CN108866782B

CN108866782B - Knitting device of glove knitting machine

Info

Publication number: CN108866782B
Application number: CN201810694826.0A
Authority: CN
Inventors: 茅木泉
Original assignee: Hangzhou Gaoteng Electromechanical Technology Co ltd Shaoxing Branch
Current assignee: Zhejiang Gaoteng Electromechanical Manufacturing Co.,Ltd. Shaoxing Branch
Priority date: 2018-06-29
Filing date: 2018-06-29
Publication date: 2024-04-26
Anticipated expiration: 2038-06-29
Also published as: CN108866782A

Abstract

The invention provides a novel braiding device of a glove knitting machine, which comprises a frame, a guide rail and a machine head part, wherein a left wallboard and a right wallboard are symmetrically arranged on the upper sides of two ends of the frame, a first slot and a second slot are arranged in the guide rail in parallel up and down, a first control rod can be movably arranged in the first slot up and down, a second control rod can be movably arranged in the second slot up and down, a motor seat is arranged at the right end of the guide rail, a No. 1 cam and a No. 2 cam are fixedly arranged on an output shaft of the motor, the end part of the first control rod is connected with the No. 2 cam, and the end part of the second control rod is connected with the No. 1 cam; the bottom of the machine head component is contacted with the first control rod and the second control rod, and the motor controls the lifting of the first control rod and the second control rod so as to realize the knitting work of the machine head component. The novel knitting device of the glove knitting machine can greatly reduce the overall quality of the knitting machine head, is convenient for users to change the rubber band knitting process, and improves the overall aesthetic effect of the knitting device.

Description

Knitting device of glove knitting machine

Technical Field

The invention relates to a glove machine part, in particular to a novel knitting device of a glove machine.

Background

At present, all glove machines at home and abroad, namely a full-automatic computer glove machine of Shimadzu corporation of Japan or a high-speed computer glove machine of Tong Sheng corporation of Korea, are woven by adopting the following structural principles: when the machine is started, the rubber triangle is controlled by a control rod in the guide rail to exit the working state, and when the needle rollers arranged on the aluminum roller act with corresponding transmission feet, the corresponding needle jack is lifted, and the corresponding knitting needle enters the working state under the action of the triangle in the knitting device. According to the glove knitting process, when the first circle is knitted by common fingers, the sealing triangle in the front knitting device needs to enter a working state, so that the front knitting needle and the rear knitting needle are knitted simultaneously, and then the working state is immediately exited. When four fingers are in front of each knitting back, the crossing needle of the two fingers needs to be pressed down by the needle pressing triangle, so that the forked knife can conveniently enter. When knitting the rubber band part, the rubber band triangle enters a working state, and immediately exits after knitting is completed. The braiding device has the advantages of complex control, huge whole volume, high machine manufacturing cost and more important, high quality, and seriously influences the running speed of the machine. The Zhejiang Hesen spinning machine provides a new knitting system at the end of 2016, improves the original knitting system, reduces the whole quality of a knitting machine head, but the manufacturing of corresponding rolling needles on an aluminum roller is quite complex when knitting rubber strings, so that a user cannot change the knitting parameters of the rubber strings, and the number of rolling needle grooves on the aluminum roller is changed due to the special rolling needles, so that the knitting of gloves is influenced.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a novel knitting device of a glove knitting machine, so that the overall quality of a knitting machine head is greatly reduced, a user can conveniently change the rubber band knitting process, and the overall attractive effect of the knitting device is improved.

The aim of the invention is achieved by the following technical scheme:

The novel knitting device of the glove knitting machine comprises a frame, a guide rail and a machine head component, wherein a left wallboard and a right wallboard are symmetrically arranged on the upper sides of two ends of the frame, and the guide rail and the machine head component are arranged between the left wallboard and the right wallboard; the guide rail is internally and vertically provided with a first slot and a second slot in parallel, a first control rod can be vertically movably arranged in the first slot, a second control rod can be vertically movably arranged in the second slot, the right end of the guide rail is provided with a motor seat, a motor is arranged in the motor seat, an output shaft of the motor is fixedly provided with a No. 1 cam and a No. 2 cam, the end part of the first control rod is connected with the No. 2 cam, the end part of the second control rod is connected with the No. 1 cam, and the motor enables the first control rod and the second control rod to vertically lift in the first slot and the second slot through the No. 2 cam and the No. 1 cam respectively; the bottom of the machine head component is contacted with the first control rod and the second control rod, and the motor controls the lifting of the first control rod and the second control rod so as to realize the knitting work of the machine head component.

Further, when the motor rotates positively, the second control rod is lifted and the first control rod is not moved; when the motor rotates reversely, the first control rod is lifted and the second control rod is not moved.

Further, a sliding shaft is further arranged between the left wallboard and the right wallboard, the machine head component comprises a knitting machine head, the top of the knitting machine head is sleeved on the sliding shaft, and the bottom of the knitting machine head is inserted into the wide groove of the guide rail.

Further, an elastic triangle, a swing arm, a sealing triangle, a density triangle and a needle pressing triangle are sequentially arranged on the bottom plate of the braiding machine head, and the elastic triangle, the sealing triangle and the density triangle are arranged in corresponding cavities of the bottom plate of the braiding machine head in a vertically movable manner; one end of a bottom plate of the braiding machine head is fixedly provided with a first action arm, and one end of the first action arm is in triangular contact with the rubber band to form a first inclined plane pair; the other end of the first action arm is contacted with the first control rod through a bearing A; one end of the swing arm is fixedly arranged on the bottom plate of the braiding machine head, the middle part of the swing arm is contacted with the second control rod through a bearing C, the other end of the swing arm is contacted with an action block, and the sealing triangle is contacted with the action block to form a second inclined plane pair.

Further, the rubber string triangle is arranged in the corresponding cavity of the bottom plate of the braiding machine head in a manner of being capable of moving up and down through a pressure spring.

Further, two sliding grooves are further formed in the bottom plate of the braiding machine head, the density triangle is movably arranged in one sliding groove, the density triangle is connected with the action block, and the needle pressing triangle is movably arranged in the other sliding groove through the second action arm.

Further, a sinker cam is further arranged at the top of the braiding machine head, and a plurality of holes are formed in the sinker cam.

Further, an aluminum roller is arranged in the middle of the frame, and rolling pins with the same diameter and different lengths are fixedly arranged in grooves of the aluminum roller; the upper part of the frame is obliquely provided with a needle plate component, a corresponding shaft of the needle plate component is movably provided with a transmission foot, and the bottom of the needle plate component is contacted with the needle roller through the transmission foot; the lower parts of the two heights of needle jack are respectively inserted into corresponding grooves of the needle plate component according to the knitting requirement of the rubber band and are acted by the transmission legs to enter or exit from the knitting state.

Compared with the prior art, the invention has the beneficial effects that:

1, by adopting a specific design mode, the two cams are respectively controlled by the forward and reverse rotation of the stepping motor, so that the part structure is simplified, the cost is reduced, and the overall aesthetic degree of the machine is improved.

2, The micro knitting curve with specific design not only meets the original knitting requirement, but also greatly reduces the appearance of various movable or fixed triangles, and finally greatly reduces the overall quality of the knitting machine head.

3, The aluminum roller and the roller pin are still as convenient and random as the original machine, the rubber band knitting is realized by the high and low pins of the pin, so that the universality of parts is enhanced when the machine is updated, and more importantly, a user can change the rubber band knitting process very conveniently only by changing the arrangement of the high and low pins.

And 4, the rubber band triangle position is moved from the original upper end to the lower end, and the control device is realized by adopting a direct action arm through an inclined plane pair, so that the number of parts is greatly simplified, the cost is reduced, and the machine head quality is effectively reduced.

And 5, the density triangle, the sealing triangle and the needle pressing triangle are controlled by adopting a linkage structure, so that the overall structure of the machine head is greatly simplified, the cost is reduced, the assembly and the maintenance are convenient, the machine head can be finally accelerated in braiding speed, and the production benefit is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Figure 1 is a schematic view of the general structure of the novel knitting apparatus of the glove knitting machine of the present invention.

FIG. 2 is a schematic view of the relative positions of the handpiece and control rod in accordance with the present invention.

FIG. 3 is an exploded view of the relative positions of the nose assembly and control rod according to the present invention.

FIG. 4 is a schematic drawing of a micro-weave pattern of a handpiece component according to the invention.

FIG. 5 is an exploded view of the nose assembly of the present invention.

Fig. 6 is a schematic diagram of the triangular linkage of the present invention.

Reference numerals illustrate: 1 is a frame, 2 is an aluminum roller, 3 is a needle roller, 4 is a guide rail, 5 is a bearing A,6 is a first action arm, 7 is a knitting machine head, 8 is a gram triangle, 9 is a needle plate component, 10 is a knitting needle, 11 is a No. 1 cam, 12 is a stepping motor, 13a is a first control rod, 13B is a second control rod, 14 is a No. 2 cam, 15 is a tappet, 16 is a transmission foot, 17 is a bearing B,18 is a pin shaft, 19 is a stepping motor seat, 20 is a bearing C,21 is a rubber triangle, 22 is a swing arm, 23 is a sealing triangle, 24 is an action block, 25 is a density triangle, 26 is a needle pressing triangle, 27 is a connecting component, 28 is a second action arm, 29 is a first inclined plane pair, 30 is a second inclined plane pair, and 31 is a pressure spring.

Description of the embodiments

In order to make the technical scheme of the present invention better understood by those skilled in the art, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-3, the novel knitting device of the glove knitting machine comprises a frame 1, a guide rail 4 and a machine head component, wherein a left wallboard and a right wallboard are symmetrically arranged on the upper sides of two ends of the frame 1, and the guide rail 4 and the machine head component are respectively arranged between the left wallboard and the right wallboard;

a first slot and a second slot are arranged in parallel up and down in the guide rail 4, the first control rod 13a can be arranged in the first slot in an up-down movable way, the second control rod 13b can be arranged in the second slot in an up-down movable way,

The right end of the guide rail 4 is provided with a stepping motor seat 19, the stepping motor 12 is arranged in the stepping motor seat 19, a No. 1 cam 11 and a No. 2 cam 14 are fixedly arranged on an output shaft of the stepping motor 12, the end part of a first control rod 13a is connected with the No. 2 cam 14, the end part of a second control rod 13b is connected with the No. 1 cam 10, and the stepping motor 12 enables the first control rod 13a and the second control rod 13b to respectively lift up and down in the first slot and the second slot through the No. 2 cam and the No. 1 cam.

The bottom of the machine head part contacts the first control rod 13a and the second control rod 13b, and the stepping motor 2 controls the lifting of the first control rod 13a and the second control rod 13b so as to realize the knitting work of the machine head part.

When the stepping motor 12 rotates positively, the curve and the rotation center position of the cam No. 1 are changed continuously, so that the second control rod 13b on the guide rail is lifted, and at the moment, the curve and the rotation center position of the cam No. 2 are unchanged, and the first control rod 13a is not moved. When the stepping motor 12 is reversed, the curve and the rotation center position of the cam No. 2 are continuously changed, so that the first control rod 13a on the guide rail is lifted, and at the moment, the curve and the rotation center position of the cam No. 1 are unchanged, and the second control rod 13b is not moved.

The novel knitting device of the glove knitting machine adopts the positive and negative rotation of the motor to control the two cams so as to control the knitting work of the machine head component, thereby simplifying the part structure of the knitting device, reducing the cost and improving the overall aesthetic degree of the machine.

A sliding shaft is further arranged between the left wallboard and the right wallboard, the machine head part comprises a weaving machine head 7, the top of the weaving machine head 7 is sleeved on the sliding shaft, and the bottom of the weaving machine head 7 is inserted into the wide groove of the guide rail 4;

As shown in fig. 4-6, the bottom plate of the knitting machine head 7 is sequentially provided with an elastic triangle 21, a swing arm 22, a sealing triangle 23, a density triangle 25 and a needle pressing triangle 26, and the elastic triangle 21, the sealing triangle 23 and the density triangle 25 are arranged in corresponding cavities of the bottom plate of the knitting machine head 7 in a vertically movable manner.

A first action arm 6 is fixedly arranged at one end of the bottom plate of the braiding machine head 7, and one end of the first action arm 6 is contacted with the rubber triangle 21 to form a first inclined plane pair 29; the other end of the first actuating arm 6 is in contact with the first control lever 13a via a bearing A5. In this embodiment, the elastic triangle 21 is provided on the bottom plate of the knitting machine head 7 by a compression spring 31 to be movable up and down.

One end of the swing arm 22 is fixedly arranged on the bottom plate of the editing machine head 7, the middle part of the swing arm 22 is contacted with the second control rod 13b through a bearing C, the other end of the swing arm 22 is contacted with an action block 24, and the sealing triangle 23 is contacted with the action block 24 to form a second inclined plane pair 30.

Two sliding grooves are formed in the bottom plate of the knitting machine head 7, a density triangle 25 is movably arranged in one sliding groove, a density triangle 23 is connected with an action block 24, and a needle pressing triangle 26 is movably arranged in the other sliding groove through a second action arm 30. When the second control rod 13b is lifted, the sealing triangle 23 is acted by the action block 24 to enter the working state, meanwhile, the density triangle 25 is lifted, the needle pressing triangle 26 is lowered, and the knitting requirement is met. The rubber band triangle position is moved to the lower extreme from former upper end, and controlling means adopts a direct action arm to realize through the inclined plane pair, not only makes part quantity obtain simplifying greatly, reduce cost, and the effectual aircraft nose quality that has alleviateed simultaneously, density triangle, seal triangle and pressure needle triangle control adopt linkage structure, not only make aircraft nose overall structure obtain simplifying greatly, reduce cost, assembly and easy maintenance, and finally make the aircraft nose can accelerate the weaving speed, improve the productivity effect.

Meanwhile, the sinker cam 8 is also arranged at the top of the braiding machine head 7, and the rubber triangle 21, the swing arm 22, the sealing triangle 23, the density triangle 25, the needle pressing triangle 26 and the sinker cam 8 which are arranged on the bottom plate of the braiding machine head 7 jointly form a micro braiding curve with a specific design, as shown in fig. 4, the micro braiding curve with the specific design not only meets the original braiding requirement, but also greatly reduces the appearance of various movable or fixed triangles, and finally greatly reduces the overall quality of the braiding machine head.

In order to further lighten the quality of the braiding machine head, the sinker cam 8 is provided with a plurality of holes, and a bottom plate for fixing the corresponding cam and the movable cam seat are all made of aluminum alloy through oxidization.

It should be noted that, in the present invention, the two head parts and the two guide rails are symmetrically disposed at the front and rear sides between the left wall board and the right wall board, and the connection relationship between one of the guide rails and the head part is only described in this embodiment, and the connection relationship between the other guide rail and the head part is the same as this, so that no detailed description is given.

The middle part of the frame 1 is also movably provided with an aluminum roller 2, and rolling pins 3 with the same diameter and different lengths are fixedly arranged in grooves of the aluminum roller. The upper part of the frame 1 is obliquely provided with a needle plate component 9, a corresponding shaft of the needle plate component 9 is movably provided with a transmission foot 16, and the bottom of the needle plate component 9 contacts the needle roller 3 through the transmission foot 16. The lower parts of the two levels of needle bars 15 are respectively inserted into corresponding grooves of the needle plate member 9 according to the knitting requirements of the rubber strings and are acted on by the driving legs 16 to enter or exit the knitting state. The same knitting needle 10 is movably connected with the needle jack 15 and is respectively inserted into corresponding grooves of the needle plate part 9.

The novel knitting device of the glove knitting machine has the working principle that:

Before starting up, the relative positions of the cam 11 and the cam 14 are adjusted by clicking, when the stepping motor 12 is in the zero position, the first control rod 13a should be in a raised state, and the second control rod 13b should be in a lowered state. When the stepping motor 12 rotates forward, the second control lever 13b on the guide rail 4 should be raised, and the first control lever 13a is always raised. When the stepping motor 12 is reversed, the first control lever 13a on the guide rail 4 should be lowered and the second control lever 13b should be always in a lowered state. According to the technological requirements of the glove, the density adjusting cam on the knitting machine head 7 is adjusted to ensure that the position of the density triangle 25 meets the knitting requirements. And then starting up for knitting. When knitting of the first finger is started, the stepping motor 12 is not operated. When the knitting of the first finger is completed and the knitting of the second finger is started, the knitting machine head 7 is positioned at the left end, the stepping motor 12 rotates positively, then the second control rod 13b is lifted, the sealing triangle 23 is acted by the action block 24 through the second bevel pair 30, the working state is entered, the needle pressing triangle 26 is lowered simultaneously, the needle jack 15 corresponding to the shared needle 10 of the second finger to be knitted is pressed down, the loops already knitted on the needle jack are simultaneously pressed down, the fork knife is convenient to enter, then the knitting machine head 7 immediately moves from the left end to the right end, thus the front and rear knitting machine heads 7 simultaneously eat wires, the finger sealing is completed, the stepping motor 12 immediately returns to the zero position, the second control rod 13b is lowered, the sealing triangle 23 exits the working state under the action of the pressure spring 31, the needle pressing triangle 26 is lifted, the machine normally weaves the second finger, weaves the third finger and the fourth finger, the action requirement is the same as the second finger, when the four-finger palm is weaved, the stepping motor 12 does not act, then the fifth finger is weaved, the action requirement is the same as the second finger, then the five-finger palm is weaved, the stepping motor 12 does not act, when the rubber band part is weaved, the stepping motor 12 is reversed, the first control rod 13a is lowered, the rubber band triangle 21 enters the working state under the action of the pressure spring 31, after the rubber band is weaved, the stepping motor 12 immediately returns to the zero position, the first control rod 13a is lifted, and the rubber band triangle 21 exits the working state under the action of the first action arm 6.

The above embodiments are merely preferred embodiments of the present invention, and are not intended to limit the present invention. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The glove knitting machine comprises a frame, a guide rail and a machine head component, wherein a left wallboard and a right wallboard are symmetrically arranged on the upper sides of two ends of the frame, and the guide rail and the machine head component are arranged between the left wallboard and the right wallboard; the method is characterized in that:

a first slot and a second slot are arranged in parallel up and down in the guide rail, the first control rod can be arranged in the first slot in an up-down movable way, the second control rod can be arranged in the second slot in an up-down movable way,

The right end of the guide rail is provided with a stepping motor seat, the stepping motor is arranged in the stepping motor seat, a No. 1 cam and a No. 2 cam are fixedly arranged on an output shaft of the stepping motor, the end part of a first control rod is connected with the No. 2 cam, the end part of a second control rod is connected with the No. 1 cam, and the motor enables the first control rod and the second control rod to respectively lift up and down in a first slot and a second slot through the No. 2 cam and the No. 1 cam;

The bottom of the machine head component is contacted with the first control rod and the second control rod, and the stepping motor controls the lifting of the first control rod and the second control rod so as to realize the knitting work of the machine head component;

When the stepping motor rotates positively, the second control rod is lifted and the first control rod is not moved; when the stepping motor rotates reversely, the first control rod is lifted and the second control rod is not moved;

A sliding shaft is further arranged between the left wallboard and the right wallboard, the machine head part comprises a weaving machine head, the top of the weaving machine head is sleeved on the sliding shaft, and the bottom of the weaving machine head is inserted into the wide groove of the guide rail;

The top of the braiding machine head is provided with a sinker cam, and a rubber string cam, a swing arm, a sealing cam, a density cam and a needle pressing cam are sequentially arranged on a bottom plate of the braiding machine head and are arranged in corresponding cavities of the bottom plate of the braiding machine head in a vertically movable manner;

one end of a bottom plate of the braiding machine head is fixedly provided with a first action arm, and one end of the first action arm is in triangular contact with the rubber band to form a first inclined plane pair; the other end of the first action arm is contacted with the first control rod through a bearing A;

One end of the swing arm is fixedly arranged on a bottom plate of the braiding machine head, the middle part of the swing arm is contacted with a second control rod through a bearing C, the other end of the swing arm is contacted with an action block, and the sealing triangle is contacted with the action block to form a second inclined plane pair;

the rubber band triangle is arranged in a corresponding cavity of the bottom plate of the braiding machine head in a manner of being capable of moving up and down through a pressure spring;

The bottom plate of the braiding machine head is also provided with two sliding grooves, the density triangle is movably arranged in one sliding groove, the density triangle is connected with the action block, and the needle pressing triangle is movably arranged in the other sliding groove through the second action arm;

The density triangle, the sealing triangle and the needle pressing triangle are controlled by adopting a linkage structure; when the second control rod is lifted, the sealing triangle is acted by the action block to enter a working state, and meanwhile, the density triangle is lifted and the needle pressing triangle is lowered; when the rubber band part is knitted, the stepping motor is reversed, the first control rod is lowered, the rubber band triangle enters a working state under the action of the pressure spring, when the rubber band is knitted, the stepping motor immediately restores to a zero position, the first control rod is raised, and the rubber band triangle exits the working state under the action of the first action arm.

2. The glove knitting apparatus as claimed in claim 1, wherein: the sinker triangle is provided with a plurality of holes.

3. The glove knitting apparatus as claimed in claim 1, wherein: the middle part of the frame is also provided with an aluminum roller, and the rolling pins with the same diameter and different lengths are fixedly arranged in the grooves of the aluminum roller;

The upper part of the frame is obliquely provided with a needle plate component, a corresponding shaft of the needle plate component is movably provided with a transmission foot, and the bottom of the needle plate component is contacted with the needle roller through the transmission foot;

The lower parts of the two heights of needle jack are respectively inserted into corresponding grooves of the needle plate component according to the knitting requirement of the rubber band and are acted by the transmission legs to enter or exit from the knitting state.