CN218321832U - Settlement triangle structure of flat knitting machine - Google Patents

Abstract

The utility model relates to a flat knitting machine field discloses a flat knitting machine's settlement triangle structure, and it is including subsiding bottom plate (1), still include preceding baffle (3) and back baffle (4), all be equipped with on preceding baffle (3) and back baffle (4) and subside three angular aperture (5), subside three angular aperture (5) and be horizontal slot hole, subside three angular aperture (5) including communicating with each other and lie in the upstroke section and the downstroke section on the different planes, subside and install bearing (20) on the triangle subassembly (2), bearing (20) and subside three angular aperture (5) cooperation. The utility model has a plurality of sedimentation triangles to make the effective working surface longer, and the plurality of sedimentation triangles can realize the up-and-down reciprocating movement structure more reasonable, the sedimentation triangles are more flexible, the appearance structure is simple, the processing is easy, and the production cost is lower; the laminated installation of the front guide plate and the rear guide plate can reduce the displacement distance of the guide plates, and simultaneously, the up-and-down arrangement mode of the sinker triangles increases the control functions.

Description

Settlement triangle structure of flat knitting machine

Technical Field

The utility model relates to a flat knitting machine field has especially related to a flat knitting machine's sinker cam structure.

Background

The computerized flat knitting machine subsides triangle position form at present can mainly rely on the deflector control to subside the triangle and reciprocate, and ordinary subside triangle structure has only set up a deflector, and above-mentioned subside triangle structure is because the length of deflector has been restricted to system centre-to-centre spacing, and it is single to lead to subsiding the triangle arrangement mode from top to bottom, and the control function that complicated is can't be accomplished to subside the triangle, has restricted the variety of weaving the flower type greatly.

Therefore, a settlement structure composed of a plurality of settlement triangles and a plurality of guide plates is urgently needed at present, so that the settlement triangles have more control functions and more abundant weaving patterns.

SUMMERY OF THE UTILITY MODEL

The utility model provides a horizontal braider's subsides triangle-shaped structure to the shortcoming among the prior art.

In order to solve the technical problem, the utility model discloses a following technical scheme can solve:

the utility model provides a sinker cam structure of flat knitting machine, including subsiding the bottom plate, but install the sinker cam subassembly of activity from top to bottom on the subsiding the bottom plate, still include preceding baffle and back baffle, all be equipped with on preceding baffle and the back baffle and subside the triangular hole, it is horizontal slot hole to subside the triangular hole, subside the triangular hole including communicate with each other and be located upstroke section and the downstroke section on the different planes, install the bearing on the sinker cam subassembly, the bearing with subside the cooperation of triangular hole and through the preceding baffle that removes about and back baffle drive the sinker cam subassembly and slide and realize reciprocating subsiding the triangular hole.

As preferred, the settlement triangle subassembly includes left settlement triangle, well settlement triangle and right settlement triangle, and the settlement triangle hole includes left settlement triangle hole, well settlement triangle hole and right settlement triangle hole, and left settlement triangle hole and right settlement triangle hole are located the left and right sides of back guidance, and well settlement triangle hole is located the front guide, all is equipped with the bearing on left settlement triangle, well settlement triangle and the right settlement triangle and subsides the triangle through the bearing respectively with left settlement triangle hole, well settlement triangle hole and the cooperation of right settlement triangle hole.

Preferably, the left sedimentation triangle part, the middle sedimentation triangle part and the right sedimentation triangle part are respectively and fixedly provided with a left sliding block, a middle sliding block and a right sliding block, the rear sides of the left sliding block, the middle sliding block and the right sliding block are respectively provided with a left bearing, a middle bearing and a right bearing, the sedimentation bottom plate is provided with a left limiting groove, a middle limiting groove and a right limiting groove, the left sliding block is positioned in the left limiting groove and slides up and down, the middle sliding block is positioned in the middle limiting groove and slides up and down, and the right sliding block is positioned in the right limiting groove and slides up and down.

Preferably, the left sedimentation triangular hole comprises a left sedimentation upper stroke section, a left sedimentation transition stroke section and a left sedimentation lower stroke section which are sequentially arranged from left to right, the middle sedimentation triangular hole comprises a middle sedimentation upper stroke section, a middle sedimentation transition stroke section and a middle sedimentation lower stroke section which are sequentially arranged from left to right, and the right sedimentation triangular hole comprises a right sedimentation lower stroke section, a right sedimentation transition stroke section and a right sedimentation upper stroke section which are sequentially arranged from left to right; the distance between the left sedimentation upper stroke section and the right sedimentation lower stroke section is larger than the distance between the left bearing and the right bearing; the front guide plate is provided with a through hole which is penetrated through the left sedimentation triangular hole and the right sedimentation triangular hole.

Preferably, the sedimentation bottom plate is provided with a guide plate limiting groove, and the front guide plate and the rear guide plate are both positioned in the guide plate limiting groove and move left and right.

Preferably, the automatic feeding device further comprises a motor, gears are fixedly arranged on output shafts of the motor, a front rack and a rear rack are respectively arranged on the front guide plate and the rear guide plate, and the gears are respectively matched with the front rack and the rear rack and drive the front guide plate and the rear guide plate to move left and right.

Preferably, the swing type motor sedimentation device further comprises a swing triangular piece, the swing triangular piece is fixedly connected with the output shaft of the motor through an axial screw, a limiting groove is formed in the sedimentation bottom plate, inward limiting protrusions are arranged on the left side and the right side of the limiting groove, and the swing triangular piece is in contact fit with the limiting protrusions and limits the rotation of the motor.

Preferably, the motor fixing device further comprises a fixing seat, an installation angle iron and a motor mounting seat, wherein the fixing seat, the installation angle iron and the guide plate limiting groove are arranged on the notch of the guide plate limiting groove, a cavity for accommodating the front guide plate and the rear guide plate is formed by the fixing seat, the installation angle iron and the guide plate limiting groove, a motor plate is further arranged on the motor, and the motor plate, the fixing seat and the motor mounting seat are fixedly arranged.

Preferably, the front side of the settling floor 1 is further provided with a fixing plate 16.

The utility model discloses owing to adopted above technical scheme, have apparent technological effect: the sedimentation triangle structure of the utility model is provided with a plurality of sedimentation triangle control mechanisms on the sedimentation bottom plate, each set of sedimentation triangle control mechanism is respectively provided with a left sedimentation triangle part, a middle sedimentation triangle part and a right sedimentation triangle part, a plurality of sedimentation triangle parts can make the effective working surface longer, and a plurality of sedimentation triangles can realize more reasonable up-and-down reciprocating movement structure, the sedimentation triangle is more flexible, the appearance structure is simple, the processing is easy, and the production cost is lower; the front guide plate and the rear guide plate are provided with stroke sections for accommodating bearings to roll in the stroke sections, the front guide plate and the rear guide plate move left and right to control the sedimentation triangle part or form different control functions by arranging the sedimentation triangle part at the upper part or the lower part, and the front guide plate and the rear guide plate are arranged in a laminated manner, so that the displacement distance of the guide plates can be reduced, and the up-and-down arrangement mode of the sedimentation triangle is more, so that more control functions are realized.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a top view of the sinker cam structure of the present invention.

Fig. 3 is a left side view of the sinker cam structure of the present invention.

Fig. 4 is an exploded view of the present invention.

Figure 5 is the utility model discloses subside triangular structure subsides sketch I.

Fig. 6 is the settlement diagram ii of the settlement triangle structure of the present invention.

Figure 7 is the subsidence schematic diagram III of the subsidence triangle structure of the utility model.

Figure 8 is the settlement schematic diagram IV of the settlement triangle structure of the utility model.

The names of the parts designated by the numerical references in the drawings are as follows: 1-settlement bottom plate, 2-settlement triangle component, 3-front guide plate, 4-rear guide plate, 5-settlement triangle hole, 6-motor, 7-fixing seat, 8-installation angle iron, 9-swing triangle piece, 10-motor mounting seat, 11-left limiting groove, 12-middle limiting groove, 13-right limiting groove, 14-guide plate limiting groove, 15-limiting groove, 151-limiting protrusion, 16-fixing plate, 20-bearing, 201-left bearing, 202-middle bearing, 203-right bearing, 21-left settlement triangle piece, 211-left slider, 22-middle settlement triangle piece, 221-middle slider, 23-right settlement triangle piece, 231-right slider, 31-front rack, 41-rear rack, 51-left settlement triangle hole, 511-left settlement upper stroke section, 512-left settlement transition stroke section, 513-left settlement lower stroke section, 52-middle settlement triangle hole, 521-middle settlement upper stroke section, 522-middle settlement transition stroke section, 523-middle settlement transition stroke section, 533-right settlement lower stroke section, 532-right settlement transition stroke section, 532-right stroke section, 532-upper stroke section, 532-middle settlement transition stroke section, 532-lower stroke section, 532-right settlement transition stroke section, and 532-lower stroke section.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Example 1

The utility model provides a horizontal braider's sinker cam structure, including subsiding bottom plate 1, but subside the triangle subassembly 2 of upper and lower activity of installing on the bottom plate 1, still include front guide 3 and back baffle 4, all be equipped with on front guide 3 and the back baffle 4 and subside triangular hole 5, it is horizontal slot hole to subside triangular hole 5, it includes the upstroke section and the downstroke section that communicate with each other and lie in on the different planes to subside triangular hole 5, install bearing 20 on the sinker triangle subassembly 2, bearing 20 and subside the cooperation of triangular hole 5 and drive sinker triangle subassembly 2 through front guide 3 and the back baffle 4 that remove about and slide and realize reciprocating subsiding triangular hole 5.

The bearing 20 on the settlement triangle subassembly 2 is in coordination with the settlement triangle hole 5 and can transversely slide in the settlement triangle hole 5, because all be equipped with upstroke section and downstroke section in the settlement triangle hole 5 on front guide 3 and the back guide 4, consequently, front guide 3 and back guide 4 remove the in-process about, and bearing 20 is promoted by upstroke section and downstroke section in the settlement triangle hole 5 and realizes displacement from top to bottom to drive settlement triangle subassembly 2 and realize reciprocating.

Example 2

The same as embodiment 1, the difference is that the sedimentation triangle assembly 2 includes left sedimentation triangle part 21, well sedimentation triangle part 22 and right sedimentation triangle part 23, sedimentation triangle hole 5 includes left sedimentation triangle hole 51, well sedimentation triangle hole 52 and right sedimentation triangle hole 53, left sedimentation triangle hole 51 and right sedimentation triangle hole 53 are located the left and right sides of back baffle 4, well sedimentation triangle hole 52 is located front guide 3, all be equipped with bearing 20 on left sedimentation triangle part 21, well sedimentation triangle part 22 and the right sedimentation triangle part 3 and cooperate with left sedimentation triangle hole 51, well sedimentation triangle hole 52 and right sedimentation triangle hole 53 respectively through bearing 20.

The rear sides of the left sedimentation triangle part 21, the middle sedimentation triangle part 22 and the right sedimentation triangle part 23 are respectively and fixedly provided with a left sliding block 211, a middle sliding block 221 and a right sliding block 231, the rear sides of the left sliding block 211, the middle sliding block 221 and the right sliding block 231 are respectively provided with a left bearing 201, a middle bearing 202 and a right bearing 203, the sedimentation bottom plate 1 is provided with a left limiting groove 11, a middle limiting groove 12 and a right limiting groove 13, the left sliding block 211 is positioned in the left limiting groove 11 and slides up and down, the middle sliding block 221 is positioned in the middle limiting groove 12 and slides up and down, and the right sliding block 231 is positioned in the right limiting groove 13 and slides up and down.

The left sedimentation triangular hole 51 comprises a left sedimentation upper stroke section 511, a left sedimentation transition stroke section 512 and a left sedimentation lower stroke section 513 which are sequentially arranged from left to right, the middle sedimentation triangular hole 52 comprises a middle sedimentation upper stroke section 521, a middle sedimentation transition stroke section 522 and a middle sedimentation lower stroke section 523 which are sequentially arranged from left to right, and the right sedimentation triangular hole 53 comprises a right sedimentation lower stroke section 531, a right sedimentation transition stroke section 532 and a right sedimentation upper stroke section 533 which are sequentially arranged from left to right; the distance between the left sedimentation upper stroke section 511 and the right sedimentation lower stroke section 531 is larger than the distance between the left bearing 201 and the right bearing 203, and four different sedimentation modes can be realized due to the arrangement of the distances; the front guide plate 3 is provided with a through hole which penetrates through the left sedimentation triangular hole 51 and the right sedimentation triangular hole 53. The through-hole can be convenient for left side to subside triangle 21 and the bearing 20 of right side settlement triangle 23 and pass front guide 3, again with the left side on the back guide 4 subside the triangle-shaped hole 51 and the cooperation of right side settlement triangle-shaped hole 53 to in limited space, can control the settlement that left side subsides triangle 21, well subsides triangle-shaped 22 and right side subside triangle-shaped 23 simultaneously.

The sedimentation bottom plate 1 is provided with a guide plate limiting groove 14, and the front guide plate 3 and the rear guide plate 4 are both positioned in the guide plate limiting groove 14 and move left and right.

The front side of the settling bottom plate 1 is also provided with a fixing plate 16. The fixed plate 16 is located below the sinker cam assembly 2.

Example 3

The same as the embodiment 1, the difference is that the device further comprises a motor 6, gears 61 are fixedly arranged on output shafts of the motor 6, the front guide plate 3 and the rear guide plate 4 are respectively provided with a front rack 31 and a rear rack 41, the length of the front rack 31 is shorter than that of the rear rack 41, and the gears 61 are respectively matched with the front rack 31 and the rear rack 41 and drive the front guide plate 3 and the rear guide plate 4 to move left and right.

Still include swing triangle-shaped 9, swing triangle-shaped 9 passes through axial screw rigid coupling with motor 6 output shaft, is equipped with spacing recess 15 on the settlement bottom plate 1, and the left and right sides of spacing recess 15 is equipped with inward spacing arch 151, and swing triangle-shaped 9 and spacing arch 151 contact cooperation carry out to motor 6 rotate spacingly.

The automatic control device is characterized by further comprising a fixing seat 7, a mounting angle iron 8 and a motor mounting seat 10 which are mounted on the notch of the guide plate limiting groove 14, wherein the fixing seat 7, the mounting angle iron 8 and the guide plate limiting groove 14 form a cavity for accommodating the front guide plate 3 and the rear guide plate 4, a motor plate 62 is further mounted on the motor 6, and the motor plate 62, the fixing seat 7 and the motor mounting seat 10 are fixedly mounted, so that the motor 6 is fixedly mounted on the sedimentation bottom plate 1.

The present application can form the following four sedimentation control modes:

the first method comprises the following steps: as shown in fig. 5, the front guide plate 3 and the rear guide plate 4 do not translate, the middle bearing 202 of the middle sedimentation triangle 22 is accommodated in the middle sedimentation upper stroke section 521 of the front guide plate 3, the middle sedimentation triangle 22 is at the upper stroke, the left bearing 201 of the left sedimentation triangle 21 and the right bearing 203 of the right sedimentation triangle 23 are respectively accommodated in the left sedimentation upper stroke section 511 and the right sedimentation upper stroke section 533 of the rear guide plate 4, and the left sedimentation triangle 21 and the right sedimentation triangle 23 are at the upper stroke.

And the second method comprises the following steps: as shown in fig. 6, the front guide plate 3 does not translate, the middle bearing 202 of the middle sedimentation triangle 22 is accommodated in the middle sedimentation upper stroke section 521 of the front guide plate 3, the middle sedimentation triangle 22 is in an upper stroke, the motor 6 drives the rear rack 41 and the rear guide plate 4 to move leftward through the gear 61, the left bearing 201 of the left sedimentation triangle 21 reaches the left sedimentation lower stroke section 513 from the upper stroke section of the left sedimentation upper stroke section 511 through the left sedimentation transition stroke section 512, the left sedimentation triangle 21 is driven to enter a lower stroke, the bearing 203 of the right sedimentation triangle 23 is always in the right sedimentation upper stroke section 533 of the rear guide plate 4, and the right sedimentation triangle 23 is in the upper stroke.

And the third is that: as shown in fig. 7, the front guide plate 3 does not translate, the middle bearing 202 of the middle triangular sinking element 22 is accommodated in the middle upper sinking stroke section 521 of the front guide plate 3, the middle triangular sinking element 22 is in the upper stroke, the motor 6 drives the rack 41 and the rear guide plate 4 to move rightward through the gear 61, the right bearing 203 of the right triangular sinking element 23 passes through the right upper sinking transition stroke section 533 and reaches the right lower sinking stroke section 531, the right triangular sinking element 23 is driven to enter the lower stroke, the left bearing 201 of the left triangular sinking element 21 is always in the left upper sinking stroke section 511 of the rear guide plate 4, and the left triangular sinking element 21 is in the upper stroke.

And fourthly: as shown in fig. 8, the motor 6 drives the front rack 31 and the front guide plate 3 to move leftward through the gear 61, the middle bearing 202 of the middle sedimentation triangle 22 passes through the middle sedimentation upper stroke section 521 and reaches the middle sedimentation lower stroke section 523 through the middle sedimentation transition stroke section 522, the middle sedimentation triangle 22 is driven to enter a lower stroke, at this time, the rear guide plate 4 does not translate, the left bearing 201 of the left sedimentation triangle 21 and the right bearing 203 of the right sedimentation triangle 23 are accommodated in the left sedimentation upper stroke section 511 and the right sedimentation upper stroke section 533 of the rear guide plate 4, respectively, and the left sedimentation triangle 21 and the right sedimentation triangle 23 are in an upper stroke.

In short, the above description is only a preferred embodiment of the present invention, and all the equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the scope of the present invention.

Claims (9)

1. The utility model provides a flat knitting machine's settlement triangle structure, is including subsiding bottom plate (1), subsides and installs the settlement triangle subassembly (2) that can move about from top to bottom on bottom plate (1), its characterized in that: still include preceding baffle (3) and back baffle (4), all be equipped with on preceding baffle (3) and back baffle (4) and subside triangular hole (5), it is horizontal slot hole to subside triangular hole (5), subside triangular hole (5) including communicating with each other and be located the upstroke section and the down stroke section on the different planes, install bearing (20) on subsiding triangle subassembly (2), bearing (20) and subside triangular hole (5) cooperation and through preceding baffle (3) and back baffle (4) that remove about and drive and subside triangle subassembly (2) and slide and realize reciprocating subsiding triangular hole (5).

2. The sinker cam structure of a flat knitting machine according to claim 1, wherein: settlement triangle subassembly (2) are including left settlement triangle (21), well settlement triangle (22) and right settlement triangle (23), it subsides triangle hole (5) including left settlement triangle hole (51), well settlement triangle hole (52) and right settlement triangle hole (53), left side is subsided triangle hole (51) and right settlement triangle hole (53) and is located the left and right sides of back guide (4), well settlement triangle hole (52) are located front guide (3), left side is subsided triangle (21), all be equipped with bearing (20) and through bearing (20) respectively with left settlement triangle hole (51), well settlement triangle hole (52) and right settlement triangle hole (53) cooperation on well settlement triangle (22) and right settlement triangle (23).

3. The sinker cam structure of a flat knitting machine according to claim 2, wherein: a left slide block (211), a middle slide block (221) and a right slide block (231) are respectively and fixedly arranged on the left sedimentation triangle (21), the middle sedimentation triangle (22) and the right sedimentation triangle (23), a left bearing (201), a middle bearing (202) and a right bearing (203) are respectively arranged on the left slide block (211), the middle slide block (221) and the right slide block (231),

a left limiting groove (11), a middle limiting groove (12) and a right limiting groove (13) are arranged on the settling bottom plate (1), a left sliding block (211) is positioned in the left limiting groove (11) and slides up and down, a middle sliding block (221) is positioned in the middle limiting groove (12) and slides up and down, and a right sliding block (231) is positioned in the right limiting groove (13) and slides up and down.

4. The sinker cam structure of a flat knitting machine according to claim 2, wherein: the left sedimentation triangular hole (51) comprises a left sedimentation upper stroke section (511), a left sedimentation transition stroke section (512) and a left sedimentation lower stroke section (513) which are sequentially arranged from left to right, the middle sedimentation triangular hole (52) comprises a middle sedimentation upper stroke section (521), a middle sedimentation transition stroke section (522) and a middle sedimentation lower stroke section (523) which are sequentially arranged from left to right, and the right sedimentation triangular hole (53) comprises a right sedimentation lower stroke section (531), a right sedimentation transition stroke section (532) and a right sedimentation upper stroke section (533) which are sequentially arranged from left to right; the distance between the left sedimentation upper stroke section (511) and the right sedimentation lower stroke section (531) is larger than the distance between the left bearing (201) and the right bearing (203); the front guide plate (3) is provided with a through hole which penetrates through the left sedimentation triangular hole (51) and the right sedimentation triangular hole (53).

5. The sinker cam structure of a flat knitting machine according to claim 1, wherein: the sedimentation bottom plate (1) is provided with a guide plate limiting groove (14), and the front guide plate (3) and the rear guide plate (4) are both positioned in the guide plate limiting groove (14) and move left and right.

6. The sinker cam structure of a flat knitting machine according to claim 1, wherein: the automatic feeding mechanism is characterized by further comprising a motor (6), gears (61) are fixedly arranged on output shafts of the motor (6), a front rack (31) and a rear rack (41) are respectively arranged on the front guide plate (3) and the rear guide plate (4), and the gears (61) are respectively matched with the front rack (31) and the rear rack (41) and drive the front guide plate (3) and the rear guide plate (4) to move left and right.

7. The sinker cam structure of a flat knitting machine according to claim 6, wherein: the swing type motor sedimentation base plate is characterized by further comprising a swing triangular piece (9), the swing triangular piece (9) is fixedly connected with an output shaft of the motor (6) through an axial screw, a limiting groove (15) is formed in the sedimentation base plate (1), inward limiting protrusions (151) are arranged on the left side and the right side of the limiting groove (15), and the swing triangular piece (9) is in contact fit with the limiting protrusions (151) and limits rotation of the motor (6).

8. The sinker cam structure of a flat knitting machine according to claim 6, wherein: the motor fixing device is characterized by further comprising a fixing seat (7), an installation angle iron (8) and a motor mounting seat (10), wherein the fixing seat (7), the installation angle iron (8) and the motor mounting seat (10) are installed on a notch of the guide plate limiting groove (14), a motor plate (62) is further installed on the motor (6), and the motor plate (62), the fixing seat (7) and the motor mounting seat (10) are fixedly installed.

9. The sinker cam structure of a flat knitting machine according to claim 1, wherein: the front side of the settling bottom plate (1) is also provided with a fixing plate (16).

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