CN105624905B - A kind of Computerized flat knitting machine adjustable lifting mesh, degree mesh control structure - Google Patents

Abstract

The present invention relates to a kind of Computerized flat knitting machine adjustable lifting mesh, degree mesh control structure, including mountain plate bottom plate and at least one set of mountain angle, every group of mountain angle is set on the plate bottom plate of mountain in "eight" shape, slide assemblies are provided with the plate bottom plate of mountain, mountain angle is slidably connected on slide assemblies, it is connected with slide assemblies on drive component, slide assemblies and is connected with zero-bit inductive component；Advantages of the present invention：The slip of slide assemblies is realized by drive component, it is brought to mountain angle oriented sliding in slide assemblies, it is achieved thereby that can arbitrarily coordinate regulation to hanging mesh two and the degree density of mesh two, relative to the structure of existing " fixed triangle ", cost can be reduced, simplify knitting process, braiding can be completed during braid movement in different needle tracks, adapt to different braids, practical performance is high, can realize that fabric stereovision and third dimension are stronger with multi-level density in piece of fabric, apply computer flat-bed knitting machine wider, oriented sliding ensure that the stationarity that mountain angle is slided.

Description

A kind of Computerized flat knitting machine adjustable lifting mesh, degree mesh control structure

Technical field

The present invention relates to a kind of Computerized flat knitting machine adjustable lifting mesh, degree mesh control structure.

Background technology

As the improvement of people's living standards, the quality for being knitted clothing to dress has very high requirement, therefore to computer The braiding of flat machine requires also more and more higher, when fabric needs different densities with the two neighboring coil size of a line, Need " to hang mesh two " or different needle tracks " spend mesh two " to complete this weave patterns.Tradition hangs mesh two, can only utilize " fixed three Angle ", can only complete to weave when doing braid movement in same needle track, hang mesh two same Density can not segmental structure work, Density is unchanged, and fabric stereovision is dull.

The content of the invention

Present invention solves the technical problem that it is to provide a kind of Computerized flat knitting machine adjustable lifting mesh, minute hand road degree mesh control structure, can Effectively solve existing degree mesh one hang mesh two can not adjust, Density can not minute hand, sectional-regulated and Density it is unconverted Defect.

In order to solve the above-mentioned technical problem, the present invention is achieved by the following technical solutions：A kind of Computerized flat knitting machine is adjustable Mesh, degree mesh control structure, including mountain plate bottom plate and at least one set of mountain angle are hung, every group of mountain angle is in "eight" shape on the plate bottom plate of mountain Set, be provided with slide assemblies on the plate bottom plate of mountain, mountain angle is slidably connected on slide assemblies, and driving group is connected with slide assemblies Part, drive component drives slide assemblies to move horizontally, and drives mountain angle to do displacement in the moving direction of slide assemblies, slides The zero-bit inductive component for realizing that drive component finds zero-bit is connected with component.

It is preferred that, slide assemblies include fixed part and movable part, and movable part is slidably connected on fixed part, and fixed part is fixed It is connected on the plate bottom plate of mountain, mountain angle is connected with movable part, and drive component is connected with movable part, and movable part is driven by drive component Movable on fixed part, so as to drive angle activity, sliding effect is good, and practical performance is good, simple in construction, easy installation and removal.

It is preferred that, fixed part is draw runner seat, and movable part is connected with sliding part to be oriented on draw runner, mountain angle, is oriented on draw runner Provided with the chute slided for sliding part, hypotenuse of the madial wall provided with display mountain angle station of chute, hypotenuse is tangent with sliding part Set, zero-bit inductive component is fixedly connected on guiding draw runner, slided on draw runner seat by being oriented to draw runner and drive the mountain angle to exist It is oriented on draw runner and slides, and the groove being provided with by chute shows mountain angle station, can be adjusted according to different production requirements Section, practical performance is good.

It is preferred that, sliding part includes take-up housing, slider plate and second bearing, and second bearing is fixed by second bearing axle to be connected It is connected in slider plate, and second bearing is arranged in chute, take-up housing is connected with mountain angle, and slider plate is fixedly connected on take-up housing On, slip of the mountain angle in chute is realized by sliding part, the stationary performance of slip is good, and regulating effect is good, and sliding part is set Into slider plate and second bearing, sliding effect is good, simple in construction, and control accuracy is good.

It is preferred that, drive component includes stepper motor, connecting rod and guide pad, and connecting rod is connected with guide pad, on stepper motor Provided with the motor connection lever seat being connected with connecting rod, guide pad is fixedly connected on guiding draw runner, passes through the rotational angle of stepper motor To control the sliding stroke of guide pad, so as to control mountain angle in the station being oriented on draw runner, driving effect is good.

It is preferred that, connecting rod is provided with the clutch shaft bearing fixed by clutch shaft bearing axle, and guide pad is provided with fixing groove, first Bearing is embedded in fixing groove, drives the rotation of clutch shaft bearing to drive the slip of guide pad by connecting rod, so as to realize guiding The slip of draw runner.

It is preferred that, motor connection lever seat is rotated with connecting rod by removable pin to be connected, reduce in installation process second bearing with The damage of stepper motor.

It is preferred that, motor connection lever seat is provided with rod spring piece, and stepper motor is fixedly connected on mountain plate bottom by motor cabinet On plate, with motor connection lever connecting rod one end for being connected of seat provided with inclination angle, the setting of rod spring piece is easy to connecting rod to reset, and realizes the The fixation of two bearings, motor cabinet is easy to the installation of stepper motor to fix, and the setting at inclination angle can provide enough lower pressure, practicality Can be good, reduce and damage.

It is preferred that, zero-bit inductive component includes zero-bit sensing chip, inductor and inductor seat, and zero-bit sensing chip is fixedly connected It is being oriented on draw runner, inductor is fixedly connected on inductor seat, can realize that system initialization terminates rear fast searching zero-bit.

It is preferred that, the top of draw runner seat is provided with cover plate, cover plate and draw runner seat are detachably connected, it is to avoid the disengaging of guiding draw runner Draw runner seat, it is ensured that be oriented to the stationarity that draw runner is slided.

In summary, advantages of the present invention：The slip of slide assemblies is realized by drive component, mountain angle is brought in cunning Oriented sliding in dynamic component, it is achieved thereby that can arbitrarily coordinate regulation to hang mesh two and the degree density of mesh two, relative to it is existing " Gu The structure of fixed pattern triangle ", can reduce cost, simplify knitting process, can complete braiding during braid movement in different needle tracks, can fit Different braids are answered, practical performance is high, can realize that fabric stereovision and third dimension are more with multi-level density in piece of fabric By force, apply computer flat-bed knitting machine wider, oriented sliding is done in mountain angle on the moving direction of slide assemblies, it is ensured that to slide at mountain angle Stationarity, it is ensured that the reliability of braiding, improve braid efficiency, and realize that the zero-bit of drive component is sought by zero-bit inductive component Look for, control accuracy is high.

Brief description of the drawings

The invention will be further described below in conjunction with the accompanying drawings：

Fig. 1 is a kind of Computerized flat knitting machine adjustable lifting mesh of the invention, the structural representation for spending mesh control structure；

Fig. 2 is the structural representation of second bearing of the present invention initial position in chute；

Fig. 3 is the structural representation of second bearing of the present invention mobile two stations in chute；

Fig. 4 hangs the structural representation that mesh mixes pin Cam Track with braiding for two sections for the present invention；

Fig. 5 mixes the structural representation of skill of handling needles Cam Track for two sections of degree mesh of present invention braiding and braiding.

Embodiment

As shown in Figure 1, Figure 2, Figure 3 shows, a kind of Computerized flat knitting machine adjustable lifting mesh, degree mesh control structure, including mountain plate bottom plate 1 and extremely Few one group of mountain angle 2, every group of mountain angle 2 is set on mountain plate bottom plate 1 in "eight" shape, and slide assemblies are provided with mountain plate bottom plate 1 3, mountain angle 2 is slidably connected on slide assemblies 3, and drive component 4 is connected with slide assemblies 3, and drive component 4 drives slide assemblies 3 are moved horizontally, and drive mountain angle 2 is done in the moving direction of slide assemblies 3 and realization drive is connected with displacement, slide assemblies 3 Dynamic component 4 finds the zero-bit inductive component 5 of zero-bit, and slide assemblies 3 include fixed part 31 and movable part 32, and movable part 32, which is slided, to be connected Be connected on fixed part 31, fixed part 31 is fixedly connected on mountain plate bottom plate 1, and mountain angle 2 is connected with movable part 32, drive component 4 with Movable part 32 is connected, and movable part activity on fixed part is driven by drive component, so as to drive angle activity, sliding effect Good, practical performance is good, simple in construction, easy installation and removal, and fixed part 31 is draw runner seat, and movable part 32 is guiding draw runner, mountain angle 2 On be connected with sliding part 6, be oriented to draw runner and be provided with the chute 30 slided for sliding part 6, the madial wall of chute 30 is provided with display The hypotenuse 33 of mountain angle station, hypotenuse 33 is fixedly connected on guiding draw runner, led to the tangent setting of sliding part 6, zero-bit inductive component 5 Cross sliding part and realize slip of the mountain angle in chute, the stationary performance of slip is good, and regulating effect is good, and sliding part is arranged into sliding block Plate and second bearing, sliding effect are good, simple in construction, and control accuracy is good, and sliding part 6 includes take-up housing 61, slider plate 62 and the Two bearings 63, second bearing 63 is fixedly connected in slider plate 62 by second bearing axle 64, and second bearing 63 is arranged on cunning In groove 30, take-up housing 61 is connected with mountain angle 2, and slider plate 62 is fixedly connected on take-up housing 61, passes through the angle of rotation of stepper motor Spend to control the sliding stroke of guide pad, so as to control mountain angle in the station being oriented on draw runner, driving effect is good.

Drive component 4 includes stepper motor 41, connecting rod 42 and guide pad 43, and connecting rod 42 is connected with guide pad 43, stepping electricity Machine 41 is provided with the motor connection lever seat 44 being connected with connecting rod 42, and guide pad 43 is fixedly connected on guiding draw runner, passes through stepping electricity The rotational angle of machine controls the sliding stroke of guide pad, so as to control mountain angle in the station being oriented on draw runner, drive effect Good, connecting rod 42 is provided with the clutch shaft bearing 422 fixed by clutch shaft bearing axle 421, and guide pad 43 is provided with fixing groove 49, first Bearing 422 is embedded in fixing groove 49, drives the rotation of clutch shaft bearing to drive the slip of guide pad by connecting rod, so as to realize The slip of draw runner is oriented to, motor connection lever seat 44 is rotated with connecting rod 42 by removable pin 47 to be connected, and is reduced second in installation process The damage of bearing and stepper motor, motor connection lever seat 44 is provided with rod spring piece 45, and stepper motor 41 is solid by motor cabinet 46 Surely it is connected on mountain plate bottom plate 1, the setting of rod spring piece is easy to connecting rod to reset, realizes the fixation of second bearing, motor toilet Fixed in the installation of stepper motor, the one end of connecting rod 42 being connected with motor connection lever seat 44 is provided with inclination angle 48, under providing enough Pressure, practical performance is good, reduces and damages.

Zero-bit inductive component 5 includes zero-bit sensing chip 51, inductor 52 and inductor seat 53, and zero-bit sensing chip 51, which is fixed, to be connected It is connected on guiding draw runner, inductor 52 is fixedly connected on inductor seat 53, can realize that system initialization terminates rear fast searching Zero-bit, the top of draw runner seat is provided with cover plate 34, cover plate 34 and draw runner seat 31 is detachably connected, it is to avoid guiding draw runner disengaging draw runner Seat, it is ensured that be oriented to the stationarity that draw runner is slided.

When the system is initiated, the searching of zero-bit is realized by zero-bit sensing chip 51, passes through the angle of rotation of stepper motor 41 Spend to control the station at mountain angle 2, control accuracy is high, slided in use, rotating drivening rod 42 by stepper motor 41, make connecting rod Clutch shaft bearing 422 on 42 is slided in the fixing groove 49 of guide pad 43, so that the slip with action-oriented draw runner, then mountain angle 2 Oriented sliding is done in chute 30 by sliding part 6, and the station at mountain angle is controlled by hypotenuse 33, is operated successively, so that it may To realize the random regulation for hanging mesh two.

As shown in figure 4, hang mesh for two sections of the invention mixes pin Cam Track with braiding, by every group of mountain angle 2 in mountain plate bottom plate 1 On according to installation site be divided into the right mountain angle 2 and the left side mountain angle 2, and be provided with mountain plate bottom plate 1 it is right retain shield mountain in 11st, 16, needle overturning triangle 14 in mountain are protected in 15, left reservation in 12, piling of rockeries 13, needle overturning mountain angle 14, left plain shield mountain in right plain shield mountain Be provided with left-hand needle track and dextrad needle track, You Shanjiao and Zuo Shanjiao be respectively provided with above and below two needle tracks, the crochet needle on mountain plate bottom plate 1 Road sequentially pass through from right to left it is right retain in shield mountain in 11 and right plain shield mountain between 12, the lower needle track at the mountain angle 2 on the right, the right Mountain angle 2 and piling of rockeries 13 between, between needle overturning mountain angle 14 and piling of rockeries 13,15 in the lower needle track at the mountain angle 2 on the left side, left plain shield mountain And it is left retain in shield mountain between 16, when braiding spring needle by secondary needle selection walks A；Two sections are hung mesh spring needle by a needle selection H are walked, wherein a presser feet 71 lifts, No. two presser feets 72, No. three presser feets 73 are depressed；As shown in figure 5, being present invention braiding and volume Two sections of degree mesh mixing skill of handling needles Cam Tracks are knitted, as described above, when braiding spring needle by secondary needle selection walks A, two sections are hung mesh Spring needle walks H by a needle selection, wherein presser feet 71, No. two presser feets 72 lift, No. three presser feets 73 are depressed.

In addition to above preferred embodiment, the present invention also has other embodiments, and those skilled in the art can be according to this Invention is variously modified and deformed, and without departing from the spirit of the present invention, all should belong to appended claims of the present invention and determine The scope of justice.

Claims (8)

1. a kind of Computerized flat knitting machine adjustable lifting mesh, degree mesh control structure, including mountain plate bottom plate (1) and at least one set of mountain angle (2), every group Mountain angle (2) is set on mountain plate bottom plate (1) in "eight" shape, it is characterised in that：Slide assemblies are provided with mountain plate bottom plate (1) (3), mountain angle (2) are connected with slide assemblies (3), and drive component (4) is connected with slide assemblies (3), and drive component (4), which drives, to be slided Dynamic component (3) is moved horizontally, and drives mountain angle (2) to do displacement, slide assemblies (3) in the moving direction of slide assemblies (3) On be connected with realize drive component (4) find zero-bit zero-bit inductive component (5)；

Slide assemblies (3) include fixed part (31) and movable part (32), and movable part (32) is slidably connected on fixed part (31), Gu Determine portion (31) to be fixedly connected on mountain plate bottom plate (1), mountain angle (2) are connected with movable part (32), drive component (4) and movable part (32) it is connected；

Fixed part (31) is draw runner seat, and movable part (32) is connected with sliding part (6) to be oriented to draw runner, is oriented to draw runner on mountain angle (2) The chute (30) slided for sliding part (6) is provided with, the madial wall of chute (30) is provided with the hypotenuse (33) of display mountain angle station, Hypotenuse (33) is fixedly connected on guiding draw runner with the tangent setting of sliding part (6), zero-bit inductive component (5).

2. a kind of Computerized flat knitting machine adjustable lifting mesh according to claim 1, degree mesh control structure, it is characterised in that：Sliding part (6) take-up housing (61), slider plate (62) and second bearing (63) are included, second bearing (63) is fixed by second bearing axle (64) It is connected in slider plate (62), and second bearing (63) is arranged in chute (30), take-up housing (61) is connected with mountain angle (2), sliding Block plate (62) is fixedly connected on take-up housing (61).

3. a kind of Computerized flat knitting machine adjustable lifting mesh according to claim 1, degree mesh control structure, it is characterised in that：Driving group Part (4) includes stepper motor (41), connecting rod (42) and guide pad (43), and connecting rod (42) is connected with guide pad (43), stepper motor (41) provided with the motor connection lever seat (44) being connected with connecting rod (42), guide pad (43) is fixedly connected on guiding draw runner.

4. a kind of Computerized flat knitting machine adjustable lifting mesh according to claim 3, degree mesh control structure, it is characterised in that：Connecting rod (42) it is provided with by the fixed clutch shaft bearing (422) of clutch shaft bearing axle (421), guide pad (43) is provided with fixing groove (49), Clutch shaft bearing (422) is embedded in fixing groove (49).

5. a kind of Computerized flat knitting machine adjustable lifting mesh according to claim 3, degree mesh control structure, it is characterised in that：Motor connects Pole socket (44) is rotated by removable pin (47) with connecting rod (42) and is connected.

6. a kind of Computerized flat knitting machine adjustable lifting mesh according to claim 3, degree mesh control structure, it is characterised in that：Motor connects Pole socket (44) is provided with rod spring piece (45), and stepper motor (41) is fixedly connected on mountain plate bottom plate (1) by motor cabinet (46) On, connecting rod (42) one end being connected with motor connection lever seat (44) is provided with inclination angle (48).

7. a kind of Computerized flat knitting machine adjustable lifting mesh according to claim 1, degree mesh control structure, it is characterised in that：Zero-bit sense Component (5) is answered to include zero-bit sensing chip (51), inductor (52) and inductor seat (53), zero-bit sensing chip (51) is fixedly connected on It is oriented on draw runner, inductor (52) is fixedly connected on inductor seat (53).

8. a kind of Computerized flat knitting machine adjustable lifting mesh according to claim 7, degree mesh control structure, it is characterised in that：Draw runner seat Top be provided with cover plate (34), cover plate (34) and draw runner are detachably connected.