limb relative to upper pole part 35 36 protrude upwards.

Rising portions 40 are set as in such a way that the end of the end and upper pole part 35 that make lower bar portion 30 is continuous along shank portion 20 width direction W extends.Therefore, the side of rising portions 40 is formed in a manner of the glide direction D towards knitting needle 10.

As shown in (b) of Fig. 1, the glide direction D shell shape outstanding along knitting needle 10 is formed in the rising portions 40 Protrusion 41.Therefore, when shank portion 20 is slided in syringe slot 55, be formed as accumulating to upper notch section 22, lower notch section 21 Lubricating oil along protrusion 41 flow.In addition, protrusion 41 is formed by the curved surface of the glide direction D protrusion relative to knitting needle 10. By protrusion 41 by being formed with the curved surface of circularity, so that be intended to flow (wall attachment effect) along protrusion 41 therefore can for lubricating oil Steadily control the flowing of lubricating oil.

Specifically, which has: the front end 41a of rounded shapes；From the upper end of front end 41a it is continuous on draw Guide face 41b；And guide surface 41c is continuously descended from the lower end of front end 41a.Upper guide surface 41b and lower guide surface 41c relative to The glide direction D of knitting needle 10 is tilted in the opposite directions to each other.Also, intersect in upper guide surface 41b and lower guide surface 41c Position is provided with front end 41a, upper guide surface 41b and lower guide surface 41c and is connected with rounded shapes.In addition, such as (b) institute of Fig. 1 Show, upper guide surface 41b and lower guide surface 41c angulation R become 90 degree or less.

In addition, the inner corner portion in the rising portions 40 is formed with and the curvilinear continuous recess portion 42 in above-mentioned protrusion 41.Cause This is formed as lodging in recess portion 42 along the lubricating oil that protrusion 41 is flowed when shank portion 20 is slided in syringe slot 55.This Outside, which, which is formed in, observes the position Chong Die with lower notch section 21 along the glide direction D of knitting needle 10, therefore, in needle When knitting needle 10 slides, the lubricating oil accumulated to recess portion 42 is guided by downward notch section 21.The recess portion 42 of present embodiment is for product It deposits more lubricating oil and becomes such arc-shaped shown in (b) of Fig. 1.

In addition, the recess portion 42 along shank portion 20 width direction W canyon topography at.I.e., the recess portion 42 and lower bar portion 30 Rake 33 it is continuous, be set to the upper end position on the lower than lower bar portion 30.Therefore, recess portion 42 digs down bar portion 30 to cut out Mode is formed, and can accumulate more lubricating oil in recess portion 42.In addition, the recess portion 42 observed along the width direction W in shank portion 20 Width become larger, therefore, lubricating oil can be made broadly to spread along the width direction W in shank portion 20.

In addition, in the present embodiment, as shown in (a) of Fig. 1, multiple rising portions 40 are provided with, in whole standings Portion 40 is formed with protrusion 41 and recess portion 42.According to this structure, even also can in the longer situation of the overall length of knitting needle 10 Enough many places in the longitudinal direction guide lubricating oil, therefore, lubricating oil can be made to spread in the entirety in shank portion 20.

In addition, being not only formed with the sliding side along knitting needle 10 in rising portions 40, also in the rear end of knitting needle 10 45 To the protrusion 46 of D (rear) shell shape outstanding.The protrusion 46 is for spreading lubricating oil from rear portion side.

According to this structure, frictional resistance when can be controlled the flowing of lubricating oil and slide knitting needle 10 It reduces.

I.e., it in previous shank portion 50, as shown in (b) of Fig. 2, when shank portion 50 is slided in syringe slot 55, supplies The lubricating oil being given in syringe slot 55 collides rising portions 51, generates accordingly, there exist flowing and stagnates, asks as flowing instability Topic.Additionally, there are lubricating oil to be difficult to back side (direction of notch section 52 under (b) of Fig. 2) such problems around shank portion 50.

This point, according to the present embodiment, when shank portion 50 is slided in syringe slot 55, lubricating oil is flowed along protrusion 41 It is dynamic, therefore, using 40 Flowing Hard of rising portions to stagnate, and becomes and steadily flow.In addition, can be up and down without omitting ground guidance Lubricating oil.In addition, lubricating oil can lodge in recess portion 42, therefore, the lubricating oil accumulated to recess portion 42 is easy to downward notch section 21 Flowing.Thus, can also make lubricating oil be disseminated to lubricating oil be difficult to around needle lower part.

As described above, according to the present embodiment, shank portion 20 has opposite along the glide direction D of knitting needle 10 Rising portions 40, be formed with the protrusion 41 of the glide direction D shell shape outstanding towards knitting needle 10 in rising portions 40.According to this The structure of sample can be arranged in the knitting needle 10 for being provided with notch section for wall (rising portions 40) the guidance profit to notch section The protrusion 41 of lubricating oil.I.e., when knitting needle 10 is reciprocatingly slided, lubricating oil is played a role in a manner of being pressed by rising portions 40, But the flowing of the lubricating oil can be controlled using protrusion 41.At this point, protrusion 41 is shell shape, therefore, the flowing of lubricating oil is by edge The segmentation up and down of protrusion 41.Thus, it is possible to spread lubricating oil in the entirety in shank portion 20.

By so spreading lubricating oil, the frictional resistance between component can be reduced, be able to suppress knitting needle 10 abrasion, Damage.In addition, driving torque reduces by becoming good lubricating status, therefore, power saving can be realized.Even in addition, high In the case where speed operating, it is also able to suppress fever.

In addition, the medial surface 43 of rising portions 40 vertically erects formation in the embodiment of above-mentioned Fig. 1.However, simultaneously It is without being limited thereto, for example, as shown in figure 3, the glide direction D along knitting needle 10 can also be formed in the medial surface 43 of rising portions 40 The protrusion 44 of shell shape outstanding.As long as so rising portions 40 two sides formed protrusion 41,44, no matter knitting needle 10 to which side In the case where sliding, lubricating oil can be guided using any of protrusion 41,44 of two sides.

In addition, in the above-described embodiment, being provided with rake 33 in lower bar portion 30, as a result, depth (the edge of recess portion 42 Shank portion 20 width direction W observation depth) deepen, but it is not limited to this.For example, as shown in figure 4, substitution rake 33, the bellying 34 heaved upwards also can be set, recess portion 42 is set in a manner of cutting out and dig the bellying 34.Even this In the case where sample, recess portion 42 can be set as shape made of the width direction W recess along shank portion 20.

In addition, the shape of rear end 45 is also not limited to shape as shown in Figure 1, it is contemplated that various shape.It is also possible to Such as shape as shown in Figure 5.In addition, as shown in fig. 6, being also possible to also form recess portion 47 in rear end 45.

Claims (7)

1. a kind of knitting needle has the shank portion for the syringe slot that can be slidably mounted to knitting machine, which is characterized in that

The shank portion has the rising portions of the glide direction towards the knitting needle,

The protrusion of the glide direction shell shape outstanding along the knitting needle is formed in the rising portions.

2. knitting needle according to claim 1, which is characterized in that

The protrusion is formed by the curved surface of the glide direction protrusion relative to the knitting needle.

3. knitting needle according to claim 1 or 2, which is characterized in that

It is formed with and the curvilinear continuous recess portion in the protrusion in the inner corner portion of the rising portions.

4. knitting needle according to claim 3, which is characterized in that

The recess portion is recessed along the width direction in the shank portion.

5. knitting needle according to any one of claims 1 to 4, which is characterized in that

The knitting needle has multiple rising portions, is formed with the protrusion in whole rising portions.

6. knitting needle according to any one of claims 1 to 5, which is characterized in that

The protrusion of the glide direction shell shape outstanding along the knitting needle is formed in the rear end of the knitting needle.

7. knitting needle described according to claim 1~any one of 6, which is characterized in that

The protrusion is formed in the two sides of the rising portions.