CN203683836U - Double-system flat knitting machine bottom plate controlled through high-efficiency low-power-consumption magnetic separation needle - Google Patents
Double-system flat knitting machine bottom plate controlled through high-efficiency low-power-consumption magnetic separation needle Download PDFInfo
- Publication number
- CN203683836U CN203683836U CN201320836820.5U CN201320836820U CN203683836U CN 203683836 U CN203683836 U CN 203683836U CN 201320836820 U CN201320836820 U CN 201320836820U CN 203683836 U CN203683836 U CN 203683836U
- Authority
- CN
- China
- Prior art keywords
- degree order
- order
- triangle
- cam
- band tooth
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
- 238000009940 knitting Methods 0.000 title claims abstract description 43
- 238000007885 magnetic separation Methods 0.000 title abstract 2
- 238000009954 braiding Methods 0.000 claims description 16
- 230000009977 dual effect Effects 0.000 claims description 14
- 238000000926 separation method Methods 0.000 claims description 11
- 230000000881 depressing effect Effects 0.000 description 6
- 238000004519 manufacturing process Methods 0.000 description 3
- 230000007306 turnover Effects 0.000 description 3
- 238000010586 diagram Methods 0.000 description 2
- 238000005265 energy consumption Methods 0.000 description 2
- 230000005540 biological transmission Effects 0.000 description 1
- 230000015556 catabolic process Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 239000013589 supplement Substances 0.000 description 1
Images
Landscapes
- Knitting Machines (AREA)
Abstract
The utility model relates to a double-system flat knitting machine bottom plate controlled through a high-efficiency low-power-consumption magnetic separation needle. Presently, the cam distribution in the common double-system flat knitting machine bottom plate is not scientific. The double-system flat knitting machine bottom plate comprises a bottom plate body, and is characterized by further comprising a first left stitch cam, a second left stitch cam, a first right stitch cam, a second right stitch cam, a first left rise cam, a first right tuck cam, a left needle turn cam, a right needle turn cam, a left knitting tuck cam and a right knitting cam, wherein both the left needle turn cam and the right needle turn cam are fixed at the upper part of the bottom plate body; the first left rise cam, the first right tuck cam, the left knitting tuck cam and the right knitting cam are fixed at the upper part of the bottom plate body; the first left rise cam, the first right tuck cam, the left knitting tuck cam and the right knitting cam are fixed at the lower part of the bottom plate body; the first left stitch cam, the second left stitch cam, the first right stitch cam and the second right stitch cam are movably connected with the lower part of the bottom plate body; the first left stitch cam and the second left stitch cam are distributed on two sides of the left knitting tuck cam. The double-system flat knitting machine bottom plate is reasonable in structural design and low in failure rate.
Description
Technical field
The utility model relates to a kind of dual system flat knitting machine soleplate, especially relates to the dual system flat knitting machine soleplate of a kind of efficient low-consume electromagnetic separation pin control, belongs to parts in straight-bar machines.
Background technology
The at present inadequate science of arranging of the triangle in conventional dual system flat knitting machine soleplate, the installation of triangle be connected reasonable not, thereby increased production cost, increase the energy consumption in flat knitting machine soleplate running, and transmission is steady not, the noise in running is larger, has improved fault rate.
Utility model content
The purpose of this utility model is to overcome above shortcomings in prior art, and a kind of reasonable in design is provided, and production cost is low, failure rate is low, saving energy, the dual system flat knitting machine soleplate of stable drive, the control of noiseless efficient low-consume electromagnetic separation pin.
The technical scheme in the invention for solving the above technical problem is: the dual system flat knitting machine soleplate of this efficient low-consume electromagnetic separation pin control comprises base plate body, its design feature is: also comprise left degree order triangle No. one, No. two left degree order triangles, a right degree order triangle, No. two right degree order triangles, a left rise cam, No. one order triangle is hung on the right side, pin triangle is turned on a left side, pin triangle is turned on the right side, the right knitting cam of order trigonometric sum is hung in left braiding, the top of base plate body is turned over the pin trigonometric sum right side and is turned over pin triangle and be all fixed on a described left side, a described left rise cam, No. one order triangle is hung on the right side, the bottom of base plate body is hung the right knitting cam of order trigonometric sum and is all fixed in left braiding, described left braiding hang order triangle be positioned at a left rise cam directly over, described right knitting cam be positioned at right side hang order triangle directly over, a described left degree order triangle, No. two left degree order triangles, No. two right degree order triangles of a right degree order trigonometric sum are all movably connected in the bottom of base plate body, No. two left degree order angular distribution of described left degree order trigonometric sum are hung order triangle both sides in left braiding, No. two right degree order angular distribution of a described right degree order trigonometric sum are in the both sides of right knitting cam.
As preferably, the utility model also comprises left degree order motor No. one, No. two left degree order motors, a right degree order motor, No. two right degree order motors, a left degree order gear, No. two left degree order gears, a right degree order gear, No. two right degree order gears, a left degree order band tooth planker, No. two left degree order band tooth plankers, a right degree order band tooth planker and No. two right degree order band tooth plankers, a described left degree order motor, No. two left degree order motors, right degree order motor and No. two right degree order motors are installed in the back side of base plate body, a described left degree order band tooth planker, No. two left degree order band tooth plankers, a right degree order band tooth planker and No. two right degree order band tooth plankers are separately fixed at left degree order triangle No. one, No. two left degree order triangles, on No. two right degree order triangles of a right degree order trigonometric sum, a described left degree order gear, No. two left degree order gears, a right degree order gear and No. two right degree order gears are arranged on respectively left degree order motor No. one, No. two left degree order motors, on a right degree order motor and No. two right degree order motors, this No. one left degree order gear, No. two left degree order gears, a right degree order gear and respectively with number left degree order band tooth planker of No. two right degree order gears, No. two left degree order band tooth plankers, a right degree order band tooth planker and No. two right degree order band tooth planker engagements.
As preferably, on a left degree order band tooth planker described in the utility model, No. two left degree order band tooth plankers, a right degree order band tooth planker and No. two right degree order band tooth plankers, be respectively arranged with a left degree order spring, No. two left degree order springs, a right degree order spring and No. two right degree order springs.
As preferably, the utility model also comprises a left degree order motor fixing plate, No. two left degree order motor fixing plates, a right degree order motor fixing plate and No. two right degree order motor fixing plates, and a described left degree order motor, No. two left degree order motors, right degree order motor and No. two right degree order motors are arranged on respectively the back side of base plate body by left degree order motor fixing plate, No. two left degree order motor fixing plates, right degree order motor fixing plate and No. two right degree order motor fixing plates.
As preferably, the utility model also comprises electromagnetic needle selector and electromagnetic needle selector holder, and described electromagnetic needle selector is arranged on base plate body by electromagnetic needle selector holder.
The utility model compared with prior art, has the following advantages and effect: reasonable in design, scientific arrangement, dependable performance.Left rise cam, right side are hung order triangle, a left side and are turned over that pin triangle, the right side turn over pin triangle, all fixed being arranged on base plate body of the right knitting cam of order trigonometric sum are hung in left braiding, both reduced production cost, reduce again fault rate, rate of breakdown is only original 10%, and energy consumption is original 60%.Can adopt electromagnetic needle selector control stitch needle selecting function, utilize automatically controlled programme-control, ensure accurate needle selection, reach zero error.A left degree order triangle, No. two left degree order triangles, No. two right degree order triangles of a right degree order trigonometric sum slide up and down employing degree order motor-driven gear and engage with degree order band tooth planker, and degree of realization order triangle slides up and down, stable drive, noiselessness.On degree order band tooth planker, be designed with spring, ensured gapless in gear drive, guaranteed that a left degree order triangle, No. two left degree order triangles, No. two right degree order triangles of a right degree order trigonometric sum, without rocking, have ensured the uniformity of Density.
Brief description of the drawings
Fig. 1 is the main TV structure schematic diagram of the dual system flat knitting machine soleplate of the efficient low-consume electromagnetic separation pin control in the utility model embodiment.
Fig. 2 installs electromagnetic needle selector and electromagnetic needle selector holder in Fig. 1, and shows the structural representation while being arranged on base plate body back part.
Fig. 3 is the backsight structural representation in Fig. 1.
Fig. 4 is the plan structure schematic diagram of installing in Fig. 3 after electromagnetic needle selector and electromagnetic needle selector holder.
Detailed description of the invention
Below in conjunction with accompanying drawing and by embodiment, the utility model is described in further detail, and following examples are to explanation of the present utility model and the utility model is not limited to following examples.
Embodiment.
Referring to Fig. 1 to Fig. 4, the dual system flat knitting machine soleplate of the efficient low-consume electromagnetic separation pin control in the present embodiment comprises upper left reset triangle 1, upper right reset triangle 2, left depressing cam 3, right depressing cam 4, left reset triangle 5, middle reset triangle 6, right reset triangle 7, lower-left reset triangle 8, in lower reset triangle 9, bottom right reset triangle 10, upper reset triangle 11, left selected needle repositioning triangle 12, right selected needle repositioning triangle 13, a left degree order triangle 14, No. two left degree order triangles 15, a right degree order triangle 16, No. two right degree order triangles 17, a left rise cam 18, No. one order triangle 19 is hung on the right side, No. two order triangle 20 is hung on a left side, No. two order triangle 21 is hung on the right side, pin triangle 22 is turned on a left side, pin triangle 23 is turned on the right side, order triangle 24 is hung in left braiding, right knitting cam 25, selected needle repositioning triangle 26, base plate body 27, a left degree order motor 34, No. two left degree order motors 35, a right degree order motor 36, No. two right degree order motors 37, a left degree order motor fixing plate 44, No. two left degree order motor fixing plates 45, a right degree order motor fixing plate 46, No. two right degree order motor fixing plates 47, a left degree order gear 54, No. two left degree order gears 55, a right degree order gear 56, No. two right degree order gears 57, a left degree order band tooth planker 64, No. two left degree order band tooth plankers 65, a right degree order band tooth planker 66 and No. two right degree order band tooth plankers 67, wherein, a left degree order band tooth planker 64, No. two left degree order band tooth plankers 65, on a right degree order band tooth planker 66 and No. two right degree order band tooth plankers 67, be respectively arranged with left degree order spring 74 No. one, No. two left degree order springs 75, a right degree order spring 76 and No. two right degree order springs 77.
Left reset triangle 5, middle reset triangle 6 and right reset triangle 7 in the present embodiment is arranged on the middle part of base plate body 27, left reset triangle 5 be positioned at upper left reset triangle 1 under, middle reset triangle 6 be positioned at reset triangle 11 under, right reset triangle 7 be positioned at upper right reset triangle 2 under.
Lower-left reset triangle 8 in the present embodiment, in lower reset triangle 9, bottom right reset triangle 10, left selected needle repositioning triangle 12, right selected needle repositioning triangle 13, a left degree order triangle 14, No. two left degree order triangles 15, a right degree order triangle 16, No. two right degree order triangles 17, a left rise cam 18, No. one order triangle 19 is hung on the right side, No. two order triangle 20 is hung on a left side, No. two order triangle 21 is hung on the right side, order triangle 24 is hung in left braiding, right knitting cam 25 and selected needle repositioning triangle 26 are installed in the bottom of base plate body 27, wherein, a left degree order triangle 14, order triangle 24 is hung in left braiding, No. two left degree order triangles 15, a right degree order triangle 16, right knitting cam 25 and No. two right degree order triangles 17 are arranged in order from left to right, left rise cam 18 and No. two left sides hang order triangle 20 be all positioned at left braiding hang order triangle 24 under, right side hang order triangle 19 and No. two right sides hang order triangle 21 be all positioned at right knitting cam 25 under.Lower-left reset triangle 8 be positioned at left reset triangle 5 under, left selected needle repositioning triangle 12 be positioned at lower-left reset triangle 8 under; In lower reset triangle 9 be arranged in reset triangle 6 under, selected needle repositioning triangle 26 be arranged in lower reset triangle 9 under; Bottom right reset triangle 10 be positioned at right reset triangle 7 under, right selected needle repositioning triangle 13 be positioned at bottom right reset triangle 10 under.
A left degree order motor 34 in the present embodiment, No. two left degree order motors 35, right degree order motor 36 and No. two right degree order motors 37 are installed in the back side of base plate body 27, a left degree order band tooth planker 64, No. two left degree order band tooth plankers 65, a right degree order band tooth planker 66 and No. two right degree order band tooth plankers 67 are separately fixed at left degree order triangle 14 No. one, No. two left degree order triangles 15, on a right degree order triangle 16 and No. two right degree order triangles 17, a left degree order gear 54, No. two left degree order gears 55, a right degree order gear 56 and No. two right degree order gears 57 are arranged on respectively left degree order motor 34 No. one, No. two left degree order motors 35, on a right degree order motor 36 and No. two right degree order motors 37, this No. one left degree order gear 54, No. two left degree order gears 55, a right degree order gear 56 and 57 respectively with numbers left degree order band tooth plankers 64 of No. two right degree order gears, No. two left degree order band tooth plankers 65, a right degree order band tooth planker 66 and No. two right degree order band tooth plankers 67 engage.The left degree order motor of the left degree order motor of in the present embodiment No. one 34, No. two 35, right degree order motor 36 and No. two right degree order motors 37 are arranged on respectively the back side of base plate body 27 by the left degree order motor fixing plate of left degree order motor fixing plate 44, No. two 45, right degree order motor fixing plate 46 and No. two right degree order motor fixing plates 47.Degree order triangle (the right degree order triangle of the left degree order triangle of left degree order triangle 14, No. two 15, No. one 16, No. two right degree order triangles 17) slides up and down employings degree order motor-driven gear and spends order band tooth planker (can adopt screw to be connected with the right degree order triangle of the left degree order triangle of left degree order triangle 14, No. two 15, No. one 16, No. two right degree order triangles 17) and engage, degree of realization order triangle slides up and down, stable drive, noiselessness.
Dual system flat knitting machine soleplate in the utility model can also comprise electromagnetic needle selector 28 and electromagnetic needle selector holder 29, and electromagnetic needle selector 28 is arranged on base plate body 27 by electromagnetic needle selector holder 29.Can adopt electromagnetic needle selector 28 to control stitch needle selecting function, utilize automatically controlled programme-control, ensure accurate needle selection, reach zero error.
A left degree order band tooth planker 64 of the present embodiment, No. two left degree order band tooth plankers 65, on a right degree order band tooth planker 66 and No. two right degree order band tooth plankers 67, be respectively arranged with left degree order spring 74 No. one, No. two left degree order springs 75, a right degree order spring 76 and No. two right degree order springs 77, on degree order band tooth planker, be designed with spring, ensure gapless in gear drive, guarantee a degree order triangle (left degree order triangle 14, No. two left degree order triangles 15, a right degree order triangle 16, No. two right degree order triangles 17) without rocking, ensure the uniformity of Density.
In the utility model, the upper and lower of said base plate body 27 is common practise to those skilled in the art.
In addition, it should be noted that, the specific embodiment described in this description, shape, institute's title of being named etc. of its parts and components can be different, and the above content described in this description is only to the explanation of the utility model structure example.All equivalence variation or simple change of doing according to described structure, feature and the principle of the utility model patent design, are included in the protection domain of the utility model patent.The utility model person of ordinary skill in the field can make various amendments or supplements or adopt similar mode to substitute described specific embodiment; only otherwise depart from structure of the present utility model or surmount this scope as defined in the claims, all should belong to protection domain of the present utility model.
Claims (5)
1. the dual system flat knitting machine soleplate of efficient low-consume electromagnetic separation pin control, comprise base plate body, it is characterized in that: also comprise left degree order triangle No. one, No. two left degree order triangles, a right degree order triangle, No. two right degree order triangles, a left rise cam, No. one order triangle is hung on the right side, pin triangle is turned on a left side, pin triangle is turned on the right side, the right knitting cam of order trigonometric sum is hung in left braiding, the top of base plate body is turned over the pin trigonometric sum right side and is turned over pin triangle and be all fixed on a described left side, a described left rise cam, No. one order triangle is hung on the right side, the bottom of base plate body is hung the right knitting cam of order trigonometric sum and is all fixed in left braiding, described left braiding hang order triangle be positioned at a left rise cam directly over, described right knitting cam be positioned at right side hang order triangle directly over, a described left degree order triangle, No. two left degree order triangles, No. two right degree order triangles of a right degree order trigonometric sum are all movably connected in the bottom of base plate body, No. two left degree order angular distribution of described left degree order trigonometric sum are hung order triangle both sides in left braiding, No. two right degree order angular distribution of a described right degree order trigonometric sum are in the both sides of right knitting cam.
2. the dual system flat knitting machine soleplate of efficient low-consume electromagnetic separation pin according to claim 1 control, is characterized in that: also comprise left degree order motor No. one, No. two left degree order motors, a right degree order motor, No. two right degree order motors, a left degree order gear, No. two left degree order gears, a right degree order gear, No. two right degree order gears, a left degree order band tooth planker, No. two left degree order band tooth plankers, a right degree order band tooth planker and No. two right degree order band tooth plankers, a described left degree order motor, No. two left degree order motors, right degree order motor and No. two right degree order motors are installed in the back side of base plate body, a described left degree order band tooth planker, No. two left degree order band tooth plankers, a right degree order band tooth planker and No. two right degree order band tooth plankers are separately fixed at left degree order triangle No. one, No. two left degree order triangles, on No. two right degree order triangles of a right degree order trigonometric sum, a described left degree order gear, No. two left degree order gears, a right degree order gear and No. two right degree order gears are arranged on respectively left degree order motor No. one, No. two left degree order motors, on a right degree order motor and No. two right degree order motors, this No. one left degree order gear, No. two left degree order gears, a right degree order gear and respectively with number left degree order band tooth planker of No. two right degree order gears, No. two left degree order band tooth plankers, a right degree order band tooth planker and No. two right degree order band tooth planker engagements.
3. the dual system flat knitting machine soleplate of efficient low-consume electromagnetic separation pin according to claim 2 control, is characterized in that: on a described left degree order band tooth planker, No. two left degree order band tooth plankers, a right degree order band tooth planker and No. two right degree order band tooth plankers, be respectively arranged with a left degree order spring, No. two left degree order springs, a right degree order spring and No. two right degree order springs.
4. the dual system flat knitting machine soleplate of efficient low-consume electromagnetic separation pin according to claim 1 control, it is characterized in that: also comprise a left degree order motor fixing plate, No. two left degree order motor fixing plates, a right degree order motor fixing plate and No. two right degree order motor fixing plates, a described left degree order motor, No. two left degree order motors, right degree order motor and No. two right degree order motors are arranged on respectively the back side of base plate body by left degree order motor fixing plate, No. two left degree order motor fixing plates, right degree order motor fixing plate and No. two right degree order motor fixing plates.
5. the dual system flat knitting machine soleplate of efficient low-consume electromagnetic separation pin according to claim 1 control, is characterized in that: also comprise electromagnetic needle selector and electromagnetic needle selector holder, described electromagnetic needle selector is arranged on base plate body by electromagnetic needle selector holder.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320836820.5U CN203683836U (en) | 2013-12-18 | 2013-12-18 | Double-system flat knitting machine bottom plate controlled through high-efficiency low-power-consumption magnetic separation needle |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320836820.5U CN203683836U (en) | 2013-12-18 | 2013-12-18 | Double-system flat knitting machine bottom plate controlled through high-efficiency low-power-consumption magnetic separation needle |
Publications (1)
Publication Number | Publication Date |
---|---|
CN203683836U true CN203683836U (en) | 2014-07-02 |
Family
ID=51005760
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201320836820.5U Expired - Lifetime CN203683836U (en) | 2013-12-18 | 2013-12-18 | Double-system flat knitting machine bottom plate controlled through high-efficiency low-power-consumption magnetic separation needle |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN203683836U (en) |
-
2013
- 2013-12-18 CN CN201320836820.5U patent/CN203683836U/en not_active Expired - Lifetime
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN203451765U (en) | Cam of single face mesh fleece circular knitting machine | |
CN203683836U (en) | Double-system flat knitting machine bottom plate controlled through high-efficiency low-power-consumption magnetic separation needle | |
CN204589500U (en) | A kind of circular knitting machine loop selection mechanism | |
CN201971979U (en) | Press needle leg device of all computer-controlled flat knitting machine | |
CN202744758U (en) | Double-system flat knitting machine bottom plate | |
CN203270202U (en) | Density adjusting device of hosiery knitter with double needle cylinders | |
CN204644589U (en) | A kind of Computerized flat knitting machine hangs the transmission device that order connects pin leg pressing | |
CN202375050U (en) | Massage socks | |
CN203653879U (en) | Lower dial knitting mechanism of automatic two-sided underwear machine | |
CN202011946U (en) | Triangular mechanism of full-computerized flat knitting machine | |
CN202000073U (en) | Stitch cam device of full computer flat knitting machine | |
CN203187906U (en) | Rib small circular weaving machine for achieving multi-way jacquard weaving | |
CN203254710U (en) | Ribbed fabric | |
CN203807679U (en) | Adjusting device for triangular base of circular knitting machine | |
CN202369744U (en) | Stitch cam of flat knitting machine | |
CN203807680U (en) | Triangular resetting mechanism of circular knitting machine | |
CN203101862U (en) | Control circuit board used on flat knitting machine | |
CN203256434U (en) | Single-system computerized flat knitting machine of integral type faller | |
CN202482573U (en) | Needle cylinder device of hosiery machine | |
CN203238417U (en) | Control device of computerized flat knitting machine movement mechanism | |
CN202849716U (en) | Weaving returning triangle of bottom plate of flat knitting machine | |
CN202989468U (en) | Single electronic needle selection device for circular knitting machine | |
CN202509213U (en) | Non-woven compressing piece of flat knitting machine | |
CN203683841U (en) | Needle selector of flat knitting machine and flat knitting machine | |
CN201971981U (en) | Cam device of flat knitting machine |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CX01 | Expiry of patent term |
Granted publication date: 20140702 |
|
CX01 | Expiry of patent term |