KR102180133B1 - Knitting system used for horizontal knitting machine - Google Patents

Abstract

The present invention relates to a knitting system used in a kind of horizontal knitting machine, including a left base and a right base, and two sets of head slide assemblies symmetrical back and forth between the left and right bases, and two sets of front and rear The head slide assembly has a front head assembly and a rear assembly, respectively. The rear head assembly is connected to a separate driving device to realize horizontal reciprocating motion. The front head assembly is connected to the rear head assembly through a head connector. The front head assembly includes a rising cam, a raised cam, a sealing cam, a density cam, a finger separation cam, an upper fixed cam, an elastic cam and a yarn cutting control cam, and the rear head assembly includes a finger separation cam, a rising cam, a hollow cam, a density Includes cam, upper fixed cam, elastic cam and yarn cutting control cam. Its design is simpler in structure, stable operation and lighter load, energy consumption is greatly reduced, work efficiency is greatly improved, maintenance and testing are simple and convenient, and it greatly improves the economic benefits of the enterprise. .

Description

Knitting system used for horizontal knitting machine

The present invention relates to a knitting system used in a kind of horizontal knitting machine, and belongs to the field of knitting machine technology.

The horizontal knitting machine is used for knitting items such as gloves and socks, and the conventional horizontal knitting machine knitting system has a complex structure, a large number of electric and operating components and parts, and the parts must be matched very accurately, and the mechanism operates. In the process, not only the noise is loud, but also energy consumption is high, the work efficiency is low, the knitting speed is slow, and if an error or failure occurs in a specific assembly, a serious problem occurs in the entire horizontal knitting machine, greatly shortening the service life of the device. Maintenance and repair are cumbersome and repair costs are high, which affects the economic interests of the enterprise.

In order to solve the above problem, the present invention provides a knitting system for use in a horizontal knitting machine, the design of which has a simpler structure and stable operation, a light load and a significant reduction in energy consumption, and greatly improves work efficiency. It is simple and convenient to maintain and test, and greatly improve the economic benefits of the enterprise.

In order to achieve the above object, the present invention uses the following technical solutions.

The knitting system used in a kind of horizontal knitting machine includes a left base and a right base, and there are two sets of head slide assemblies symmetrical back and forth between the left and right bases, and the front and rear two sets of head slide assemblies each have a front side. There is a head assembly and a rear assembly. The rear head assembly is connected to a separate driving device to realize horizontal reciprocating motion. The front head assembly is connected to the rear head assembly through a head connection device, and the head connection device is used for the rear head assembly to drive the front head assembly to implement a synchronous reciprocating motion. The front head assembly includes a rising cam, a raised cam, a sealing cam, a density cam, a finger separation cam, an upper fixed cam, an elastic cam and a yarn cutting control cam, and the rear head assembly includes a finger separation cam, a rising cam, a hollow cam, a density Includes cam, upper fixed cam, elastic cam and yarn cutting control cam.

The front head assembly includes a front cover, and there is a front fixing plate inside the front cover, and a rising cam, a bowling cam, a sealing cam, a density cam, and a finger separation cam are sequentially installed on the front fixing plate along the sudden thread direction, and the rising cam , There is an upper fixed cam at the top of the bowler cam and the sewing cam, an elastic cam at the upper end of the upper fixed cam, a yarn cutting control cam at the upper end of the elastic cam, and the yarn cutting control cam assists in controlling the shear mechanism. The height of the finger separation cam installation position is lower than that of other cams, the height of the sealing cam installation position is the same as that of the finger separation cam, the bowler cam and the sealing cam are of an integral structure, and the sealing cam thickness is thinner than the thickness of the bowler cam. The finger separation cam is adjusted and fixed to the front fixing plate through screws.

There is a spring behind the elastic cam, and there is a spring behind the rising cam as well as the elastic cam, and the rising cam and the elastic cam move up and down in a cavity perpendicular to the fixing plate, and all the remaining cams are fixedly installed on the fixing plate. The cam surface has a slope sequentially, a first plane and a second plane, and there is more inclined overturning between the first plane and the second plane, and the height of the second plane is lower than the first plane.

The rear head assembly includes a rear cover, and there is a rear fixing plate inside the rear cover, and a finger separation cam, a rising cam, a bowling cam and a density cam are sequentially installed on the rear fixing plate in a sudden thread direction, and a climbing cam and a bowling cam There is an upper fixed cam at the top of the top, an elastic cam at the top of the upper fixed cam, and a yarn cutting control cam at the top of the elastic cam, and the yarn cutting control cam is used to assist the control of the shear mechanism, and the rear head There is no sealing cam in the assembly, and the remaining cams of the rear head assembly except for the yarn cutting control cam are the same cams corresponding to the front head assembly, and the structure and installation method thereof are all the same. The yarn cutting control cams of the front head assembly and the rear head assembly have a mirror-like structure, and further realize the symmetry of the yarn line, but the installation method of the yarn cutting control cam is the same.

The head slide assembly includes an upper slider and a lower slide, the upper slider and the lower slide are installed up and down in the support grooves of the left and right bases, respectively, the head assembly is installed between the upper slider and the lower slide, and the upper slider and The lower slide is used to position the direction in which the head component reciprocates in parallel.

At the rear of the density cam, there is a slide block and a density adjusting device that matches the slide block, and a tension coil spring is connected between the slide block and the head cover to realize pulling, and the density adjusting device controls the vertical movement of the slide block. It is used to further control the density cam, and the density control device includes a manual density control device and an automatic density control device.

The manual density control device includes a turbine and a knob, the turbine is installed to match the slide block, the knob is fixed to the turbine, and the turbine moves the slide block up and down through the rotary knob. The turbine has a planar helical structure, and the helical is gradually enlarged so that the helical surface touches the slide block and moves the slide block.

The automatic density control device includes a control lever, one end of the control lever is installed to match the slide block, the other end of the control lever is rotatably fixed to the head cover, and there is a wheel in the middle of the control lever, and a linkage in the lower slide. There is a rod, the linkage rod is matched with the wheel, there is a driving device at one end of the linkage rod, the driving device drives the linkage rod, and the linkage rod interlocks the control lever to control the vertical movement of the slide.

In the linkage rod, there is a slightly inclined strip groove, the driving device is installed to match the strip groove on the top of the linkage rod through the snail rotating plate, and the remaining strip grooves have a guide latch.

The head connecting device includes a front head connecting rod, a rear connecting rod and a fixed connection block, one end of the front head connecting rod and the rear head connecting rod is fixed through a fixed connection block, and the other end of the front head connecting rod is It is connected to the cover, and the other end of the rear head connecting rod is connected to the rear cover.

The present invention has the following advantageous effects.

It is a knitting system used in a kind of horizontal knitting machine. It includes a left base and a right base, and there are two sets of head slide assemblies symmetrical back and forth between the left base and the right base, and the front and rear two sets of head slide assemblies each have a front side. There is a head assembly and a rear assembly. The rear head assembly is connected to a separate driving device to realize horizontal reciprocating motion. The front head assembly is connected to the rear head assembly through a head connection device, and the head connection device is used for the rear head assembly to drive the front head assembly to implement a synchronous reciprocating motion. The front head assembly includes a rising cam, a raised cam, a sealing cam, a density cam, a finger separation cam, an upper fixed cam, an elastic cam and a yarn cutting control cam, and the rear head assembly includes a finger separation cam, a rising cam, a hollow cam, a density Includes cam, upper fixed cam, elastic cam and yarn cutting control cam. Its design is simpler in structure, stable operation and lighter load, energy consumption is greatly reduced, work efficiency is greatly improved, maintenance and testing are simple and convenient, and it greatly improves the economic benefits of the enterprise. .

1 is a three-dimensional structure diagram of the present invention,
Figure 2 is a three-dimensional structure diagram of another angle of the present invention,
3 is a three-dimensional view of the front head assembly of the present invention,
Figure 4 is a three-dimensional view of the elastic cam of the present invention,
5 is a three-dimensional view of the rear head assembly of the present invention,
6 is a three-dimensional view of the density control device of the present invention,
7 is a three-dimensional view of another angular density control device of the present invention,
Figure 8 is a three-dimensional view of the manual density control device of the present invention,
9 is a three-dimensional view of the automatic density control device of the present invention.

The present invention will be described in more detail through the following implementation method.

1, 2, 3, 5, a knitting system used in a kind of horizontal knitting machine includes a left base (1) and a right base (2), and between the left base (1) and the right base (2) There are two sets of head slide assemblies (3) symmetrical back and forth, and the front and rear two sets of head slide assemblies (3) have a front head assembly (4) and a rear assembly (5), respectively. The rear head assembly 5 is connected to a separate driving device 6 to implement a horizontal reciprocating motion. The front head assembly (4) is connected to the rear head assembly (5) through the head connector (7), and the head connector (7) is synchronized reciprocating by the rear head assembly (5) driving the front head assembly (4). Used to implement movement. The front head assembly (4) includes a rising cam (11), a bowling cam (12), a sealing cam (13), a density cam (14), a finger separation cam (15), an upper fixed cam (16), an elastic cam (17). And yarn cutting control cam 18, and the rear head assembly 5 includes a finger separation cam 15, a lift cam 11, a bowler cam 12, a density cam 14, an upper fixed cam 16 , An elastic cam 17 and a yarn cutting control cam 18. Its design is simpler in structure, stable operation and lighter load, energy consumption is greatly reduced, work efficiency is greatly improved, maintenance and testing are simple and convenient, and it greatly improves the economic benefits of the enterprise. .

3, the front head assembly 4 includes a front cover 41, and there is a front fixing plate 42 inside the front cover 41, and the front fixing plate 42 rises sequentially along the sudden firing direction. Cam (11), a bowl cam (12), a sealing cam (13), a density cam (14) and a finger separation cam (15) are installed, the rising cam (11), the bowl cam (12) and the sealing cam (13) There is an upper fixed cam 16 at the upper end of the upper fixed cam 16, an elastic cam 17 at the upper end of the upper fixed cam 16, and a yarn cutting control cam 18 at the upper end of the elastic cam 17, and yarn cutting control The cam 18 is used to assist the control of the scissor mechanism, and the height of the installation position of the finger separation cam 15 is lower than that of other cams, and the height of the installation position of the sealing cam 13 is the same as that of the finger separation cam 15. 12 and the sealing cam 13 have an integral structure, and the thickness of the sealing cam 13 is thinner than the thickness of the hollow cam 12. In a general situation, if it is a one-way nose grip from the position of the rising cam 11, at this time, the knitting needle and the sewing cam 13 do not work, and if a sewing operation is required, the stitch is raised using a high needle bar, and the knitting thread is simultaneously sewn cam ( By operating along the track of 13) to implement a two-way nose grip, the suture operation is completed. The finger separation cam 15 is adjusted and fixed to the front fixing plate 42 through screws, and the finger separation cam 15 is the same as the sealing cam 13, so if a finger separation operation is required, use a high needle bar to raise the knitting needle. Proceed with finger separation.

Referring to Figure 4, there is a spring 171 behind the elastic cam 17, there is a spring 171 like the elastic cam 17 also behind the rising cam 11, the rising cam 11 and the elastic cam ( 17) moves up and down in the cavity perpendicular to the fixing plate, and all the remaining cams are fixedly installed on the fixing plate, and the elastic cam 17 is sequentially inclined 172, the first plane 173 and the second plane ( 174), and between the first plane 173 and the second plane 174 there is an additional slope 172 that passes, and when the stitch passes, the slope 172 acts as a buffer transient for the stitch To avoid being bent and damaged. The height of the second plane 174 is lower than that of the first plane 173, and when the stitch presses the first plane 173, the elastic cam 17 is in a non-working state, and the second plane 174 has a stitch height. It is installed to prevent the elastic cam 17 from malfunctioning because it is not finely uniform, and when the stitch completely passes through the elastic cam 17, the stitch does not press the elastic cam 17, and the elastic cam 17 bounces upward. When it climbs, it enters the working state and completes the elastic knitting work of the lip cuff for items such as gloves and socks.

Referring to FIG. 5, the rear head assembly 5 includes a rear cover 51, and there is a rear fixing plate 52 inside the rear cover 51, and the rear fixing plate 52 has a finger sequentially along the feed direction. The separation cam 15, the rising cam 11, the top cam 12 and the density cam 14 are installed, and the top of the rising cam 11 and the top cam 12 has an upper fixed cam 16, There is an elastic cam 17 at the upper end of the upper fixed cam 16, a yarn cutting control cam 18 is at the upper end of the elastic cam 17, and the yarn cutting control cam 18 assists in controlling the shear mechanism. The rear head assembly (5) does not have a sealing cam (13), and the remaining cams of the rear head assembly (5) except the yarn cutting control cam (18) are the same cams that the front head assembly (4) corresponds to. And its structure and installation method are the same.

The yarn cutting control cam 18 of the front head assembly 4 and the rear head assembly 5 has a mirror-like structure, and further realizes the symmetry of the yarn line, but the installation method of the yarn cutting control cam 18 is the same.

The head slide assembly (3) includes an upper slider (31) and a lower slide (32), and the upper slider (31) and the lower slide (32) are respectively upper and lower in the support grooves (33) of the left and right bases (2). The head assembly is installed between the upper slider 31 and the lower slide 32, and the upper slider 31 and the lower slide 32 are used to position the direction in which the head components reciprocate in parallel. Used to prevent offset of the head component.

6 and 7, behind the density cam 14, there is a slide block 141, a density adjusting device 8 that is matched with the slide block 141, and tension between the slide block 141 and the head cover The coil spring 142 is connected to implement pulling, and the density adjusting device 8 is used to control the vertical movement of the slide block 141, and further, the density cam 14 controls the length of the knitted coil to reduce the density of the knitted fabric. Implementing the purpose of regulation, the density control device 8 includes a manual density control device 818 and an automatic density control device 828.

8, the manual density control device 818 includes a turbine 811 and a knob 812, the turbine 811 is installed to match the slide block 141, the turbine 811 has a knob 812 ) Is fixed, and the turbine 811 moves the slide block 141 up and down through the rotary knob 812, and further controls the length of the knitting coil of the density cam 14 to manually adjust the knitting density. Implement

The turbine 811 has a planar spiral structure, and the spiral is gradually expanded so that the spiral surface touches the slide block 141 to move the slide block 141.

9, the automatic density control device 828 includes a control lever 821, one end of the control lever 821 is installed to match the slide block 141, and the other end of the control lever 821 It is rotationally fixed to the head cover, and there is a wheel 822 in the middle of the control lever 821, a linkage rod 823 is in the lower slide 32, and the linkage rod 823 matches the wheel 822, At one end of the linkage rod 823 is a driving device 6, the driving device 6 is moved by interlocking the linkage rod 823, and the linkage rod 823 pushes the wheel 822 and the wheel 822 This control lever 821 is lifted, and the control lever 821 moves the slide block 141 up and down, and further controls the length of the knitted coil of the density cam 14, and the driving device 6 is controlled It is controlled by a computer to realize the purpose of automatic adjustment of the knitting density.

There is a slightly inclined strip groove 824 in the linkage rod 823, and the driving device 6 is matched with the strip groove 824 at the top of the linkage rod 823 through the snail rotating plate 825, and The remaining strip grooves 824 have a guide latch 826, and when the driving device 6 is operated, the driving device 6 interlocks the linkage rod 823 through the snail rotating plate 825 in a designated direction. Move.

The head connecting device (7) includes a front head connecting rod (71), a rear connecting rod (72) and a fixed connecting block (73), and one end of the front head connecting rod (71) and the rear head connecting rod (72) is It is fixed through a fixed connection block 73, the other end of the front head connecting rod 71 is connected to the front cover 41, and the other end of the rear head connecting rod 72 is connected to the rear cover 51 The rear head assembly 5 implements a synchronous reciprocating motion with the front head assembly 4.

1. left base
2. Right base
3. Head slide assembly
31. Upper slider
32. Lower slide
33. Support Groove
4. Front head assembly
41. Front Cover
42. Front fixing plate
5. Rear head assembly
51. Back Cover
52, rear fixing plate
6. Driving device
7. Head connection device
71. Front head connecting rod
72. Rear head connecting rod
73. Fixed connection block
11. Lift cam
12. Bowler Cam
13. Suture cam
14. Density Cam
141. Slide block
142. Tension coil spring
15. Finger release cam
16. Upper fixed cam
17. Elastic cam
171. Spring
172. Slope
173. The first plane
174. Second plane
18. Yarn cutting control cam
8. Density control device
81. Manual density control
811. Turbine
812, knob
82. Automatic density control device
821. Control lever
822. Wheel
823. Linkage Road
824. Strip Groove
825. Snail Turntable
826. Latch

Claims (10)

It includes a left base and a right base, and there are two sets of head slide assemblies symmetrical back and forth between the left base and the right base, and the front and rear two sets of head slide assemblies each have a front head assembly and a rear head assembly. And
The rear head assembly is connected to a separate driving device to implement a horizontal reciprocating motion,
The front head assembly is connected to the rear head assembly through a head connecting device, and the head connecting device is used for the rear head assembly to drive the front head assembly to implement a synchronous reciprocating motion,
The front head assembly includes a rising cam, a bowling cam, a sealing cam, a density cam, a finger separation cam, an upper fixed cam, an elastic cam and a yarn cutting control cam, and the rear head assembly includes the finger separation cam, the rising cam, A knitting system used in a horizontal knitting machine, comprising: the bowler cam, the density cam, the upper fixed cam, the elastic cam and the yarn cutting control cam. The method of claim 1,
The front head assembly includes a front cover, and there is a front fixing plate inside the front cover, and the front fixing plate sequentially separates the rising cam, the bowler cam, the sealing cam, the density cam, and the finger along the feeding direction. A cam is installed, the upper fixing cam is at an upper end of the rising cam, the bowling cam and the sealing cam, the elastic cam is at an upper end of the upper fixing cam, and the yarn cutting control cam is at an upper end of the elastic cam There is, the yarn cutting control cam is used to assist the control of the scissors mechanism, the finger separation cam installation position height is lower than the rising cam, the bowler cam and the density cam, the sealing cam installation position height is the finger separation It is the same as the cam, the bowling cam and the sealing cam have an integral structure, the sealing cam thickness is thinner than the bowling cam thickness,
The finger separation cam is a knitting system for use in a horizontal knitting machine, characterized in that fixed to the front fixing plate through a screw. The method of claim 2,
There is a spring behind the elastic cam, and the spring is also behind the rising cam as well as the elastic cam, and the rising cam and the elastic cam move up and down in a cavity perpendicular to the fixing plate, and all the remaining cams are on the fixing plate. It is fixedly installed, and the elastic cam surface has an inclination sequentially, a first plane and a second plane, and there is a further inclined crossing between the first plane and the second plane, and the height of the second plane is the first plane Knitting system used in a horizontal knitting machine, characterized in that the lower. The method of claim 1,
The rear head assembly includes a rear cover, and the rear fixing plate has a rear fixing plate inside the rear cover, and the finger separation cam, the raising cam, the bowling cam and the density cam are sequentially installed in the rear fixing plate in a sudden thread direction. , The upper fixed cam is at an upper end of the rising cam and the bowler cam, the elastic cam is at an upper end of the upper fixed cam, the yarn cutting control cam is at an upper end of the elastic cam, and the yarn cutting control cam Is used to assist in the control of the shear mechanism, and the rear head assembly does not have the sealing cam, and the remaining cams of the rear head assembly excluding the yarn cutting control cam are the same cams corresponding to the front head assembly and The structure and installation method are all the same,
The yarn cutting control cam of the front head assembly and the rear head assembly has a mirror-like structure, and further realizes symmetry of the yarn line, but the installation method of the yarn cutting control cam is the same. system. The method of claim 1,
The head slide assembly includes an upper slider and a lower slide, the upper slider and the lower slide are installed up and down in the support grooves of the left and right bases, respectively, and the head assembly is installed between the upper slider and the lower slide. Wherein the upper slider and the lower slide are used to position the direction in which the head component moves in parallel in parallel. The method according to claim 2 or 4,
Behind the density cam, there is a slide block and a density adjusting device that is matched with the slide block, and a tension coil spring is connected between the slide block and the head cover to implement pulling, and the density adjusting device is the upper and lower part of the slide block. A knitting system used in a horizontal knitting machine, which is used to control movement and further controls the density cam, wherein the density control device includes a manual density control device and an automatic density control device. The method of claim 6,
The manual density control device includes a turbine and a knob, the turbine is installed to match the slide block, the knob is fixed to the turbine, and the turbine moves the slide block up and down through a rotary knob,
The turbine has a planar spiral structure, and the spiral is gradually enlarged so that the spiral surface touches the slide block and moves the slide block. The method of claim 6,
The automatic density control device includes a control lever, one end of the control lever is installed to match the slide block, the other end of the control lever is rotatably fixed to the head cover, and there is a wheel in the middle of the control lever, There is a linkage rod in the slide, the linkage rod matches the wheel, there is a driving device at one end of the linkage rod, the driving device drives the linkage rod, and the linkage rod slides by interlocking a control lever. A knitting system used in a horizontal knitting machine, characterized in that implementing the vertical movement control of the. The method of claim 8,
In the linkage rod, there is a slightly inclined strip groove, the driving device is installed to match the strip groove at the upper end of the linkage rod through a snail rotating plate, and the remaining strip grooves have a guide latch. A knitting system used for knitting machines. The method according to claim 2 or 4,
The head connecting device includes a front head connecting rod, a rear head connecting rod, and a fixed connection block, and one end of the front head connecting rod and the rear head connecting rod is fixed through a fixed connection block, and the front head connecting rod Another end is connected to the front cover, and the other end of the rear head connecting rod is connected to the rear cover.

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