CN220685408U - Double-machine-head glove knitting machine with self-yarn-running nozzle - Google Patents

Abstract

The utility model discloses a double-machine-head glove knitting machine with a self-yarn-running nozzle, which comprises a frame component, a left knitting system, a right knitting system, a computer control system, a main transmission system, a yarn rack, a threading frame mechanism, a yarn nozzle self-running device mechanism and a yarn nozzle self-running device mechanism, wherein the left knitting system and the right knitting system are fixed on the frame component, the computer control system and the main transmission system are used for controlling the left knitting system and the right knitting system, the frame component is provided with the yarn rack and the threading frame mechanism which are shared by the left knitting system and the right knitting system, the yarn nozzle self-running device mechanism comprises a plurality of paths of self-yarn-running nozzle transmission components, each path of self-yarn-running nozzle transmission components is controlled by a respective independent driving piece to move back and forth corresponding to the left knitting system and the right knitting system.

Description

Double-machine-head glove knitting machine with self-yarn-running nozzle

Technical Field

The utility model relates to the technical field of glove knitting machines, in particular to a double-head glove knitting machine with a self-yarn-running nozzle.

Background

The traditional glove knitting machine is provided with only one glove knitting system on each machine, and only one set of computer control system controls one set of glove knitting, so that the number of glove knitting machines for placing gloves is limited because the production area occupied by glove manufacturers is limited.

The yarn guide yarn nozzle of the traditional glove knitting machine is driven by the back and forth movement of the machine head, the movement of the yarn nozzle is dependent on the front and back machine heads, the whole yarn nozzle transmission process is driven by a pin arranged on a shell in a machine head part to move back and forth, the left and right end parts of the yarn nozzle are also provided with mechanisms capable of controlling the movement of the yarn nozzle to be released and closed, such as electromagnet control, and the like, and the structure has the following problems: the yarn nozzle is driven by the machine head, the position control is not accurate enough, and the yarn nozzle cannot be randomly parked in the running process, so that the weaving of a plurality of fabrics is limited, and the flower-shaped varieties of the fabrics cannot be effectively expanded.

Disclosure of Invention

The utility model aims to provide a double-machine-head glove knitting machine with a self-running yarn nozzle, which achieves double-system processing, and the yarn nozzle is independently driven to run automatically, so that the knitting machine can park at any position.

In order to achieve the technical aim, the utility model provides a double-machine-head glove knitting machine with a self-yarn-running nozzle, which comprises a frame component, a left knitting system and a right knitting system fixed on the frame component, a computer control system and a main transmission system for controlling the left knitting system and the right knitting system,

each set of knitting system is provided with a front needle selecting roller mechanism, a rear needle selecting roller mechanism, a front machine head device, a rear machine head device and a front needle plate mechanism, the front needle selecting roller mechanism and the rear needle selecting roller mechanism are arranged below the front needle plate mechanism and the rear needle plate mechanism, and the left needle selecting roller mechanism and the right needle selecting roller mechanism of the left knitting system and the right knitting system are controlled by the same driving piece to rotate around the shaft;

the front and rear nose devices are arranged above the front and rear needle plate mechanisms, a set of shared front nose transmission device and a set of shared front ejector rod transmission device are arranged in front of two sets of front nose devices of the front and rear nose devices in the left and right sets of knitting systems, a set of shared rear nose transmission device and a set of shared rear ejector rod transmission device are arranged behind the two rear nose devices, the front nose transmission device and the rear nose transmission device are driven to operate by the same set of main transmission system, and the front nose transmission device and the rear nose transmission device can simultaneously drive the corresponding left and right front nose devices and the corresponding left and right rear nose devices to reciprocate;

the front ejector rod transmission device and the rear ejector rod transmission device are independently driven and respectively control the knitting positions of corresponding triangles in the two front machine head devices and simultaneously control the knitting positions of corresponding triangles in the two rear machine head devices on the left side and the right side;

the yarn mouth self-running device mechanism comprises a plurality of paths of self-running yarn mouth transmission assemblies, and each path of self-running yarn mouth transmission assembly is controlled by a respective independent driving piece to correspondingly move back and forth from the yarn mouth to the left and right sets of knitting systems.

Preferably, each set of knitting system further comprises a front fork knife mechanism, a rear fork knife mechanism and a movable scissor mechanism, wherein the movable scissor mechanism is arranged in the middle of the front needle selecting roller mechanism, the left movable scissor mechanism and the right movable scissor mechanism of the left set of knitting system and the right set of knitting system are driven by the same independent driving piece to perform actions of thread hooking, thread shearing and thread clamping, and the other driving piece is used for controlling the left movement and the right movement of the left movable scissor mechanism and the right movable scissor mechanism simultaneously; the two sets of front and rear fork knife mechanisms of the left and right knitting systems are moved back and forth by the same driving piece.

Preferably, the self-yarn-running nozzle transmission assembly comprises a guide rail seat and the self-yarn-running nozzle arranged on the guide rail seat, wherein the guide rail seat is provided with a self-yarn-running nozzle motor and a transmission belt fixed with the self-yarn-running nozzle, and the self-yarn-running nozzle motor independently drives the self-yarn-running nozzle to move or park on the guide rail seat.

Preferably, the frame component is provided with a double blanking hopper, and the left side of the double blanking hopper is provided with a left blanking hopper and a right blanking hopper on the right side.

Preferably, the yarn nozzle self-running device mechanism comprises yarn nozzle transmission components which are distributed side by side and transversely span the upper parts of the left and right knitting systems.

Preferably, the section of the guide rail seat is shaped like a Chinese character 'wang', and the left side and the right side of the guide rail seat are respectively provided with a self-running yarn nozzle motor and a driving belt fixed with the self-running yarn nozzle.

The utility model has the beneficial effects that:

1. the utility model has the characteristics of simple structure, convenient installation, low noise, low energy consumption, simple operation, stable operation, high working efficiency and the like of the machine due to the fact that the two sets of knitting systems are arranged on the same frame component, the occupied area of the machine is small, thus the limited production area can be fully utilized, one set of main transmission system drives the two sets of knitting systems to knit and the like, and the utility model has the characteristics of low noise, low energy consumption, simple operation, stable operation, high working efficiency and the like;

2. in the knitting process of the glove, the yarn mouth self-running device mechanism is utilized to drive the self-running yarn mouth to reciprocate and transversely move along the guide rail seat, so that the yarn mouth self-running is realized, the traditional movement mode of the yarn mouth driven by the machine head and the control mode of the electromagnet are changed, and the device has the advantage of accurate control of the movement stroke;

3. the automatic yarn running nozzle motor for controlling the rotation of the driving belt in the automatic yarn running nozzle driving assembly can realize that any automatic yarn running nozzle can be parked at any position in the running range, the running time and the running stroke are not limited by a machine head, yarns needing to participate in knitting can be fed into the knitting at any time according to the knitting process of the fabric, and the flower-shaped variety of the fabric is increased.

Drawings

FIG. 1 is an exploded view of the present example;

FIG. 2 is a front assembled view of the present example;

FIG. 3 is a partial left-hand schematic view of the present example;

FIG. 4 is a schematic rear view of the present example;

FIG. 5 is a partial assembly schematic of the present example;

FIG. 6 is a schematic diagram of the mechanism components of the present example;

FIG. 7 is a schematic view of the installation of the needle plate and the fork knife of the present example;

FIG. 8 is a schematic view of a needle selection structure according to the present example;

FIG. 9 is a diagram showing a second needle selecting structure according to the present embodiment;

FIG. 10 is a schematic view showing the installation of one of the yarn running nozzle transmission components in this example;

in the figure: a frame assembly 1, a computer control system 2, a main transmission system 3, a left rear needle selecting roller mechanism 4, a right rear needle selecting roller mechanism 5, a left moving scissor mechanism 6, a right moving scissor mechanism 7, a rear needle plate mechanism 8, a front needle plate mechanism 9, a rear ejector transmission device 10, a front ejector transmission device 11, a lubrication system 12, a left rear head device 13, a left front head device 14, a right rear head device 15, a right front head device 16, a rear head transmission device 17, a front head transmission device 18, a right front needle selecting roller mechanism 19, a left front needle selecting roller mechanism 20, a front fork knife mechanism 21, a rear fork knife mechanism 22, left front fork knife line ball mouth 211, right front fork knife line ball mouth 212, left back fork knife line ball mouth 221, right back fork knife line ball mouth 222, yarn mouth self-running device mechanism 23, self-running yarn mouth transmission component 231, self-running yarn mouth motor 232, self-running yarn mouth 233, creel and threading frame mechanism 24, left blanking bucket 101, right blanking bucket 102, left back needle plate mechanism 801, needle running groove 801A, right back needle plate mechanism 802, left front needle plate mechanism 901, right front needle plate mechanism 902, triangle 131, knitting needle 8011, needle jack 8012, butt 8012A, bird sheet 8013, bird sheet shaft 8014, drum shaft 402, needle selecting pin 401.

Detailed Description

The following description is only of preferred embodiments of the present utility model, and the scope of protection is not limited to the examples, but the technical solutions falling under the concept of the present utility model should fall under the scope of protection of the present utility model, and it should be pointed out that, for those skilled in the art, these modifications and adaptations should and are considered as well, without departing from the principle of the present utility model.

As shown in fig. 1 to 10, the double-machine-head glove knitting machine with a self-yarn-running nozzle of the present embodiment includes a frame assembly 1, left and right knitting systems fixed on the frame assembly 1, and a computer control system 2 and a main transmission system 3 for controlling the left and right knitting systems, wherein the two knitting systems are arranged left and right and are divided into a left knitting system and a right knitting system. Each set of knitting system is provided with a front needle selecting roller mechanism, a rear needle selecting roller mechanism, a front machine head device, a rear machine head device, a front needle plate mechanism, a rear needle plate mechanism and a front fork knife mechanism, and each set of knitting system is also provided with a set of movable scissors mechanism.

The front needle selecting roller mechanism and the rear needle selecting roller mechanism in each set of knitting system are arranged below the front needle plate mechanism and the rear needle plate mechanism, and can rotate around the shaft under the control of independent same driving, and needle jack pieces of butts with different heights arranged on the corresponding needle plate mechanisms can be distinguished through the transmission mechanism when rotating for one angle, namely the needle jack pieces are lifted or not lifted.

The front-rear needle selecting roller mechanism comprises a left front needle selecting roller mechanism 20, a left rear needle selecting roller mechanism 4, a right front needle selecting roller mechanism 19 and a right rear needle selecting roller mechanism 5.

The front and rear head devices comprise a left front head device 14, a left rear head device 13, a right front head device 16 and a right rear head device 15.

The front-rear needle plate mechanism includes a left front needle plate mechanism 901, a left rear needle plate mechanism 801, a right front needle plate mechanism 902, and a right rear needle plate mechanism 802.

The front and rear fork knife mechanisms are divided into a front fork knife mechanism 21 and a rear fork knife mechanism 22; the moving scissors mechanism is divided into a left moving scissors mechanism 6 and a right moving scissors mechanism 7.

The left side knitting system consists of a left front needle selecting roller mechanism 20, a left rear needle selecting roller mechanism 4, a left front machine head device 14 and a left rear machine head device 13, and is also provided with a left front needle plate mechanism 901, a left rear needle plate mechanism 801, a left front fork knife line pressing port 211 and a left rear fork knife line pressing port 221; the right side knitting system comprises a right front needle selecting roller mechanism 19, a right rear needle selecting roller mechanism 5, a right front nose device 16 and a right rear nose device 15, and a right front needle plate mechanism 902, a right rear needle plate mechanism 802, a right front fork knife line pressing port 212 and a right rear fork knife line pressing port 222 are also arranged in the right side knitting system.

In this example, the left front needle plate mechanism 901 and the right front needle plate mechanism 902 are the same mechanism front needle plate mechanism 9, the left rear needle plate mechanism 801 and the right rear needle plate mechanism 802 are the same mechanism rear needle plate mechanism 8, the left front fork blade line pressing port 211 and the right front fork blade line pressing port 212 are provided in the same mechanism front fork blade mechanism 21, and the left rear fork blade line pressing port 221 and the right rear fork blade line pressing port 222 are provided in the same mechanism rear fork blade mechanism 22, as shown in fig. 7.

The front and rear nose devices arranged above the front and rear needle plate mechanisms can move back and forth along the left and right sides of the corresponding needle plate mechanisms, the needle jack 8012 with the butt 8012A lifted can be pushed by the triangle 131 arranged in the front and rear nose devices to move up and down, and the needle jack 8012 which moves up and down drives the connected knitting needles 8011 to synchronously move together, so that the knitting needles 8011 are added into the knitting process of fabrics; the yarn pressing opening arranged in the front and rear fork cutter mechanism presses the looped loops when the fabric is woven by the common needle, and the front and rear fork cutter mechanism is driven by the same independent driving piece; a set of movable scissors mechanism arranged in each set of knitting system is arranged at the middle position corresponding to the front needle selecting roller mechanism and the back needle selecting roller mechanism, each set of movable scissors mechanism can hook and cut yarn according to the need and clamp the thread end connected with the yarn nozzle, the left-right moving scissor mechanism is driven by the same independent driving piece to perform actions of hooking, shearing and clamping wires, and the left-right moving scissor mechanism is simultaneously controlled to move left and right by the other driving piece.

The left and right braiding systems are provided with a front and rear nose transmission mechanism and a front and rear mandril transmission mechanism, namely a shared front nose transmission device 18 and a shared front mandril transmission device 11 are arranged in front of the two front nose devices, a shared rear nose transmission device 17 and a shared rear mandril transmission device 10 are arranged behind the two rear nose devices, the front nose transmission device 18 and the rear nose transmission device 17 are driven to operate by the same main transmission system, and the front nose transmission device 18 and the rear nose transmission device 17 can drive the corresponding left and right front nose devices and the corresponding left and right rear nose devices to reciprocate at the same time; the front ejector rod transmission device 11 and the rear ejector rod transmission device 10 can simultaneously control the knitting positions of corresponding triangles in the left and right front machine head devices or simultaneously control the knitting positions of corresponding triangles in the left and right rear machine head devices, and the front ejector rod transmission device 11 and the rear ejector rod transmission device 10 are respectively provided with independent driving devices.

Only one yarn carrier and threading frame mechanism 24 and one yarn carrier self-running device mechanism 23 are arranged in the left and right knitting systems, a plurality of knitting yarn conveying routes are arranged in the shared yarn carrier and threading frame mechanism 24 and the shared yarn carrier self-running device mechanism 23, yarns conveyed by each conveying route can be fed into knitting needles of the left knitting system or the right knitting system according to requirements, the yarn carrier self-running device mechanism 23 comprises a plurality of self-running yarn carrier transmission assemblies 231, and each self-running yarn carrier transmission assembly 231 is controlled by respective independent driving parts to move back and forth corresponding to the left and right knitting systems. As in fig. 1, 2, 3, 4, 5 and 10.

Specifically, the self-yarn-running nozzle transmission assembly 231 comprises a guide rail seat and the self-yarn-running nozzle 233 positioned on the guide rail seat, wherein the guide rail seat is provided with a self-yarn-running nozzle motor 232 and a transmission belt fixed with the self-yarn-running nozzle 233, and the self-yarn-running nozzle motor 232 independently drives the self-yarn-running nozzle 233 to move or park on the guide rail seat. The yarn mouth is from running device mechanism 23 in each yarn mouth drive assembly 231 be the side by side distribution, and span in the top of two sets of weaving systems about, the guide rail seat cross-section is the king font, the left and right sides of guide rail seat all is equipped with from running yarn mouth motor 232 and with from running yarn mouth 233 fixed drive belt.

Besides the above composition, there are: there is a set of frame component 1 with double blanking hopper space position, the left side of double blanking hopper is left blanking hopper 101 and right blanking hopper 102 on the right side, the fabric woven by the left side cover weaving system falls down in left blanking hopper 101, the fabric woven by the right side cover weaving system falls down in right blanking hopper 102, as shown in figure 6. There is a lubrication system 12 for lubricating the main transmission members, and a computer control system 2 for controlling all the transmission processes, all the knitting processes and the procedures of the lubrication system 12 in this embodiment.

The working principle of the embodiment is as follows: after the machine resets, knitting is started (continuous knitting does not need repeated resetting), and when knitting fabric is started, independent driving pieces arranged in the needle selecting roller mechanisms simultaneously drive the left, right, front and rear needle selecting roller mechanisms to rotate around corresponding roller shafts 402 respectively to enter a needle selecting state under the control of a computer control system 2, and knitting needles 8011 connected with corresponding needle jack 8012 and participating in knitting are preselected. In this process, the rotation of the left front needle selecting roller mechanism 20 and the right front needle selecting roller mechanism 19 around the roller shaft 402 is synchronous and the rotation direction is the same, and the rotation of the left rear needle selecting roller mechanism 4 and the right rear needle selecting roller mechanism 5 around the roller shaft 402 is also synchronous and the rotation direction is the same, but the rotation directions of the front needle selecting roller mechanism and the rear needle selecting roller mechanism are completely opposite. The driving part arranged in the main transmission system 3 is controlled by the computer control system 2, the front nose transmission device 18 drives the left front nose device 14 and the right front nose device 16 to synchronously and back and forth run along the front needle plate mechanism 9 through transmission, meanwhile, the rear nose transmission device 17 drives the left rear nose device 13 and the right rear nose device 15 to synchronously and back and forth run along the rear needle plate mechanism 8 through transmission, the left front nose device and the right front nose device synchronously run in the same direction, the respective cams 131 arranged in the left front nose device and the right front nose device run along with the corresponding nose devices, and the knitting needles 8011 which are pre-selected are driven to upwards or downwards move along needle moving grooves 801A arranged on the corresponding needle plates through transmission, so that the knitting needles 8011 participate in knitting fabrics or complete knitting fabrics. The yarn mouth self-running device mechanism 23 is internally provided with a plurality of paths of self-running yarn mouth transmission assemblies 231, when knitting needles 8011 vertically run, one path or more paths of self-running yarn mouth motors 232 in the self-running yarn mouth transmission assemblies 231 drive the self-running yarn mouths 233 correspondingly arranged in the self-running yarn mouth transmission assemblies 231 to run back and forth under the driving of a computer control system 2 according to knitting requirements, and the running self-running yarn mouths 233 drive yarns participating in knitting to pass through a yarn frame and a threading frame mechanism 24 to feed yarn to the preselected knitting needles 8011 correspondingly participating in knitting. In the process of knitting fabrics, the front ejector rod transmission device 11 can simultaneously control knitting positions of corresponding triangles in the left front nose device 14 and the right front nose device 16 under the driving of the self-carrying driving piece, the control of the front density triangle knitting positions is one control, the rear ejector rod transmission device 10 can simultaneously control the knitting positions of corresponding triangles in the left rear nose device 13 and the right rear nose device 15 under the driving of the self-carrying driving piece, the control of the rear density triangle knitting positions is one control, the front fork knife mechanism 21 and the rear fork knife mechanism 22 only work when the shared needle (glove fork) is knitted, the left front fork knife pressing opening 211 corresponds to the left front needle plate mechanism 901, the right front fork knife pressing opening 212 corresponds to the right front needle plate mechanism 902, the left rear fork knife pressing opening 221 corresponds to the left rear needle plate mechanism 801, the right rear fork knife pressing opening 222 corresponds to the right rear needle plate mechanism 802, when knitting shared needles (gloves are forked), firstly, knitting completed loops are hung on the shared needles, and when the loops are required to be knitted again on the shared needles, the same driving piece arranged in the front fork knife mechanism 21 and the rear fork knife mechanism 22 is driven under the control of the computer control system 2, the front fork knife mechanism 21 and the rear fork knife mechanism 22 are driven to move back and forth, the line pressing opening on each fork knife is moved to the position corresponding to the shared needles and presses the loops hung on the shared needles, the loops are called first loops, the first loops are not driven along with the rising of the knitting needles 8011 in the subsequent knitting, at the moment, the shared needles can participate in knitting again until the last loop of the second knitting is finished, at the moment, the loops are called second loops, the line pressing opening of the fork knife pressed on the first loops is removed, the first loops and the second loops are overlapped together, and are combined into the same loops for knitting, the knitting of the shared needle is thus completed. The left moving scissor mechanism 6 arranged in the left knitting system and the right moving scissor mechanism 7 arranged in the right knitting system can move back and forth under the drive of the same driving piece, move to proper positions according to knitting requirements and simultaneously perform actions of hooking and cutting and clamping wires, the actions of hooking and cutting wires and clamping wires at the positions are driven by the other driving piece, and the left knitting system and the right knitting system are performed synchronously. The lubrication system 12 provided on the double-head glove knitting machine with the self-yarn running nozzle of the embodiment can lubricate the main transmission parts on the whole machine to ensure the stable operation of the machine, reduce noise and the like.

Needle selection working principle of the embodiment: because the needle selecting modes are the same when the left and right sets of knitting systems knit fabrics, the needle selecting knitting process of one path at the left rear side is taken as an example at present: when the left rear needle selecting roller mechanism 4 is driven by the driving piece to rotate around the roller shaft 402, the needle selecting pin 401 pre-arranged at the angle of the left rear needle selecting roller mechanism 4 can rotate upwards around the bird sheet 8014 around the bird sheet shaft 8014 when rotating for one angle, the bird sheet 8013 rotates upwards around the bird sheet shaft 8014 and drives the butt 8012A of the needle jack 8012 connected with the bird sheet 8013 to lift upwards, then the butt 8012A of the lifted needle jack 8012 is driven by the triangle 131 arranged in the left rear head device 13 and operated to the position, and as the left rear head device 13 continues to operate, the lifted needle jack 8012 drives the corresponding connected knitting needle 8011 to move upwards or downwards along the needle feeding groove 801A arranged on the left rear needle plate 801, so that the whole needle selecting action is shown in fig. 7, such as fig. 8. If the rear left selector cylinder mechanism 4 rotates around the cylinder shaft 402 by an angle at which the selector pin 401 is not provided in advance, the bird flakes 8013 are not lifted up to rotate upward around the bird flakes 8014, and thus, there is no series of actuation movements, and the knitting needle 8011 is not pushed up or pushed down, so that the knitting needle 8011 remains in its original position, as shown in fig. 9. The needle selecting actions and the needle selecting processes of the other three positions of the back right, the front left and the front right are the same as the same.

The above embodiments are illustrative of the present utility model, and not limiting, and any simple modifications of the present utility model fall within the scope of the present utility model.

Claims (6)

1. The double-head glove knitting machine with self-yarn-running nozzle includes a machine frame component, left and right knitting systems fixed on the machine frame component, computer control system and main transmission system for controlling left and right knitting systems,

each set of knitting system is provided with a front needle selecting roller mechanism, a rear needle selecting roller mechanism, a front machine head device, a rear machine head device and a front needle plate mechanism, the front needle selecting roller mechanism and the rear needle selecting roller mechanism are arranged below the front needle plate mechanism and the rear needle plate mechanism, and the left needle selecting roller mechanism and the right needle selecting roller mechanism of the left knitting system and the right knitting system are controlled by the same driving piece to rotate around the shaft;

the front and rear nose devices are arranged above the front and rear needle plate mechanisms, a set of shared front nose transmission device and a set of shared front ejector rod transmission device are arranged in front of two sets of front nose devices of the front and rear nose devices in the left and right sets of knitting systems, a set of shared rear nose transmission device and a set of shared rear ejector rod transmission device are arranged behind the two rear nose devices, the front nose transmission device and the rear nose transmission device are driven to operate by the same set of main transmission system, and the front nose transmission device and the rear nose transmission device can simultaneously drive the corresponding left and right front nose devices and the corresponding left and right rear nose devices to reciprocate;

the front ejector rod transmission device and the rear ejector rod transmission device are independently driven and respectively control the knitting positions of corresponding triangles in the two front machine head devices and simultaneously control the knitting positions of corresponding triangles in the two rear machine head devices on the left side and the right side;

the yarn mouth self-running device mechanism comprises a plurality of paths of self-running yarn mouth transmission assemblies, and each path of self-running yarn mouth transmission assembly is controlled by a respective independent driving piece to correspondingly move back and forth from the yarn mouth to the left and right sets of knitting systems.

2. The double-head glove knitting machine with the self-yarn running nozzle according to claim 1, wherein each set of knitting system further comprises a front fork knife mechanism, a rear fork knife mechanism and a movable scissor mechanism, wherein the movable scissor mechanism is arranged at the middle position of the front needle selecting roller mechanism, the left movable scissor mechanism and the right movable scissor mechanism of the left knitting system and the right knitting system are driven by the same independent driving piece to perform yarn hooking, yarn cutting and yarn clamping actions, and the left movement and the right movement of the left movable scissor mechanism and the right movable scissor mechanism are simultaneously controlled by the other driving piece; the two sets of front and rear fork knife mechanisms of the left and right knitting systems are moved back and forth by the same driving piece.

3. The double-machine-head glove knitting machine with the self-yarn running nozzle according to claim 1 or 2, characterized in that the self-yarn running nozzle transmission assembly comprises a guide rail seat and the self-yarn running nozzle arranged on the guide rail seat, a self-yarn running nozzle motor and a transmission belt fixed with the self-yarn running nozzle are arranged on the guide rail seat, and the self-yarn running nozzle motor independently drives the self-yarn running nozzle to move or park on the guide rail seat.

4. The double-head glove knitting machine with the self-threading nozzle according to claim 1 or 2, wherein a double blanking hopper is arranged on the frame assembly, and the left side of the double blanking hopper is a left blanking hopper and the right side of the double blanking hopper is a right blanking hopper.

5. A double-head glove knitting machine with self-threading device according to claim 3 wherein the respective threading device drive assemblies of the threading device are arranged side by side and cross over the left and right knitting systems.

6. The double-head glove knitting machine with the self-yarn running nozzle according to claim 3, wherein the section of the guide rail seat is shaped like a Chinese character 'wang', and the left side and the right side of the guide rail seat are respectively provided with a self-yarn running nozzle motor and a transmission belt fixed with the self-yarn running nozzle.