CN113026188A

CN113026188A - Novel circular knitting machine based on wireless internet

Info

Publication number: CN113026188A
Application number: CN202110232898.5A
Authority: CN
Inventors: 林安宁; 孙志勇; 钟秀珍
Original assignee: Fujian Yonglitai Knitting Machinery Co ltd
Current assignee: Fujian Yonglitai Knitting Machinery Co ltd
Priority date: 2021-03-03
Filing date: 2021-03-03
Publication date: 2021-06-25
Anticipated expiration: 2041-03-03
Also published as: CN113026188B

Abstract

The invention provides a novel circular knitting machine based on a wireless internet, which comprises a circular knitting machine body and a plurality of yarn transmission machines for transmitting yarns to the circular knitting machine body; the yarn transmission machine comprises a transmission assembly for transmitting and replacing the yarn barrel, a plurality of butt joint assemblies which are arranged along the transmission direction of the transmission assembly and butt joint the yarn barrel and the yarn of the yarn transmission machine, and a rack for mounting the transmission assemblies and the butt joint assemblies; the transmission assembly comprises a first transmission piece for grabbing and transmitting the wire barrel, a second transmission piece for fixing the wire barrel to transmit the wire, and a transfer piece for transferring the wire barrel on the first transmission piece to the second transmission piece. According to the novel circular knitting machine based on the wireless Internet, the transmission line barrel is transmitted through the cooperation of the first transmission piece, the second transmission piece and the transfer piece, and then the new line barrel is butted with the yarn being knitted by the circular knitting machine body through the butting assembly, so that the yarn is automatically replaced, and the production efficiency is increased.

Description

Novel circular knitting machine based on wireless internet

Technical Field

The invention relates to the technical field of textiles, in particular to a novel circular knitting machine based on a wireless internet.

Background

In the existing knitting machine, when the thread bobbin is replaced, the machine is usually stopped, the used thread bobbin is manually taken off, a new thread bobbin is replaced, and then the thread is connected, and the replacement time is long, which affects the production.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

Disclosure of Invention

The invention aims to provide a novel article containing box which is based on a wireless internet and is convenient to carry and store, and a novel circular knitting machine does not occupy space.

In order to achieve the purpose, the invention adopts the following technical scheme:

a novel circular knitting machine based on wireless internet comprises a circular knitting machine body and a plurality of yarn transmission machines for transmitting yarns to the circular knitting machine body; the yarn transmission machine comprises a transmission assembly for transmitting and replacing the yarn barrel, a plurality of butt joint assemblies which are arranged along the transmission direction of the transmission assembly and butt joint the yarn barrel and the yarn of the yarn transmission machine, and a rack for mounting the transmission assemblies and the butt joint assemblies; the transmission assembly comprises a first transmission piece for grabbing and transmitting the wire barrel, a second transmission piece for fixing the wire barrel to transmit the wire, and a transfer piece for transferring the wire barrel on the first transmission piece to the second transmission piece.

The first transmission piece comprises a transmission belt which is transmitted towards the second transmission piece, a plurality of first driving cylinders which are fixed on the transmission belt and arranged along the transmission direction of the first transmission belt, and a plurality of first clamping jaws which are respectively arranged on the output end of the first driving cylinders.

The output direction of the first driving cylinder is perpendicular to the transmission direction of the transmission belt.

The second transmission piece comprises a fixed transverse plate installed on the rack, a plurality of rotary drivers fixed on the fixed transverse plate and arranged along the length direction of the fixed transverse plate, a plurality of fixed vertical plates installed on the output end of a rotary driver cylinder respectively, second driving cylinders fixed at the two ends of the fixed vertical plates, and second clamping jaws installed on the output end of the second driving cylinders.

The output direction of the first driving cylinder is perpendicular to the side face of the fixed transverse plate and is parallel to the output direction of the first driving cylinder.

The transfer piece comprises a connecting plate, a rodless cylinder and a transfer clamping jaw, wherein the connecting plate is installed on the rack and located below the butt joint assembly, the rodless cylinder is movably fixed on the connecting plate, the transmission direction of the rodless cylinder is parallel to the direction of the transmission belt, the transfer clamping jaw is installed on the output end of the rodless cylinder, and the output direction of the transfer clamping jaw is arranged towards the direction of the second transmission piece.

The transferring clamping jaw comprises a movable plate fixed at the output end of the rodless cylinder, a rotating motor arranged on the movable plate, a rotating plate fixed at the output end of the rotating motor, third driving cylinders fixed at two ends of the rotating plate, and a third clamping jaw which is arranged at the output end of the third driving cylinder and the output end of which faces the direction of the second transmission piece.

The rotating plate comprises an upper end part arranged towards the direction of the second transmission piece and a lower end part arranged towards the direction of the first transmission piece; the output end of the third clamping jaw positioned at the upper end part and the output end of the second clamping jaw positioned at the lowermost end of the fixed vertical plate are positioned on the same horizontal plane.

The distance from the upper end part to the output shaft of the rotating motor is equal to the distance from the lower end part to the output shaft of the rotating motor.

The output end of the third clamping jaw positioned at the lower end part and the output end of the first clamping jaw positioned above the transmission plane of the transmission belt are positioned on the same horizontal plane.

The wire splicing assembly comprises an ultrasonic splicer for splicing two wires and a wire storage device arranged at the output end of the ultrasonic splicer.

The wire storage device comprises a first conducting piece and a second conducting piece for conducting wires, and a mounting plate for mounting the first conducting piece and the second conducting piece.

The second conducting piece is movably arranged on the mounting plate and is positioned below the first conducting piece.

The mounting plate is formed with a sliding channel for the second conductive member to approach or depart from the second conductive member at a position between the first conductive member and the second conductive member.

The second conductor comprises a rotating rod; the leading wheel that is used for the wire is installed to the one end of dwang, and the other end passes the sliding channel and installs the guide that supplies the dwang to stably move in the sliding channel.

The guide part is including installing the fixed block on the dwang, fixing the guide block that shifts the fixed block top on the mounting panel, along sliding channel length setting on the fixed block and with the guide block cooperation guide's guide bar to and the cover establish the spring that the guide bar is located between fixed block and the guide block.

After the technical scheme is adopted, the novel circular knitting machine based on the wireless internet is characterized in that the transmission line barrel is arranged through the cooperation of the first transmission piece, the second transmission piece and the transfer piece, and then the new line barrel is butted with the yarn which is being knitted by the circular knitting machine body through the butting component, so that the yarn is automatically replaced, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic structural view of a circular knitting machine according to the present invention;

FIG. 2 is a schematic view of the construction of the yarn delivery machine of the present invention;

FIG. 3 is a schematic view of the construction of the yarn delivery machine of the present invention;

FIG. 4 is an enlarged schematic view of an ultrasonic splicer according to the invention;

FIG. 5 is a schematic view of a transfer member according to the present invention;

FIG. 6 is a schematic structural view of a second conveying member according to the present invention;

FIG. 7 is a schematic structural view of a first transfer member according to the present invention;

FIG. 8 is a schematic structural view of the wire storage device of the present invention;

fig. 9 is a schematic structural view of the thread bucket of the present invention.

In the figure:

a circular knitting machine body 1;

the yarn conveying machine 2, the conveying assembly 21, the butt joint assembly 22, the ultrasonic splicer 23, the yarn storage device 24, the first guide 25, the second guide 26, the mounting plate 27, the sliding channel 28, the guide 29, the first conveying member 210, the second conveying member 211, the conveying belt 212, the first driving cylinder 213, the first clamping jaw 214, the fixed transverse plate 215, the rotary driver 216, the fixed vertical plate 217, the second driving cylinder 218, the frame 219, the transfer member 220, the second clamping jaw 221, the connecting plate 222, the rodless cylinder 223, the transfer clamping jaw 224, the moving plate 225, the rotary motor 226, the rotating plate 227, the third driving cylinder 228 and the third clamping jaw 229.

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is given by way of specific examples.

The invention discloses a novel circular knitting machine based on wireless internet, which comprises a circular knitting machine body 1 and a plurality of yarn transmission machines 2 for transmitting yarns to the circular knitting machine body 1, wherein the circular knitting machine body 1 is provided with a plurality of yarn transmission devices; the yarn delivering machine 2 comprises a delivering component 21 for delivering and replacing the thread barrels, a plurality of butt joint components 22 which are arranged along the delivering direction of the delivering component 21 and butt joint the thread barrels with the yarns of the yarn delivering machine 2, and a frame 219 for installing the plurality of delivering components 21 and the plurality of butt joint components 22; the transfer unit 21 includes a first transfer member 210 for grasping and transferring the bobbins, a second transfer member 211 for fixing the lines transferred by the bobbins, and a transfer member 220 for transferring the bobbins on the first transfer member 210 to the second transfer member 211. The transmission of the yarn barrel is carried out through the cooperation of the first transmission piece 210, the second transmission piece 211 and the transfer piece 220, and then the butt joint assembly 22 is used for butt joint of a new yarn barrel and the yarn which is being knitted by the circular knitting machine body 1, so that the automatic yarn replacement is realized, and the production efficiency is increased.

Preferably, the first transfer member 210 includes a transfer belt 212 transferred toward the second transfer member 211, a plurality of first driving cylinders 213 fixed to the transfer belt 212 and arranged in a line along a transfer direction of the first transfer belt 212, and a plurality of first jaws 214 respectively mounted on output ends of the first driving cylinders 213. The first jaw 214 is driven to extend to grip the wire barrel by the first driving cylinder 213 and then transferred toward the second transfer member 211 by the transfer belt 212.

Preferably, the output direction of the first driving cylinder 213 is disposed perpendicular to the transferring direction of the transfer belt 212. Ensuring that the axis of the line drum is disposed toward the docking assembly 22.

Preferably, the second transmission member 211 includes a fixed horizontal plate 215 installed on the frame 219, a plurality of rotary drivers 216 fixed on the fixed horizontal plate 215 and arranged in a row along the length direction of the fixed horizontal plate 215, a plurality of fixed vertical plates 217 installed on the output ends of the rotary drivers 216, second driving cylinders 218 fixed on both ends of the fixed vertical plates 217, and second clamping jaws 221 installed on the output ends of the second driving cylinders 218. The second driving cylinder 218 drives the second clamping jaw 221 to extend out to clamp the wire barrel, and then after the wire barrel at one end of the fixed vertical plate 217 is used up, the fixed vertical plate 217 is rotated through the rotary driver 216, the wire barrel clamped by the second clamping jaw 221 at the other end is replaced, and then the butt joint assembly 22 is used for butt joint.

Preferably, the output direction of the first driving cylinder 213 is disposed perpendicular to the side of the fixing cross plate 215 and parallel to the output direction of the first driving cylinder 213. While remaining in transit, the axis of the line drum remains disposed toward the docking assembly 22.

Preferably, the transfer member 220 includes a connecting plate 222 installed on the frame 219 and located below the docking assembly 22, a rodless cylinder 223 movably fixed on the connecting plate 222 and disposed in a transfer direction parallel to the direction of the transfer belt 212, and a transfer jaw 224 installed on an output end of the rodless cylinder 223 and disposed in an output direction toward the second transfer member 211. The transfer jaw 224 is driven by the non-inductive cylinder to move towards the first transfer member 210, then the transfer jaw 224 clamps the thread barrel on the first transfer, and then the transfer jaw 224 is driven by the non-inductive cylinder to move towards the second transfer member 211, and the first transfer member 210 is matched with the first jaw 214 by the first driving cylinder 213 to clamp the thread barrel.

Preferably, the transfer jaw 224 includes a moving plate 225 fixed to an output end of the rodless cylinder 223, a rotating motor 226 installed on the moving plate 225, a rotating plate 227 fixed to an output end of the rotating motor 226, a third driving cylinder 228 fixed to both ends of the rotating plate 227, and a third jaw 229 installed on an output end of the third driving cylinder 228 and having an output end disposed toward the second transfer member 211. The third clamping jaw 229 is driven by the third driving cylinder 228 located at the bottom end of the rotating plate 227 to move the clamping wire bucket toward the first transferring member 210, and then the rotating plate 227 is driven to rotate by the rotating motor 226, so that the third driving cylinder 228 located at the upper end of the rotating plate 227 and the third driving cylinder 228 located at the bottom end of the rotating plate 227 call for a position to become located at the bottom end of the rotating plate 227, and then the third driving cylinder 228 drives the third clamping jaw 229 to move the clamping wire bucket toward the first transferring member 210.

Preferably, the rotation plate 227 comprises an upper end portion disposed toward the second transfer member 211, and a lower end portion disposed toward the first transfer member 210; the output end of the third clamping jaw 229 at the upper end is on the same horizontal plane as the output end of the second clamping jaw 221 at the lowest end of the fixed vertical plate 217. It is ensured that the third jaw 229 at the upper end of the rotation plate 227 can stably transfer the wire drum onto the second jaw 221 and grip the second jaw 221.

Preferably, the distance from the upper end portion to the output shaft of the rotating electrical machine 226 is equal to the distance from the lower end portion to the output shaft of the rotating electrical machine 226. The position of the lower end part transformed to the upper end part or the position of the upper end part transformed to the lower end part is ensured to be kept unchanged.

Preferably, the output end of the third jaw 229 at the lower end is at the same level as the output end of the first jaw 214 above the plane of transport of the conveyor belt 212. It is ensured that the third clamping jaw 229 at the lower end of the rotating plate 227 can stably clamp the wire barrel on the first clamping jaw 214.

Preferably, the air splicer further comprises a bobbin, wherein the bobbin comprises a bobbin core and a yarn wound on the bobbin core, the thread end of the yarn extends along the axis of the bobbin core and is fixed by glue, the bobbin core is provided with a positioning plane towards the thread end of the yarn, the position of the thread end of the yarn is determined through the positioning plane, and the thread end of the yarn is hardened by the glue and is well penetrated into the air splicer.

Preferably, the thread splicing assembly comprises an ultrasonic splicer 23 for thread splicing two threads, and a thread accumulator 24 at the output end of the ultrasonic splicer 23.

Preferably, the wire reservoir 24 includes a first conductive member 25 and a second conductive member 26 for the wires, and a mounting plate 27 for mounting the first conductive member 25 and the second conductive member 26. The storage of the line is performed by the cooperation of the first and

second conductors

25 and 26, and thus is used when changing the line.

Preferably, the second conductor 26 is movably disposed on the mounting plate 27 below the first conductor 25. The yarn is stored by the second conductive element 26 being movable on the mounting plate 27 to adjust the distance to the first conductive element 25.

Preferably, the mounting plate 27 is formed with a slide channel 28 at a position between the first and second

conductive members

25 and 26, in which the second conductive member 26 is close to or away from the second conductive member 26. The second conductive member 26 moves in the slide channel 28 to adjust a distance from the first conductive member 25 to store the yarn.

Preferably, the second conductor 26 comprises a swivelling rod; one end of the swivelling lever is fitted with a guide wheel for the wires and the other end is fitted through the sliding channel 28 with a guide 29 for the swivelling lever to move stably in the sliding channel 28. The distance between the second conductor 26 and the first conductor 25 is controlled by the guide 29.

Preferably, the guide member 29 includes a fixed block mounted on the rotating rod, a guide block fixed on the mounting plate 27 to be displaced above the fixed block, a guide rod disposed on the fixed block along the length of the sliding channel 28 and guided in cooperation with the guide block, and a spring fitted over the guide rod between the fixed block and the guide block. The spring is not compressed under the condition of no tension, the distance between the first conduction piece 25 and the second conduction piece 26 stores the yarn most, when the yarn barrel is changed, the yarn barrel stops the last yarn end in the air splicer after being used up, the knitting machine body continues to run, the yarn generates tension to compress the spring guide rod to move along the guide block, the distance between the first conduction piece 25 and the second conduction piece 26 is shortened, and therefore knitting is continued by using the yarn stored between the first conduction piece 25 and the second conduction piece 26.

The product form of the present invention is not limited to the embodiments and examples shown in the present application, and any suitable changes or modifications of the similar ideas should be made without departing from the patent scope of the present invention.

Claims

1. A novel circular knitting machine based on wireless internet comprises a circular knitting machine body and a plurality of yarn transmission machines for transmitting yarns to the circular knitting machine body; the method is characterized in that: the yarn transmission machine comprises a transmission assembly for transmitting and replacing the yarn barrel, a plurality of butt joint assemblies which are arranged along the transmission direction of the transmission assembly and butt joint the yarn barrel and the yarn of the yarn transmission machine, and a rack for mounting the transmission assemblies and the butt joint assemblies; the transmission assembly comprises a first transmission piece for grabbing and transmitting the wire barrel, a second transmission piece for fixing the wire barrel to transmit the wire, and a transfer piece for transferring the wire barrel on the first transmission piece to the second transmission piece.

2. The novel circular knitting machine based on the wireless internet is characterized in that: the first transmission piece comprises a transmission belt which is transmitted towards the second transmission piece, a plurality of first driving cylinders which are fixed on the transmission belt and arranged along the transmission direction of the first transmission belt, and a plurality of first clamping jaws which are respectively arranged on the output end of the first driving cylinders.

3. The novel circular knitting machine based on the wireless internet is characterized in that: the output direction of the first driving cylinder is perpendicular to the transmission direction of the transmission belt.

4. The novel circular knitting machine based on the wireless internet is characterized in that: the second transmission piece comprises a fixed transverse plate installed on the rack, a plurality of rotary drivers fixed on the fixed transverse plate and arranged along the length direction of the fixed transverse plate, a plurality of fixed vertical plates installed on the output end of a rotary driver cylinder respectively, second driving cylinders fixed at the two ends of the fixed vertical plates, and second clamping jaws installed on the output end of the second driving cylinders.

5. The novel circular knitting machine based on the wireless internet is characterized in that: the output direction of the first driving cylinder is perpendicular to the side face of the fixed transverse plate and is parallel to the output direction of the first driving cylinder.

6. The novel circular knitting machine based on the wireless internet is characterized in that: the transfer piece comprises a connecting plate, a rodless cylinder and a transfer clamping jaw, wherein the connecting plate is installed on the rack and located below the butt joint assembly, the rodless cylinder is movably fixed on the connecting plate, the transmission direction of the rodless cylinder is parallel to the direction of the transmission belt, the transfer clamping jaw is installed on the output end of the rodless cylinder, and the output direction of the transfer clamping jaw is arranged towards the direction of the second transmission piece.

7. The novel circular knitting machine based on the wireless internet is characterized in that: the transferring clamping jaw comprises a movable plate fixed at the output end of the rodless cylinder, a rotating motor arranged on the movable plate, a rotating plate fixed at the output end of the rotating motor, third driving cylinders fixed at two ends of the rotating plate, and a third clamping jaw which is arranged at the output end of the third driving cylinder and the output end of which faces the direction of the second transmission piece.

8. The novel circular knitting machine based on the wireless internet is characterized in that: the rotating plate comprises an upper end part arranged towards the direction of the second transmission piece and a lower end part arranged towards the direction of the first transmission piece; the output end of the third clamping jaw positioned at the upper end part and the output end of the second clamping jaw positioned at the lowermost end of the fixed vertical plate are positioned on the same horizontal plane.

9. The novel circular knitting machine based on the wireless internet is characterized in that: the distance from the upper end part to the output shaft of the rotating motor is equal to the distance from the lower end part to the output shaft of the rotating motor.

10. The novel circular knitting machine based on the wireless internet is characterized in that: the output end of the third clamping jaw positioned at the lower end part and the output end of the first clamping jaw positioned above the transmission plane of the transmission belt are positioned on the same horizontal plane.