KR102102336B1 - Flat knitting machine mangling device with position varying with gap size - Google Patents

Abstract

Provided is a flat knitting device mangle apparatus of which a position varies according to a gap size. The flat knitting device mangling apparatus comprises: a driving member; a fixed base disposed on a cam support base; a sliding base positioned in correspondence with the fixed base; a restriction block coupled to the fixed base and restricting the sliding base, so that the sliding base only slides relatively to the cam support base; a mangling sheet support arm; and a mangling sheet disposed on the mangle sheet support arm. When a knock-over-formed bit cam creates a displacement stroke, the driving member is allowed to start. The sliding base is provided with a guide block, and when the driving member is allowed to start, a regular stroke is formed with respect to the cam support base. When the sliding base creates a regular stroke, the guide block is driven to move the mangling sheet so as to change a mangling position.

Description

A flat knitting machine mangle device whose position changes according to the gap size {FLAT KNITTING MACHINE MANGLING DEVICE WITH POSITION VARYING WITH GAP SIZE}

The present invention relates to a flat knitting machine mangling device, and more particularly, to a flat knitting machine mangling device whose position changes according to the size of the gap.

After the current flat knitting machine mangle device is set, the mangle position cannot be changed. Therefore, when the size of the gap is changed in the knitting process of the flat knitting machine, there is a problem that the mangle device cannot press the fabric.

The main object of the present invention is to solve the problem arising from the change in the gap size of the flat knitting machine in the mangle device.

In order to achieve the above-described problems, the present invention provides a flat knitting machine mangle device whose position changes according to the gap size. The flat knitting machine mangling device is coupled to a driving member, a fixed base disposed on the cam support base, a sliding base disposed corresponding to the fixed base, and a fixed base and restricts the sliding base to only slide relative to the cam support base. Restriction blocks, mangle seat support arms, and mangle seats. The drive member is started when the knock-over formed bit cam creates a displacement stroke. The sliding base is installed in correspondence with the fixed base, has a guide block, and generates a normal stroke to the cam support base when the drive member is started.

One end of the mangle seat support arm is fixed to the yarn feeder guide rod, and the other end is provided with an installation base. The passageway is formed in the installation base. The mangling seat includes a control area connected to the guide block, a connection area extending from the control area and penetrating the passageway, and a mangling area extending from the connection area and facing the needle bed, the sliding base providing a normal stroke. Upon creation, the control region induces the mangling region to move, changing the mangling position.

In one embodiment, the drive member includes an engaging portion connected to the knock-over formed bit cam and a pressing portion connected to the engaging portion, and the driving member is configured to move the pressing portion when the knock-over formed bit cam generates a displacement stroke. A driving stroke is generated, and an inclined guide path in which a pressing portion is disposed is formed on one side of the sliding base, and when the driving member generates the driving stroke, the sliding base generates a normal stroke with respect to the cam support base.

In one embodiment, the drive member is composed of a motor and a gear connected to the motor, and one side of the sliding base is provided with a supporting portion in contact with the gear.

In one embodiment, the restriction block includes a first ring portion protruding toward the mangling seat support arm, and the mangling seat support arm is installed on the installation base and protrudes toward the restriction block to be engaged with the first ring portion It includes a second ring portion.

In one embodiment, the sliding base includes a first long hole in which the fixed base is disposed.

In one embodiment, the mangling seat includes a second long hole disposed on the connection area, and the installation base includes one or more installation holes in communication with the passageway, thereby blinding through the installation member corresponding to the second long hole. Gling sheets can be limited.

In one embodiment, the mangling seat includes a guide rod disposed on the control area, and a groove in which the guide rod is disposed is formed in the guide block.

In one embodiment, the sliding base includes a first surface facing the cam support base and a second surface facing the restriction block, wherein an inclined guide path is from the first surface toward the knock-over formed bit cam. It extends to the second surface.

The present invention, as described above, has a feature that when the gap size of the flat knitting machine structure changes, the flat knitting machine mangle device of the present invention can change the mangling position.

1 is a structural schematic diagram of a flat knitting machine according to an embodiment of the present invention.
2 is a structural schematic diagram (I) of a flat knitting machine mangle device having a small gap according to an embodiment of the present invention.
3 is a structural schematic diagram (I) of a flat knitting machine mangle device having a large gap according to an embodiment of the present invention.
4 is a schematic structural diagram (II) of a flat knitting machine mangle device having a small gap according to an embodiment of the present invention.
5 is a schematic structural diagram (II) of a flat knitting machine mangle device having a large gap according to an embodiment of the present invention.
6 is a schematic structural diagram of a flat knitting machine mangle device having a small gap according to another embodiment of the present invention.
7 is a structural schematic diagram of a flat knitting machine mangle device having a large gap according to another embodiment of the present invention.

Hereinafter, detailed and technical contents of the present invention will be described with reference to the drawings.

Referring to Figures 1 to 5, the present invention provides a flat knitting machine mangle device 40 whose position changes according to the gap size. The gap 10 of the present invention is formed by a plurality of knock-over formed bits 16 facing each other in two needle beds 11 and 12 arranged in the flat knitting machine 100. Each of the plurality of knock-over formed bits 16 is moved by the knock-over formed bit cam 132 to change the size of the gap 10.

Accordingly, a plurality of flat knitting machine mangle devices 40 are configured on the flat knitting machine 100 structure. Each of the plurality of flat knitting machine mangle devices 40 is disposed on a cam support base 137 included in one cam system 13. Each of the plurality of flat knitting machine mangle devices 40 is a driving member 41, a fixed base 42 disposed on the cam support base 137, a sliding base 43 disposed in correspondence to the fixed base 42, fixed The limiting block 44, the mangling seat support arm 45, and the mangling seat support arm 45 which are combined with the base 42 to limit the sliding base 43 to sliding only with respect to the cam support base 137 ) Is disposed on the mangling seat 46 driven through the sliding base 43.

When the knock-over formed bit cam 132 generates the displacement stroke 133, the drive member 41 is started. That is, the drive member 41 is started according to whether the knock-over formed bit cam 132 generates the displacement stroke 133. Therefore, when the knock-over formed bit cam 132 is moved, the driving member 41 is also moved.

Further, the sliding base 43 is disposed in correspondence with the fixed base 42, and when the drive member 41 moves, a regular stroke 431 is also generated with respect to the cam support base 137. Meanwhile, a guide block 432 is provided on the sliding base 43.

Accordingly, when the driving member 41 is started, the sliding base 43 needs to move at the same time. The displacement made by the sliding base 43 is the normal stroke 431 in this case. In addition, the sliding base 43 is made of a U-shaped structure, it is disposed in a reverse U-shaped on the cam support base (137). The fixed base 42 may be disposed in a concave portion of a U-shaped structure. Also, a first long hole 436 in which the fixed base 42 is disposed may be formed on the sliding base 43. The first long hole 436 is not a U-shaped recess, but is a hole disposed corresponding to the recess. The size of the first long hole 436 is set such that at least the sliding base 43 generates a normal stroke 431.

Therefore, since the height of the fixed base 42 is the same as the height of the sliding base 43, the limiting block 44 can more clearly limit the sliding base 43. In addition, one end of the mangle seat support arm 45 is fixed to the yarn feeder guide rod 30, and the installation base 451 is formed at the other end, and a passage 452 is formed in the installation base 451. Specifically, the installation base 451 may be composed of a first component 453 and a second component 454 assembled with the first component 453 to form a passage 452 together. In addition, the mangle sheet 46 extends from the control area 461 connected to the guide block 432, the connection area 462 extending from the control area 461 and passing through the passage 452, from the connection area 462. It includes a mangle area 463 facing one of the needle beds (11, 12). The control area 461 and the guide block 432 form an association relationship. The control area 461 induces the mangling area 463 to move when the sliding base 43 generates the normal stroke 431, thereby changing the mangling position. In one embodiment, the mangling seat 46 includes a guide rod 464 disposed on the control area 461. The guide block 432 is provided with a groove 437 in which the guide rod 464 is disposed. The shape of the groove 437 coincides with the guide rod 464. The groove 437 may be implemented in the form of a rail. Further, the width of the connection area 462 corresponds to the width of the passage 452, and the connection area 462 can be slid in the passage 452. The mangling area 463 clearly changes the size of the connection area 462 to create a working surface for mangling the fabric.

2 to 5, based on the foregoing descriptions, since the time when the flat knitting machine mangle device 40 changes the mangling position is the time when the gap 10 changes, the flat knitting machine mangle device The bit cam 132 formed with the knock-over 40 moves simultaneously. Thus, the knock-over formed bit cam 132 is controlled to move, so that when the drive member 41 is started, the drive member 41 induces the sliding base 43 to generate a regular stroke 431. Next, since the sliding base 43 moves, the guide block 432 moves. The control area 461 is driven by the guide block 432 to drive the connection area 462 to slide within the passageway 452, so that the position of the mangling area 463 within the gap 10 is Changes.

2 to 5, in one embodiment, the driving member 41 is a knock-over formed by a coupling part 411 connected to the bit cam 132 and a coupling part 411 connected to the pressing part 412 It includes, and the pressing portion 412 generates only one-dimensional motion. The driving member 41 generates a driving stroke 413 that causes the pressing portion 412 to move when the knock-over formed bit cam 132 generates the displacement stroke 133. Further, the driving member 41 of the present embodiment may be formed integrally or may be formed by assembling a plurality of members. If, when the drive member 41 is formed by assembling a plurality of members, the coupling portion 411 and the pressing portion 412 may be different members, respectively. In addition, the driving member 41 may include a pressing rod 414 disposed on the pressing portion 412. In another embodiment, the sliding base 43 is located on one side of the sliding base 43 and includes an inclined guide path 433 in which the pressing portion 412 is disposed. Further, the sliding base 43 includes a first surface 434 facing the cam support base 137 and a second surface 435 facing the restriction block 44. The inclined guide path 433 is disposed on one side of the sliding base 43 adjacent to the driving member 41. Further, the inclined guide path 433 extends from the first surface 434 to the second surface 435 toward the knock-over formed bit cam 132. The inclined guide path 433 is provided with a pressing rod 414, and the inclined guide path 433 can correspond to the width of the pressing rod 414, so that the pressing portion 412 clearly presses the sliding base 43 can do.

6 and 7, in another embodiment, the drive member 41 is composed of a motor 415 and a gear 416 connected to the motor 415. One side of the sliding base 43 is provided with a support portion 438 in contact with the gear 416. The motor 415 is connected to a control device (not shown). The control device controls the motor 415 and the displacement mechanism used to drive the knock-over formed bit cam 132. When the control unit sends an operation signal to the displacement mechanism, the control unit also sends a start signal to the motor 415 to start the motor 415 to rotate the gear 416. The gear 416 presses the base 438 while rotating, and the sliding base 43 generates a regular stroke 431.

2 to 5, in one embodiment, the restricting block 44 is first projecting toward the mangling seat support arm 45 to improve the structural stability of the flat knitting mangle device 40. It includes a hook portion 441. The mangling seat support arm 45 is disposed on the installation base 451 and includes a second ring portion 455 coupled with the first ring portion 441 and protruding toward the restriction block 44. In addition, the opening directions of the first loop portion 441 and the second loop portion 455 are opposite.

2 and 3, in one embodiment, the mangling seat 46 includes a second long hole 465 disposed on the connection area 462, and the installation base 451 has a passage 452 The mangling seat 46 may be limited through the installation member 47 corresponding to the second long hole 465 by including one or more installation holes 456 communicating with the second long hole 465. In this way, the mangle seat 46 is prevented from being abnormally separated from the passage 452.

Claims (11)

A flat knitting machine mangle device whose position changes according to the size of the gap,
A drive member that is started when the knock-over formed bit cam creates a displacement stroke;
A fixed base disposed on the cam support base;
A sliding base installed in correspondence with the fixed base, having a guide block, and generating a normal stroke for the cam support base when the drive member is started;
A restriction block coupled with the fixed base and restricting the sliding base to only slide relative to the cam support base;
One end is fixed to the yarn feeder guide rod, the other end is provided with a mangling seat support arm having an installation base formed with a passage; And
And a control area connected to the guide block, a connection area extending from the control area and penetrating the passageway, and a mangling sheet including a mangling area extending from the connection area and facing a needle bed.
When the sliding base generates a regular stroke, the control area induces the mangling area to move, thereby changing the mangling position.
According to claim 1,
The driving member includes an engaging portion connected to the knock-over formed bit cam and a pressing portion connected to the engaging portion,
The drive member generates a drive stroke for moving the pressing portion when the knock-over formed bit cam generates a displacement stroke,
An inclined guide path in which the pressing portion is disposed is formed at one side of the sliding base,
When the drive member generates a drive stroke, the sliding base produces a regular stroke with respect to the cam support base.
According to claim 1,
The drive member is composed of a motor and a gear connected to the motor,
One side of the sliding base is provided with a supporting portion in contact with the gear flat knitting machine mangling device, characterized in that provided.
The method according to any one of claims 1 to 3,
The restriction block includes a first ring portion protruding toward the mangling seat support arm,
The mangling seat support arm is installed on the installation base, the flat knitting machine mangling device, characterized in that it comprises a second ring portion protruding toward the restriction block and coupled with the first ring portion.
The method according to any one of claims 1 to 3,
The sliding base comprises a first long hole in which the fixed base is disposed.
The method of claim 5,
The mangle sheet includes a second long hole disposed on the connection region,
The installation base includes at least one installation hole in communication with the passage, characterized in that for limiting the mangling sheet through the installation member corresponding to the second long hole, flat knitting machine mangling device.
The method of claim 6,
The mangle seat includes a guide rod disposed on the control area,
The guide block is a flat knitting machine mangling device, characterized in that a groove in which the guide rod is disposed is formed.
The method according to any one of claims 1 to 3,
The mangle sheet includes a second long hole disposed on the connection region,
The installation base includes at least one installation hole in communication with the passage, characterized in that for limiting the mangling sheet through the installation member corresponding to the second long hole, flat knitting machine mangling device.
The method according to any one of claims 1 to 3,
The mangle seat includes a guide rod disposed on the control area,
The guide block is a flat knitting machine mangling device, characterized in that a groove in which the guide rod is disposed is formed.
According to claim 2,
The sliding base includes a first surface facing the cam support base and a second surface facing the restriction block,
The inclined guide path extends from the first surface to the second surface toward the knock-over formed bit cam.
The method of claim 10,
The mangle seat includes a guide rod disposed on the control area,
The guide block is a flat knitting machine mangling device, characterized in that a groove in which the guide rod is disposed is formed.

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